library(tidyverse)
library(stargazer)
library(lmtest)
library(logr)
library(Synth)
library(writexl)
library(readxl)
library(dplyr)
library(ggplot2)
library(XLConnect)
library(gtsummary)
library(broom)
library(plm)
library(fixest)
library(patchwork)




data = read.csv("dmmd.csv", sep = ";", dec = ",", header = TRUE)
data$year = data$ROK
deflators = read.csv("deflators.csv")
data = data[order(data$ID_ANON, data$year),]

#počty firem
#počty firem v daném roce v daném odvětví
nofirmscomplete = count(group_by(data, NACE2, year))
firms1under12 = nofirmscomplete[nofirmscomplete$n < 12,]
firms1under30 = nofirmscomplete[nofirmscomplete$n < 30,]
firms1under50 = nofirmscomplete[nofirmscomplete$n < 50,]
unique(firms1under50$NACE2)
write_xlsx(nofirmscomplete, path = "počet firem za rok a odvětví s DOP.xlsx")
#použiji pouze data s POR
dataPOR = data[data$DATA_ORIGIN == "POR",]
nofirmsbezDOP = count(group_by(dataPOR, NACE2, year))
nofirmsspojeno = left_join(nofirmscomplete, nofirmsbezDOP, by = c("year","NACE2"))
nofirmsspojeno$rozdil = nofirmsspojeno$n.x - nofirmsspojeno$n.y
write_xlsx(nofirmsbezDOP, path = "počet firem za rok a odvětví bez DOP.xlsx")


#pokračování (udělání deflated variables a vzniku a zániku)
deflators$NACE2 = deflators$nace2digit

datadeflated = left_join(data, deflators, by = c("year", "NACE2"))

datadeflated$TOdef = datadeflated$NET_TURN/datadeflated$deflatorPRDP
datadeflated$OUTdef = datadeflated$OUTPUT/datadeflated$deflatorPRDP
datadeflated$PRCHSdef = datadeflated$TTL_PRCHS/datadeflated$deflatorINTP
datadeflated$VAdef = datadeflated$VALUE_ADDED/datadeflated$deflatorVALP
datadeflated$TNGB_ASSTSdef = datadeflated$TNGBL_ASSTS/datadeflated$deflatorGFCP
datadeflated$ASSTSdef = datadeflated$ASSETS/datadeflated$deflatorGFCP

datadeflated$aktivitalead = lead(datadeflated$AKTIVITA)
datadeflated$aktivitalag = lag(datadeflated$AKTIVITA)
datadeflated$idlead = lead(datadeflated$ID_ANON)
datadeflated$idlag = lag(datadeflated$ID_ANON)
datadeflated$yearlead = lead(datadeflated$year)
datadeflated$yearlag = lag(datadeflated$year)

datadeflated$zanik = ifelse(datadeflated$AKTIVITA == "ZANIK", 1, ifelse(datadeflated$ID_ANON == datadeflated$idlead, 0, ifelse(datadeflated$year == 2020, 0, 1)))
datadeflated$vznik = ifelse(datadeflated$AKTIVITA == "VZNIK", 1, ifelse(datadeflated$ID_ANON == datadeflated$idlag, 0, ifelse(datadeflated$year == 2012, 0, 1)))
datadeflated$vznik[1] = 1
datadeflated$zanik[2408982] = 0

#úprava dat
dataupravena = datadeflated %>% select(c(year,ID_ANON,AKTIVITA,nace2digit, DATA_ORIGIN, EMPLS_SLF_EMPLD, NMBR_EMPLS, NMBR_EMPLS_FTE, EMPL_BNFT_EXPNS, vznik, zanik, TOdef, OUTdef, PRCHSdef, VAdef, TNGB_ASSTSdef, ASSTSdef))

#tady už zase používat
dataupravena$labor_productivity = ifelse(dataupravena$EMPLS_SLF_EMPLD == 0, NA, dataupravena$VAdef/dataupravena$EMPLS_SLF_EMPLD) 
dataupravena$capital_per_worker = ifelse(dataupravena$EMPLS_SLF_EMPLD == 0, NA, dataupravena$TNGB_ASSTSdef/dataupravena$EMPLS_SLF_EMPLD)
dataupravena$VAperSALES = ifelse(dataupravena$OUTdef == 0, NA, dataupravena$VAdef/dataupravena$OUTdef)
dataupravena$VA_per_sales = ifelse(dataupravena$OUTdef == 0, NA, dataupravena$VAdef/dataupravena$OUTdef)
dataupravena$PRCHS_per_labor = ifelse(dataupravena$EMPLS_SLF_EMPLD == 0, NA, dataupravena$PRCHSdefcleaned/dataupravena$EMPLS_SLF_EMPLD)
dataupravena$PRCHS_per_OUT = ifelse(dataupravena$OUTdef == 0, NA, dataupravena$PRCHSdef/dataupravena$OUTdef)
#druhá návštěva Safecentre
#úprava kódu (aby log nevycházel -inf) v druhé návštěvě

dataupravena$lTOdef = ifelse(dataupravena$TOdef == 0, NA, log(dataupravena$TOdef))
dataupravena$lOUTdef = ifelse(dataupravena$OUTdef == 0, NA, log(dataupravena$OUTdef))
dataupravena$lEMPLS_SELF = ifelse(dataupravena$EMPLS_SLF_EMPLD == 0, NA, log(dataupravena$EMPLS_SLF_EMPLD))
dataupravena$lPRCHSdef = ifelse(dataupravena$PRCHSdef == 0, NA, log(dataupravena$PRCHSdef))
dataupravena$lTNGB_ASSTSdef = ifelse(dataupravena$TNGB_ASSTSdef == 0, NA, log(dataupravena$TNGB_ASSTSdef))
dataupravena$llabor_productivity = ifelse(dataupravena$labor_productivity == 0, NA, log(dataupravena$labor_productivity))
dataupravena$lcapital_per_worker = ifelse(dataupravena$capital_per_worker == 0, NA, log(dataupravena$capital_per_worker))
dataupravena$lVA_per_sales = ifelse(dataupravena$VAperSALES == 0, NA, log(dataupravena$VAperSALES))
dataupravena$lPRCHS_per_labor = ifelse(dataupravena$PRCHS_per_labor == 0, NA, log(dataupravena$PRCHS_per_labor))
dataupravena$lPRCHS_per_OUT = ifelse(dataupravena$PRCHS_per_OUT == 0, NA, log(dataupravena$PRCHS_per_OUT))

#level export pro SCM
#teď musím udělat normální log growth verze, pak log level a level
dataupravenacleaned2 = dataupravena[order(dataupravena$ID_ANON, dataupravena$year),]
#starší kód
dataupravenacleaned2 = mutate(dataupravenacleaned2, lTOgr = (lTOdefcleaned - lag(lOUTdefcleaned, 1)), .by = ID_ANON)
dataupravenacleaned2 = mutate(dataupravenacleaned2, lOUTgr = (lOUTdefcleaned - lag(lOUTdefcleaned, 1)), .by = ID_ANON)
dataupravenacleaned2 = mutate(dataupravenacleaned2, lPRCHSgr = (lPRCHSdefcleaned - lag(lPRCHSdefcleaned, 1)), .by = ID_ANON)
dataupravenacleaned2 = mutate(dataupravenacleaned2, lEMPLS_SELFgr = (lEMPLS_SELF - lag(lEMPLS_SELF, 1)), .by = ID_ANON)
dataupravenacleaned2 = mutate(dataupravenacleaned2, lTNGB_ASSTSgr = (lTNGB_ASSTSdefcleaned - lag(lTNGB_ASSTSdefcleaned, 1)), .by = ID_ANON)
dataupravenacleaned2 = mutate(dataupravenacleaned2, llabor_productivitygr = (llabor_productivity - lag(llabor_productivity, 1)), .by = ID_ANON)
dataupravenacleaned2 = mutate(dataupravenacleaned2, lcapital_per_workergr = (lcapital_per_worker - lag(lcapital_per_worker, 1)), .by = ID_ANON)
dataupravenacleaned2 = mutate(dataupravenacleaned2, lVA_per_salesgr = (lVA_per_sales - lag(lVA_per_sales, 1)), .by = ID_ANON)

dataupravenacleaned2 = mutate(dataupravenacleaned2, lPRCHS_per_laborgr = (lPRCHS_per_labor - lag(lPRCHS_per_labor, 1)), .by = ID_ANON)
dataupravenacleaned2 = mutate(dataupravenacleaned2, lPRCHS_per_OUTgr = (lPRCHS_per_OUT - lag(lPRCHS_per_OUT, 1)), .by = ID_ANON)




#udělám exits a entries už teď, jelikož mi growth úprava vyhodí vzniky
vzniky = aggregate(vznik ~ nace2digit + year, data = dataupravenacleaned2, sum)
zaniky = aggregate(zanik ~ nace2digit + year, data = dataupravenacleaned2, sum)
#percentily a průměry za jednotlivá odvětví (použiju na.rm = TRUE)
dataodvetvi = dataupravenacleaned2 %>% group_by(nace2digit, year) %>% summarise(medianlTOgr = median(lTOgr, na.rm = TRUE), medianlOUTgr = median(lOUTgr, na.rm = TRUE), medianlPRCHS = median(lPRCHSgr, na.rm = TRUE), meadianlEMPLS_SELFgr = median(lEMPLS_SELFgr, na.rm = TRUE), medianlTNGB_ASSTSgr = median(lTNGB_ASSTSgr, na.rm = TRUE), medianllabor_productivitygr = median(llabor_productivitygr, na.rm = TRUE), medianllcapital_per_workergr = median(lcapital_per_workergr, na.rm = TRUE), medianlVA_per_salesgr = median(lVA_per_salesgr, na.rm = TRUE), medianlPRCHS_per_laborgr  = median(lPRCHS_per_laborgr, na.rm = TRUE), medianlPRCHS_per_OUTgr  = median(lPRCHS_per_OUTgr, na.rm = TRUE),
                                                                                meanlTOgr = mean(lTOgr, na.rm = TRUE), meanlOUTgr = mean(lOUTgr, na.rm = TRUE), meanlPRCHS = mean(lPRCHSgr, na.rm = TRUE), meanlEMPLS_SELFgr = mean(lEMPLS_SELFgr, na.rm = TRUE), meanlTNGB_ASSTSgr = mean(lTNGB_ASSTSgr, na.rm = TRUE), meanllabor_productivitygr = mean(llabor_productivitygr, na.rm = TRUE), meanllcapital_per_workergr = mean(lcapital_per_workergr, na.rm = TRUE), meanlVA_per_salesgr = mean(lVA_per_salesgr, na.rm = TRUE), meanlPRCHS_per_laborgr = mean(lPRCHS_per_laborgr, na.rm = TRUE), meanlPRCHS_per_OUTgr = mean(lPRCHS_per_OUTgr, na.rm = TRUE),
                                                                                TFlTOgr = quantile(lTOgr, 0.25, na.rm = TRUE), TFlOUTgr = quantile(lOUTgr, 0.25, na.rm = TRUE), TFlPRCHS = quantile(lPRCHSgr, 0.25, na.rm = TRUE), TFlEMPLS_SELFgr = quantile(lEMPLS_SELFgr, 0.25, na.rm = TRUE), TFlTNGB_ASSTSgr = quantile(lTNGB_ASSTSgr, 0.25, na.rm = TRUE), TFllabor_productivitygr = quantile(llabor_productivitygr, 0.25, na.rm = TRUE), TFlcapital_per_workergr = quantile(lcapital_per_workergr, 0.25, na.rm = TRUE), TFlVA_per_salesgr = quantile(lVA_per_salesgr, 0.25, na.rm = TRUE), TFlPRCHS_per_laborgr = quantile(lPRCHS_per_laborgr, 0.25, na.rm = TRUE), TFlPRCHS_per_OUTgr = quantile(lPRCHS_per_OUTgr, 0.25, na.rm = TRUE), 
                                                                                tenlTOgr = quantile(lTOgr, 0.1, na.rm = TRUE), tenlOUTgr = quantile(lOUTgr, 0.1, na.rm = TRUE), tenlPRCHS = quantile(lPRCHSgr, 0.1, na.rm = TRUE), tenlEMPLS_SELFgr = quantile(lEMPLS_SELFgr, 0.1, na.rm = TRUE), tenlTNGB_ASSTSgr = quantile(lTNGB_ASSTSgr, 0.1, na.rm = TRUE), tenllabor_productivitygr = quantile(llabor_productivitygr, 0.1, na.rm = TRUE), tenlcapital_per_workergr = quantile(lcapital_per_workergr, 0.1, na.rm = TRUE), tenlVA_per_salesgr = quantile(lVA_per_salesgr, 0.1, na.rm = TRUE), tenlPRCHS_per_laborgr = quantile(lPRCHS_per_laborgr, 0.1, na.rm = TRUE), tenlPRCHS_per_OUTgr = quantile(lPRCHS_per_OUTgr, 0.1, na.rm = TRUE), 
                                                                                SFlTOgr = quantile(lTOgr, 0.75, na.rm = TRUE), SFlOUTgr = quantile(lOUTgr, 0.75, na.rm = TRUE), SFlPRCHS = quantile(lPRCHSgr, 0.75, na.rm = TRUE), SFlEMPLS_SELFgr = quantile(lEMPLS_SELFgr, 0.75, na.rm = TRUE), SFlTNGB_ASSTSgr = quantile(lTNGB_ASSTSgr, 0.75, na.rm = TRUE), SFllabor_productivitygr = quantile(llabor_productivitygr, 0.75, na.rm = TRUE), SFlcapital_per_workergr = quantile(lcapital_per_workergr, 0.75, na.rm = TRUE), SFlVA_per_salesgr = quantile(lVA_per_salesgr, 0.75, na.rm = TRUE), SFlPRCHS_per_laborgr = quantile(lPRCHS_per_laborgr, 0.75, na.rm = TRUE), SFlPRCHS_per_OUTgr = quantile(lPRCHS_per_OUTgr, 0.75, na.rm = TRUE), 
                                                                                ninetylTOgr = quantile(lTOgr, 0.9, na.rm = TRUE), ninetylOUTgr = quantile(lOUTgr, 0.9, na.rm = TRUE), ninetylPRCHS = quantile(lPRCHSgr, 0.9, na.rm = TRUE), ninetylEMPLS_SELFgr = quantile(lEMPLS_SELFgr, 0.9, na.rm = TRUE), ninetylTNGB_ASSTSgr = quantile(lTNGB_ASSTSgr, 0.9, na.rm = TRUE), ninetyllabor_productivitygr = quantile(llabor_productivitygr, 0.9, na.rm = TRUE), ninetylcapital_per_workergr = quantile(lcapital_per_workergr, 0.9, na.rm = TRUE), ninetylVA_per_salesgr = quantile(lVA_per_salesgr, 0.9, na.rm = TRUE), ninetylPRCHS_per_laborgr = quantile(lPRCHS_per_laborgr, 0.9, na.rm = TRUE), ninetylPRCHS_per_OUTgr = quantile(lPRCHS_per_OUTgr, 0.9, na.rm = TRUE))
#pátá návštěva (udělám log levely)
datalevel = dataupravenacleaned2 %>% group_by(nace2digit, year) %>% summarise(medianlTOdefcleaned = median(lTOdefcleaned, na.rm = TRUE), medianlOUTdefcleaned = median(lOUTdefcleaned, na.rm = TRUE), medianlPRCHS = median(lPRCHSdefcleaned, na.rm = TRUE), meadianlEMPLS_SELFdefcleaned = median(lEMPLS_SELF, na.rm = TRUE), medianlTNGB_ASSTSdefcleaned = median(lTNGB_ASSTSdefcleaned, na.rm = TRUE), medianllabor_productivitydefcleaned = median(llabor_productivity, na.rm = TRUE), medianllcapital_per_workerdefcleaned = median(lcapital_per_worker, na.rm = TRUE), medianlVA_per_salesdefcleaned = median(lVA_per_sales, na.rm = TRUE),medianlPRCHS_per_labordefcleaned  = median(lPRCHS_per_labor, na.rm = TRUE), medianlPRCHS_per_OUTdefcleaned  = median(lPRCHS_per_OUT, na.rm = TRUE),
                                                                              meanlTOdefcleaned = mean(lTOdefcleaned, na.rm = TRUE), meanlOUTdefcleaned = mean(lOUTdefcleaned, na.rm = TRUE), meanlPRCHS = mean(lPRCHSdefcleaned, na.rm = TRUE), meanlEMPLS_SELFdefcleaned = mean(lEMPLS_SELF, na.rm = TRUE), meanlTNGB_ASSTSdefcleaned = mean(lTNGB_ASSTSdefcleaned, na.rm = TRUE), meanllabor_productivitydefcleaned = mean(llabor_productivity, na.rm = TRUE), meanllcapital_per_workerdefcleaned = mean(lcapital_per_worker, na.rm = TRUE), meanlVA_per_salesdefcleaned = mean(lVA_per_sales, na.rm = TRUE),meanlPRCHS_per_labordefcleaned = mean(lPRCHS_per_labor, na.rm = TRUE), meanlPRCHS_per_OUTdefcleaned = mean(lPRCHS_per_OUT, na.rm = TRUE),
                                                                              TFlTOdefcleaned = quantile(lTOdefcleaned, 0.25, na.rm = TRUE), TFlOUTdefcleaned = quantile(lOUTdefcleaned, 0.25, na.rm = TRUE), TFlPRCHS = quantile(lPRCHSdefcleaned, 0.25, na.rm = TRUE), TFlEMPLS_SELFdefcleaned = quantile(lEMPLS_SELF, 0.25, na.rm = TRUE), TFlTNGB_ASSTSdefcleaned = quantile(lTNGB_ASSTSdefcleaned, 0.25, na.rm = TRUE), TFllabor_productivitydefcleaned = quantile(llabor_productivity, 0.25, na.rm = TRUE), TFlcapital_per_workerdefcleaned = quantile(lcapital_per_worker, 0.25, na.rm = TRUE), TFlVA_per_salesdefcleaned = quantile(lVA_per_sales, 0.25, na.rm = TRUE),TFlPRCHS_per_labordefcleaned = quantile(lPRCHS_per_labor, 0.25, na.rm = TRUE), TFlPRCHS_per_OUTdefcleaned = quantile(lPRCHS_per_OUT, 0.25, na.rm = TRUE),
                                                                              tenlTOdefcleaned = quantile(lTOdefcleaned, 0.1, na.rm = TRUE), tenlOUTdefcleaned = quantile(lOUTdefcleaned, 0.1, na.rm = TRUE), tenlPRCHS = quantile(lPRCHSdefcleaned, 0.1, na.rm = TRUE), tenlEMPLS_SELFdefcleaned = quantile(lEMPLS_SELF, 0.1, na.rm = TRUE), tenlTNGB_ASSTSdefcleaned = quantile(lTNGB_ASSTSdefcleaned, 0.1, na.rm = TRUE), tenllabor_productivitydefcleaned = quantile(llabor_productivity, 0.1, na.rm = TRUE), tenlcapital_per_workerdefcleaned = quantile(lcapital_per_worker, 0.1, na.rm = TRUE), tenlVA_per_salesdefcleaned = quantile(lVA_per_sales, 0.1, na.rm = TRUE),tenlPRCHS_per_labordefcleaned = quantile(lPRCHS_per_labor, 0.1, na.rm = TRUE), tenlPRCHS_per_OUTdefcleaned = quantile(lPRCHS_per_OUT, 0.1, na.rm = TRUE),
                                                                              SFlTOdefcleaned = quantile(lTOdefcleaned, 0.75, na.rm = TRUE), SFlOUTdefcleaned = quantile(lOUTdefcleaned, 0.75, na.rm = TRUE), SFlPRCHS = quantile(lPRCHSdefcleaned, 0.75, na.rm = TRUE), SFlEMPLS_SELFdefcleaned = quantile(lEMPLS_SELF, 0.75, na.rm = TRUE), SFlTNGB_ASSTSdefcleaned = quantile(lTNGB_ASSTSdefcleaned, 0.75, na.rm = TRUE), SFllabor_productivitydefcleaned = quantile(llabor_productivity, 0.75, na.rm = TRUE), SFlcapital_per_workerdefcleaned = quantile(lcapital_per_worker, 0.75, na.rm = TRUE), SFlVA_per_salesdefcleaned = quantile(lVA_per_sales, 0.75, na.rm = TRUE),SFlPRCHS_per_labordefcleaned = quantile(lPRCHS_per_labor, 0.75, na.rm = TRUE), SFlPRCHS_per_OUTdefcleaned = quantile(lPRCHS_per_OUT, 0.75, na.rm = TRUE),
                                                                              ninetylTOdefcleaned = quantile(lTOdefcleaned, 0.9, na.rm = TRUE), ninetylOUTdefcleaned = quantile(lOUTdefcleaned, 0.9, na.rm = TRUE), ninetylPRCHS = quantile(lPRCHSdefcleaned, 0.9, na.rm = TRUE), ninetylEMPLS_SELFdefcleaned = quantile(lEMPLS_SELF, 0.9, na.rm = TRUE), ninetylTNGB_ASSTSdefcleaned = quantile(lTNGB_ASSTSdefcleaned, 0.9, na.rm = TRUE), ninetyllabor_productivitydefcleaned = quantile(llabor_productivity, 0.9, na.rm = TRUE), ninetylcapital_per_workerdefcleaned = quantile(lcapital_per_worker, 0.9, na.rm = TRUE), ninetylVA_per_salesdefcleaned = quantile(lVA_per_sales, 0.9, na.rm = TRUE),ninetylPRCHS_per_labordefcleaned = quantile(lPRCHS_per_labor, 0.9, na.rm = TRUE), ninetylPRCHS_per_OUTdefcleaned = quantile(lPRCHS_per_OUT, 0.9, na.rm = TRUE))
#pátá návštěva (udělám levely)
datalevelnormal = dataupravenacleaned2 %>% group_by(nace2digit, year) %>% summarise(medianTOdef = median(TOdef, na.rm = TRUE), medianOUTdef = median(OUTdef, na.rm = TRUE), medianPRCHS = median(PRCHSdef, na.rm = TRUE), meadianEMPLS_SLFdef = median(EMPLS_SLF_EMPLD, na.rm = TRUE), medianTNGB_ASSTSdef = median(TNGB_ASSTSdef, na.rm = TRUE), medianlabor_productivitydef = median(labor_productivity, na.rm = TRUE), medianlcapital_per_workerdef = median(capital_per_worker, na.rm = TRUE), medianVA_per_salesdef = median(VA_per_sales, na.rm = TRUE),medianPRCHS_per_labordef  = median(PRCHS_per_labor, na.rm = TRUE), medianPRCHS_per_OUTdef  = median(PRCHS_per_OUT, na.rm = TRUE),
                                                                                    meanTOdef = mean(TOdef, na.rm = TRUE), meanOUTdef = mean(OUTdef, na.rm = TRUE), meanPRCHS = mean(PRCHSdef, na.rm = TRUE), meanEMPLS_SLFdef = mean(EMPLS_SLF_EMPLD, na.rm = TRUE), meanTNGB_ASSTSdef = mean(TNGB_ASSTSdef, na.rm = TRUE), meanlabor_productivitydef = mean(labor_productivity, na.rm = TRUE), meanlcapital_per_workerdef = mean(capital_per_worker, na.rm = TRUE), meanVA_per_salesdef = mean(VA_per_sales, na.rm = TRUE), meanPRCHS_per_labordef = mean(PRCHS_per_labor, na.rm = TRUE), meanPRCHS_per_OUTdef = mean(PRCHS_per_OUT, na.rm = TRUE),
                                                                                    TFTOdef = quantile(TOdef, 0.25, na.rm = TRUE), TFOUTdef = quantile(OUTdef, 0.25, na.rm = TRUE), TFPRCHS = quantile(PRCHSdef, 0.25, na.rm = TRUE), TFEMPLS_SLFdef = quantile(EMPLS_SLF_EMPLD, 0.25, na.rm = TRUE), TFTNGB_ASSTSdef = quantile(TNGB_ASSTSdef, 0.25, na.rm = TRUE), TFlabor_productivitydef = quantile(labor_productivity, 0.25, na.rm = TRUE), TFcapital_per_workerdef = quantile(capital_per_worker, 0.25, na.rm = TRUE), TFVA_per_salesdef = quantile(VA_per_sales, 0.25, na.rm = TRUE), TFPRCHS_per_labordef = quantile(PRCHS_per_labor, 0.25, na.rm = TRUE), TFPRCHS_per_OUTdef = quantile(PRCHS_per_OUT, 0.25, na.rm = TRUE),
                                                                                    tenTOdef = quantile(TOdef, 0.1, na.rm = TRUE), tenOUTdef = quantile(OUTdef, 0.1, na.rm = TRUE), tenPRCHS = quantile(PRCHSdef, 0.1, na.rm = TRUE), tenEMPLS_SLFdef = quantile(EMPLS_SLF_EMPLD, 0.1, na.rm = TRUE), tenTNGB_ASSTSdef = quantile(TNGB_ASSTSdef, 0.1, na.rm = TRUE), tenlabor_productivitydef = quantile(labor_productivity, 0.1, na.rm = TRUE), tencapital_per_workerdef = quantile(capital_per_worker, 0.1, na.rm = TRUE), tenVA_per_salesdef = quantile(VA_per_sales, 0.1, na.rm = TRUE), tenPRCHS_per_labordef = quantile(PRCHS_per_labor, 0.1, na.rm = TRUE), tenPRCHS_per_OUTdef = quantile(PRCHS_per_OUT, 0.1, na.rm = TRUE),
                                                                                    SFTOdef = quantile(TOdef, 0.75, na.rm = TRUE), SFOUTdef = quantile(OUTdef, 0.75, na.rm = TRUE), SFPRCHS = quantile(PRCHSdef, 0.75, na.rm = TRUE), SFEMPLS_SLFdef = quantile(EMPLS_SLF_EMPLD, 0.75, na.rm = TRUE), SFTNGB_ASSTSdef = quantile(TNGB_ASSTSdef, 0.75, na.rm = TRUE), SFlabor_productivitydef = quantile(labor_productivity, 0.75, na.rm = TRUE), SFcapital_per_workerdef = quantile(capital_per_worker, 0.75, na.rm = TRUE), SFVA_per_salesdef = quantile(VA_per_sales, 0.75, na.rm = TRUE), SFPRCHS_per_labordef = quantile(PRCHS_per_labor, 0.75, na.rm = TRUE), SFPRCHS_per_OUTdef = quantile(PRCHS_per_OUT, 0.75, na.rm = TRUE),
                                                                                    ninetyTOdef = quantile(TOdef, 0.9, na.rm = TRUE), ninetyOUTdef = quantile(OUTdef, 0.9, na.rm = TRUE), ninetyPRCHS = quantile(PRCHSdef, 0.9, na.rm = TRUE), ninetyEMPLS_SLFdef = quantile(EMPLS_SLF_EMPLD, 0.9, na.rm = TRUE), ninetyTNGB_ASSTSdef = quantile(TNGB_ASSTSdef, 0.9, na.rm = TRUE), ninetylabor_productivitydef = quantile(labor_productivity, 0.9, na.rm = TRUE), ninetycapital_per_workerdef = quantile(capital_per_worker, 0.9, na.rm = TRUE), ninetyVA_per_salesdef = quantile(VA_per_sales, 0.9, na.rm = TRUE), ninetyPRCHS_per_labordef = quantile(PRCHS_per_labor, 0.9, na.rm = TRUE), ninetyPRCHS_per_OUTdef = quantile(PRCHS_per_OUT, 0.9, na.rm = TRUE))



datalevel = left_join(datalevel, zaniky, by = c("year", "nace2digit"))
datalevel = left_join(datalevel, vzniky, by = c("year", "nace2digit"))

datalevelnormal = left_join(datalevelnormal, zaniky, by = c("year", "nace2digit"))
datalevelnormal = left_join(datalevelnormal, vzniky, by = c("year", "nace2digit"))

dataodvetvi = left_join(dataodvetvi, zaniky, by = c("year", "nace2digit"))
dataodvetvi = left_join(dataodvetvi, vzniky, by = c("year", "nace2digit"))

#počty firem v daném roce v daném odvětví
nofirms1 = count(group_by(dataupravenacleaned2, nace2digit, year))
firms1under12 = nofirms1[nofirms1$n < 12,]
firms1under30 = nofirms1[nofirms1$n < 30,]
firms1under50 = nofirms1[nofirms1$n < 50,]
unique(firms1under50$nace2digit)

#pro dataset s log levels
datalevel = left_join(datalevel, nofirms1, by = c("year", "nace2digit"))
datalevel$entry_rate = datalevel$vznik/datalevel$n
datalevel$exit_rate = datalevel$zanik/datalevel$n
#pro dataset s levels
datalevelnormal = left_join(datalevelnormal, nofirms1, by = c("year", "nace2digit"))
datalevelnormal$entry_rate = datalevelnormal$vznik/datalevelnormal$n
datalevelnormal$exit_rate = datalevelnormal$zanik/datalevelnormal$n
#log growth (staré)
dataodvetvi = left_join(dataodvetvi, nofirms1, by = c("year", "nace2digit"))
dataodvetvi$entry_rate = dataodvetvi$vznik/dataodvetvi$n
dataodvetvi$exit_rate = dataodvetvi$zanik/dataodvetvi$n


#odstranit sektory, kde je méně jak 50 firem za daný rok (level dataset)
datalevelnormal2 = datalevelnormal[-which(datalevelnormal$nace2digit == 5 | datalevelnormal$nace2digit == 6| datalevelnormal$nace2digit == 7| datalevelnormal$nace2digit == 9| datalevelnormal$nace2digit == 12| datalevelnormal$nace2digit == 19| datalevelnormal$nace2digit == 39| datalevelnormal$nace2digit == 50| datalevelnormal$nace2digit == 51| datalevelnormal$nace2digit == 84| datalevelnormal$nace2digit == 87| datalevelnormal$nace2digit == 91| datalevelnormal$nace2digit == 94),]

#export level datasetu
write_xlsx(datalevelnormal2, path = "export22.06. level normal FINAL.xlsx")

install.packages("MatchIt")
library(MatchIt)
levelnormalFINAL = as.data.frame(read_xlsx("export22.06. level normal FINAL.xlsx"))
levelnormalFINAL$churn_rate = (levelnormalFINAL$entry_rate + levelnormalFINAL$exit_rate)

levelnormalFINAL = levelnormalFINAL[-which(levelnormalFINAL$year == 2020|levelnormalFINAL$year == 2019|levelnormalFINAL$year == 2018|levelnormalFINAL$year == 2017|levelnormalFINAL$year == 2016),]
BroadCG = levelnormalFINAL
BroadCG$treated = ifelse(BroadCG$nace2digit == 55 | BroadCG$nace2digit == 56 | BroadCG$nace2digit == 45 | BroadCG$nace2digit == 46 | BroadCG$nace2digit == 47, 1, 0)
dataCG = BroadCG %>% group_by(nace2digit) %>%
  summarise(mean_OUTmed = mean(medianOUTdef), mean_PRCHSmed = mean(medianPRCHS), mean_EMPLS_SLFmed = mean(meadianEMPLS_SLFdef), meanchurn_ratemed = mean(churn_rate), mean_labor_productivitydefmed = mean(medianlabor_productivitydef), mean_capital_per_workerdefmed = mean(medianlcapital_per_workerdef),mean_PRCHS_per_OUTdefmed = mean(medianPRCHS_per_OUTdef), mean_exit_rate = mean(exit_rate), mean_entry_rate = mean(entry_rate))
dataCG$treated = ifelse(dataCG$nace2digit == 55 | dataCG$nace2digit == 56 | dataCG$nace2digit == 45 | dataCG$nace2digit == 46 | dataCG$nace2digit == 47, 1, 0)
controlsdataCG = c(8,10,11,13,14,15,16,17,18,20,21,22,23,24,25,26,27,28,29,30,31,32,33,41,42,43,45,46,47,52,55,56,58,59,60,61,62,63,68,69,70,71,72,73,74,75,77,78,79,80,81,82,90,91,92,93,95,96)
dataCGfinal = dataCG[which(dataCG$nace2digit %in% controlsdataCG),]

AlgorithmicControlGroup = matchit(treated ~ mean_EMPLS_SLFmed + meanchurn_ratemed + mean_labor_productivitydefmed + mean_capital_per_workerdefmed + mean_PRCHS_per_OUTdefmed, data = dataCGfinal, method = "nearest", distance = "mahalanobis", ratio = 5, replace = TRUE)
summary(AlgorithmicControlGroup)

cg.out = AlgorithmicControlGroup$match.matrix
typeof(cg.out)
cg.out
#45
dataCGfinal[27,1]
dataCGfinal[54,1] #93
dataCGfinal[48,1] #79
dataCGfinal[21,1] #31
dataCGfinal[7,1] #16
dataCGfinal[33,1] #58

#46
dataCGfinal[28,1]
dataCGfinal[24,1] #41
dataCGfinal[34,1] #59
dataCGfinal[52,1] #90
dataCGfinal[2,1] #10
dataCGfinal[55,1] #95+

#47
dataCGfinal[29,1]
dataCGfinal[54,1] #93
dataCGfinal[48,1] #79
dataCGfinal[24,1] #41
dataCGfinal[33,1] #58
dataCGfinal[52,1] #90

#55
dataCGfinal[31,1]
dataCGfinal[54,1] #93
dataCGfinal[7,1] #16
dataCGfinal[21,1] #31
dataCGfinal[46,1] #77
dataCGfinal[3,1] #11

#56
dataCGfinal[32,1] 
dataCGfinal[5,1] #14
dataCGfinal[56,1] #96
dataCGfinal[2,1] #10
dataCGfinal[52,1] #90
dataCGfinal[26,1] #43








#přidám 75 a udělám znovu
#45
dataCGfinal[27,1]
dataCGfinal[55,1] #93
dataCGfinal[49,1] #79
dataCGfinal[21,1] #31
dataCGfinal[7,1] #16
dataCGfinal[33,1] #58

#46
dataCGfinal[28,1]
dataCGfinal[24,1] #41
dataCGfinal[34,1] #59
dataCGfinal[53,1] #90
dataCGfinal[2,1] #10
dataCGfinal[56,1] #95

#47
dataCGfinal[29,1]
dataCGfinal[55,1] #93
dataCGfinal[49,1] #79
dataCGfinal[24,1] #41
dataCGfinal[33,1] #58
dataCGfinal[53,1] #90

#55
dataCGfinal[31,1]
dataCGfinal[55,1] #93
dataCGfinal[7,1] #16
dataCGfinal[21,1] #31
dataCGfinal[47,1] #77
dataCGfinal[3,1] #11

#56
dataCGfinal[32,1] 
dataCGfinal[5,1] #14
dataCGfinal[57,1] #96
dataCGfinal[2,1] #10
dataCGfinal[53,1] #90
dataCGfinal[26,1] #43

#udělám exits a entries
vzniky = aggregate(vznik ~ nace2digit + year, data = dataupravena, sum)
zaniky = aggregate(zanik ~ nace2digit + year, data = dataupravena, sum)

nofirmscomplete$nace2digit = nofirmscomplete$NACE2
nofirmscomplete_entry_exit = left_join(nofirmscomplete, vzniky, by = c("year","nace2digit"))
nofirmscomplete_entry_exit = left_join(nofirmscomplete_entry_exit, zaniky, by = c("year","nace2digit"))

LargeCGdatasetNACE = c(1,2,3,8,10,11,13,14,15,16,17,18,20,21,22,23,24,25,26,27,28,29,30,31,32,33,41,42,43,45,46,47,52,53,55,56,58,59,60,61,62,63,68,69,70,71,72,73,74,75,77,78,79,80,81,82,90,92,93,95,96)
#odstranění log outliers
dataupravena2 = dataupravena[-which(dataupravena$year == 2020),]
LargeCG = dataupravena2[which(dataupravena2$nace2digit %in% LargeCGdatasetNACE),]



LargeCGcleaned = LargeCG
LargeCGcleaned = LargeCGcleaned %>% mutate(lOUTmax = max(lOUTdef, na.rm = TRUE), .by = "ID_ANON") 
LargeCGcleaned = LargeCGcleaned %>% mutate(lOUTmin = min(lOUTdef, na.rm = TRUE), .by = "ID_ANON")
LargeCGcleaned = LargeCGcleaned %>% mutate(lOUTdiff = ifelse(lOUTmax == -Inf | lOUTmax == Inf | lOUTmin == -Inf | lOUTmin  == Inf, NA,lOUTmax - lOUTmin), .by = "ID_ANON")

LargeCGcleaned = LargeCGcleaned %>% mutate(lPRCHSmax = max(lPRCHSdef, na.rm = TRUE), .by = "ID_ANON") 
LargeCGcleaned = LargeCGcleaned %>% mutate(lPRCHSmin = min(lPRCHSdef, na.rm = TRUE), .by = "ID_ANON")
LargeCGcleaned = LargeCGcleaned %>% mutate(lPRCHSdiff = ifelse(lPRCHSmax == -Inf | lPRCHSmax == Inf | lPRCHSmin == -Inf | lPRCHSmin  == Inf, NA,lPRCHSmax - lPRCHSmin), .by = "ID_ANON")

#mám rozdíl mezi max log a min log (největší změna)
#odstraním vrchní procento toho
LargeCGcleanedtest = LargeCGcleaned %>%
  group_by(nace2digit) %>%
  mutate(lOUT_outlier = ifelse(lOUTdiff > quantile(lOUTdiff, 0.99, na.rm = TRUE), 1, 0)) %>%
  mutate(lPRCHS_outlier = ifelse(lPRCHSdiff > quantile(lPRCHSdiff, 0.99, na.rm = TRUE), 1, 0)) %>%
  ungroup()

#teď si udělám počet firem bez outliers
LargeCGbezOUToutliers = LargeCGcleanedtest[-which(LargeCGcleanedtest$lOUT_outlier == 1),]
LargeCGbezPRCHSoutliers = LargeCGcleanedtest[-which(LargeCGcleanedtest$lPRCHS_outlier == 1),]
LargeCGbezOBOUoutliers = LargeCGbezOUToutliers[-which(LargeCGbezOUToutliers$lPRCHS_outlier == 1),]

nofirmsbezOUToutliers = count(group_by(LargeCGbezOUToutliers, nace2digit, year))
nofirmsbezPRCHSoutliers = count(group_by(LargeCGbezPRCHSoutliers, nace2digit, year))
nofirmsbezOBOUoutliers = count(group_by(LargeCGbezOBOUoutliers, nace2digit, year))

write_xlsx(nofirmsbezOUToutliers, path = "počet firem za rok a odvětví bez lOUT outliers.xlsx")
write_xlsx(nofirmsbezPRCHSoutliers, path = "počet firem za rok a odvětví bez lPRCHS outliers.xlsx")
write_xlsx(nofirmsbezOBOUoutliers, path = "počet firem za rok a odvětví bez obou log outliers.xlsx")

#kde jsou outliers, tak tam dám NA
LargeCG = LargeCGcleanedtest %>%
  mutate(lOUTdef = ifelse(lOUT_outlier == 1, NA, lOUTdef)) %>%
  mutate(lPRCHSdef = ifelse(lPRCHS_outlier == 1, NA, lPRCHSdef))

#udělám si checkpoint, aby to netrvalo moc dlouho, když to příště spadne (toto si NEEXPORTUJI)
write.csv(LargeCG, file = "Upravený dataset s DOP bez outliers na FE analýzu")

BroadCG = read.csv("Upravený dataset s DOP bez outliers na FE analýzu")
BroadCGdatasetNACE = c(8,10,11,13,14,15,16,17,18,20,21,22,23,24,25,26,27,28,29,30,31,32,33,41,42,43,45,46,47,52,55,56,58,59,60,61,62,63,68,69,70,71,72,73,74,75,77,78,79,80,81,82,90,92,93,95,96)
BroadCGtest = BroadCG[which(BroadCG$nace2digit %in% BroadCGdatasetNACE),]
BroadCG$entry = BroadCG$vznik
BroadCG$exit = BroadCG$zanik
#teď mám očištěná data s dopočty
#dataset pro Broad control group
#DiD analýza Broad Control Group
#s DOP a odstran?n? outliers
BroadCG$treated = ifelse(BroadCG$nace2digit == 55 | BroadCG$nace2digit == 56 | BroadCG$nace2digit == 45 | BroadCG$nace2digit == 46 | BroadCG$nace2digit == 47, 1, 0)
BroadCG$EET2016  = ifelse(BroadCG$year >= 2016, 1, 0)
BroadCG$EET = ifelse(BroadCG$year >= 2017, 1, 0)
#dummies jednotlivých roků
BroadCG$y2012 = ifelse(BroadCG$year == 2012, 1, 0)
BroadCG$y2013 = ifelse(BroadCG$year == 2013, 1, 0)
BroadCG$y2014 = ifelse(BroadCG$year == 2014, 1, 0)
BroadCG$y2015 = ifelse(BroadCG$year == 2015, 1, 0)
BroadCG$y2016 = ifelse(BroadCG$year == 2016, 1, 0)
BroadCG$y2017 = ifelse(BroadCG$year == 2017, 1, 0)
BroadCG$y2018 = ifelse(BroadCG$year == 2018, 1, 0)
BroadCG$y2019 = ifelse(BroadCG$year == 2019, 1, 0)
#dummies jednotlivých NACE
BroadCG$NACE08 = ifelse(BroadCG$nace2digit == 8, 1, 0)
BroadCG$NACE10 = ifelse(BroadCG$nace2digit == 10, 1, 0)
BroadCG$NACE11 = ifelse(BroadCG$nace2digit == 11, 1, 0)
BroadCG$NACE13 = ifelse(BroadCG$nace2digit == 13, 1, 0)
BroadCG$NACE14 = ifelse(BroadCG$nace2digit == 14, 1, 0)
BroadCG$NACE15 = ifelse(BroadCG$nace2digit == 15, 1, 0)
BroadCG$NACE16 = ifelse(BroadCG$nace2digit == 16, 1, 0)
BroadCG$NACE17 = ifelse(BroadCG$nace2digit == 17, 1, 0)
BroadCG$NACE18 = ifelse(BroadCG$nace2digit == 18, 1, 0)
BroadCG$NACE20 = ifelse(BroadCG$nace2digit == 20, 1, 0)
BroadCG$NACE21 = ifelse(BroadCG$nace2digit == 21, 1, 0)
BroadCG$NACE22 = ifelse(BroadCG$nace2digit == 22, 1, 0)
BroadCG$NACE23 = ifelse(BroadCG$nace2digit == 23, 1, 0)
BroadCG$NACE24 = ifelse(BroadCG$nace2digit == 24, 1, 0)
BroadCG$NACE25 = ifelse(BroadCG$nace2digit == 25, 1, 0)
BroadCG$NACE26 = ifelse(BroadCG$nace2digit == 26, 1, 0)
BroadCG$NACE27 = ifelse(BroadCG$nace2digit == 27, 1, 0)
BroadCG$NACE28 = ifelse(BroadCG$nace2digit == 28, 1, 0)
BroadCG$NACE29 = ifelse(BroadCG$nace2digit == 29, 1, 0)
BroadCG$NACE30 = ifelse(BroadCG$nace2digit == 30, 1, 0)
BroadCG$NACE31 = ifelse(BroadCG$nace2digit == 31, 1, 0)
BroadCG$NACE32 = ifelse(BroadCG$nace2digit == 32, 1, 0)
BroadCG$NACE33 = ifelse(BroadCG$nace2digit == 33, 1, 0)
BroadCG$NACE41 = ifelse(BroadCG$nace2digit == 41, 1, 0)
BroadCG$NACE42 = ifelse(BroadCG$nace2digit == 42, 1, 0)
BroadCG$NACE43 = ifelse(BroadCG$nace2digit == 43, 1, 0)
BroadCG$NACE45 = ifelse(BroadCG$nace2digit == 45, 1, 0)
BroadCG$NACE46 = ifelse(BroadCG$nace2digit == 46, 1, 0)
BroadCG$NACE47 = ifelse(BroadCG$nace2digit == 47, 1, 0)
BroadCG$NACE52 = ifelse(BroadCG$nace2digit == 52, 1, 0)
BroadCG$NACE53 = ifelse(BroadCG$nace2digit == 52, 1, 0)
BroadCG$NACE55 = ifelse(BroadCG$nace2digit == 55, 1, 0)
BroadCG$NACE56 = ifelse(BroadCG$nace2digit == 56, 1, 0)
BroadCG$NACE58 = ifelse(BroadCG$nace2digit == 58, 1, 0)
BroadCG$NACE59 = ifelse(BroadCG$nace2digit == 59, 1, 0)
BroadCG$NACE60 = ifelse(BroadCG$nace2digit == 60, 1, 0)
BroadCG$NACE61 = ifelse(BroadCG$nace2digit == 61, 1, 0)
BroadCG$NACE62 = ifelse(BroadCG$nace2digit == 62, 1, 0)
BroadCG$NACE63 = ifelse(BroadCG$nace2digit == 63, 1, 0)
BroadCG$NACE68 = ifelse(BroadCG$nace2digit == 68, 1, 0)
BroadCG$NACE69 = ifelse(BroadCG$nace2digit == 69, 1, 0)
BroadCG$NACE70 = ifelse(BroadCG$nace2digit == 70, 1, 0)
BroadCG$NACE71 = ifelse(BroadCG$nace2digit == 71, 1, 0)
BroadCG$NACE72 = ifelse(BroadCG$nace2digit == 72, 1, 0)
BroadCG$NACE73 = ifelse(BroadCG$nace2digit == 73, 1, 0)
BroadCG$NACE74 = ifelse(BroadCG$nace2digit == 74, 1, 0)
BroadCG$NACE75 = ifelse(BroadCG$nace2digit == 75, 1, 0)
BroadCG$NACE77 = ifelse(BroadCG$nace2digit == 77, 1, 0)
BroadCG$NACE78 = ifelse(BroadCG$nace2digit == 78, 1, 0)
BroadCG$NACE79 = ifelse(BroadCG$nace2digit == 79, 1, 0)
BroadCG$NACE80 = ifelse(BroadCG$nace2digit == 80, 1, 0)
BroadCG$NACE81 = ifelse(BroadCG$nace2digit == 81, 1, 0)
BroadCG$NACE82 = ifelse(BroadCG$nace2digit == 82, 1, 0)
BroadCG$NACE90 = ifelse(BroadCG$nace2digit == 90, 1, 0)
BroadCG$NACE92 = ifelse(BroadCG$nace2digit == 92, 1, 0)
BroadCG$NACE93 = ifelse(BroadCG$nace2digit == 93, 1, 0)
BroadCG$NACE95 = ifelse(BroadCG$nace2digit == 95, 1, 0)
BroadCG$NACE96 = ifelse(BroadCG$nace2digit == 96, 1, 0)


#Fixed effect difference in differences anal?za s BroadCG
#45
BroadCGdatasetNACE45 = c(8,10,11,13,14,15,16,17,18,20,21,22,23,24,25,26,27,28,29,30,31,32,33,41,42,43,45,52,58,59,60,61,62,63,68,69,70,71,72,73,74,75,77,78,79,80,81,82,90,92,93,95,96)

BroadCG45 = BroadCG[which(BroadCG$nace2digit %in% BroadCGdatasetNACE45),]
#46
BroadCGdatasetNACE46 = c(8,10,11,13,14,15,16,17,18,20,21,22,23,24,25,26,27,28,29,30,31,32,33,41,42,43,46,52,58,59,60,61,62,63,68,69,70,71,72,73,74,75,77,78,79,80,81,82,90,92,93,95,96)

BroadCG46 = BroadCG[which(BroadCG$nace2digit %in% BroadCGdatasetNACE46),]
#47
BroadCGdatasetNACE47 = c(8,10,11,13,14,15,16,17,18,20,21,22,23,24,25,26,27,28,29,30,31,32,33,41,42,43,47,52,58,59,60,61,62,63,68,69,70,71,72,73,74,75,77,78,79,80,81,82,90,92,93,95,96)

BroadCG47 = BroadCG[which(BroadCG$nace2digit %in% BroadCGdatasetNACE47),]
#55
BroadCGdatasetNACE55 = c(8,10,11,13,14,15,16,17,18,20,21,22,23,24,25,26,27,28,29,30,31,32,33,41,42,43,52,55,58,59,60,61,62,63,68,69,70,71,72,73,74,75,77,78,79,80,81,82,90,92,93,95,96)

BroadCG55 = BroadCG[which(BroadCG$nace2digit %in% BroadCGdatasetNACE55),]
#56
BroadCGdatasetNACE56 = c(8,10,11,13,14,15,16,17,18,20,21,22,23,24,25,26,27,28,29,30,31,32,33,41,42,43,52,56,58,59,60,61,62,63,68,69,70,71,72,73,74,75,77,78,79,80,81,82,90,92,93,95,96)

BroadCG56 = BroadCG[which(BroadCG$nace2digit %in% BroadCGdatasetNACE56),]









#BROAD


#45 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DDlOUT45_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45 )
#HC robust SE
BroadCGFE_DDlOUT45_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlOUT45_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlOUT45_01_df_all = etable(BroadCGFE_DDlOUT45_01, BroadCGFE_DDlOUT45_01_HC, BroadCGFE_DDlOUT45_01_clusteredNACE)

#export
BroadCGFE_DDlOUT45_01_df_confint = confint(BroadCGFE_DDlOUT45_01)

BroadCGFE_DDlOUT45_01_HC_df_confint = confint(BroadCGFE_DDlOUT45_01_HC)

BroadCGFE_DDlOUT45_01_clusteredNACE_df_confint = confint(BroadCGFE_DDlOUT45_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlOUT45_01_df_all,BroadCGFE_DDlOUT45_01_df_confint, BroadCGFE_DDlOUT45_01_HC_df_confint, BroadCGFE_DDlOUT45_01_clusteredNACE_df_confint ), path = "Broad CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#46 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DDlOUT46_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46 )
#HC robust SE
BroadCGFE_DDlOUT46_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlOUT46_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlOUT46_01_df_all = etable(BroadCGFE_DDlOUT46_01, BroadCGFE_DDlOUT46_01_HC, BroadCGFE_DDlOUT46_01_clusteredNACE)

#export
BroadCGFE_DDlOUT46_01_df_confint = confint(BroadCGFE_DDlOUT46_01)

BroadCGFE_DDlOUT46_01_HC_df_confint = confint(BroadCGFE_DDlOUT46_01_HC)

BroadCGFE_DDlOUT46_01_clusteredNACE_df_confint = confint(BroadCGFE_DDlOUT46_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlOUT46_01_df_all,BroadCGFE_DDlOUT46_01_df_confint, BroadCGFE_DDlOUT46_01_HC_df_confint, BroadCGFE_DDlOUT46_01_clusteredNACE_df_confint ), path = "Broad CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#47 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DDlOUT47_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47 )
#HC robust SE
BroadCGFE_DDlOUT47_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlOUT47_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlOUT47_01_df_all = etable(BroadCGFE_DDlOUT47_01, BroadCGFE_DDlOUT47_01_HC, BroadCGFE_DDlOUT47_01_clusteredNACE)

#export
BroadCGFE_DDlOUT47_01_df_confint = confint(BroadCGFE_DDlOUT47_01)

BroadCGFE_DDlOUT47_01_HC_df_confint = confint(BroadCGFE_DDlOUT47_01_HC)

BroadCGFE_DDlOUT47_01_clusteredNACE_df_confint = confint(BroadCGFE_DDlOUT47_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlOUT47_01_df_all,BroadCGFE_DDlOUT47_01_df_confint, BroadCGFE_DDlOUT47_01_HC_df_confint, BroadCGFE_DDlOUT47_01_clusteredNACE_df_confint ), path = "Broad CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")




#55 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DDlOUT55_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55 )
#HC robust SE
BroadCGFE_DDlOUT55_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlOUT55_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlOUT55_01_df_all = etable(BroadCGFE_DDlOUT55_01, BroadCGFE_DDlOUT55_01_HC, BroadCGFE_DDlOUT55_01_clusteredNACE)

#export
BroadCGFE_DDlOUT55_01_df_confint = confint(BroadCGFE_DDlOUT55_01)

BroadCGFE_DDlOUT55_01_HC_df_confint = confint(BroadCGFE_DDlOUT55_01_HC)

BroadCGFE_DDlOUT55_01_clusteredNACE_df_confint = confint(BroadCGFE_DDlOUT55_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlOUT55_01_df_all,BroadCGFE_DDlOUT55_01_df_confint, BroadCGFE_DDlOUT55_01_HC_df_confint, BroadCGFE_DDlOUT55_01_clusteredNACE_df_confint ), path = "Broad CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")





#56 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DDlOUT56_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56 )
#HC robust SE
BroadCGFE_DDlOUT56_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlOUT56_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlOUT56_01_df_all = etable(BroadCGFE_DDlOUT56_01, BroadCGFE_DDlOUT56_01_HC, BroadCGFE_DDlOUT56_01_clusteredNACE)

#export
BroadCGFE_DDlOUT56_01_df_confint = confint(BroadCGFE_DDlOUT56_01)

BroadCGFE_DDlOUT56_01_HC_df_confint = confint(BroadCGFE_DDlOUT56_01_HC)

BroadCGFE_DDlOUT56_01_clusteredNACE_df_confint = confint(BroadCGFE_DDlOUT56_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlOUT56_01_df_all,BroadCGFE_DDlOUT56_01_df_confint, BroadCGFE_DDlOUT56_01_HC_df_confint, BroadCGFE_DDlOUT56_01_clusteredNACE_df_confint ), path = "Broad CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#45 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DDlPRCHS45_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45 )
#HC robust SE
BroadCGFE_DDlPRCHS45_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlPRCHS45_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlPRCHS45_01_df_all = etable(BroadCGFE_DDlPRCHS45_01, BroadCGFE_DDlPRCHS45_01_HC, BroadCGFE_DDlPRCHS45_01_clusteredNACE)

#export
BroadCGFE_DDlPRCHS45_01_df_confint = confint(BroadCGFE_DDlPRCHS45_01)

BroadCGFE_DDlPRCHS45_01_HC_df_confint = confint(BroadCGFE_DDlPRCHS45_01_HC)

BroadCGFE_DDlPRCHS45_01_clusteredNACE_df_confint = confint(BroadCGFE_DDlPRCHS45_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlPRCHS45_01_df_all,BroadCGFE_DDlPRCHS45_01_df_confint, BroadCGFE_DDlPRCHS45_01_HC_df_confint, BroadCGFE_DDlPRCHS45_01_clusteredNACE_df_confint ), path = "Broad CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#46 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DDlPRCHS46_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46 )
#HC robust SE
BroadCGFE_DDlPRCHS46_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlPRCHS46_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlPRCHS46_01_df_all = etable(BroadCGFE_DDlPRCHS46_01, BroadCGFE_DDlPRCHS46_01_HC, BroadCGFE_DDlPRCHS46_01_clusteredNACE)

#export
BroadCGFE_DDlPRCHS46_01_df_confint = confint(BroadCGFE_DDlPRCHS46_01)

BroadCGFE_DDlPRCHS46_01_HC_df_confint = confint(BroadCGFE_DDlPRCHS46_01_HC)

BroadCGFE_DDlPRCHS46_01_clusteredNACE_df_confint = confint(BroadCGFE_DDlPRCHS46_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlPRCHS46_01_df_all,BroadCGFE_DDlPRCHS46_01_df_confint, BroadCGFE_DDlPRCHS46_01_HC_df_confint, BroadCGFE_DDlPRCHS46_01_clusteredNACE_df_confint ), path = "Broad CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#47 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DDlPRCHS47_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47 )
#HC robust SE
BroadCGFE_DDlPRCHS47_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlPRCHS47_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlPRCHS47_01_df_all = etable(BroadCGFE_DDlPRCHS47_01, BroadCGFE_DDlPRCHS47_01_HC, BroadCGFE_DDlPRCHS47_01_clusteredNACE)

#export
BroadCGFE_DDlPRCHS47_01_df_confint = confint(BroadCGFE_DDlPRCHS47_01)

BroadCGFE_DDlPRCHS47_01_HC_df_confint = confint(BroadCGFE_DDlPRCHS47_01_HC)

BroadCGFE_DDlPRCHS47_01_clusteredNACE_df_confint = confint(BroadCGFE_DDlPRCHS47_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlPRCHS47_01_df_all,BroadCGFE_DDlPRCHS47_01_df_confint, BroadCGFE_DDlPRCHS47_01_HC_df_confint, BroadCGFE_DDlPRCHS47_01_clusteredNACE_df_confint ), path = "Broad CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")




#55 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DDlPRCHS55_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55 )
#HC robust SE
BroadCGFE_DDlPRCHS55_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlPRCHS55_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlPRCHS55_01_df_all = etable(BroadCGFE_DDlPRCHS55_01, BroadCGFE_DDlPRCHS55_01_HC, BroadCGFE_DDlPRCHS55_01_clusteredNACE)

#export
BroadCGFE_DDlPRCHS55_01_df_confint = confint(BroadCGFE_DDlPRCHS55_01)

BroadCGFE_DDlPRCHS55_01_HC_df_confint = confint(BroadCGFE_DDlPRCHS55_01_HC)

BroadCGFE_DDlPRCHS55_01_clusteredNACE_df_confint = confint(BroadCGFE_DDlPRCHS55_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlPRCHS55_01_df_all,BroadCGFE_DDlPRCHS55_01_df_confint, BroadCGFE_DDlPRCHS55_01_HC_df_confint, BroadCGFE_DDlPRCHS55_01_clusteredNACE_df_confint ), path = "Broad CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")





#56 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DDlPRCHS56_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56 )
#HC robust SE
BroadCGFE_DDlPRCHS56_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlPRCHS56_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlPRCHS56_01_df_all = etable(BroadCGFE_DDlPRCHS56_01, BroadCGFE_DDlPRCHS56_01_HC, BroadCGFE_DDlPRCHS56_01_clusteredNACE)

#export
BroadCGFE_DDlPRCHS56_01_df_confint = confint(BroadCGFE_DDlPRCHS56_01)

BroadCGFE_DDlPRCHS56_01_HC_df_confint = confint(BroadCGFE_DDlPRCHS56_01_HC)

BroadCGFE_DDlPRCHS56_01_clusteredNACE_df_confint = confint(BroadCGFE_DDlPRCHS56_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlPRCHS56_01_df_all,BroadCGFE_DDlPRCHS56_01_df_confint, BroadCGFE_DDlPRCHS56_01_HC_df_confint, BroadCGFE_DDlPRCHS56_01_clusteredNACE_df_confint ), path = "Broad CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")










#45 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DDlOUT45_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45 )
#HC robust SE
BroadCGFE_DDlOUT45_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlOUT45_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlOUT45_02_df_all = etable(BroadCGFE_DDlOUT45_02, BroadCGFE_DDlOUT45_02_HC, BroadCGFE_DDlOUT45_02_clusteredNACE)

#export
BroadCGFE_DDlOUT45_02_df_confint = confint(BroadCGFE_DDlOUT45_02)

BroadCGFE_DDlOUT45_02_HC_df_confint = confint(BroadCGFE_DDlOUT45_02_HC)

BroadCGFE_DDlOUT45_02_clusteredNACE_df_confint = confint(BroadCGFE_DDlOUT45_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlOUT45_02_df_all,BroadCGFE_DDlOUT45_02_df_confint, BroadCGFE_DDlOUT45_02_HC_df_confint, BroadCGFE_DDlOUT45_02_clusteredNACE_df_confint ), path = "Broad CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#46 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DDlOUT46_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46 )
#HC robust SE
BroadCGFE_DDlOUT46_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlOUT46_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlOUT46_02_df_all = etable(BroadCGFE_DDlOUT46_02, BroadCGFE_DDlOUT46_02_HC, BroadCGFE_DDlOUT46_02_clusteredNACE)

#export
BroadCGFE_DDlOUT46_02_df_confint = confint(BroadCGFE_DDlOUT46_02)

BroadCGFE_DDlOUT46_02_HC_df_confint = confint(BroadCGFE_DDlOUT46_02_HC)

BroadCGFE_DDlOUT46_02_clusteredNACE_df_confint = confint(BroadCGFE_DDlOUT46_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlOUT46_02_df_all,BroadCGFE_DDlOUT46_02_df_confint, BroadCGFE_DDlOUT46_02_HC_df_confint, BroadCGFE_DDlOUT46_02_clusteredNACE_df_confint ), path = "Broad CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#47 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DDlOUT47_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47 )
#HC robust SE
BroadCGFE_DDlOUT47_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlOUT47_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlOUT47_02_df_all = etable(BroadCGFE_DDlOUT47_02, BroadCGFE_DDlOUT47_02_HC, BroadCGFE_DDlOUT47_02_clusteredNACE)

#export
BroadCGFE_DDlOUT47_02_df_confint = confint(BroadCGFE_DDlOUT47_02)

BroadCGFE_DDlOUT47_02_HC_df_confint = confint(BroadCGFE_DDlOUT47_02_HC)

BroadCGFE_DDlOUT47_02_clusteredNACE_df_confint = confint(BroadCGFE_DDlOUT47_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlOUT47_02_df_all,BroadCGFE_DDlOUT47_02_df_confint, BroadCGFE_DDlOUT47_02_HC_df_confint, BroadCGFE_DDlOUT47_02_clusteredNACE_df_confint ), path = "Broad CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")



#55 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DDlOUT55_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55 )
#HC robust SE
BroadCGFE_DDlOUT55_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlOUT55_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlOUT55_02_df_all = etable(BroadCGFE_DDlOUT55_02, BroadCGFE_DDlOUT55_02_HC, BroadCGFE_DDlOUT55_02_clusteredNACE)

#export
BroadCGFE_DDlOUT55_02_df_confint = confint(BroadCGFE_DDlOUT55_02)

BroadCGFE_DDlOUT55_02_HC_df_confint = confint(BroadCGFE_DDlOUT55_02_HC)

BroadCGFE_DDlOUT55_02_clusteredNACE_df_confint = confint(BroadCGFE_DDlOUT55_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlOUT55_02_df_all,BroadCGFE_DDlOUT55_02_df_confint, BroadCGFE_DDlOUT55_02_HC_df_confint, BroadCGFE_DDlOUT55_02_clusteredNACE_df_confint ), path = "Broad CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#56 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DDlOUT56_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56 )
#HC robust SE
BroadCGFE_DDlOUT56_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlOUT56_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlOUT56_02_df_all = etable(BroadCGFE_DDlOUT56_02, BroadCGFE_DDlOUT56_02_HC, BroadCGFE_DDlOUT56_02_clusteredNACE)

#export
BroadCGFE_DDlOUT56_02_df_confint = confint(BroadCGFE_DDlOUT56_02)

BroadCGFE_DDlOUT56_02_HC_df_confint = confint(BroadCGFE_DDlOUT56_02_HC)

BroadCGFE_DDlOUT56_02_clusteredNACE_df_confint = confint(BroadCGFE_DDlOUT56_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlOUT56_02_df_all,BroadCGFE_DDlOUT56_02_df_confint, BroadCGFE_DDlOUT56_02_HC_df_confint, BroadCGFE_DDlOUT56_02_clusteredNACE_df_confint ), path = "Broad CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")






#45 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DDlPRCHS45_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45 )
#HC robust SE
BroadCGFE_DDlPRCHS45_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlPRCHS45_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlPRCHS45_02_df_all = etable(BroadCGFE_DDlPRCHS45_02, BroadCGFE_DDlPRCHS45_02_HC, BroadCGFE_DDlPRCHS45_02_clusteredNACE)

#export
BroadCGFE_DDlPRCHS45_02_df_confint = confint(BroadCGFE_DDlPRCHS45_02)

BroadCGFE_DDlPRCHS45_02_HC_df_confint = confint(BroadCGFE_DDlPRCHS45_02_HC)

BroadCGFE_DDlPRCHS45_02_clusteredNACE_df_confint = confint(BroadCGFE_DDlPRCHS45_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlPRCHS45_02_df_all,BroadCGFE_DDlPRCHS45_02_df_confint, BroadCGFE_DDlPRCHS45_02_HC_df_confint, BroadCGFE_DDlPRCHS45_02_clusteredNACE_df_confint ), path = "Broad CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#46 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DDlPRCHS46_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46 )
#HC robust SE
BroadCGFE_DDlPRCHS46_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlPRCHS46_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlPRCHS46_02_df_all = etable(BroadCGFE_DDlPRCHS46_02, BroadCGFE_DDlPRCHS46_02_HC, BroadCGFE_DDlPRCHS46_02_clusteredNACE)

#export
BroadCGFE_DDlPRCHS46_02_df_confint = confint(BroadCGFE_DDlPRCHS46_02)

BroadCGFE_DDlPRCHS46_02_HC_df_confint = confint(BroadCGFE_DDlPRCHS46_02_HC)

BroadCGFE_DDlPRCHS46_02_clusteredNACE_df_confint = confint(BroadCGFE_DDlPRCHS46_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlPRCHS46_02_df_all,BroadCGFE_DDlPRCHS46_02_df_confint, BroadCGFE_DDlPRCHS46_02_HC_df_confint, BroadCGFE_DDlPRCHS46_02_clusteredNACE_df_confint ), path = "Broad CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#47 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DDlPRCHS47_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47 )
#HC robust SE
BroadCGFE_DDlPRCHS47_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlPRCHS47_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlPRCHS47_02_df_all = etable(BroadCGFE_DDlPRCHS47_02, BroadCGFE_DDlPRCHS47_02_HC, BroadCGFE_DDlPRCHS47_02_clusteredNACE)

#export
BroadCGFE_DDlPRCHS47_02_df_confint = confint(BroadCGFE_DDlPRCHS47_02)

BroadCGFE_DDlPRCHS47_02_HC_df_confint = confint(BroadCGFE_DDlPRCHS47_02_HC)

BroadCGFE_DDlPRCHS47_02_clusteredNACE_df_confint = confint(BroadCGFE_DDlPRCHS47_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlPRCHS47_02_df_all,BroadCGFE_DDlPRCHS47_02_df_confint, BroadCGFE_DDlPRCHS47_02_HC_df_confint, BroadCGFE_DDlPRCHS47_02_clusteredNACE_df_confint ), path = "Broad CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")



#55 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DDlPRCHS55_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55 )
#HC robust SE
BroadCGFE_DDlPRCHS55_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlPRCHS55_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlPRCHS55_02_df_all = etable(BroadCGFE_DDlPRCHS55_02, BroadCGFE_DDlPRCHS55_02_HC, BroadCGFE_DDlPRCHS55_02_clusteredNACE)

#export
BroadCGFE_DDlPRCHS55_02_df_confint = confint(BroadCGFE_DDlPRCHS55_02)

BroadCGFE_DDlPRCHS55_02_HC_df_confint = confint(BroadCGFE_DDlPRCHS55_02_HC)

BroadCGFE_DDlPRCHS55_02_clusteredNACE_df_confint = confint(BroadCGFE_DDlPRCHS55_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlPRCHS55_02_df_all,BroadCGFE_DDlPRCHS55_02_df_confint, BroadCGFE_DDlPRCHS55_02_HC_df_confint, BroadCGFE_DDlPRCHS55_02_clusteredNACE_df_confint ), path = "Broad CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#56 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DDlPRCHS56_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56 )
#HC robust SE
BroadCGFE_DDlPRCHS56_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlPRCHS56_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlPRCHS56_02_df_all = etable(BroadCGFE_DDlPRCHS56_02, BroadCGFE_DDlPRCHS56_02_HC, BroadCGFE_DDlPRCHS56_02_clusteredNACE)

#export
BroadCGFE_DDlPRCHS56_02_df_confint = confint(BroadCGFE_DDlPRCHS56_02)

BroadCGFE_DDlPRCHS56_02_HC_df_confint = confint(BroadCGFE_DDlPRCHS56_02_HC)

BroadCGFE_DDlPRCHS56_02_clusteredNACE_df_confint = confint(BroadCGFE_DDlPRCHS56_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlPRCHS56_02_df_all,BroadCGFE_DDlPRCHS56_02_df_confint, BroadCGFE_DDlPRCHS56_02_HC_df_confint, BroadCGFE_DDlPRCHS56_02_clusteredNACE_df_confint ), path = "Broad CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")




#45 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DDlOUT45_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45 )
#HC robust SE
BroadCGFE_DDlOUT45_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlOUT45_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlOUT45_03_df_all = etable(BroadCGFE_DDlOUT45_03, BroadCGFE_DDlOUT45_03_HC, BroadCGFE_DDlOUT45_03_clusteredNACE)

#export
BroadCGFE_DDlOUT45_03_df_confint = confint(BroadCGFE_DDlOUT45_03)

BroadCGFE_DDlOUT45_03_HC_df_confint = confint(BroadCGFE_DDlOUT45_03_HC)

BroadCGFE_DDlOUT45_03_clusteredNACE_df_confint = confint(BroadCGFE_DDlOUT45_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlOUT45_03_df_all,BroadCGFE_DDlOUT45_03_df_confint, BroadCGFE_DDlOUT45_03_HC_df_confint, BroadCGFE_DDlOUT45_03_clusteredNACE_df_confint ), path = "Broad CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#46 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DDlOUT46_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46 )
#HC robust SE
BroadCGFE_DDlOUT46_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlOUT46_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlOUT46_03_df_all = etable(BroadCGFE_DDlOUT46_03, BroadCGFE_DDlOUT46_03_HC, BroadCGFE_DDlOUT46_03_clusteredNACE)

#export
BroadCGFE_DDlOUT46_03_df_confint = confint(BroadCGFE_DDlOUT46_03)

BroadCGFE_DDlOUT46_03_HC_df_confint = confint(BroadCGFE_DDlOUT46_03_HC)

BroadCGFE_DDlOUT46_03_clusteredNACE_df_confint = confint(BroadCGFE_DDlOUT46_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlOUT46_03_df_all,BroadCGFE_DDlOUT46_03_df_confint, BroadCGFE_DDlOUT46_03_HC_df_confint, BroadCGFE_DDlOUT46_03_clusteredNACE_df_confint ), path = "Broad CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#47 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DDlOUT47_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47 )
#HC robust SE
BroadCGFE_DDlOUT47_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlOUT47_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlOUT47_03_df_all = etable(BroadCGFE_DDlOUT47_03, BroadCGFE_DDlOUT47_03_HC, BroadCGFE_DDlOUT47_03_clusteredNACE)

#export
BroadCGFE_DDlOUT47_03_df_confint = confint(BroadCGFE_DDlOUT47_03)

BroadCGFE_DDlOUT47_03_HC_df_confint = confint(BroadCGFE_DDlOUT47_03_HC)

BroadCGFE_DDlOUT47_03_clusteredNACE_df_confint = confint(BroadCGFE_DDlOUT47_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlOUT47_03_df_all,BroadCGFE_DDlOUT47_03_df_confint, BroadCGFE_DDlOUT47_03_HC_df_confint, BroadCGFE_DDlOUT47_03_clusteredNACE_df_confint ), path = "Broad CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#55 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DDlOUT55_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55 )
#HC robust SE
BroadCGFE_DDlOUT55_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlOUT55_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlOUT55_03_df_all = etable(BroadCGFE_DDlOUT55_03, BroadCGFE_DDlOUT55_03_HC, BroadCGFE_DDlOUT55_03_clusteredNACE)

#export
BroadCGFE_DDlOUT55_03_df_confint = confint(BroadCGFE_DDlOUT55_03)

BroadCGFE_DDlOUT55_03_HC_df_confint = confint(BroadCGFE_DDlOUT55_03_HC)

BroadCGFE_DDlOUT55_03_clusteredNACE_df_confint = confint(BroadCGFE_DDlOUT55_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlOUT55_03_df_all,BroadCGFE_DDlOUT55_03_df_confint, BroadCGFE_DDlOUT55_03_HC_df_confint, BroadCGFE_DDlOUT55_03_clusteredNACE_df_confint ), path = "Broad CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#56 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DDlOUT56_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56 )
#HC robust SE
BroadCGFE_DDlOUT56_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlOUT56_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlOUT56_03_df_all = etable(BroadCGFE_DDlOUT56_03, BroadCGFE_DDlOUT56_03_HC, BroadCGFE_DDlOUT56_03_clusteredNACE)

#export
BroadCGFE_DDlOUT56_03_df_confint = confint(BroadCGFE_DDlOUT56_03)

BroadCGFE_DDlOUT56_03_HC_df_confint = confint(BroadCGFE_DDlOUT56_03_HC)

BroadCGFE_DDlOUT56_03_clusteredNACE_df_confint = confint(BroadCGFE_DDlOUT56_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlOUT56_03_df_all,BroadCGFE_DDlOUT56_03_df_confint, BroadCGFE_DDlOUT56_03_HC_df_confint, BroadCGFE_DDlOUT56_03_clusteredNACE_df_confint ), path = "Broad CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#45 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DDlPRCHS45_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45 )
#HC robust SE
BroadCGFE_DDlPRCHS45_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlPRCHS45_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlPRCHS45_03_df_all = etable(BroadCGFE_DDlPRCHS45_03, BroadCGFE_DDlPRCHS45_03_HC, BroadCGFE_DDlPRCHS45_03_clusteredNACE)

#export
BroadCGFE_DDlPRCHS45_03_df_confint = confint(BroadCGFE_DDlPRCHS45_03)

BroadCGFE_DDlPRCHS45_03_HC_df_confint = confint(BroadCGFE_DDlPRCHS45_03_HC)

BroadCGFE_DDlPRCHS45_03_clusteredNACE_df_confint = confint(BroadCGFE_DDlPRCHS45_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlPRCHS45_03_df_all,BroadCGFE_DDlPRCHS45_03_df_confint, BroadCGFE_DDlPRCHS45_03_HC_df_confint, BroadCGFE_DDlPRCHS45_03_clusteredNACE_df_confint ), path = "Broad CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#46 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DDlPRCHS46_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46 )
#HC robust SE
BroadCGFE_DDlPRCHS46_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlPRCHS46_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlPRCHS46_03_df_all = etable(BroadCGFE_DDlPRCHS46_03, BroadCGFE_DDlPRCHS46_03_HC, BroadCGFE_DDlPRCHS46_03_clusteredNACE)

#export
BroadCGFE_DDlPRCHS46_03_df_confint = confint(BroadCGFE_DDlPRCHS46_03)

BroadCGFE_DDlPRCHS46_03_HC_df_confint = confint(BroadCGFE_DDlPRCHS46_03_HC)

BroadCGFE_DDlPRCHS46_03_clusteredNACE_df_confint = confint(BroadCGFE_DDlPRCHS46_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlPRCHS46_03_df_all,BroadCGFE_DDlPRCHS46_03_df_confint, BroadCGFE_DDlPRCHS46_03_HC_df_confint, BroadCGFE_DDlPRCHS46_03_clusteredNACE_df_confint ), path = "Broad CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#47 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DDlPRCHS47_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47 )
#HC robust SE
BroadCGFE_DDlPRCHS47_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlPRCHS47_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlPRCHS47_03_df_all = etable(BroadCGFE_DDlPRCHS47_03, BroadCGFE_DDlPRCHS47_03_HC, BroadCGFE_DDlPRCHS47_03_clusteredNACE)

#export
BroadCGFE_DDlPRCHS47_03_df_confint = confint(BroadCGFE_DDlPRCHS47_03)

BroadCGFE_DDlPRCHS47_03_HC_df_confint = confint(BroadCGFE_DDlPRCHS47_03_HC)

BroadCGFE_DDlPRCHS47_03_clusteredNACE_df_confint = confint(BroadCGFE_DDlPRCHS47_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlPRCHS47_03_df_all,BroadCGFE_DDlPRCHS47_03_df_confint, BroadCGFE_DDlPRCHS47_03_HC_df_confint, BroadCGFE_DDlPRCHS47_03_clusteredNACE_df_confint ), path = "Broad CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#55 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DDlPRCHS55_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55 )
#HC robust SE
BroadCGFE_DDlPRCHS55_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlPRCHS55_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlPRCHS55_03_df_all = etable(BroadCGFE_DDlPRCHS55_03, BroadCGFE_DDlPRCHS55_03_HC, BroadCGFE_DDlPRCHS55_03_clusteredNACE)

#export
BroadCGFE_DDlPRCHS55_03_df_confint = confint(BroadCGFE_DDlPRCHS55_03)

BroadCGFE_DDlPRCHS55_03_HC_df_confint = confint(BroadCGFE_DDlPRCHS55_03_HC)

BroadCGFE_DDlPRCHS55_03_clusteredNACE_df_confint = confint(BroadCGFE_DDlPRCHS55_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlPRCHS55_03_df_all,BroadCGFE_DDlPRCHS55_03_df_confint, BroadCGFE_DDlPRCHS55_03_HC_df_confint, BroadCGFE_DDlPRCHS55_03_clusteredNACE_df_confint ), path = "Broad CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#56 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DDlPRCHS56_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56 )
#HC robust SE
BroadCGFE_DDlPRCHS56_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DDlPRCHS56_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DDlPRCHS56_03_df_all = etable(BroadCGFE_DDlPRCHS56_03, BroadCGFE_DDlPRCHS56_03_HC, BroadCGFE_DDlPRCHS56_03_clusteredNACE)

#export
BroadCGFE_DDlPRCHS56_03_df_confint = confint(BroadCGFE_DDlPRCHS56_03)

BroadCGFE_DDlPRCHS56_03_HC_df_confint = confint(BroadCGFE_DDlPRCHS56_03_HC)

BroadCGFE_DDlPRCHS56_03_clusteredNACE_df_confint = confint(BroadCGFE_DDlPRCHS56_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DDlPRCHS56_03_df_all,BroadCGFE_DDlPRCHS56_03_df_confint, BroadCGFE_DDlPRCHS56_03_HC_df_confint, BroadCGFE_DDlPRCHS56_03_clusteredNACE_df_confint ), path = "Broad CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#Fixed effect difference in differences analyza s NarrowCG
#45
NarrowCGdatasetNACE45 = c(29,32,33,45,95)

NarrowCG45 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE45),]
#46
NarrowCGdatasetNACE46 = c(32,46,52,62,74,78,82)

NarrowCG46 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE46),]
#47
NarrowCGdatasetNACE47 = c(32,47,58,90,95,96)

NarrowCG47 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE47),]
#55
NarrowCGdatasetNACE55 = c(55,68,77,79,81,93,95,96)

NarrowCG55 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE55),]
#56
NarrowCGdatasetNACE56 = c(56,61,79,90,93,95,96)

NarrowCG56 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE56),]


#NARROW


#45 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DDlOUT45_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45 )
#HC robust SE
NarrowCGFE_DDlOUT45_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlOUT45_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlOUT45_01_df_all = etable(NarrowCGFE_DDlOUT45_01, NarrowCGFE_DDlOUT45_01_HC, NarrowCGFE_DDlOUT45_01_clusteredNACE)

#export
NarrowCGFE_DDlOUT45_01_df_confint = confint(NarrowCGFE_DDlOUT45_01)

NarrowCGFE_DDlOUT45_01_HC_df_confint = confint(NarrowCGFE_DDlOUT45_01_HC)

NarrowCGFE_DDlOUT45_01_clusteredNACE_df_confint = confint(NarrowCGFE_DDlOUT45_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlOUT45_01_df_all,NarrowCGFE_DDlOUT45_01_df_confint, NarrowCGFE_DDlOUT45_01_HC_df_confint, NarrowCGFE_DDlOUT45_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#46 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DDlOUT46_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46 )
#HC robust SE
NarrowCGFE_DDlOUT46_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlOUT46_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlOUT46_01_df_all = etable(NarrowCGFE_DDlOUT46_01, NarrowCGFE_DDlOUT46_01_HC, NarrowCGFE_DDlOUT46_01_clusteredNACE)

#export
NarrowCGFE_DDlOUT46_01_df_confint = confint(NarrowCGFE_DDlOUT46_01)

NarrowCGFE_DDlOUT46_01_HC_df_confint = confint(NarrowCGFE_DDlOUT46_01_HC)

NarrowCGFE_DDlOUT46_01_clusteredNACE_df_confint = confint(NarrowCGFE_DDlOUT46_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlOUT46_01_df_all,NarrowCGFE_DDlOUT46_01_df_confint, NarrowCGFE_DDlOUT46_01_HC_df_confint, NarrowCGFE_DDlOUT46_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#47 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DDlOUT47_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47 )
#HC robust SE
NarrowCGFE_DDlOUT47_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlOUT47_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlOUT47_01_df_all = etable(NarrowCGFE_DDlOUT47_01, NarrowCGFE_DDlOUT47_01_HC, NarrowCGFE_DDlOUT47_01_clusteredNACE)

#export
NarrowCGFE_DDlOUT47_01_df_confint = confint(NarrowCGFE_DDlOUT47_01)

NarrowCGFE_DDlOUT47_01_HC_df_confint = confint(NarrowCGFE_DDlOUT47_01_HC)

NarrowCGFE_DDlOUT47_01_clusteredNACE_df_confint = confint(NarrowCGFE_DDlOUT47_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlOUT47_01_df_all,NarrowCGFE_DDlOUT47_01_df_confint, NarrowCGFE_DDlOUT47_01_HC_df_confint, NarrowCGFE_DDlOUT47_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")




#55 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DDlOUT55_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55 )
#HC robust SE
NarrowCGFE_DDlOUT55_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlOUT55_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlOUT55_01_df_all = etable(NarrowCGFE_DDlOUT55_01, NarrowCGFE_DDlOUT55_01_HC, NarrowCGFE_DDlOUT55_01_clusteredNACE)

#export
NarrowCGFE_DDlOUT55_01_df_confint = confint(NarrowCGFE_DDlOUT55_01)

NarrowCGFE_DDlOUT55_01_HC_df_confint = confint(NarrowCGFE_DDlOUT55_01_HC)

NarrowCGFE_DDlOUT55_01_clusteredNACE_df_confint = confint(NarrowCGFE_DDlOUT55_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlOUT55_01_df_all,NarrowCGFE_DDlOUT55_01_df_confint, NarrowCGFE_DDlOUT55_01_HC_df_confint, NarrowCGFE_DDlOUT55_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")





#56 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DDlOUT56_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56 )
#HC robust SE
NarrowCGFE_DDlOUT56_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlOUT56_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlOUT56_01_df_all = etable(NarrowCGFE_DDlOUT56_01, NarrowCGFE_DDlOUT56_01_HC, NarrowCGFE_DDlOUT56_01_clusteredNACE)

#export
NarrowCGFE_DDlOUT56_01_df_confint = confint(NarrowCGFE_DDlOUT56_01)

NarrowCGFE_DDlOUT56_01_HC_df_confint = confint(NarrowCGFE_DDlOUT56_01_HC)

NarrowCGFE_DDlOUT56_01_clusteredNACE_df_confint = confint(NarrowCGFE_DDlOUT56_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlOUT56_01_df_all,NarrowCGFE_DDlOUT56_01_df_confint, NarrowCGFE_DDlOUT56_01_HC_df_confint, NarrowCGFE_DDlOUT56_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#45 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DDlPRCHS45_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45 )
#HC robust SE
NarrowCGFE_DDlPRCHS45_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlPRCHS45_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlPRCHS45_01_df_all = etable(NarrowCGFE_DDlPRCHS45_01, NarrowCGFE_DDlPRCHS45_01_HC, NarrowCGFE_DDlPRCHS45_01_clusteredNACE)

#export
NarrowCGFE_DDlPRCHS45_01_df_confint = confint(NarrowCGFE_DDlPRCHS45_01)

NarrowCGFE_DDlPRCHS45_01_HC_df_confint = confint(NarrowCGFE_DDlPRCHS45_01_HC)

NarrowCGFE_DDlPRCHS45_01_clusteredNACE_df_confint = confint(NarrowCGFE_DDlPRCHS45_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlPRCHS45_01_df_all,NarrowCGFE_DDlPRCHS45_01_df_confint, NarrowCGFE_DDlPRCHS45_01_HC_df_confint, NarrowCGFE_DDlPRCHS45_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#46 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DDlPRCHS46_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46 )
#HC robust SE
NarrowCGFE_DDlPRCHS46_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlPRCHS46_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlPRCHS46_01_df_all = etable(NarrowCGFE_DDlPRCHS46_01, NarrowCGFE_DDlPRCHS46_01_HC, NarrowCGFE_DDlPRCHS46_01_clusteredNACE)

#export
NarrowCGFE_DDlPRCHS46_01_df_confint = confint(NarrowCGFE_DDlPRCHS46_01)

NarrowCGFE_DDlPRCHS46_01_HC_df_confint = confint(NarrowCGFE_DDlPRCHS46_01_HC)

NarrowCGFE_DDlPRCHS46_01_clusteredNACE_df_confint = confint(NarrowCGFE_DDlPRCHS46_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlPRCHS46_01_df_all,NarrowCGFE_DDlPRCHS46_01_df_confint, NarrowCGFE_DDlPRCHS46_01_HC_df_confint, NarrowCGFE_DDlPRCHS46_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#47 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DDlPRCHS47_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47 )
#HC robust SE
NarrowCGFE_DDlPRCHS47_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlPRCHS47_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlPRCHS47_01_df_all = etable(NarrowCGFE_DDlPRCHS47_01, NarrowCGFE_DDlPRCHS47_01_HC, NarrowCGFE_DDlPRCHS47_01_clusteredNACE)

#export
NarrowCGFE_DDlPRCHS47_01_df_confint = confint(NarrowCGFE_DDlPRCHS47_01)

NarrowCGFE_DDlPRCHS47_01_HC_df_confint = confint(NarrowCGFE_DDlPRCHS47_01_HC)

NarrowCGFE_DDlPRCHS47_01_clusteredNACE_df_confint = confint(NarrowCGFE_DDlPRCHS47_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlPRCHS47_01_df_all,NarrowCGFE_DDlPRCHS47_01_df_confint, NarrowCGFE_DDlPRCHS47_01_HC_df_confint, NarrowCGFE_DDlPRCHS47_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")




#55 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DDlPRCHS55_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55 )
#HC robust SE
NarrowCGFE_DDlPRCHS55_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlPRCHS55_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlPRCHS55_01_df_all = etable(NarrowCGFE_DDlPRCHS55_01, NarrowCGFE_DDlPRCHS55_01_HC, NarrowCGFE_DDlPRCHS55_01_clusteredNACE)

#export
NarrowCGFE_DDlPRCHS55_01_df_confint = confint(NarrowCGFE_DDlPRCHS55_01)

NarrowCGFE_DDlPRCHS55_01_HC_df_confint = confint(NarrowCGFE_DDlPRCHS55_01_HC)

NarrowCGFE_DDlPRCHS55_01_clusteredNACE_df_confint = confint(NarrowCGFE_DDlPRCHS55_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlPRCHS55_01_df_all,NarrowCGFE_DDlPRCHS55_01_df_confint, NarrowCGFE_DDlPRCHS55_01_HC_df_confint, NarrowCGFE_DDlPRCHS55_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")





#56 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DDlPRCHS56_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56 )
#HC robust SE
NarrowCGFE_DDlPRCHS56_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlPRCHS56_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlPRCHS56_01_df_all = etable(NarrowCGFE_DDlPRCHS56_01, NarrowCGFE_DDlPRCHS56_01_HC, NarrowCGFE_DDlPRCHS56_01_clusteredNACE)

#export
NarrowCGFE_DDlPRCHS56_01_df_confint = confint(NarrowCGFE_DDlPRCHS56_01)

NarrowCGFE_DDlPRCHS56_01_HC_df_confint = confint(NarrowCGFE_DDlPRCHS56_01_HC)

NarrowCGFE_DDlPRCHS56_01_clusteredNACE_df_confint = confint(NarrowCGFE_DDlPRCHS56_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlPRCHS56_01_df_all,NarrowCGFE_DDlPRCHS56_01_df_confint, NarrowCGFE_DDlPRCHS56_01_HC_df_confint, NarrowCGFE_DDlPRCHS56_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")










#45 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DDlOUT45_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45 )
#HC robust SE
NarrowCGFE_DDlOUT45_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlOUT45_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlOUT45_02_df_all = etable(NarrowCGFE_DDlOUT45_02, NarrowCGFE_DDlOUT45_02_HC, NarrowCGFE_DDlOUT45_02_clusteredNACE)

#export
NarrowCGFE_DDlOUT45_02_df_confint = confint(NarrowCGFE_DDlOUT45_02)

NarrowCGFE_DDlOUT45_02_HC_df_confint = confint(NarrowCGFE_DDlOUT45_02_HC)

NarrowCGFE_DDlOUT45_02_clusteredNACE_df_confint = confint(NarrowCGFE_DDlOUT45_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlOUT45_02_df_all,NarrowCGFE_DDlOUT45_02_df_confint, NarrowCGFE_DDlOUT45_02_HC_df_confint, NarrowCGFE_DDlOUT45_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#46 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DDlOUT46_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46 )
#HC robust SE
NarrowCGFE_DDlOUT46_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlOUT46_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlOUT46_02_df_all = etable(NarrowCGFE_DDlOUT46_02, NarrowCGFE_DDlOUT46_02_HC, NarrowCGFE_DDlOUT46_02_clusteredNACE)

#export
NarrowCGFE_DDlOUT46_02_df_confint = confint(NarrowCGFE_DDlOUT46_02)

NarrowCGFE_DDlOUT46_02_HC_df_confint = confint(NarrowCGFE_DDlOUT46_02_HC)

NarrowCGFE_DDlOUT46_02_clusteredNACE_df_confint = confint(NarrowCGFE_DDlOUT46_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlOUT46_02_df_all,NarrowCGFE_DDlOUT46_02_df_confint, NarrowCGFE_DDlOUT46_02_HC_df_confint, NarrowCGFE_DDlOUT46_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#47 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DDlOUT47_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47 )
#HC robust SE
NarrowCGFE_DDlOUT47_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlOUT47_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlOUT47_02_df_all = etable(NarrowCGFE_DDlOUT47_02, NarrowCGFE_DDlOUT47_02_HC, NarrowCGFE_DDlOUT47_02_clusteredNACE)

#export
NarrowCGFE_DDlOUT47_02_df_confint = confint(NarrowCGFE_DDlOUT47_02)

NarrowCGFE_DDlOUT47_02_HC_df_confint = confint(NarrowCGFE_DDlOUT47_02_HC)

NarrowCGFE_DDlOUT47_02_clusteredNACE_df_confint = confint(NarrowCGFE_DDlOUT47_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlOUT47_02_df_all,NarrowCGFE_DDlOUT47_02_df_confint, NarrowCGFE_DDlOUT47_02_HC_df_confint, NarrowCGFE_DDlOUT47_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")



#55 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DDlOUT55_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55 )
#HC robust SE
NarrowCGFE_DDlOUT55_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlOUT55_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlOUT55_02_df_all = etable(NarrowCGFE_DDlOUT55_02, NarrowCGFE_DDlOUT55_02_HC, NarrowCGFE_DDlOUT55_02_clusteredNACE)

#export
NarrowCGFE_DDlOUT55_02_df_confint = confint(NarrowCGFE_DDlOUT55_02)

NarrowCGFE_DDlOUT55_02_HC_df_confint = confint(NarrowCGFE_DDlOUT55_02_HC)

NarrowCGFE_DDlOUT55_02_clusteredNACE_df_confint = confint(NarrowCGFE_DDlOUT55_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlOUT55_02_df_all,NarrowCGFE_DDlOUT55_02_df_confint, NarrowCGFE_DDlOUT55_02_HC_df_confint, NarrowCGFE_DDlOUT55_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#56 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DDlOUT56_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56 )
#HC robust SE
NarrowCGFE_DDlOUT56_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlOUT56_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlOUT56_02_df_all = etable(NarrowCGFE_DDlOUT56_02, NarrowCGFE_DDlOUT56_02_HC, NarrowCGFE_DDlOUT56_02_clusteredNACE)

#export
NarrowCGFE_DDlOUT56_02_df_confint = confint(NarrowCGFE_DDlOUT56_02)

NarrowCGFE_DDlOUT56_02_HC_df_confint = confint(NarrowCGFE_DDlOUT56_02_HC)

NarrowCGFE_DDlOUT56_02_clusteredNACE_df_confint = confint(NarrowCGFE_DDlOUT56_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlOUT56_02_df_all,NarrowCGFE_DDlOUT56_02_df_confint, NarrowCGFE_DDlOUT56_02_HC_df_confint, NarrowCGFE_DDlOUT56_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")






#45 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DDlPRCHS45_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45 )
#HC robust SE
NarrowCGFE_DDlPRCHS45_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlPRCHS45_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlPRCHS45_02_df_all = etable(NarrowCGFE_DDlPRCHS45_02, NarrowCGFE_DDlPRCHS45_02_HC, NarrowCGFE_DDlPRCHS45_02_clusteredNACE)

#export
NarrowCGFE_DDlPRCHS45_02_df_confint = confint(NarrowCGFE_DDlPRCHS45_02)

NarrowCGFE_DDlPRCHS45_02_HC_df_confint = confint(NarrowCGFE_DDlPRCHS45_02_HC)

NarrowCGFE_DDlPRCHS45_02_clusteredNACE_df_confint = confint(NarrowCGFE_DDlPRCHS45_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlPRCHS45_02_df_all,NarrowCGFE_DDlPRCHS45_02_df_confint, NarrowCGFE_DDlPRCHS45_02_HC_df_confint, NarrowCGFE_DDlPRCHS45_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#46 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DDlPRCHS46_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46 )
#HC robust SE
NarrowCGFE_DDlPRCHS46_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlPRCHS46_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlPRCHS46_02_df_all = etable(NarrowCGFE_DDlPRCHS46_02, NarrowCGFE_DDlPRCHS46_02_HC, NarrowCGFE_DDlPRCHS46_02_clusteredNACE)

#export
NarrowCGFE_DDlPRCHS46_02_df_confint = confint(NarrowCGFE_DDlPRCHS46_02)

NarrowCGFE_DDlPRCHS46_02_HC_df_confint = confint(NarrowCGFE_DDlPRCHS46_02_HC)

NarrowCGFE_DDlPRCHS46_02_clusteredNACE_df_confint = confint(NarrowCGFE_DDlPRCHS46_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlPRCHS46_02_df_all,NarrowCGFE_DDlPRCHS46_02_df_confint, NarrowCGFE_DDlPRCHS46_02_HC_df_confint, NarrowCGFE_DDlPRCHS46_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#47 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DDlPRCHS47_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47 )
#HC robust SE
NarrowCGFE_DDlPRCHS47_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlPRCHS47_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlPRCHS47_02_df_all = etable(NarrowCGFE_DDlPRCHS47_02, NarrowCGFE_DDlPRCHS47_02_HC, NarrowCGFE_DDlPRCHS47_02_clusteredNACE)

#export
NarrowCGFE_DDlPRCHS47_02_df_confint = confint(NarrowCGFE_DDlPRCHS47_02)

NarrowCGFE_DDlPRCHS47_02_HC_df_confint = confint(NarrowCGFE_DDlPRCHS47_02_HC)

NarrowCGFE_DDlPRCHS47_02_clusteredNACE_df_confint = confint(NarrowCGFE_DDlPRCHS47_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlPRCHS47_02_df_all,NarrowCGFE_DDlPRCHS47_02_df_confint, NarrowCGFE_DDlPRCHS47_02_HC_df_confint, NarrowCGFE_DDlPRCHS47_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")



#55 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DDlPRCHS55_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55 )
#HC robust SE
NarrowCGFE_DDlPRCHS55_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlPRCHS55_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlPRCHS55_02_df_all = etable(NarrowCGFE_DDlPRCHS55_02, NarrowCGFE_DDlPRCHS55_02_HC, NarrowCGFE_DDlPRCHS55_02_clusteredNACE)

#export
NarrowCGFE_DDlPRCHS55_02_df_confint = confint(NarrowCGFE_DDlPRCHS55_02)

NarrowCGFE_DDlPRCHS55_02_HC_df_confint = confint(NarrowCGFE_DDlPRCHS55_02_HC)

NarrowCGFE_DDlPRCHS55_02_clusteredNACE_df_confint = confint(NarrowCGFE_DDlPRCHS55_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlPRCHS55_02_df_all,NarrowCGFE_DDlPRCHS55_02_df_confint, NarrowCGFE_DDlPRCHS55_02_HC_df_confint, NarrowCGFE_DDlPRCHS55_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#56 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DDlPRCHS56_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56 )
#HC robust SE
NarrowCGFE_DDlPRCHS56_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlPRCHS56_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlPRCHS56_02_df_all = etable(NarrowCGFE_DDlPRCHS56_02, NarrowCGFE_DDlPRCHS56_02_HC, NarrowCGFE_DDlPRCHS56_02_clusteredNACE)

#export
NarrowCGFE_DDlPRCHS56_02_df_confint = confint(NarrowCGFE_DDlPRCHS56_02)

NarrowCGFE_DDlPRCHS56_02_HC_df_confint = confint(NarrowCGFE_DDlPRCHS56_02_HC)

NarrowCGFE_DDlPRCHS56_02_clusteredNACE_df_confint = confint(NarrowCGFE_DDlPRCHS56_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlPRCHS56_02_df_all,NarrowCGFE_DDlPRCHS56_02_df_confint, NarrowCGFE_DDlPRCHS56_02_HC_df_confint, NarrowCGFE_DDlPRCHS56_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")




#45 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DDlOUT45_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45 )
#HC robust SE
NarrowCGFE_DDlOUT45_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlOUT45_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlOUT45_03_df_all = etable(NarrowCGFE_DDlOUT45_03, NarrowCGFE_DDlOUT45_03_HC, NarrowCGFE_DDlOUT45_03_clusteredNACE)

#export
NarrowCGFE_DDlOUT45_03_df_confint = confint(NarrowCGFE_DDlOUT45_03)

NarrowCGFE_DDlOUT45_03_HC_df_confint = confint(NarrowCGFE_DDlOUT45_03_HC)

NarrowCGFE_DDlOUT45_03_clusteredNACE_df_confint = confint(NarrowCGFE_DDlOUT45_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlOUT45_03_df_all,NarrowCGFE_DDlOUT45_03_df_confint, NarrowCGFE_DDlOUT45_03_HC_df_confint, NarrowCGFE_DDlOUT45_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#46 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DDlOUT46_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46 )
#HC robust SE
NarrowCGFE_DDlOUT46_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlOUT46_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlOUT46_03_df_all = etable(NarrowCGFE_DDlOUT46_03, NarrowCGFE_DDlOUT46_03_HC, NarrowCGFE_DDlOUT46_03_clusteredNACE)

#export
NarrowCGFE_DDlOUT46_03_df_confint = confint(NarrowCGFE_DDlOUT46_03)

NarrowCGFE_DDlOUT46_03_HC_df_confint = confint(NarrowCGFE_DDlOUT46_03_HC)

NarrowCGFE_DDlOUT46_03_clusteredNACE_df_confint = confint(NarrowCGFE_DDlOUT46_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlOUT46_03_df_all,NarrowCGFE_DDlOUT46_03_df_confint, NarrowCGFE_DDlOUT46_03_HC_df_confint, NarrowCGFE_DDlOUT46_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#47 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DDlOUT47_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47 )
#HC robust SE
NarrowCGFE_DDlOUT47_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlOUT47_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlOUT47_03_df_all = etable(NarrowCGFE_DDlOUT47_03, NarrowCGFE_DDlOUT47_03_HC, NarrowCGFE_DDlOUT47_03_clusteredNACE)

#export
NarrowCGFE_DDlOUT47_03_df_confint = confint(NarrowCGFE_DDlOUT47_03)

NarrowCGFE_DDlOUT47_03_HC_df_confint = confint(NarrowCGFE_DDlOUT47_03_HC)

NarrowCGFE_DDlOUT47_03_clusteredNACE_df_confint = confint(NarrowCGFE_DDlOUT47_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlOUT47_03_df_all,NarrowCGFE_DDlOUT47_03_df_confint, NarrowCGFE_DDlOUT47_03_HC_df_confint, NarrowCGFE_DDlOUT47_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#55 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DDlOUT55_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55 )
#HC robust SE
NarrowCGFE_DDlOUT55_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlOUT55_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlOUT55_03_df_all = etable(NarrowCGFE_DDlOUT55_03, NarrowCGFE_DDlOUT55_03_HC, NarrowCGFE_DDlOUT55_03_clusteredNACE)

#export
NarrowCGFE_DDlOUT55_03_df_confint = confint(NarrowCGFE_DDlOUT55_03)

NarrowCGFE_DDlOUT55_03_HC_df_confint = confint(NarrowCGFE_DDlOUT55_03_HC)

NarrowCGFE_DDlOUT55_03_clusteredNACE_df_confint = confint(NarrowCGFE_DDlOUT55_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlOUT55_03_df_all,NarrowCGFE_DDlOUT55_03_df_confint, NarrowCGFE_DDlOUT55_03_HC_df_confint, NarrowCGFE_DDlOUT55_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#56 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DDlOUT56_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56 )
#HC robust SE
NarrowCGFE_DDlOUT56_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlOUT56_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlOUT56_03_df_all = etable(NarrowCGFE_DDlOUT56_03, NarrowCGFE_DDlOUT56_03_HC, NarrowCGFE_DDlOUT56_03_clusteredNACE)

#export
NarrowCGFE_DDlOUT56_03_df_confint = confint(NarrowCGFE_DDlOUT56_03)

NarrowCGFE_DDlOUT56_03_HC_df_confint = confint(NarrowCGFE_DDlOUT56_03_HC)

NarrowCGFE_DDlOUT56_03_clusteredNACE_df_confint = confint(NarrowCGFE_DDlOUT56_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlOUT56_03_df_all,NarrowCGFE_DDlOUT56_03_df_confint, NarrowCGFE_DDlOUT56_03_HC_df_confint, NarrowCGFE_DDlOUT56_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#45 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DDlPRCHS45_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45 )
#HC robust SE
NarrowCGFE_DDlPRCHS45_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlPRCHS45_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlPRCHS45_03_df_all = etable(NarrowCGFE_DDlPRCHS45_03, NarrowCGFE_DDlPRCHS45_03_HC, NarrowCGFE_DDlPRCHS45_03_clusteredNACE)

#export
NarrowCGFE_DDlPRCHS45_03_df_confint = confint(NarrowCGFE_DDlPRCHS45_03)

NarrowCGFE_DDlPRCHS45_03_HC_df_confint = confint(NarrowCGFE_DDlPRCHS45_03_HC)

NarrowCGFE_DDlPRCHS45_03_clusteredNACE_df_confint = confint(NarrowCGFE_DDlPRCHS45_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlPRCHS45_03_df_all,NarrowCGFE_DDlPRCHS45_03_df_confint, NarrowCGFE_DDlPRCHS45_03_HC_df_confint, NarrowCGFE_DDlPRCHS45_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#46 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DDlPRCHS46_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46 )
#HC robust SE
NarrowCGFE_DDlPRCHS46_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlPRCHS46_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlPRCHS46_03_df_all = etable(NarrowCGFE_DDlPRCHS46_03, NarrowCGFE_DDlPRCHS46_03_HC, NarrowCGFE_DDlPRCHS46_03_clusteredNACE)

#export
NarrowCGFE_DDlPRCHS46_03_df_confint = confint(NarrowCGFE_DDlPRCHS46_03)

NarrowCGFE_DDlPRCHS46_03_HC_df_confint = confint(NarrowCGFE_DDlPRCHS46_03_HC)

NarrowCGFE_DDlPRCHS46_03_clusteredNACE_df_confint = confint(NarrowCGFE_DDlPRCHS46_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlPRCHS46_03_df_all,NarrowCGFE_DDlPRCHS46_03_df_confint, NarrowCGFE_DDlPRCHS46_03_HC_df_confint, NarrowCGFE_DDlPRCHS46_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#47 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DDlPRCHS47_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47 )
#HC robust SE
NarrowCGFE_DDlPRCHS47_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlPRCHS47_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlPRCHS47_03_df_all = etable(NarrowCGFE_DDlPRCHS47_03, NarrowCGFE_DDlPRCHS47_03_HC, NarrowCGFE_DDlPRCHS47_03_clusteredNACE)

#export
NarrowCGFE_DDlPRCHS47_03_df_confint = confint(NarrowCGFE_DDlPRCHS47_03)

NarrowCGFE_DDlPRCHS47_03_HC_df_confint = confint(NarrowCGFE_DDlPRCHS47_03_HC)

NarrowCGFE_DDlPRCHS47_03_clusteredNACE_df_confint = confint(NarrowCGFE_DDlPRCHS47_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlPRCHS47_03_df_all,NarrowCGFE_DDlPRCHS47_03_df_confint, NarrowCGFE_DDlPRCHS47_03_HC_df_confint, NarrowCGFE_DDlPRCHS47_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#55 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DDlPRCHS55_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55 )
#HC robust SE
NarrowCGFE_DDlPRCHS55_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlPRCHS55_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlPRCHS55_03_df_all = etable(NarrowCGFE_DDlPRCHS55_03, NarrowCGFE_DDlPRCHS55_03_HC, NarrowCGFE_DDlPRCHS55_03_clusteredNACE)

#export
NarrowCGFE_DDlPRCHS55_03_df_confint = confint(NarrowCGFE_DDlPRCHS55_03)

NarrowCGFE_DDlPRCHS55_03_HC_df_confint = confint(NarrowCGFE_DDlPRCHS55_03_HC)

NarrowCGFE_DDlPRCHS55_03_clusteredNACE_df_confint = confint(NarrowCGFE_DDlPRCHS55_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlPRCHS55_03_df_all,NarrowCGFE_DDlPRCHS55_03_df_confint, NarrowCGFE_DDlPRCHS55_03_HC_df_confint, NarrowCGFE_DDlPRCHS55_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#56 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DDlPRCHS56_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56 )
#HC robust SE
NarrowCGFE_DDlPRCHS56_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DDlPRCHS56_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DDlPRCHS56_03_df_all = etable(NarrowCGFE_DDlPRCHS56_03, NarrowCGFE_DDlPRCHS56_03_HC, NarrowCGFE_DDlPRCHS56_03_clusteredNACE)

#export
NarrowCGFE_DDlPRCHS56_03_df_confint = confint(NarrowCGFE_DDlPRCHS56_03)

NarrowCGFE_DDlPRCHS56_03_HC_df_confint = confint(NarrowCGFE_DDlPRCHS56_03_HC)

NarrowCGFE_DDlPRCHS56_03_clusteredNACE_df_confint = confint(NarrowCGFE_DDlPRCHS56_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DDlPRCHS56_03_df_all,NarrowCGFE_DDlPRCHS56_03_df_confint, NarrowCGFE_DDlPRCHS56_03_HC_df_confint, NarrowCGFE_DDlPRCHS56_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")





















#Fixed effect difference in differences analyza s AlgorithmicCG
#45
AlgorithmicCGdatasetNACE45 = c(45,93,79,31,16,58)

AlgorithmicCG45 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE45),]
#46
AlgorithmicCGdatasetNACE46 = c(46,41,59,90,10,95)

AlgorithmicCG46 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE46),]
#47
AlgorithmicCGdatasetNACE47 = c(47,93,79,41,58,90)

AlgorithmicCG47 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE47),]
#55
AlgorithmicCGdatasetNACE55 = c(55,93,16,31,77,11)

AlgorithmicCG55 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE55),]
#56
AlgorithmicCGdatasetNACE56 = c(56,14,96,10,90,43)

AlgorithmicCG56 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE56),]



#ALGORITHMIC


#45 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT45_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DDlOUT45_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT45_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT45_01_df_all = etable(AlgorithmicCGFE_DDlOUT45_01, AlgorithmicCGFE_DDlOUT45_01_HC, AlgorithmicCGFE_DDlOUT45_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT45_01_df_confint = confint(AlgorithmicCGFE_DDlOUT45_01)

AlgorithmicCGFE_DDlOUT45_01_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT45_01_HC)

AlgorithmicCGFE_DDlOUT45_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT45_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT45_01_df_all,AlgorithmicCGFE_DDlOUT45_01_df_confint, AlgorithmicCGFE_DDlOUT45_01_HC_df_confint, AlgorithmicCGFE_DDlOUT45_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#46 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT46_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DDlOUT46_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT46_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT46_01_df_all = etable(AlgorithmicCGFE_DDlOUT46_01, AlgorithmicCGFE_DDlOUT46_01_HC, AlgorithmicCGFE_DDlOUT46_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT46_01_df_confint = confint(AlgorithmicCGFE_DDlOUT46_01)

AlgorithmicCGFE_DDlOUT46_01_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT46_01_HC)

AlgorithmicCGFE_DDlOUT46_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT46_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT46_01_df_all,AlgorithmicCGFE_DDlOUT46_01_df_confint, AlgorithmicCGFE_DDlOUT46_01_HC_df_confint, AlgorithmicCGFE_DDlOUT46_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#47 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT47_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DDlOUT47_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT47_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT47_01_df_all = etable(AlgorithmicCGFE_DDlOUT47_01, AlgorithmicCGFE_DDlOUT47_01_HC, AlgorithmicCGFE_DDlOUT47_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT47_01_df_confint = confint(AlgorithmicCGFE_DDlOUT47_01)

AlgorithmicCGFE_DDlOUT47_01_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT47_01_HC)

AlgorithmicCGFE_DDlOUT47_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT47_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT47_01_df_all,AlgorithmicCGFE_DDlOUT47_01_df_confint, AlgorithmicCGFE_DDlOUT47_01_HC_df_confint, AlgorithmicCGFE_DDlOUT47_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")




#55 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT55_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DDlOUT55_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT55_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT55_01_df_all = etable(AlgorithmicCGFE_DDlOUT55_01, AlgorithmicCGFE_DDlOUT55_01_HC, AlgorithmicCGFE_DDlOUT55_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT55_01_df_confint = confint(AlgorithmicCGFE_DDlOUT55_01)

AlgorithmicCGFE_DDlOUT55_01_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT55_01_HC)

AlgorithmicCGFE_DDlOUT55_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT55_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT55_01_df_all,AlgorithmicCGFE_DDlOUT55_01_df_confint, AlgorithmicCGFE_DDlOUT55_01_HC_df_confint, AlgorithmicCGFE_DDlOUT55_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")





#56 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT56_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DDlOUT56_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT56_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT56_01_df_all = etable(AlgorithmicCGFE_DDlOUT56_01, AlgorithmicCGFE_DDlOUT56_01_HC, AlgorithmicCGFE_DDlOUT56_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT56_01_df_confint = confint(AlgorithmicCGFE_DDlOUT56_01)

AlgorithmicCGFE_DDlOUT56_01_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT56_01_HC)

AlgorithmicCGFE_DDlOUT56_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT56_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT56_01_df_all,AlgorithmicCGFE_DDlOUT56_01_df_confint, AlgorithmicCGFE_DDlOUT56_01_HC_df_confint, AlgorithmicCGFE_DDlOUT56_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#45 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS45_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS45_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS45_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS45_01_df_all = etable(AlgorithmicCGFE_DDlPRCHS45_01, AlgorithmicCGFE_DDlPRCHS45_01_HC, AlgorithmicCGFE_DDlPRCHS45_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS45_01_df_confint = confint(AlgorithmicCGFE_DDlPRCHS45_01)

AlgorithmicCGFE_DDlPRCHS45_01_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS45_01_HC)

AlgorithmicCGFE_DDlPRCHS45_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS45_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS45_01_df_all,AlgorithmicCGFE_DDlPRCHS45_01_df_confint, AlgorithmicCGFE_DDlPRCHS45_01_HC_df_confint, AlgorithmicCGFE_DDlPRCHS45_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#46 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS46_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS46_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS46_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS46_01_df_all = etable(AlgorithmicCGFE_DDlPRCHS46_01, AlgorithmicCGFE_DDlPRCHS46_01_HC, AlgorithmicCGFE_DDlPRCHS46_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS46_01_df_confint = confint(AlgorithmicCGFE_DDlPRCHS46_01)

AlgorithmicCGFE_DDlPRCHS46_01_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS46_01_HC)

AlgorithmicCGFE_DDlPRCHS46_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS46_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS46_01_df_all,AlgorithmicCGFE_DDlPRCHS46_01_df_confint, AlgorithmicCGFE_DDlPRCHS46_01_HC_df_confint, AlgorithmicCGFE_DDlPRCHS46_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#47 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS47_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS47_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS47_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS47_01_df_all = etable(AlgorithmicCGFE_DDlPRCHS47_01, AlgorithmicCGFE_DDlPRCHS47_01_HC, AlgorithmicCGFE_DDlPRCHS47_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS47_01_df_confint = confint(AlgorithmicCGFE_DDlPRCHS47_01)

AlgorithmicCGFE_DDlPRCHS47_01_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS47_01_HC)

AlgorithmicCGFE_DDlPRCHS47_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS47_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS47_01_df_all,AlgorithmicCGFE_DDlPRCHS47_01_df_confint, AlgorithmicCGFE_DDlPRCHS47_01_HC_df_confint, AlgorithmicCGFE_DDlPRCHS47_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")




#55 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS55_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS55_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS55_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS55_01_df_all = etable(AlgorithmicCGFE_DDlPRCHS55_01, AlgorithmicCGFE_DDlPRCHS55_01_HC, AlgorithmicCGFE_DDlPRCHS55_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS55_01_df_confint = confint(AlgorithmicCGFE_DDlPRCHS55_01)

AlgorithmicCGFE_DDlPRCHS55_01_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS55_01_HC)

AlgorithmicCGFE_DDlPRCHS55_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS55_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS55_01_df_all,AlgorithmicCGFE_DDlPRCHS55_01_df_confint, AlgorithmicCGFE_DDlPRCHS55_01_HC_df_confint, AlgorithmicCGFE_DDlPRCHS55_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")





#56 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS56_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS56_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS56_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS56_01_df_all = etable(AlgorithmicCGFE_DDlPRCHS56_01, AlgorithmicCGFE_DDlPRCHS56_01_HC, AlgorithmicCGFE_DDlPRCHS56_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS56_01_df_confint = confint(AlgorithmicCGFE_DDlPRCHS56_01)

AlgorithmicCGFE_DDlPRCHS56_01_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS56_01_HC)

AlgorithmicCGFE_DDlPRCHS56_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS56_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS56_01_df_all,AlgorithmicCGFE_DDlPRCHS56_01_df_confint, AlgorithmicCGFE_DDlPRCHS56_01_HC_df_confint, AlgorithmicCGFE_DDlPRCHS56_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")










#45 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT45_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DDlOUT45_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT45_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT45_02_df_all = etable(AlgorithmicCGFE_DDlOUT45_02, AlgorithmicCGFE_DDlOUT45_02_HC, AlgorithmicCGFE_DDlOUT45_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT45_02_df_confint = confint(AlgorithmicCGFE_DDlOUT45_02)

AlgorithmicCGFE_DDlOUT45_02_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT45_02_HC)

AlgorithmicCGFE_DDlOUT45_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT45_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT45_02_df_all,AlgorithmicCGFE_DDlOUT45_02_df_confint, AlgorithmicCGFE_DDlOUT45_02_HC_df_confint, AlgorithmicCGFE_DDlOUT45_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#46 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT46_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DDlOUT46_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT46_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT46_02_df_all = etable(AlgorithmicCGFE_DDlOUT46_02, AlgorithmicCGFE_DDlOUT46_02_HC, AlgorithmicCGFE_DDlOUT46_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT46_02_df_confint = confint(AlgorithmicCGFE_DDlOUT46_02)

AlgorithmicCGFE_DDlOUT46_02_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT46_02_HC)

AlgorithmicCGFE_DDlOUT46_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT46_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT46_02_df_all,AlgorithmicCGFE_DDlOUT46_02_df_confint, AlgorithmicCGFE_DDlOUT46_02_HC_df_confint, AlgorithmicCGFE_DDlOUT46_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#47 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT47_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DDlOUT47_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT47_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT47_02_df_all = etable(AlgorithmicCGFE_DDlOUT47_02, AlgorithmicCGFE_DDlOUT47_02_HC, AlgorithmicCGFE_DDlOUT47_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT47_02_df_confint = confint(AlgorithmicCGFE_DDlOUT47_02)

AlgorithmicCGFE_DDlOUT47_02_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT47_02_HC)

AlgorithmicCGFE_DDlOUT47_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT47_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT47_02_df_all,AlgorithmicCGFE_DDlOUT47_02_df_confint, AlgorithmicCGFE_DDlOUT47_02_HC_df_confint, AlgorithmicCGFE_DDlOUT47_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")



#55 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT55_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DDlOUT55_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT55_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT55_02_df_all = etable(AlgorithmicCGFE_DDlOUT55_02, AlgorithmicCGFE_DDlOUT55_02_HC, AlgorithmicCGFE_DDlOUT55_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT55_02_df_confint = confint(AlgorithmicCGFE_DDlOUT55_02)

AlgorithmicCGFE_DDlOUT55_02_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT55_02_HC)

AlgorithmicCGFE_DDlOUT55_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT55_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT55_02_df_all,AlgorithmicCGFE_DDlOUT55_02_df_confint, AlgorithmicCGFE_DDlOUT55_02_HC_df_confint, AlgorithmicCGFE_DDlOUT55_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#56 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT56_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DDlOUT56_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT56_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT56_02_df_all = etable(AlgorithmicCGFE_DDlOUT56_02, AlgorithmicCGFE_DDlOUT56_02_HC, AlgorithmicCGFE_DDlOUT56_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT56_02_df_confint = confint(AlgorithmicCGFE_DDlOUT56_02)

AlgorithmicCGFE_DDlOUT56_02_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT56_02_HC)

AlgorithmicCGFE_DDlOUT56_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT56_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT56_02_df_all,AlgorithmicCGFE_DDlOUT56_02_df_confint, AlgorithmicCGFE_DDlOUT56_02_HC_df_confint, AlgorithmicCGFE_DDlOUT56_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")






#45 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS45_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS45_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS45_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS45_02_df_all = etable(AlgorithmicCGFE_DDlPRCHS45_02, AlgorithmicCGFE_DDlPRCHS45_02_HC, AlgorithmicCGFE_DDlPRCHS45_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS45_02_df_confint = confint(AlgorithmicCGFE_DDlPRCHS45_02)

AlgorithmicCGFE_DDlPRCHS45_02_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS45_02_HC)

AlgorithmicCGFE_DDlPRCHS45_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS45_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS45_02_df_all,AlgorithmicCGFE_DDlPRCHS45_02_df_confint, AlgorithmicCGFE_DDlPRCHS45_02_HC_df_confint, AlgorithmicCGFE_DDlPRCHS45_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#46 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS46_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS46_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS46_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS46_02_df_all = etable(AlgorithmicCGFE_DDlPRCHS46_02, AlgorithmicCGFE_DDlPRCHS46_02_HC, AlgorithmicCGFE_DDlPRCHS46_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS46_02_df_confint = confint(AlgorithmicCGFE_DDlPRCHS46_02)

AlgorithmicCGFE_DDlPRCHS46_02_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS46_02_HC)

AlgorithmicCGFE_DDlPRCHS46_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS46_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS46_02_df_all,AlgorithmicCGFE_DDlPRCHS46_02_df_confint, AlgorithmicCGFE_DDlPRCHS46_02_HC_df_confint, AlgorithmicCGFE_DDlPRCHS46_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#47 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS47_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS47_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS47_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS47_02_df_all = etable(AlgorithmicCGFE_DDlPRCHS47_02, AlgorithmicCGFE_DDlPRCHS47_02_HC, AlgorithmicCGFE_DDlPRCHS47_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS47_02_df_confint = confint(AlgorithmicCGFE_DDlPRCHS47_02)

AlgorithmicCGFE_DDlPRCHS47_02_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS47_02_HC)

AlgorithmicCGFE_DDlPRCHS47_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS47_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS47_02_df_all,AlgorithmicCGFE_DDlPRCHS47_02_df_confint, AlgorithmicCGFE_DDlPRCHS47_02_HC_df_confint, AlgorithmicCGFE_DDlPRCHS47_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")



#55 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS55_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS55_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS55_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS55_02_df_all = etable(AlgorithmicCGFE_DDlPRCHS55_02, AlgorithmicCGFE_DDlPRCHS55_02_HC, AlgorithmicCGFE_DDlPRCHS55_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS55_02_df_confint = confint(AlgorithmicCGFE_DDlPRCHS55_02)

AlgorithmicCGFE_DDlPRCHS55_02_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS55_02_HC)

AlgorithmicCGFE_DDlPRCHS55_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS55_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS55_02_df_all,AlgorithmicCGFE_DDlPRCHS55_02_df_confint, AlgorithmicCGFE_DDlPRCHS55_02_HC_df_confint, AlgorithmicCGFE_DDlPRCHS55_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#56 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS56_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS56_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS56_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS56_02_df_all = etable(AlgorithmicCGFE_DDlPRCHS56_02, AlgorithmicCGFE_DDlPRCHS56_02_HC, AlgorithmicCGFE_DDlPRCHS56_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS56_02_df_confint = confint(AlgorithmicCGFE_DDlPRCHS56_02)

AlgorithmicCGFE_DDlPRCHS56_02_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS56_02_HC)

AlgorithmicCGFE_DDlPRCHS56_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS56_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS56_02_df_all,AlgorithmicCGFE_DDlPRCHS56_02_df_confint, AlgorithmicCGFE_DDlPRCHS56_02_HC_df_confint, AlgorithmicCGFE_DDlPRCHS56_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")




#45 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT45_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DDlOUT45_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT45_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT45_03_df_all = etable(AlgorithmicCGFE_DDlOUT45_03, AlgorithmicCGFE_DDlOUT45_03_HC, AlgorithmicCGFE_DDlOUT45_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT45_03_df_confint = confint(AlgorithmicCGFE_DDlOUT45_03)

AlgorithmicCGFE_DDlOUT45_03_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT45_03_HC)

AlgorithmicCGFE_DDlOUT45_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT45_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT45_03_df_all,AlgorithmicCGFE_DDlOUT45_03_df_confint, AlgorithmicCGFE_DDlOUT45_03_HC_df_confint, AlgorithmicCGFE_DDlOUT45_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#46 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT46_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DDlOUT46_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT46_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT46_03_df_all = etable(AlgorithmicCGFE_DDlOUT46_03, AlgorithmicCGFE_DDlOUT46_03_HC, AlgorithmicCGFE_DDlOUT46_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT46_03_df_confint = confint(AlgorithmicCGFE_DDlOUT46_03)

AlgorithmicCGFE_DDlOUT46_03_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT46_03_HC)

AlgorithmicCGFE_DDlOUT46_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT46_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT46_03_df_all,AlgorithmicCGFE_DDlOUT46_03_df_confint, AlgorithmicCGFE_DDlOUT46_03_HC_df_confint, AlgorithmicCGFE_DDlOUT46_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#47 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT47_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DDlOUT47_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT47_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT47_03_df_all = etable(AlgorithmicCGFE_DDlOUT47_03, AlgorithmicCGFE_DDlOUT47_03_HC, AlgorithmicCGFE_DDlOUT47_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT47_03_df_confint = confint(AlgorithmicCGFE_DDlOUT47_03)

AlgorithmicCGFE_DDlOUT47_03_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT47_03_HC)

AlgorithmicCGFE_DDlOUT47_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT47_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT47_03_df_all,AlgorithmicCGFE_DDlOUT47_03_df_confint, AlgorithmicCGFE_DDlOUT47_03_HC_df_confint, AlgorithmicCGFE_DDlOUT47_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#55 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT55_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DDlOUT55_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT55_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT55_03_df_all = etable(AlgorithmicCGFE_DDlOUT55_03, AlgorithmicCGFE_DDlOUT55_03_HC, AlgorithmicCGFE_DDlOUT55_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT55_03_df_confint = confint(AlgorithmicCGFE_DDlOUT55_03)

AlgorithmicCGFE_DDlOUT55_03_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT55_03_HC)

AlgorithmicCGFE_DDlOUT55_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT55_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT55_03_df_all,AlgorithmicCGFE_DDlOUT55_03_df_confint, AlgorithmicCGFE_DDlOUT55_03_HC_df_confint, AlgorithmicCGFE_DDlOUT55_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#56 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT56_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DDlOUT56_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT56_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT56_03_df_all = etable(AlgorithmicCGFE_DDlOUT56_03, AlgorithmicCGFE_DDlOUT56_03_HC, AlgorithmicCGFE_DDlOUT56_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT56_03_df_confint = confint(AlgorithmicCGFE_DDlOUT56_03)

AlgorithmicCGFE_DDlOUT56_03_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT56_03_HC)

AlgorithmicCGFE_DDlOUT56_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT56_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT56_03_df_all,AlgorithmicCGFE_DDlOUT56_03_df_confint, AlgorithmicCGFE_DDlOUT56_03_HC_df_confint, AlgorithmicCGFE_DDlOUT56_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#45 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS45_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS45_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS45_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS45_03_df_all = etable(AlgorithmicCGFE_DDlPRCHS45_03, AlgorithmicCGFE_DDlPRCHS45_03_HC, AlgorithmicCGFE_DDlPRCHS45_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS45_03_df_confint = confint(AlgorithmicCGFE_DDlPRCHS45_03)

AlgorithmicCGFE_DDlPRCHS45_03_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS45_03_HC)

AlgorithmicCGFE_DDlPRCHS45_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS45_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS45_03_df_all,AlgorithmicCGFE_DDlPRCHS45_03_df_confint, AlgorithmicCGFE_DDlPRCHS45_03_HC_df_confint, AlgorithmicCGFE_DDlPRCHS45_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#46 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS46_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS46_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS46_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS46_03_df_all = etable(AlgorithmicCGFE_DDlPRCHS46_03, AlgorithmicCGFE_DDlPRCHS46_03_HC, AlgorithmicCGFE_DDlPRCHS46_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS46_03_df_confint = confint(AlgorithmicCGFE_DDlPRCHS46_03)

AlgorithmicCGFE_DDlPRCHS46_03_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS46_03_HC)

AlgorithmicCGFE_DDlPRCHS46_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS46_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS46_03_df_all,AlgorithmicCGFE_DDlPRCHS46_03_df_confint, AlgorithmicCGFE_DDlPRCHS46_03_HC_df_confint, AlgorithmicCGFE_DDlPRCHS46_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#47 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS47_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS47_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS47_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS47_03_df_all = etable(AlgorithmicCGFE_DDlPRCHS47_03, AlgorithmicCGFE_DDlPRCHS47_03_HC, AlgorithmicCGFE_DDlPRCHS47_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS47_03_df_confint = confint(AlgorithmicCGFE_DDlPRCHS47_03)

AlgorithmicCGFE_DDlPRCHS47_03_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS47_03_HC)

AlgorithmicCGFE_DDlPRCHS47_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS47_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS47_03_df_all,AlgorithmicCGFE_DDlPRCHS47_03_df_confint, AlgorithmicCGFE_DDlPRCHS47_03_HC_df_confint, AlgorithmicCGFE_DDlPRCHS47_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#55 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS55_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS55_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS55_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS55_03_df_all = etable(AlgorithmicCGFE_DDlPRCHS55_03, AlgorithmicCGFE_DDlPRCHS55_03_HC, AlgorithmicCGFE_DDlPRCHS55_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS55_03_df_confint = confint(AlgorithmicCGFE_DDlPRCHS55_03)

AlgorithmicCGFE_DDlPRCHS55_03_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS55_03_HC)

AlgorithmicCGFE_DDlPRCHS55_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS55_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS55_03_df_all,AlgorithmicCGFE_DDlPRCHS55_03_df_confint, AlgorithmicCGFE_DDlPRCHS55_03_HC_df_confint, AlgorithmicCGFE_DDlPRCHS55_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#56 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS56_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS56_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS56_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS56_03_df_all = etable(AlgorithmicCGFE_DDlPRCHS56_03, AlgorithmicCGFE_DDlPRCHS56_03_HC, AlgorithmicCGFE_DDlPRCHS56_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS56_03_df_confint = confint(AlgorithmicCGFE_DDlPRCHS56_03)

AlgorithmicCGFE_DDlPRCHS56_03_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS56_03_HC)

AlgorithmicCGFE_DDlPRCHS56_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS56_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS56_03_df_all,AlgorithmicCGFE_DDlPRCHS56_03_df_confint, AlgorithmicCGFE_DDlPRCHS56_03_HC_df_confint, AlgorithmicCGFE_DDlPRCHS56_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")



































#ENTRY A EXIT
#BROAD
#45 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DD_entry45_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_entry45_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_entry45_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45)
#ETABLE

BroadCGFE_DD_entry45_01_df_all = etable(BroadCGFE_DD_entry45_01, BroadCGFE_DD_entry45_01_HC, BroadCGFE_DD_entry45_01_clusteredNACE)

#export
BroadCGFE_DD_entry45_01_df_confint = confint(BroadCGFE_DD_entry45_01)

BroadCGFE_DD_entry45_01_HC_df_confint = confint(BroadCGFE_DD_entry45_01_HC)

BroadCGFE_DD_entry45_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_entry45_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_entry45_01_df_all,BroadCGFE_DD_entry45_01_df_confint, BroadCGFE_DD_entry45_01_HC_df_confint, BroadCGFE_DD_entry45_01_clusteredNACE_df_confint ), path = "Broad CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")


#46 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DD_entry46_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_entry46_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_entry46_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46)
#ETABLE

BroadCGFE_DD_entry46_01_df_all = etable(BroadCGFE_DD_entry46_01, BroadCGFE_DD_entry46_01_HC, BroadCGFE_DD_entry46_01_clusteredNACE)

#export
BroadCGFE_DD_entry46_01_df_confint = confint(BroadCGFE_DD_entry46_01)

BroadCGFE_DD_entry46_01_HC_df_confint = confint(BroadCGFE_DD_entry46_01_HC)

BroadCGFE_DD_entry46_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_entry46_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_entry46_01_df_all,BroadCGFE_DD_entry46_01_df_confint, BroadCGFE_DD_entry46_01_HC_df_confint, BroadCGFE_DD_entry46_01_clusteredNACE_df_confint ), path = "Broad CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")

#47 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DD_entry47_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_entry47_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_entry47_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47)
#ETABLE

BroadCGFE_DD_entry47_01_df_all = etable(BroadCGFE_DD_entry47_01, BroadCGFE_DD_entry47_01_HC, BroadCGFE_DD_entry47_01_clusteredNACE)

#export
BroadCGFE_DD_entry47_01_df_confint = confint(BroadCGFE_DD_entry47_01)

BroadCGFE_DD_entry47_01_HC_df_confint = confint(BroadCGFE_DD_entry47_01_HC)

BroadCGFE_DD_entry47_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_entry47_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_entry47_01_df_all,BroadCGFE_DD_entry47_01_df_confint, BroadCGFE_DD_entry47_01_HC_df_confint, BroadCGFE_DD_entry47_01_clusteredNACE_df_confint ), path = "Broad CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")


#55 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DD_entry55_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_entry55_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_entry55_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55)
#ETABLE

BroadCGFE_DD_entry55_01_df_all = etable(BroadCGFE_DD_entry55_01, BroadCGFE_DD_entry55_01_HC, BroadCGFE_DD_entry55_01_clusteredNACE)

#export
BroadCGFE_DD_entry55_01_df_confint = confint(BroadCGFE_DD_entry55_01)

BroadCGFE_DD_entry55_01_HC_df_confint = confint(BroadCGFE_DD_entry55_01_HC)

BroadCGFE_DD_entry55_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_entry55_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_entry55_01_df_all,BroadCGFE_DD_entry55_01_df_confint, BroadCGFE_DD_entry55_01_HC_df_confint, BroadCGFE_DD_entry55_01_clusteredNACE_df_confint ), path = "Broad CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")

#56 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DD_entry56_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_entry56_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_entry56_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56)
#ETABLE

BroadCGFE_DD_entry56_01_df_all = etable(BroadCGFE_DD_entry56_01, BroadCGFE_DD_entry56_01_HC, BroadCGFE_DD_entry56_01_clusteredNACE)

#export
BroadCGFE_DD_entry56_01_df_confint = confint(BroadCGFE_DD_entry56_01)

BroadCGFE_DD_entry56_01_HC_df_confint = confint(BroadCGFE_DD_entry56_01_HC)

BroadCGFE_DD_entry56_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_entry56_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_entry56_01_df_all,BroadCGFE_DD_entry56_01_df_confint, BroadCGFE_DD_entry56_01_HC_df_confint, BroadCGFE_DD_entry56_01_clusteredNACE_df_confint ), path = "Broad CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")






#45 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DD_exit45_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_exit45_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_exit45_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45)
#ETABLE

BroadCGFE_DD_exit45_01_df_all = etable(BroadCGFE_DD_exit45_01, BroadCGFE_DD_exit45_01_HC, BroadCGFE_DD_exit45_01_clusteredNACE)

#export
BroadCGFE_DD_exit45_01_df_confint = confint(BroadCGFE_DD_exit45_01)

BroadCGFE_DD_exit45_01_HC_df_confint = confint(BroadCGFE_DD_exit45_01_HC)

BroadCGFE_DD_exit45_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_exit45_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_exit45_01_df_all,BroadCGFE_DD_exit45_01_df_confint, BroadCGFE_DD_exit45_01_HC_df_confint, BroadCGFE_DD_exit45_01_clusteredNACE_df_confint ), path = "Broad CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")


#46 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DD_exit46_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_exit46_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_exit46_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46)
#ETABLE

BroadCGFE_DD_exit46_01_df_all = etable(BroadCGFE_DD_exit46_01, BroadCGFE_DD_exit46_01_HC, BroadCGFE_DD_exit46_01_clusteredNACE)

#export
BroadCGFE_DD_exit46_01_df_confint = confint(BroadCGFE_DD_exit46_01)

BroadCGFE_DD_exit46_01_HC_df_confint = confint(BroadCGFE_DD_exit46_01_HC)

BroadCGFE_DD_exit46_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_exit46_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_exit46_01_df_all,BroadCGFE_DD_exit46_01_df_confint, BroadCGFE_DD_exit46_01_HC_df_confint, BroadCGFE_DD_exit46_01_clusteredNACE_df_confint ), path = "Broad CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")

#47 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DD_exit47_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_exit47_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_exit47_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47)
#ETABLE

BroadCGFE_DD_exit47_01_df_all = etable(BroadCGFE_DD_exit47_01, BroadCGFE_DD_exit47_01_HC, BroadCGFE_DD_exit47_01_clusteredNACE)

#export
BroadCGFE_DD_exit47_01_df_confint = confint(BroadCGFE_DD_exit47_01)

BroadCGFE_DD_exit47_01_HC_df_confint = confint(BroadCGFE_DD_exit47_01_HC)

BroadCGFE_DD_exit47_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_exit47_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_exit47_01_df_all,BroadCGFE_DD_exit47_01_df_confint, BroadCGFE_DD_exit47_01_HC_df_confint, BroadCGFE_DD_exit47_01_clusteredNACE_df_confint ), path = "Broad CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")


#55 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DD_exit55_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_exit55_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_exit55_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55)
#ETABLE

BroadCGFE_DD_exit55_01_df_all = etable(BroadCGFE_DD_exit55_01, BroadCGFE_DD_exit55_01_HC, BroadCGFE_DD_exit55_01_clusteredNACE)

#export
BroadCGFE_DD_exit55_01_df_confint = confint(BroadCGFE_DD_exit55_01)

BroadCGFE_DD_exit55_01_HC_df_confint = confint(BroadCGFE_DD_exit55_01_HC)

BroadCGFE_DD_exit55_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_exit55_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_exit55_01_df_all,BroadCGFE_DD_exit55_01_df_confint, BroadCGFE_DD_exit55_01_HC_df_confint, BroadCGFE_DD_exit55_01_clusteredNACE_df_confint ), path = "Broad CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")

#56 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
BroadCGFE_DD_exit56_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_exit56_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_exit56_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56)
#ETABLE

BroadCGFE_DD_exit56_01_df_all = etable(BroadCGFE_DD_exit56_01, BroadCGFE_DD_exit56_01_HC, BroadCGFE_DD_exit56_01_clusteredNACE)

#export
BroadCGFE_DD_exit56_01_df_confint = confint(BroadCGFE_DD_exit56_01)

BroadCGFE_DD_exit56_01_HC_df_confint = confint(BroadCGFE_DD_exit56_01_HC)

BroadCGFE_DD_exit56_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_exit56_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_exit56_01_df_all,BroadCGFE_DD_exit56_01_df_confint, BroadCGFE_DD_exit56_01_HC_df_confint, BroadCGFE_DD_exit56_01_clusteredNACE_df_confint ), path = "Broad CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")











#45 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_entry45_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_entry45_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_entry45_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45)
#ETABLE

BroadCGFE_DD_entry45_02_df_all = etable(BroadCGFE_DD_entry45_02, BroadCGFE_DD_entry45_02_HC, BroadCGFE_DD_entry45_02_clusteredNACE)

#export
BroadCGFE_DD_entry45_02_df_confint = confint(BroadCGFE_DD_entry45_02)

BroadCGFE_DD_entry45_02_HC_df_confint = confint(BroadCGFE_DD_entry45_02_HC)

BroadCGFE_DD_entry45_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_entry45_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_entry45_02_df_all,BroadCGFE_DD_entry45_02_df_confint, BroadCGFE_DD_entry45_02_HC_df_confint, BroadCGFE_DD_entry45_02_clusteredNACE_df_confint ), path = "Broad CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")



#46 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_entry46_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_entry46_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_entry46_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46)
#ETABLE

BroadCGFE_DD_entry46_02_df_all = etable(BroadCGFE_DD_entry46_02, BroadCGFE_DD_entry46_02_HC, BroadCGFE_DD_entry46_02_clusteredNACE)

#export
BroadCGFE_DD_entry46_02_df_confint = confint(BroadCGFE_DD_entry46_02)

BroadCGFE_DD_entry46_02_HC_df_confint = confint(BroadCGFE_DD_entry46_02_HC)

BroadCGFE_DD_entry46_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_entry46_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_entry46_02_df_all,BroadCGFE_DD_entry46_02_df_confint, BroadCGFE_DD_entry46_02_HC_df_confint, BroadCGFE_DD_entry46_02_clusteredNACE_df_confint ), path = "Broad CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")


#47 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_entry47_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_entry47_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_entry47_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47)
#ETABLE

BroadCGFE_DD_entry47_02_df_all = etable(BroadCGFE_DD_entry47_02, BroadCGFE_DD_entry47_02_HC, BroadCGFE_DD_entry47_02_clusteredNACE)

#export
BroadCGFE_DD_entry47_02_df_confint = confint(BroadCGFE_DD_entry47_02)

BroadCGFE_DD_entry47_02_HC_df_confint = confint(BroadCGFE_DD_entry47_02_HC)

BroadCGFE_DD_entry47_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_entry47_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_entry47_02_df_all,BroadCGFE_DD_entry47_02_df_confint, BroadCGFE_DD_entry47_02_HC_df_confint, BroadCGFE_DD_entry47_02_clusteredNACE_df_confint ), path = "Broad CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")


#55 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_entry55_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_entry55_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_entry55_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55)
#ETABLE

BroadCGFE_DD_entry55_02_df_all = etable(BroadCGFE_DD_entry55_02, BroadCGFE_DD_entry55_02_HC, BroadCGFE_DD_entry55_02_clusteredNACE)

#export
BroadCGFE_DD_entry55_02_df_confint = confint(BroadCGFE_DD_entry55_02)

BroadCGFE_DD_entry55_02_HC_df_confint = confint(BroadCGFE_DD_entry55_02_HC)

BroadCGFE_DD_entry55_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_entry55_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_entry55_02_df_all,BroadCGFE_DD_entry55_02_df_confint, BroadCGFE_DD_entry55_02_HC_df_confint, BroadCGFE_DD_entry55_02_clusteredNACE_df_confint ), path = "Broad CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")



#56 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_entry56_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_entry56_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_entry56_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56)
#ETABLE

BroadCGFE_DD_entry56_02_df_all = etable(BroadCGFE_DD_entry56_02, BroadCGFE_DD_entry56_02_HC, BroadCGFE_DD_entry56_02_clusteredNACE)

#export
BroadCGFE_DD_entry56_02_df_confint = confint(BroadCGFE_DD_entry56_02)

BroadCGFE_DD_entry56_02_HC_df_confint = confint(BroadCGFE_DD_entry56_02_HC)

BroadCGFE_DD_entry56_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_entry56_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_entry56_02_df_all,BroadCGFE_DD_entry56_02_df_confint, BroadCGFE_DD_entry56_02_HC_df_confint, BroadCGFE_DD_entry56_02_clusteredNACE_df_confint ), path = "Broad CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")

#45 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_exit45_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_exit45_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_exit45_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45)
#ETABLE

BroadCGFE_DD_exit45_02_df_all = etable(BroadCGFE_DD_exit45_02, BroadCGFE_DD_exit45_02_HC, BroadCGFE_DD_exit45_02_clusteredNACE)

#export
BroadCGFE_DD_exit45_02_df_confint = confint(BroadCGFE_DD_exit45_02)

BroadCGFE_DD_exit45_02_HC_df_confint = confint(BroadCGFE_DD_exit45_02_HC)

BroadCGFE_DD_exit45_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_exit45_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_exit45_02_df_all,BroadCGFE_DD_exit45_02_df_confint, BroadCGFE_DD_exit45_02_HC_df_confint, BroadCGFE_DD_exit45_02_clusteredNACE_df_confint ), path = "Broad CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")



#46 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_exit46_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_exit46_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_exit46_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46)
#ETABLE

BroadCGFE_DD_exit46_02_df_all = etable(BroadCGFE_DD_exit46_02, BroadCGFE_DD_exit46_02_HC, BroadCGFE_DD_exit46_02_clusteredNACE)

#export
BroadCGFE_DD_exit46_02_df_confint = confint(BroadCGFE_DD_exit46_02)

BroadCGFE_DD_exit46_02_HC_df_confint = confint(BroadCGFE_DD_exit46_02_HC)

BroadCGFE_DD_exit46_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_exit46_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_exit46_02_df_all,BroadCGFE_DD_exit46_02_df_confint, BroadCGFE_DD_exit46_02_HC_df_confint, BroadCGFE_DD_exit46_02_clusteredNACE_df_confint ), path = "Broad CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")


#47 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_exit47_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_exit47_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_exit47_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47)
#ETABLE

BroadCGFE_DD_exit47_02_df_all = etable(BroadCGFE_DD_exit47_02, BroadCGFE_DD_exit47_02_HC, BroadCGFE_DD_exit47_02_clusteredNACE)

#export
BroadCGFE_DD_exit47_02_df_confint = confint(BroadCGFE_DD_exit47_02)

BroadCGFE_DD_exit47_02_HC_df_confint = confint(BroadCGFE_DD_exit47_02_HC)

BroadCGFE_DD_exit47_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_exit47_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_exit47_02_df_all,BroadCGFE_DD_exit47_02_df_confint, BroadCGFE_DD_exit47_02_HC_df_confint, BroadCGFE_DD_exit47_02_clusteredNACE_df_confint ), path = "Broad CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")


#55 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_exit55_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_exit55_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_exit55_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55)
#ETABLE

BroadCGFE_DD_exit55_02_df_all = etable(BroadCGFE_DD_exit55_02, BroadCGFE_DD_exit55_02_HC, BroadCGFE_DD_exit55_02_clusteredNACE)

#export
BroadCGFE_DD_exit55_02_df_confint = confint(BroadCGFE_DD_exit55_02)

BroadCGFE_DD_exit55_02_HC_df_confint = confint(BroadCGFE_DD_exit55_02_HC)

BroadCGFE_DD_exit55_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_exit55_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_exit55_02_df_all,BroadCGFE_DD_exit55_02_df_confint, BroadCGFE_DD_exit55_02_HC_df_confint, BroadCGFE_DD_exit55_02_clusteredNACE_df_confint ), path = "Broad CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")



#56 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_exit56_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_exit56_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_exit56_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56)
#ETABLE

BroadCGFE_DD_exit56_02_df_all = etable(BroadCGFE_DD_exit56_02, BroadCGFE_DD_exit56_02_HC, BroadCGFE_DD_exit56_02_clusteredNACE)

#export
BroadCGFE_DD_exit56_02_df_confint = confint(BroadCGFE_DD_exit56_02)

BroadCGFE_DD_exit56_02_HC_df_confint = confint(BroadCGFE_DD_exit56_02_HC)

BroadCGFE_DD_exit56_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_exit56_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_exit56_02_df_all,BroadCGFE_DD_exit56_02_df_confint, BroadCGFE_DD_exit56_02_HC_df_confint, BroadCGFE_DD_exit56_02_clusteredNACE_df_confint ), path = "Broad CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")








#45 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_entry45_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_entry45_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_entry45_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45)
#ETABLE

BroadCGFE_DD_entry45_03_df_all = etable(BroadCGFE_DD_entry45_03, BroadCGFE_DD_entry45_03_HC, BroadCGFE_DD_entry45_03_clusteredNACE)

#export
BroadCGFE_DD_entry45_03_df_confint = confint(BroadCGFE_DD_entry45_03)

BroadCGFE_DD_entry45_03_HC_df_confint = confint(BroadCGFE_DD_entry45_03_HC)

BroadCGFE_DD_entry45_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_entry45_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_entry45_03_df_all,BroadCGFE_DD_entry45_03_df_confint, BroadCGFE_DD_entry45_03_HC_df_confint, BroadCGFE_DD_entry45_03_clusteredNACE_df_confint ), path = "Broad CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#46 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_entry46_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_entry46_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_entry46_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46)
#ETABLE

BroadCGFE_DD_entry46_03_df_all = etable(BroadCGFE_DD_entry46_03, BroadCGFE_DD_entry46_03_HC, BroadCGFE_DD_entry46_03_clusteredNACE)

#export
BroadCGFE_DD_entry46_03_df_confint = confint(BroadCGFE_DD_entry46_03)

BroadCGFE_DD_entry46_03_HC_df_confint = confint(BroadCGFE_DD_entry46_03_HC)

BroadCGFE_DD_entry46_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_entry46_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_entry46_03_df_all,BroadCGFE_DD_entry46_03_df_confint, BroadCGFE_DD_entry46_03_HC_df_confint, BroadCGFE_DD_entry46_03_clusteredNACE_df_confint ), path = "Broad CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#47 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_entry47_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_entry47_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_entry47_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47)
#ETABLE

BroadCGFE_DD_entry47_03_df_all = etable(BroadCGFE_DD_entry47_03, BroadCGFE_DD_entry47_03_HC, BroadCGFE_DD_entry47_03_clusteredNACE)

#export
BroadCGFE_DD_entry47_03_df_confint = confint(BroadCGFE_DD_entry47_03)

BroadCGFE_DD_entry47_03_HC_df_confint = confint(BroadCGFE_DD_entry47_03_HC)

BroadCGFE_DD_entry47_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_entry47_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_entry47_03_df_all,BroadCGFE_DD_entry47_03_df_confint, BroadCGFE_DD_entry47_03_HC_df_confint, BroadCGFE_DD_entry47_03_clusteredNACE_df_confint ), path = "Broad CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#55 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_entry55_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_entry55_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_entry55_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55)
#ETABLE

BroadCGFE_DD_entry55_03_df_all = etable(BroadCGFE_DD_entry55_03, BroadCGFE_DD_entry55_03_HC, BroadCGFE_DD_entry55_03_clusteredNACE)

#export
BroadCGFE_DD_entry55_03_df_confint = confint(BroadCGFE_DD_entry55_03)

BroadCGFE_DD_entry55_03_HC_df_confint = confint(BroadCGFE_DD_entry55_03_HC)

BroadCGFE_DD_entry55_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_entry55_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_entry55_03_df_all,BroadCGFE_DD_entry55_03_df_confint, BroadCGFE_DD_entry55_03_HC_df_confint, BroadCGFE_DD_entry55_03_clusteredNACE_df_confint ), path = "Broad CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#56 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_entry56_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_entry56_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_entry56_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56)
#ETABLE

BroadCGFE_DD_entry56_03_df_all = etable(BroadCGFE_DD_entry56_03, BroadCGFE_DD_entry56_03_HC, BroadCGFE_DD_entry56_03_clusteredNACE)

#export
BroadCGFE_DD_entry56_03_df_confint = confint(BroadCGFE_DD_entry56_03)

BroadCGFE_DD_entry56_03_HC_df_confint = confint(BroadCGFE_DD_entry56_03_HC)

BroadCGFE_DD_entry56_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_entry56_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_entry56_03_df_all,BroadCGFE_DD_entry56_03_df_confint, BroadCGFE_DD_entry56_03_HC_df_confint, BroadCGFE_DD_entry56_03_clusteredNACE_df_confint ), path = "Broad CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")

#45 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_exit45_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_exit45_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_exit45_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45)
#ETABLE

BroadCGFE_DD_exit45_03_df_all = etable(BroadCGFE_DD_exit45_03, BroadCGFE_DD_exit45_03_HC, BroadCGFE_DD_exit45_03_clusteredNACE)

#export
BroadCGFE_DD_exit45_03_df_confint = confint(BroadCGFE_DD_exit45_03)

BroadCGFE_DD_exit45_03_HC_df_confint = confint(BroadCGFE_DD_exit45_03_HC)

BroadCGFE_DD_exit45_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_exit45_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_exit45_03_df_all,BroadCGFE_DD_exit45_03_df_confint, BroadCGFE_DD_exit45_03_HC_df_confint, BroadCGFE_DD_exit45_03_clusteredNACE_df_confint ), path = "Broad CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#46 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_exit46_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_exit46_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_exit46_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46)
#ETABLE

BroadCGFE_DD_exit46_03_df_all = etable(BroadCGFE_DD_exit46_03, BroadCGFE_DD_exit46_03_HC, BroadCGFE_DD_exit46_03_clusteredNACE)

#export
BroadCGFE_DD_exit46_03_df_confint = confint(BroadCGFE_DD_exit46_03)

BroadCGFE_DD_exit46_03_HC_df_confint = confint(BroadCGFE_DD_exit46_03_HC)

BroadCGFE_DD_exit46_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_exit46_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_exit46_03_df_all,BroadCGFE_DD_exit46_03_df_confint, BroadCGFE_DD_exit46_03_HC_df_confint, BroadCGFE_DD_exit46_03_clusteredNACE_df_confint ), path = "Broad CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#47 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_exit47_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_exit47_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_exit47_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47)
#ETABLE

BroadCGFE_DD_exit47_03_df_all = etable(BroadCGFE_DD_exit47_03, BroadCGFE_DD_exit47_03_HC, BroadCGFE_DD_exit47_03_clusteredNACE)

#export
BroadCGFE_DD_exit47_03_df_confint = confint(BroadCGFE_DD_exit47_03)

BroadCGFE_DD_exit47_03_HC_df_confint = confint(BroadCGFE_DD_exit47_03_HC)

BroadCGFE_DD_exit47_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_exit47_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_exit47_03_df_all,BroadCGFE_DD_exit47_03_df_confint, BroadCGFE_DD_exit47_03_HC_df_confint, BroadCGFE_DD_exit47_03_clusteredNACE_df_confint ), path = "Broad CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#55 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_exit55_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_exit55_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_exit55_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55)
#ETABLE

BroadCGFE_DD_exit55_03_df_all = etable(BroadCGFE_DD_exit55_03, BroadCGFE_DD_exit55_03_HC, BroadCGFE_DD_exit55_03_clusteredNACE)

#export
BroadCGFE_DD_exit55_03_df_confint = confint(BroadCGFE_DD_exit55_03)

BroadCGFE_DD_exit55_03_HC_df_confint = confint(BroadCGFE_DD_exit55_03_HC)

BroadCGFE_DD_exit55_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_exit55_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_exit55_03_df_all,BroadCGFE_DD_exit55_03_df_confint, BroadCGFE_DD_exit55_03_HC_df_confint, BroadCGFE_DD_exit55_03_clusteredNACE_df_confint ), path = "Broad CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#56 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_exit56_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_exit56_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_exit56_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56)
#ETABLE

BroadCGFE_DD_exit56_03_df_all = etable(BroadCGFE_DD_exit56_03, BroadCGFE_DD_exit56_03_HC, BroadCGFE_DD_exit56_03_clusteredNACE)

#export
BroadCGFE_DD_exit56_03_df_confint = confint(BroadCGFE_DD_exit56_03)

BroadCGFE_DD_exit56_03_HC_df_confint = confint(BroadCGFE_DD_exit56_03_HC)

BroadCGFE_DD_exit56_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_exit56_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_exit56_03_df_all,BroadCGFE_DD_exit56_03_df_confint, BroadCGFE_DD_exit56_03_HC_df_confint, BroadCGFE_DD_exit56_03_clusteredNACE_df_confint ), path = "Broad CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")





















#Fixed effect difference in differences analyza s NarrowCG
#45
NarrowCGdatasetNACE45 = c(29,32,33,45,95)

NarrowCG45 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE45),]
#46
NarrowCGdatasetNACE46 = c(32,46,52,62,74,78,82)

NarrowCG46 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE46),]
#47
NarrowCGdatasetNACE47 = c(32,47,58,90,95,96)

NarrowCG47 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE47),]
#55
NarrowCGdatasetNACE55 = c(55,68,77,79,81,93,95,96)

NarrowCG55 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE55),]
#56
NarrowCGdatasetNACE56 = c(56,61,79,90,93,95,96)

NarrowCG56 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE56),]


#ENTRY A EXIT
#NARROW
#45 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DD_entry45_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_entry45_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_entry45_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45)
#ETABLE

NarrowCGFE_DD_entry45_01_df_all = etable(NarrowCGFE_DD_entry45_01, NarrowCGFE_DD_entry45_01_HC, NarrowCGFE_DD_entry45_01_clusteredNACE)

#export
NarrowCGFE_DD_entry45_01_df_confint = confint(NarrowCGFE_DD_entry45_01)

NarrowCGFE_DD_entry45_01_HC_df_confint = confint(NarrowCGFE_DD_entry45_01_HC)

NarrowCGFE_DD_entry45_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_entry45_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_entry45_01_df_all,NarrowCGFE_DD_entry45_01_df_confint, NarrowCGFE_DD_entry45_01_HC_df_confint, NarrowCGFE_DD_entry45_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")


#46 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DD_entry46_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_entry46_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_entry46_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46)
#ETABLE

NarrowCGFE_DD_entry46_01_df_all = etable(NarrowCGFE_DD_entry46_01, NarrowCGFE_DD_entry46_01_HC, NarrowCGFE_DD_entry46_01_clusteredNACE)

#export
NarrowCGFE_DD_entry46_01_df_confint = confint(NarrowCGFE_DD_entry46_01)

NarrowCGFE_DD_entry46_01_HC_df_confint = confint(NarrowCGFE_DD_entry46_01_HC)

NarrowCGFE_DD_entry46_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_entry46_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_entry46_01_df_all,NarrowCGFE_DD_entry46_01_df_confint, NarrowCGFE_DD_entry46_01_HC_df_confint, NarrowCGFE_DD_entry46_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")

#47 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DD_entry47_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_entry47_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_entry47_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47)
#ETABLE

NarrowCGFE_DD_entry47_01_df_all = etable(NarrowCGFE_DD_entry47_01, NarrowCGFE_DD_entry47_01_HC, NarrowCGFE_DD_entry47_01_clusteredNACE)

#export
NarrowCGFE_DD_entry47_01_df_confint = confint(NarrowCGFE_DD_entry47_01)

NarrowCGFE_DD_entry47_01_HC_df_confint = confint(NarrowCGFE_DD_entry47_01_HC)

NarrowCGFE_DD_entry47_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_entry47_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_entry47_01_df_all,NarrowCGFE_DD_entry47_01_df_confint, NarrowCGFE_DD_entry47_01_HC_df_confint, NarrowCGFE_DD_entry47_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")


#55 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DD_entry55_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_entry55_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_entry55_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55)
#ETABLE

NarrowCGFE_DD_entry55_01_df_all = etable(NarrowCGFE_DD_entry55_01, NarrowCGFE_DD_entry55_01_HC, NarrowCGFE_DD_entry55_01_clusteredNACE)

#export
NarrowCGFE_DD_entry55_01_df_confint = confint(NarrowCGFE_DD_entry55_01)

NarrowCGFE_DD_entry55_01_HC_df_confint = confint(NarrowCGFE_DD_entry55_01_HC)

NarrowCGFE_DD_entry55_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_entry55_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_entry55_01_df_all,NarrowCGFE_DD_entry55_01_df_confint, NarrowCGFE_DD_entry55_01_HC_df_confint, NarrowCGFE_DD_entry55_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")

#56 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DD_entry56_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_entry56_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_entry56_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56)
#ETABLE

NarrowCGFE_DD_entry56_01_df_all = etable(NarrowCGFE_DD_entry56_01, NarrowCGFE_DD_entry56_01_HC, NarrowCGFE_DD_entry56_01_clusteredNACE)

#export
NarrowCGFE_DD_entry56_01_df_confint = confint(NarrowCGFE_DD_entry56_01)

NarrowCGFE_DD_entry56_01_HC_df_confint = confint(NarrowCGFE_DD_entry56_01_HC)

NarrowCGFE_DD_entry56_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_entry56_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_entry56_01_df_all,NarrowCGFE_DD_entry56_01_df_confint, NarrowCGFE_DD_entry56_01_HC_df_confint, NarrowCGFE_DD_entry56_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")






#45 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DD_exit45_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_exit45_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_exit45_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45)
#ETABLE

NarrowCGFE_DD_exit45_01_df_all = etable(NarrowCGFE_DD_exit45_01, NarrowCGFE_DD_exit45_01_HC, NarrowCGFE_DD_exit45_01_clusteredNACE)

#export
NarrowCGFE_DD_exit45_01_df_confint = confint(NarrowCGFE_DD_exit45_01)

NarrowCGFE_DD_exit45_01_HC_df_confint = confint(NarrowCGFE_DD_exit45_01_HC)

NarrowCGFE_DD_exit45_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_exit45_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_exit45_01_df_all,NarrowCGFE_DD_exit45_01_df_confint, NarrowCGFE_DD_exit45_01_HC_df_confint, NarrowCGFE_DD_exit45_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")


#46 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DD_exit46_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_exit46_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_exit46_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46)
#ETABLE

NarrowCGFE_DD_exit46_01_df_all = etable(NarrowCGFE_DD_exit46_01, NarrowCGFE_DD_exit46_01_HC, NarrowCGFE_DD_exit46_01_clusteredNACE)

#export
NarrowCGFE_DD_exit46_01_df_confint = confint(NarrowCGFE_DD_exit46_01)

NarrowCGFE_DD_exit46_01_HC_df_confint = confint(NarrowCGFE_DD_exit46_01_HC)

NarrowCGFE_DD_exit46_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_exit46_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_exit46_01_df_all,NarrowCGFE_DD_exit46_01_df_confint, NarrowCGFE_DD_exit46_01_HC_df_confint, NarrowCGFE_DD_exit46_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")

#47 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DD_exit47_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_exit47_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_exit47_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47)
#ETABLE

NarrowCGFE_DD_exit47_01_df_all = etable(NarrowCGFE_DD_exit47_01, NarrowCGFE_DD_exit47_01_HC, NarrowCGFE_DD_exit47_01_clusteredNACE)

#export
NarrowCGFE_DD_exit47_01_df_confint = confint(NarrowCGFE_DD_exit47_01)

NarrowCGFE_DD_exit47_01_HC_df_confint = confint(NarrowCGFE_DD_exit47_01_HC)

NarrowCGFE_DD_exit47_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_exit47_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_exit47_01_df_all,NarrowCGFE_DD_exit47_01_df_confint, NarrowCGFE_DD_exit47_01_HC_df_confint, NarrowCGFE_DD_exit47_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")


#55 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DD_exit55_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_exit55_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_exit55_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55)
#ETABLE

NarrowCGFE_DD_exit55_01_df_all = etable(NarrowCGFE_DD_exit55_01, NarrowCGFE_DD_exit55_01_HC, NarrowCGFE_DD_exit55_01_clusteredNACE)

#export
NarrowCGFE_DD_exit55_01_df_confint = confint(NarrowCGFE_DD_exit55_01)

NarrowCGFE_DD_exit55_01_HC_df_confint = confint(NarrowCGFE_DD_exit55_01_HC)

NarrowCGFE_DD_exit55_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_exit55_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_exit55_01_df_all,NarrowCGFE_DD_exit55_01_df_confint, NarrowCGFE_DD_exit55_01_HC_df_confint, NarrowCGFE_DD_exit55_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")

#56 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
NarrowCGFE_DD_exit56_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_exit56_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_exit56_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56)
#ETABLE

NarrowCGFE_DD_exit56_01_df_all = etable(NarrowCGFE_DD_exit56_01, NarrowCGFE_DD_exit56_01_HC, NarrowCGFE_DD_exit56_01_clusteredNACE)

#export
NarrowCGFE_DD_exit56_01_df_confint = confint(NarrowCGFE_DD_exit56_01)

NarrowCGFE_DD_exit56_01_HC_df_confint = confint(NarrowCGFE_DD_exit56_01_HC)

NarrowCGFE_DD_exit56_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_exit56_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_exit56_01_df_all,NarrowCGFE_DD_exit56_01_df_confint, NarrowCGFE_DD_exit56_01_HC_df_confint, NarrowCGFE_DD_exit56_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")











#45 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_entry45_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_entry45_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_entry45_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45)
#ETABLE

NarrowCGFE_DD_entry45_02_df_all = etable(NarrowCGFE_DD_entry45_02, NarrowCGFE_DD_entry45_02_HC, NarrowCGFE_DD_entry45_02_clusteredNACE)

#export
NarrowCGFE_DD_entry45_02_df_confint = confint(NarrowCGFE_DD_entry45_02)

NarrowCGFE_DD_entry45_02_HC_df_confint = confint(NarrowCGFE_DD_entry45_02_HC)

NarrowCGFE_DD_entry45_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_entry45_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_entry45_02_df_all,NarrowCGFE_DD_entry45_02_df_confint, NarrowCGFE_DD_entry45_02_HC_df_confint, NarrowCGFE_DD_entry45_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")



#46 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_entry46_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_entry46_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_entry46_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46)
#ETABLE

NarrowCGFE_DD_entry46_02_df_all = etable(NarrowCGFE_DD_entry46_02, NarrowCGFE_DD_entry46_02_HC, NarrowCGFE_DD_entry46_02_clusteredNACE)

#export
NarrowCGFE_DD_entry46_02_df_confint = confint(NarrowCGFE_DD_entry46_02)

NarrowCGFE_DD_entry46_02_HC_df_confint = confint(NarrowCGFE_DD_entry46_02_HC)

NarrowCGFE_DD_entry46_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_entry46_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_entry46_02_df_all,NarrowCGFE_DD_entry46_02_df_confint, NarrowCGFE_DD_entry46_02_HC_df_confint, NarrowCGFE_DD_entry46_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")


#47 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_entry47_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_entry47_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_entry47_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47)
#ETABLE

NarrowCGFE_DD_entry47_02_df_all = etable(NarrowCGFE_DD_entry47_02, NarrowCGFE_DD_entry47_02_HC, NarrowCGFE_DD_entry47_02_clusteredNACE)

#export
NarrowCGFE_DD_entry47_02_df_confint = confint(NarrowCGFE_DD_entry47_02)

NarrowCGFE_DD_entry47_02_HC_df_confint = confint(NarrowCGFE_DD_entry47_02_HC)

NarrowCGFE_DD_entry47_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_entry47_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_entry47_02_df_all,NarrowCGFE_DD_entry47_02_df_confint, NarrowCGFE_DD_entry47_02_HC_df_confint, NarrowCGFE_DD_entry47_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")


#55 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_entry55_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_entry55_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_entry55_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55)
#ETABLE

NarrowCGFE_DD_entry55_02_df_all = etable(NarrowCGFE_DD_entry55_02, NarrowCGFE_DD_entry55_02_HC, NarrowCGFE_DD_entry55_02_clusteredNACE)

#export
NarrowCGFE_DD_entry55_02_df_confint = confint(NarrowCGFE_DD_entry55_02)

NarrowCGFE_DD_entry55_02_HC_df_confint = confint(NarrowCGFE_DD_entry55_02_HC)

NarrowCGFE_DD_entry55_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_entry55_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_entry55_02_df_all,NarrowCGFE_DD_entry55_02_df_confint, NarrowCGFE_DD_entry55_02_HC_df_confint, NarrowCGFE_DD_entry55_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")



#56 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_entry56_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_entry56_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_entry56_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56)
#ETABLE

NarrowCGFE_DD_entry56_02_df_all = etable(NarrowCGFE_DD_entry56_02, NarrowCGFE_DD_entry56_02_HC, NarrowCGFE_DD_entry56_02_clusteredNACE)

#export
NarrowCGFE_DD_entry56_02_df_confint = confint(NarrowCGFE_DD_entry56_02)

NarrowCGFE_DD_entry56_02_HC_df_confint = confint(NarrowCGFE_DD_entry56_02_HC)

NarrowCGFE_DD_entry56_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_entry56_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_entry56_02_df_all,NarrowCGFE_DD_entry56_02_df_confint, NarrowCGFE_DD_entry56_02_HC_df_confint, NarrowCGFE_DD_entry56_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")

#45 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_exit45_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_exit45_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_exit45_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45)
#ETABLE

NarrowCGFE_DD_exit45_02_df_all = etable(NarrowCGFE_DD_exit45_02, NarrowCGFE_DD_exit45_02_HC, NarrowCGFE_DD_exit45_02_clusteredNACE)

#export
NarrowCGFE_DD_exit45_02_df_confint = confint(NarrowCGFE_DD_exit45_02)

NarrowCGFE_DD_exit45_02_HC_df_confint = confint(NarrowCGFE_DD_exit45_02_HC)

NarrowCGFE_DD_exit45_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_exit45_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_exit45_02_df_all,NarrowCGFE_DD_exit45_02_df_confint, NarrowCGFE_DD_exit45_02_HC_df_confint, NarrowCGFE_DD_exit45_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")



#46 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_exit46_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_exit46_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_exit46_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46)
#ETABLE

NarrowCGFE_DD_exit46_02_df_all = etable(NarrowCGFE_DD_exit46_02, NarrowCGFE_DD_exit46_02_HC, NarrowCGFE_DD_exit46_02_clusteredNACE)

#export
NarrowCGFE_DD_exit46_02_df_confint = confint(NarrowCGFE_DD_exit46_02)

NarrowCGFE_DD_exit46_02_HC_df_confint = confint(NarrowCGFE_DD_exit46_02_HC)

NarrowCGFE_DD_exit46_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_exit46_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_exit46_02_df_all,NarrowCGFE_DD_exit46_02_df_confint, NarrowCGFE_DD_exit46_02_HC_df_confint, NarrowCGFE_DD_exit46_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")


#47 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_exit47_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_exit47_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_exit47_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47)
#ETABLE

NarrowCGFE_DD_exit47_02_df_all = etable(NarrowCGFE_DD_exit47_02, NarrowCGFE_DD_exit47_02_HC, NarrowCGFE_DD_exit47_02_clusteredNACE)

#export
NarrowCGFE_DD_exit47_02_df_confint = confint(NarrowCGFE_DD_exit47_02)

NarrowCGFE_DD_exit47_02_HC_df_confint = confint(NarrowCGFE_DD_exit47_02_HC)

NarrowCGFE_DD_exit47_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_exit47_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_exit47_02_df_all,NarrowCGFE_DD_exit47_02_df_confint, NarrowCGFE_DD_exit47_02_HC_df_confint, NarrowCGFE_DD_exit47_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")


#55 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_exit55_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_exit55_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_exit55_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55)
#ETABLE

NarrowCGFE_DD_exit55_02_df_all = etable(NarrowCGFE_DD_exit55_02, NarrowCGFE_DD_exit55_02_HC, NarrowCGFE_DD_exit55_02_clusteredNACE)

#export
NarrowCGFE_DD_exit55_02_df_confint = confint(NarrowCGFE_DD_exit55_02)

NarrowCGFE_DD_exit55_02_HC_df_confint = confint(NarrowCGFE_DD_exit55_02_HC)

NarrowCGFE_DD_exit55_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_exit55_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_exit55_02_df_all,NarrowCGFE_DD_exit55_02_df_confint, NarrowCGFE_DD_exit55_02_HC_df_confint, NarrowCGFE_DD_exit55_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")



#56 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_exit56_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_exit56_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_exit56_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56)
#ETABLE

NarrowCGFE_DD_exit56_02_df_all = etable(NarrowCGFE_DD_exit56_02, NarrowCGFE_DD_exit56_02_HC, NarrowCGFE_DD_exit56_02_clusteredNACE)

#export
NarrowCGFE_DD_exit56_02_df_confint = confint(NarrowCGFE_DD_exit56_02)

NarrowCGFE_DD_exit56_02_HC_df_confint = confint(NarrowCGFE_DD_exit56_02_HC)

NarrowCGFE_DD_exit56_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_exit56_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_exit56_02_df_all,NarrowCGFE_DD_exit56_02_df_confint, NarrowCGFE_DD_exit56_02_HC_df_confint, NarrowCGFE_DD_exit56_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")








#45 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_entry45_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_entry45_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_entry45_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45)
#ETABLE

NarrowCGFE_DD_entry45_03_df_all = etable(NarrowCGFE_DD_entry45_03, NarrowCGFE_DD_entry45_03_HC, NarrowCGFE_DD_entry45_03_clusteredNACE)

#export
NarrowCGFE_DD_entry45_03_df_confint = confint(NarrowCGFE_DD_entry45_03)

NarrowCGFE_DD_entry45_03_HC_df_confint = confint(NarrowCGFE_DD_entry45_03_HC)

NarrowCGFE_DD_entry45_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_entry45_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_entry45_03_df_all,NarrowCGFE_DD_entry45_03_df_confint, NarrowCGFE_DD_entry45_03_HC_df_confint, NarrowCGFE_DD_entry45_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#46 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_entry46_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_entry46_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_entry46_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46)
#ETABLE

NarrowCGFE_DD_entry46_03_df_all = etable(NarrowCGFE_DD_entry46_03, NarrowCGFE_DD_entry46_03_HC, NarrowCGFE_DD_entry46_03_clusteredNACE)

#export
NarrowCGFE_DD_entry46_03_df_confint = confint(NarrowCGFE_DD_entry46_03)

NarrowCGFE_DD_entry46_03_HC_df_confint = confint(NarrowCGFE_DD_entry46_03_HC)

NarrowCGFE_DD_entry46_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_entry46_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_entry46_03_df_all,NarrowCGFE_DD_entry46_03_df_confint, NarrowCGFE_DD_entry46_03_HC_df_confint, NarrowCGFE_DD_entry46_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#47 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_entry47_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_entry47_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_entry47_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47)
#ETABLE

NarrowCGFE_DD_entry47_03_df_all = etable(NarrowCGFE_DD_entry47_03, NarrowCGFE_DD_entry47_03_HC, NarrowCGFE_DD_entry47_03_clusteredNACE)

#export
NarrowCGFE_DD_entry47_03_df_confint = confint(NarrowCGFE_DD_entry47_03)

NarrowCGFE_DD_entry47_03_HC_df_confint = confint(NarrowCGFE_DD_entry47_03_HC)

NarrowCGFE_DD_entry47_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_entry47_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_entry47_03_df_all,NarrowCGFE_DD_entry47_03_df_confint, NarrowCGFE_DD_entry47_03_HC_df_confint, NarrowCGFE_DD_entry47_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#55 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_entry55_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_entry55_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_entry55_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55)
#ETABLE

NarrowCGFE_DD_entry55_03_df_all = etable(NarrowCGFE_DD_entry55_03, NarrowCGFE_DD_entry55_03_HC, NarrowCGFE_DD_entry55_03_clusteredNACE)

#export
NarrowCGFE_DD_entry55_03_df_confint = confint(NarrowCGFE_DD_entry55_03)

NarrowCGFE_DD_entry55_03_HC_df_confint = confint(NarrowCGFE_DD_entry55_03_HC)

NarrowCGFE_DD_entry55_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_entry55_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_entry55_03_df_all,NarrowCGFE_DD_entry55_03_df_confint, NarrowCGFE_DD_entry55_03_HC_df_confint, NarrowCGFE_DD_entry55_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#56 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_entry56_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_entry56_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_entry56_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56)
#ETABLE

NarrowCGFE_DD_entry56_03_df_all = etable(NarrowCGFE_DD_entry56_03, NarrowCGFE_DD_entry56_03_HC, NarrowCGFE_DD_entry56_03_clusteredNACE)

#export
NarrowCGFE_DD_entry56_03_df_confint = confint(NarrowCGFE_DD_entry56_03)

NarrowCGFE_DD_entry56_03_HC_df_confint = confint(NarrowCGFE_DD_entry56_03_HC)

NarrowCGFE_DD_entry56_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_entry56_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_entry56_03_df_all,NarrowCGFE_DD_entry56_03_df_confint, NarrowCGFE_DD_entry56_03_HC_df_confint, NarrowCGFE_DD_entry56_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")

#45 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_exit45_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_exit45_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_exit45_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45)
#ETABLE

NarrowCGFE_DD_exit45_03_df_all = etable(NarrowCGFE_DD_exit45_03, NarrowCGFE_DD_exit45_03_HC, NarrowCGFE_DD_exit45_03_clusteredNACE)

#export
NarrowCGFE_DD_exit45_03_df_confint = confint(NarrowCGFE_DD_exit45_03)

NarrowCGFE_DD_exit45_03_HC_df_confint = confint(NarrowCGFE_DD_exit45_03_HC)

NarrowCGFE_DD_exit45_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_exit45_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_exit45_03_df_all,NarrowCGFE_DD_exit45_03_df_confint, NarrowCGFE_DD_exit45_03_HC_df_confint, NarrowCGFE_DD_exit45_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#46 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_exit46_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_exit46_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_exit46_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46)
#ETABLE

NarrowCGFE_DD_exit46_03_df_all = etable(NarrowCGFE_DD_exit46_03, NarrowCGFE_DD_exit46_03_HC, NarrowCGFE_DD_exit46_03_clusteredNACE)

#export
NarrowCGFE_DD_exit46_03_df_confint = confint(NarrowCGFE_DD_exit46_03)

NarrowCGFE_DD_exit46_03_HC_df_confint = confint(NarrowCGFE_DD_exit46_03_HC)

NarrowCGFE_DD_exit46_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_exit46_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_exit46_03_df_all,NarrowCGFE_DD_exit46_03_df_confint, NarrowCGFE_DD_exit46_03_HC_df_confint, NarrowCGFE_DD_exit46_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#47 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_exit47_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_exit47_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_exit47_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47)
#ETABLE

NarrowCGFE_DD_exit47_03_df_all = etable(NarrowCGFE_DD_exit47_03, NarrowCGFE_DD_exit47_03_HC, NarrowCGFE_DD_exit47_03_clusteredNACE)

#export
NarrowCGFE_DD_exit47_03_df_confint = confint(NarrowCGFE_DD_exit47_03)

NarrowCGFE_DD_exit47_03_HC_df_confint = confint(NarrowCGFE_DD_exit47_03_HC)

NarrowCGFE_DD_exit47_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_exit47_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_exit47_03_df_all,NarrowCGFE_DD_exit47_03_df_confint, NarrowCGFE_DD_exit47_03_HC_df_confint, NarrowCGFE_DD_exit47_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#55 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_exit55_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_exit55_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_exit55_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55)
#ETABLE

NarrowCGFE_DD_exit55_03_df_all = etable(NarrowCGFE_DD_exit55_03, NarrowCGFE_DD_exit55_03_HC, NarrowCGFE_DD_exit55_03_clusteredNACE)

#export
NarrowCGFE_DD_exit55_03_df_confint = confint(NarrowCGFE_DD_exit55_03)

NarrowCGFE_DD_exit55_03_HC_df_confint = confint(NarrowCGFE_DD_exit55_03_HC)

NarrowCGFE_DD_exit55_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_exit55_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_exit55_03_df_all,NarrowCGFE_DD_exit55_03_df_confint, NarrowCGFE_DD_exit55_03_HC_df_confint, NarrowCGFE_DD_exit55_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#56 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_exit56_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_exit56_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_exit56_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56)
#ETABLE

NarrowCGFE_DD_exit56_03_df_all = etable(NarrowCGFE_DD_exit56_03, NarrowCGFE_DD_exit56_03_HC, NarrowCGFE_DD_exit56_03_clusteredNACE)

#export
NarrowCGFE_DD_exit56_03_df_confint = confint(NarrowCGFE_DD_exit56_03)

NarrowCGFE_DD_exit56_03_HC_df_confint = confint(NarrowCGFE_DD_exit56_03_HC)

NarrowCGFE_DD_exit56_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_exit56_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_exit56_03_df_all,NarrowCGFE_DD_exit56_03_df_confint, NarrowCGFE_DD_exit56_03_HC_df_confint, NarrowCGFE_DD_exit56_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")

























#Fixed effect difference in differences analyza s AlgorithmicCG
#45
AlgorithmicCGdatasetNACE45 = c(45,93,79,31,16,58)

AlgorithmicCG45 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE45),]
#46
AlgorithmicCGdatasetNACE46 = c(46,41,59,90,10,95)

AlgorithmicCG46 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE46),]
#47
AlgorithmicCGdatasetNACE47 = c(47,93,79,41,58,90)

AlgorithmicCG47 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE47),]
#55
AlgorithmicCGdatasetNACE55 = c(55,93,16,31,77,11)

AlgorithmicCG55 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE55),]
#56
AlgorithmicCGdatasetNACE56 = c(56,14,96,10,90,43)

AlgorithmicCG56 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE56),]


#ENTRY A EXIT
#ALGORITHMIC
#45 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry45_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry45_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry45_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_entry45_01_df_all = etable(AlgorithmicCGFE_DD_entry45_01, AlgorithmicCGFE_DD_entry45_01_HC, AlgorithmicCGFE_DD_entry45_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry45_01_df_confint = confint(AlgorithmicCGFE_DD_entry45_01)

AlgorithmicCGFE_DD_entry45_01_HC_df_confint = confint(AlgorithmicCGFE_DD_entry45_01_HC)

AlgorithmicCGFE_DD_entry45_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry45_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry45_01_df_all,AlgorithmicCGFE_DD_entry45_01_df_confint, AlgorithmicCGFE_DD_entry45_01_HC_df_confint, AlgorithmicCGFE_DD_entry45_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")


#46 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry46_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry46_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry46_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_entry46_01_df_all = etable(AlgorithmicCGFE_DD_entry46_01, AlgorithmicCGFE_DD_entry46_01_HC, AlgorithmicCGFE_DD_entry46_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry46_01_df_confint = confint(AlgorithmicCGFE_DD_entry46_01)

AlgorithmicCGFE_DD_entry46_01_HC_df_confint = confint(AlgorithmicCGFE_DD_entry46_01_HC)

AlgorithmicCGFE_DD_entry46_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry46_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry46_01_df_all,AlgorithmicCGFE_DD_entry46_01_df_confint, AlgorithmicCGFE_DD_entry46_01_HC_df_confint, AlgorithmicCGFE_DD_entry46_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")

#47 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry47_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry47_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry47_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_entry47_01_df_all = etable(AlgorithmicCGFE_DD_entry47_01, AlgorithmicCGFE_DD_entry47_01_HC, AlgorithmicCGFE_DD_entry47_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry47_01_df_confint = confint(AlgorithmicCGFE_DD_entry47_01)

AlgorithmicCGFE_DD_entry47_01_HC_df_confint = confint(AlgorithmicCGFE_DD_entry47_01_HC)

AlgorithmicCGFE_DD_entry47_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry47_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry47_01_df_all,AlgorithmicCGFE_DD_entry47_01_df_confint, AlgorithmicCGFE_DD_entry47_01_HC_df_confint, AlgorithmicCGFE_DD_entry47_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")


#55 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry55_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry55_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry55_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_entry55_01_df_all = etable(AlgorithmicCGFE_DD_entry55_01, AlgorithmicCGFE_DD_entry55_01_HC, AlgorithmicCGFE_DD_entry55_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry55_01_df_confint = confint(AlgorithmicCGFE_DD_entry55_01)

AlgorithmicCGFE_DD_entry55_01_HC_df_confint = confint(AlgorithmicCGFE_DD_entry55_01_HC)

AlgorithmicCGFE_DD_entry55_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry55_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry55_01_df_all,AlgorithmicCGFE_DD_entry55_01_df_confint, AlgorithmicCGFE_DD_entry55_01_HC_df_confint, AlgorithmicCGFE_DD_entry55_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")

#56 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry56_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry56_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry56_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_entry56_01_df_all = etable(AlgorithmicCGFE_DD_entry56_01, AlgorithmicCGFE_DD_entry56_01_HC, AlgorithmicCGFE_DD_entry56_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry56_01_df_confint = confint(AlgorithmicCGFE_DD_entry56_01)

AlgorithmicCGFE_DD_entry56_01_HC_df_confint = confint(AlgorithmicCGFE_DD_entry56_01_HC)

AlgorithmicCGFE_DD_entry56_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry56_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry56_01_df_all,AlgorithmicCGFE_DD_entry56_01_df_confint, AlgorithmicCGFE_DD_entry56_01_HC_df_confint, AlgorithmicCGFE_DD_entry56_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")






#45 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit45_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit45_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit45_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_exit45_01_df_all = etable(AlgorithmicCGFE_DD_exit45_01, AlgorithmicCGFE_DD_exit45_01_HC, AlgorithmicCGFE_DD_exit45_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit45_01_df_confint = confint(AlgorithmicCGFE_DD_exit45_01)

AlgorithmicCGFE_DD_exit45_01_HC_df_confint = confint(AlgorithmicCGFE_DD_exit45_01_HC)

AlgorithmicCGFE_DD_exit45_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit45_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit45_01_df_all,AlgorithmicCGFE_DD_exit45_01_df_confint, AlgorithmicCGFE_DD_exit45_01_HC_df_confint, AlgorithmicCGFE_DD_exit45_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")


#46 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit46_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit46_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit46_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_exit46_01_df_all = etable(AlgorithmicCGFE_DD_exit46_01, AlgorithmicCGFE_DD_exit46_01_HC, AlgorithmicCGFE_DD_exit46_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit46_01_df_confint = confint(AlgorithmicCGFE_DD_exit46_01)

AlgorithmicCGFE_DD_exit46_01_HC_df_confint = confint(AlgorithmicCGFE_DD_exit46_01_HC)

AlgorithmicCGFE_DD_exit46_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit46_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit46_01_df_all,AlgorithmicCGFE_DD_exit46_01_df_confint, AlgorithmicCGFE_DD_exit46_01_HC_df_confint, AlgorithmicCGFE_DD_exit46_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")

#47 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit47_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit47_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit47_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_exit47_01_df_all = etable(AlgorithmicCGFE_DD_exit47_01, AlgorithmicCGFE_DD_exit47_01_HC, AlgorithmicCGFE_DD_exit47_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit47_01_df_confint = confint(AlgorithmicCGFE_DD_exit47_01)

AlgorithmicCGFE_DD_exit47_01_HC_df_confint = confint(AlgorithmicCGFE_DD_exit47_01_HC)

AlgorithmicCGFE_DD_exit47_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit47_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit47_01_df_all,AlgorithmicCGFE_DD_exit47_01_df_confint, AlgorithmicCGFE_DD_exit47_01_HC_df_confint, AlgorithmicCGFE_DD_exit47_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")


#55 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit55_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit55_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit55_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_exit55_01_df_all = etable(AlgorithmicCGFE_DD_exit55_01, AlgorithmicCGFE_DD_exit55_01_HC, AlgorithmicCGFE_DD_exit55_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit55_01_df_confint = confint(AlgorithmicCGFE_DD_exit55_01)

AlgorithmicCGFE_DD_exit55_01_HC_df_confint = confint(AlgorithmicCGFE_DD_exit55_01_HC)

AlgorithmicCGFE_DD_exit55_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit55_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit55_01_df_all,AlgorithmicCGFE_DD_exit55_01_df_confint, AlgorithmicCGFE_DD_exit55_01_HC_df_confint, AlgorithmicCGFE_DD_exit55_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")

#56 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit56_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit56_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit56_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_exit56_01_df_all = etable(AlgorithmicCGFE_DD_exit56_01, AlgorithmicCGFE_DD_exit56_01_HC, AlgorithmicCGFE_DD_exit56_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit56_01_df_confint = confint(AlgorithmicCGFE_DD_exit56_01)

AlgorithmicCGFE_DD_exit56_01_HC_df_confint = confint(AlgorithmicCGFE_DD_exit56_01_HC)

AlgorithmicCGFE_DD_exit56_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit56_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit56_01_df_all,AlgorithmicCGFE_DD_exit56_01_df_confint, AlgorithmicCGFE_DD_exit56_01_HC_df_confint, AlgorithmicCGFE_DD_exit56_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")











#45 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry45_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry45_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry45_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_entry45_02_df_all = etable(AlgorithmicCGFE_DD_entry45_02, AlgorithmicCGFE_DD_entry45_02_HC, AlgorithmicCGFE_DD_entry45_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry45_02_df_confint = confint(AlgorithmicCGFE_DD_entry45_02)

AlgorithmicCGFE_DD_entry45_02_HC_df_confint = confint(AlgorithmicCGFE_DD_entry45_02_HC)

AlgorithmicCGFE_DD_entry45_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry45_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry45_02_df_all,AlgorithmicCGFE_DD_entry45_02_df_confint, AlgorithmicCGFE_DD_entry45_02_HC_df_confint, AlgorithmicCGFE_DD_entry45_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")



#46 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry46_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry46_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry46_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_entry46_02_df_all = etable(AlgorithmicCGFE_DD_entry46_02, AlgorithmicCGFE_DD_entry46_02_HC, AlgorithmicCGFE_DD_entry46_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry46_02_df_confint = confint(AlgorithmicCGFE_DD_entry46_02)

AlgorithmicCGFE_DD_entry46_02_HC_df_confint = confint(AlgorithmicCGFE_DD_entry46_02_HC)

AlgorithmicCGFE_DD_entry46_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry46_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry46_02_df_all,AlgorithmicCGFE_DD_entry46_02_df_confint, AlgorithmicCGFE_DD_entry46_02_HC_df_confint, AlgorithmicCGFE_DD_entry46_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")


#47 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry47_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry47_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry47_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_entry47_02_df_all = etable(AlgorithmicCGFE_DD_entry47_02, AlgorithmicCGFE_DD_entry47_02_HC, AlgorithmicCGFE_DD_entry47_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry47_02_df_confint = confint(AlgorithmicCGFE_DD_entry47_02)

AlgorithmicCGFE_DD_entry47_02_HC_df_confint = confint(AlgorithmicCGFE_DD_entry47_02_HC)

AlgorithmicCGFE_DD_entry47_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry47_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry47_02_df_all,AlgorithmicCGFE_DD_entry47_02_df_confint, AlgorithmicCGFE_DD_entry47_02_HC_df_confint, AlgorithmicCGFE_DD_entry47_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")


#55 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry55_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry55_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry55_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_entry55_02_df_all = etable(AlgorithmicCGFE_DD_entry55_02, AlgorithmicCGFE_DD_entry55_02_HC, AlgorithmicCGFE_DD_entry55_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry55_02_df_confint = confint(AlgorithmicCGFE_DD_entry55_02)

AlgorithmicCGFE_DD_entry55_02_HC_df_confint = confint(AlgorithmicCGFE_DD_entry55_02_HC)

AlgorithmicCGFE_DD_entry55_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry55_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry55_02_df_all,AlgorithmicCGFE_DD_entry55_02_df_confint, AlgorithmicCGFE_DD_entry55_02_HC_df_confint, AlgorithmicCGFE_DD_entry55_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")



#56 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry56_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry56_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry56_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_entry56_02_df_all = etable(AlgorithmicCGFE_DD_entry56_02, AlgorithmicCGFE_DD_entry56_02_HC, AlgorithmicCGFE_DD_entry56_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry56_02_df_confint = confint(AlgorithmicCGFE_DD_entry56_02)

AlgorithmicCGFE_DD_entry56_02_HC_df_confint = confint(AlgorithmicCGFE_DD_entry56_02_HC)

AlgorithmicCGFE_DD_entry56_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry56_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry56_02_df_all,AlgorithmicCGFE_DD_entry56_02_df_confint, AlgorithmicCGFE_DD_entry56_02_HC_df_confint, AlgorithmicCGFE_DD_entry56_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")

#45 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit45_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit45_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit45_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_exit45_02_df_all = etable(AlgorithmicCGFE_DD_exit45_02, AlgorithmicCGFE_DD_exit45_02_HC, AlgorithmicCGFE_DD_exit45_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit45_02_df_confint = confint(AlgorithmicCGFE_DD_exit45_02)

AlgorithmicCGFE_DD_exit45_02_HC_df_confint = confint(AlgorithmicCGFE_DD_exit45_02_HC)

AlgorithmicCGFE_DD_exit45_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit45_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit45_02_df_all,AlgorithmicCGFE_DD_exit45_02_df_confint, AlgorithmicCGFE_DD_exit45_02_HC_df_confint, AlgorithmicCGFE_DD_exit45_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")



#46 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit46_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit46_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit46_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_exit46_02_df_all = etable(AlgorithmicCGFE_DD_exit46_02, AlgorithmicCGFE_DD_exit46_02_HC, AlgorithmicCGFE_DD_exit46_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit46_02_df_confint = confint(AlgorithmicCGFE_DD_exit46_02)

AlgorithmicCGFE_DD_exit46_02_HC_df_confint = confint(AlgorithmicCGFE_DD_exit46_02_HC)

AlgorithmicCGFE_DD_exit46_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit46_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit46_02_df_all,AlgorithmicCGFE_DD_exit46_02_df_confint, AlgorithmicCGFE_DD_exit46_02_HC_df_confint, AlgorithmicCGFE_DD_exit46_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")


#47 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit47_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit47_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit47_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_exit47_02_df_all = etable(AlgorithmicCGFE_DD_exit47_02, AlgorithmicCGFE_DD_exit47_02_HC, AlgorithmicCGFE_DD_exit47_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit47_02_df_confint = confint(AlgorithmicCGFE_DD_exit47_02)

AlgorithmicCGFE_DD_exit47_02_HC_df_confint = confint(AlgorithmicCGFE_DD_exit47_02_HC)

AlgorithmicCGFE_DD_exit47_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit47_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit47_02_df_all,AlgorithmicCGFE_DD_exit47_02_df_confint, AlgorithmicCGFE_DD_exit47_02_HC_df_confint, AlgorithmicCGFE_DD_exit47_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")


#55 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit55_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit55_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit55_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_exit55_02_df_all = etable(AlgorithmicCGFE_DD_exit55_02, AlgorithmicCGFE_DD_exit55_02_HC, AlgorithmicCGFE_DD_exit55_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit55_02_df_confint = confint(AlgorithmicCGFE_DD_exit55_02)

AlgorithmicCGFE_DD_exit55_02_HC_df_confint = confint(AlgorithmicCGFE_DD_exit55_02_HC)

AlgorithmicCGFE_DD_exit55_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit55_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit55_02_df_all,AlgorithmicCGFE_DD_exit55_02_df_confint, AlgorithmicCGFE_DD_exit55_02_HC_df_confint, AlgorithmicCGFE_DD_exit55_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")



#56 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit56_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit56_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit56_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_exit56_02_df_all = etable(AlgorithmicCGFE_DD_exit56_02, AlgorithmicCGFE_DD_exit56_02_HC, AlgorithmicCGFE_DD_exit56_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit56_02_df_confint = confint(AlgorithmicCGFE_DD_exit56_02)

AlgorithmicCGFE_DD_exit56_02_HC_df_confint = confint(AlgorithmicCGFE_DD_exit56_02_HC)

AlgorithmicCGFE_DD_exit56_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit56_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit56_02_df_all,AlgorithmicCGFE_DD_exit56_02_df_confint, AlgorithmicCGFE_DD_exit56_02_HC_df_confint, AlgorithmicCGFE_DD_exit56_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")








#45 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry45_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry45_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry45_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_entry45_03_df_all = etable(AlgorithmicCGFE_DD_entry45_03, AlgorithmicCGFE_DD_entry45_03_HC, AlgorithmicCGFE_DD_entry45_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry45_03_df_confint = confint(AlgorithmicCGFE_DD_entry45_03)

AlgorithmicCGFE_DD_entry45_03_HC_df_confint = confint(AlgorithmicCGFE_DD_entry45_03_HC)

AlgorithmicCGFE_DD_entry45_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry45_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry45_03_df_all,AlgorithmicCGFE_DD_entry45_03_df_confint, AlgorithmicCGFE_DD_entry45_03_HC_df_confint, AlgorithmicCGFE_DD_entry45_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#46 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry46_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry46_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry46_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_entry46_03_df_all = etable(AlgorithmicCGFE_DD_entry46_03, AlgorithmicCGFE_DD_entry46_03_HC, AlgorithmicCGFE_DD_entry46_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry46_03_df_confint = confint(AlgorithmicCGFE_DD_entry46_03)

AlgorithmicCGFE_DD_entry46_03_HC_df_confint = confint(AlgorithmicCGFE_DD_entry46_03_HC)

AlgorithmicCGFE_DD_entry46_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry46_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry46_03_df_all,AlgorithmicCGFE_DD_entry46_03_df_confint, AlgorithmicCGFE_DD_entry46_03_HC_df_confint, AlgorithmicCGFE_DD_entry46_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#47 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry47_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry47_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry47_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_entry47_03_df_all = etable(AlgorithmicCGFE_DD_entry47_03, AlgorithmicCGFE_DD_entry47_03_HC, AlgorithmicCGFE_DD_entry47_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry47_03_df_confint = confint(AlgorithmicCGFE_DD_entry47_03)

AlgorithmicCGFE_DD_entry47_03_HC_df_confint = confint(AlgorithmicCGFE_DD_entry47_03_HC)

AlgorithmicCGFE_DD_entry47_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry47_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry47_03_df_all,AlgorithmicCGFE_DD_entry47_03_df_confint, AlgorithmicCGFE_DD_entry47_03_HC_df_confint, AlgorithmicCGFE_DD_entry47_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#55 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry55_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry55_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry55_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_entry55_03_df_all = etable(AlgorithmicCGFE_DD_entry55_03, AlgorithmicCGFE_DD_entry55_03_HC, AlgorithmicCGFE_DD_entry55_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry55_03_df_confint = confint(AlgorithmicCGFE_DD_entry55_03)

AlgorithmicCGFE_DD_entry55_03_HC_df_confint = confint(AlgorithmicCGFE_DD_entry55_03_HC)

AlgorithmicCGFE_DD_entry55_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry55_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry55_03_df_all,AlgorithmicCGFE_DD_entry55_03_df_confint, AlgorithmicCGFE_DD_entry55_03_HC_df_confint, AlgorithmicCGFE_DD_entry55_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#56 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry56_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry56_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry56_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_entry56_03_df_all = etable(AlgorithmicCGFE_DD_entry56_03, AlgorithmicCGFE_DD_entry56_03_HC, AlgorithmicCGFE_DD_entry56_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry56_03_df_confint = confint(AlgorithmicCGFE_DD_entry56_03)

AlgorithmicCGFE_DD_entry56_03_HC_df_confint = confint(AlgorithmicCGFE_DD_entry56_03_HC)

AlgorithmicCGFE_DD_entry56_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry56_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry56_03_df_all,AlgorithmicCGFE_DD_entry56_03_df_confint, AlgorithmicCGFE_DD_entry56_03_HC_df_confint, AlgorithmicCGFE_DD_entry56_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")

#45 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit45_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit45_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit45_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_exit45_03_df_all = etable(AlgorithmicCGFE_DD_exit45_03, AlgorithmicCGFE_DD_exit45_03_HC, AlgorithmicCGFE_DD_exit45_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit45_03_df_confint = confint(AlgorithmicCGFE_DD_exit45_03)

AlgorithmicCGFE_DD_exit45_03_HC_df_confint = confint(AlgorithmicCGFE_DD_exit45_03_HC)

AlgorithmicCGFE_DD_exit45_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit45_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit45_03_df_all,AlgorithmicCGFE_DD_exit45_03_df_confint, AlgorithmicCGFE_DD_exit45_03_HC_df_confint, AlgorithmicCGFE_DD_exit45_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#46 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit46_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit46_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit46_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_exit46_03_df_all = etable(AlgorithmicCGFE_DD_exit46_03, AlgorithmicCGFE_DD_exit46_03_HC, AlgorithmicCGFE_DD_exit46_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit46_03_df_confint = confint(AlgorithmicCGFE_DD_exit46_03)

AlgorithmicCGFE_DD_exit46_03_HC_df_confint = confint(AlgorithmicCGFE_DD_exit46_03_HC)

AlgorithmicCGFE_DD_exit46_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit46_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit46_03_df_all,AlgorithmicCGFE_DD_exit46_03_df_confint, AlgorithmicCGFE_DD_exit46_03_HC_df_confint, AlgorithmicCGFE_DD_exit46_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#47 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit47_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit47_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit47_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_exit47_03_df_all = etable(AlgorithmicCGFE_DD_exit47_03, AlgorithmicCGFE_DD_exit47_03_HC, AlgorithmicCGFE_DD_exit47_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit47_03_df_confint = confint(AlgorithmicCGFE_DD_exit47_03)

AlgorithmicCGFE_DD_exit47_03_HC_df_confint = confint(AlgorithmicCGFE_DD_exit47_03_HC)

AlgorithmicCGFE_DD_exit47_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit47_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit47_03_df_all,AlgorithmicCGFE_DD_exit47_03_df_confint, AlgorithmicCGFE_DD_exit47_03_HC_df_confint, AlgorithmicCGFE_DD_exit47_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#55 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit55_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit55_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit55_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_exit55_03_df_all = etable(AlgorithmicCGFE_DD_exit55_03, AlgorithmicCGFE_DD_exit55_03_HC, AlgorithmicCGFE_DD_exit55_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit55_03_df_confint = confint(AlgorithmicCGFE_DD_exit55_03)

AlgorithmicCGFE_DD_exit55_03_HC_df_confint = confint(AlgorithmicCGFE_DD_exit55_03_HC)

AlgorithmicCGFE_DD_exit55_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit55_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit55_03_df_all,AlgorithmicCGFE_DD_exit55_03_df_confint, AlgorithmicCGFE_DD_exit55_03_HC_df_confint, AlgorithmicCGFE_DD_exit55_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#56 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit56_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit56_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit56_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_exit56_03_df_all = etable(AlgorithmicCGFE_DD_exit56_03, AlgorithmicCGFE_DD_exit56_03_HC, AlgorithmicCGFE_DD_exit56_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit56_03_df_confint = confint(AlgorithmicCGFE_DD_exit56_03)

AlgorithmicCGFE_DD_exit56_03_HC_df_confint = confint(AlgorithmicCGFE_DD_exit56_03_HC)

AlgorithmicCGFE_DD_exit56_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit56_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit56_03_df_all,AlgorithmicCGFE_DD_exit56_03_df_confint, AlgorithmicCGFE_DD_exit56_03_HC_df_confint, AlgorithmicCGFE_DD_exit56_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#ENTRY A EXIT posunutý rok EET2016
#BROAD
#45 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_entry45_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_entry45_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_entry45_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45)
#ETABLE

BroadCGFE_DD_EET2016_entry45_01_df_all = etable(BroadCGFE_DD_EET2016_entry45_01, BroadCGFE_DD_EET2016_entry45_01_HC, BroadCGFE_DD_EET2016_entry45_01_clusteredNACE)

#export
BroadCGFE_DD_EET2016_entry45_01_df_confint = confint(BroadCGFE_DD_EET2016_entry45_01)

BroadCGFE_DD_EET2016_entry45_01_HC_df_confint = confint(BroadCGFE_DD_EET2016_entry45_01_HC)

BroadCGFE_DD_EET2016_entry45_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_entry45_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_entry45_01_df_all,BroadCGFE_DD_EET2016_entry45_01_df_confint, BroadCGFE_DD_EET2016_entry45_01_HC_df_confint, BroadCGFE_DD_EET2016_entry45_01_clusteredNACE_df_confint ), path = "Broad CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")


#46 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_entry46_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_entry46_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_entry46_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46)
#ETABLE

BroadCGFE_DD_EET2016_entry46_01_df_all = etable(BroadCGFE_DD_EET2016_entry46_01, BroadCGFE_DD_EET2016_entry46_01_HC, BroadCGFE_DD_EET2016_entry46_01_clusteredNACE)

#export
BroadCGFE_DD_EET2016_entry46_01_df_confint = confint(BroadCGFE_DD_EET2016_entry46_01)

BroadCGFE_DD_EET2016_entry46_01_HC_df_confint = confint(BroadCGFE_DD_EET2016_entry46_01_HC)

BroadCGFE_DD_EET2016_entry46_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_entry46_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_entry46_01_df_all,BroadCGFE_DD_EET2016_entry46_01_df_confint, BroadCGFE_DD_EET2016_entry46_01_HC_df_confint, BroadCGFE_DD_EET2016_entry46_01_clusteredNACE_df_confint ), path = "Broad CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")

#47 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_entry47_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_entry47_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_entry47_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47)
#ETABLE

BroadCGFE_DD_EET2016_entry47_01_df_all = etable(BroadCGFE_DD_EET2016_entry47_01, BroadCGFE_DD_EET2016_entry47_01_HC, BroadCGFE_DD_EET2016_entry47_01_clusteredNACE)

#export
BroadCGFE_DD_EET2016_entry47_01_df_confint = confint(BroadCGFE_DD_EET2016_entry47_01)

BroadCGFE_DD_EET2016_entry47_01_HC_df_confint = confint(BroadCGFE_DD_EET2016_entry47_01_HC)

BroadCGFE_DD_EET2016_entry47_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_entry47_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_entry47_01_df_all,BroadCGFE_DD_EET2016_entry47_01_df_confint, BroadCGFE_DD_EET2016_entry47_01_HC_df_confint, BroadCGFE_DD_EET2016_entry47_01_clusteredNACE_df_confint ), path = "Broad CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")


#55 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_entry55_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_entry55_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_entry55_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55)
#ETABLE

BroadCGFE_DD_EET2016_entry55_01_df_all = etable(BroadCGFE_DD_EET2016_entry55_01, BroadCGFE_DD_EET2016_entry55_01_HC, BroadCGFE_DD_EET2016_entry55_01_clusteredNACE)

#export
BroadCGFE_DD_EET2016_entry55_01_df_confint = confint(BroadCGFE_DD_EET2016_entry55_01)

BroadCGFE_DD_EET2016_entry55_01_HC_df_confint = confint(BroadCGFE_DD_EET2016_entry55_01_HC)

BroadCGFE_DD_EET2016_entry55_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_entry55_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_entry55_01_df_all,BroadCGFE_DD_EET2016_entry55_01_df_confint, BroadCGFE_DD_EET2016_entry55_01_HC_df_confint, BroadCGFE_DD_EET2016_entry55_01_clusteredNACE_df_confint ), path = "Broad CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")

#56 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_entry56_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_entry56_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_entry56_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56)
#ETABLE

BroadCGFE_DD_EET2016_entry56_01_df_all = etable(BroadCGFE_DD_EET2016_entry56_01, BroadCGFE_DD_EET2016_entry56_01_HC, BroadCGFE_DD_EET2016_entry56_01_clusteredNACE)

#export
BroadCGFE_DD_EET2016_entry56_01_df_confint = confint(BroadCGFE_DD_EET2016_entry56_01)

BroadCGFE_DD_EET2016_entry56_01_HC_df_confint = confint(BroadCGFE_DD_EET2016_entry56_01_HC)

BroadCGFE_DD_EET2016_entry56_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_entry56_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_entry56_01_df_all,BroadCGFE_DD_EET2016_entry56_01_df_confint, BroadCGFE_DD_EET2016_entry56_01_HC_df_confint, BroadCGFE_DD_EET2016_entry56_01_clusteredNACE_df_confint ), path = "Broad CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")






#45 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_exit45_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_exit45_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_exit45_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45)
#ETABLE

BroadCGFE_DD_EET2016_exit45_01_df_all = etable(BroadCGFE_DD_EET2016_exit45_01, BroadCGFE_DD_EET2016_exit45_01_HC, BroadCGFE_DD_EET2016_exit45_01_clusteredNACE)

#export
BroadCGFE_DD_EET2016_exit45_01_df_confint = confint(BroadCGFE_DD_EET2016_exit45_01)

BroadCGFE_DD_EET2016_exit45_01_HC_df_confint = confint(BroadCGFE_DD_EET2016_exit45_01_HC)

BroadCGFE_DD_EET2016_exit45_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_exit45_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_exit45_01_df_all,BroadCGFE_DD_EET2016_exit45_01_df_confint, BroadCGFE_DD_EET2016_exit45_01_HC_df_confint, BroadCGFE_DD_EET2016_exit45_01_clusteredNACE_df_confint ), path = "Broad CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")


#46 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_exit46_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_exit46_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_exit46_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46)
#ETABLE

BroadCGFE_DD_EET2016_exit46_01_df_all = etable(BroadCGFE_DD_EET2016_exit46_01, BroadCGFE_DD_EET2016_exit46_01_HC, BroadCGFE_DD_EET2016_exit46_01_clusteredNACE)

#export
BroadCGFE_DD_EET2016_exit46_01_df_confint = confint(BroadCGFE_DD_EET2016_exit46_01)

BroadCGFE_DD_EET2016_exit46_01_HC_df_confint = confint(BroadCGFE_DD_EET2016_exit46_01_HC)

BroadCGFE_DD_EET2016_exit46_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_exit46_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_exit46_01_df_all,BroadCGFE_DD_EET2016_exit46_01_df_confint, BroadCGFE_DD_EET2016_exit46_01_HC_df_confint, BroadCGFE_DD_EET2016_exit46_01_clusteredNACE_df_confint ), path = "Broad CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")

#47 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_exit47_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_exit47_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_exit47_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47)
#ETABLE

BroadCGFE_DD_EET2016_exit47_01_df_all = etable(BroadCGFE_DD_EET2016_exit47_01, BroadCGFE_DD_EET2016_exit47_01_HC, BroadCGFE_DD_EET2016_exit47_01_clusteredNACE)

#export
BroadCGFE_DD_EET2016_exit47_01_df_confint = confint(BroadCGFE_DD_EET2016_exit47_01)

BroadCGFE_DD_EET2016_exit47_01_HC_df_confint = confint(BroadCGFE_DD_EET2016_exit47_01_HC)

BroadCGFE_DD_EET2016_exit47_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_exit47_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_exit47_01_df_all,BroadCGFE_DD_EET2016_exit47_01_df_confint, BroadCGFE_DD_EET2016_exit47_01_HC_df_confint, BroadCGFE_DD_EET2016_exit47_01_clusteredNACE_df_confint ), path = "Broad CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")


#55 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_exit55_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_exit55_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_exit55_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55)
#ETABLE

BroadCGFE_DD_EET2016_exit55_01_df_all = etable(BroadCGFE_DD_EET2016_exit55_01, BroadCGFE_DD_EET2016_exit55_01_HC, BroadCGFE_DD_EET2016_exit55_01_clusteredNACE)

#export
BroadCGFE_DD_EET2016_exit55_01_df_confint = confint(BroadCGFE_DD_EET2016_exit55_01)

BroadCGFE_DD_EET2016_exit55_01_HC_df_confint = confint(BroadCGFE_DD_EET2016_exit55_01_HC)

BroadCGFE_DD_EET2016_exit55_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_exit55_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_exit55_01_df_all,BroadCGFE_DD_EET2016_exit55_01_df_confint, BroadCGFE_DD_EET2016_exit55_01_HC_df_confint, BroadCGFE_DD_EET2016_exit55_01_clusteredNACE_df_confint ), path = "Broad CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")

#56 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_exit56_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_exit56_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_exit56_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56)
#ETABLE

BroadCGFE_DD_EET2016_exit56_01_df_all = etable(BroadCGFE_DD_EET2016_exit56_01, BroadCGFE_DD_EET2016_exit56_01_HC, BroadCGFE_DD_EET2016_exit56_01_clusteredNACE)

#export
BroadCGFE_DD_EET2016_exit56_01_df_confint = confint(BroadCGFE_DD_EET2016_exit56_01)

BroadCGFE_DD_EET2016_exit56_01_HC_df_confint = confint(BroadCGFE_DD_EET2016_exit56_01_HC)

BroadCGFE_DD_EET2016_exit56_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_exit56_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_exit56_01_df_all,BroadCGFE_DD_EET2016_exit56_01_df_confint, BroadCGFE_DD_EET2016_exit56_01_HC_df_confint, BroadCGFE_DD_EET2016_exit56_01_clusteredNACE_df_confint ), path = "Broad CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")











#45 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_entry45_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_entry45_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_entry45_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45)
#ETABLE

BroadCGFE_DD_EET2016_entry45_02_df_all = etable(BroadCGFE_DD_EET2016_entry45_02, BroadCGFE_DD_EET2016_entry45_02_HC, BroadCGFE_DD_EET2016_entry45_02_clusteredNACE)

#export
BroadCGFE_DD_EET2016_entry45_02_df_confint = confint(BroadCGFE_DD_EET2016_entry45_02)

BroadCGFE_DD_EET2016_entry45_02_HC_df_confint = confint(BroadCGFE_DD_EET2016_entry45_02_HC)

BroadCGFE_DD_EET2016_entry45_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_entry45_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_entry45_02_df_all,BroadCGFE_DD_EET2016_entry45_02_df_confint, BroadCGFE_DD_EET2016_entry45_02_HC_df_confint, BroadCGFE_DD_EET2016_entry45_02_clusteredNACE_df_confint ), path = "Broad CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")



#46 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_entry46_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_entry46_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_entry46_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46)
#ETABLE

BroadCGFE_DD_EET2016_entry46_02_df_all = etable(BroadCGFE_DD_EET2016_entry46_02, BroadCGFE_DD_EET2016_entry46_02_HC, BroadCGFE_DD_EET2016_entry46_02_clusteredNACE)

#export
BroadCGFE_DD_EET2016_entry46_02_df_confint = confint(BroadCGFE_DD_EET2016_entry46_02)

BroadCGFE_DD_EET2016_entry46_02_HC_df_confint = confint(BroadCGFE_DD_EET2016_entry46_02_HC)

BroadCGFE_DD_EET2016_entry46_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_entry46_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_entry46_02_df_all,BroadCGFE_DD_EET2016_entry46_02_df_confint, BroadCGFE_DD_EET2016_entry46_02_HC_df_confint, BroadCGFE_DD_EET2016_entry46_02_clusteredNACE_df_confint ), path = "Broad CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")


#47 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_entry47_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_entry47_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_entry47_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47)
#ETABLE

BroadCGFE_DD_EET2016_entry47_02_df_all = etable(BroadCGFE_DD_EET2016_entry47_02, BroadCGFE_DD_EET2016_entry47_02_HC, BroadCGFE_DD_EET2016_entry47_02_clusteredNACE)

#export
BroadCGFE_DD_EET2016_entry47_02_df_confint = confint(BroadCGFE_DD_EET2016_entry47_02)

BroadCGFE_DD_EET2016_entry47_02_HC_df_confint = confint(BroadCGFE_DD_EET2016_entry47_02_HC)

BroadCGFE_DD_EET2016_entry47_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_entry47_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_entry47_02_df_all,BroadCGFE_DD_EET2016_entry47_02_df_confint, BroadCGFE_DD_EET2016_entry47_02_HC_df_confint, BroadCGFE_DD_EET2016_entry47_02_clusteredNACE_df_confint ), path = "Broad CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")


#55 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_entry55_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_entry55_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_entry55_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55)
#ETABLE

BroadCGFE_DD_EET2016_entry55_02_df_all = etable(BroadCGFE_DD_EET2016_entry55_02, BroadCGFE_DD_EET2016_entry55_02_HC, BroadCGFE_DD_EET2016_entry55_02_clusteredNACE)

#export
BroadCGFE_DD_EET2016_entry55_02_df_confint = confint(BroadCGFE_DD_EET2016_entry55_02)

BroadCGFE_DD_EET2016_entry55_02_HC_df_confint = confint(BroadCGFE_DD_EET2016_entry55_02_HC)

BroadCGFE_DD_EET2016_entry55_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_entry55_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_entry55_02_df_all,BroadCGFE_DD_EET2016_entry55_02_df_confint, BroadCGFE_DD_EET2016_entry55_02_HC_df_confint, BroadCGFE_DD_EET2016_entry55_02_clusteredNACE_df_confint ), path = "Broad CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")



#56 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_entry56_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_entry56_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_entry56_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56)
#ETABLE

BroadCGFE_DD_EET2016_entry56_02_df_all = etable(BroadCGFE_DD_EET2016_entry56_02, BroadCGFE_DD_EET2016_entry56_02_HC, BroadCGFE_DD_EET2016_entry56_02_clusteredNACE)

#export
BroadCGFE_DD_EET2016_entry56_02_df_confint = confint(BroadCGFE_DD_EET2016_entry56_02)

BroadCGFE_DD_EET2016_entry56_02_HC_df_confint = confint(BroadCGFE_DD_EET2016_entry56_02_HC)

BroadCGFE_DD_EET2016_entry56_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_entry56_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_entry56_02_df_all,BroadCGFE_DD_EET2016_entry56_02_df_confint, BroadCGFE_DD_EET2016_entry56_02_HC_df_confint, BroadCGFE_DD_EET2016_entry56_02_clusteredNACE_df_confint ), path = "Broad CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")

#45 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_exit45_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_exit45_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_exit45_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45)
#ETABLE

BroadCGFE_DD_EET2016_exit45_02_df_all = etable(BroadCGFE_DD_EET2016_exit45_02, BroadCGFE_DD_EET2016_exit45_02_HC, BroadCGFE_DD_EET2016_exit45_02_clusteredNACE)

#export
BroadCGFE_DD_EET2016_exit45_02_df_confint = confint(BroadCGFE_DD_EET2016_exit45_02)

BroadCGFE_DD_EET2016_exit45_02_HC_df_confint = confint(BroadCGFE_DD_EET2016_exit45_02_HC)

BroadCGFE_DD_EET2016_exit45_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_exit45_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_exit45_02_df_all,BroadCGFE_DD_EET2016_exit45_02_df_confint, BroadCGFE_DD_EET2016_exit45_02_HC_df_confint, BroadCGFE_DD_EET2016_exit45_02_clusteredNACE_df_confint ), path = "Broad CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")



#46 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_exit46_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_exit46_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_exit46_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46)
#ETABLE

BroadCGFE_DD_EET2016_exit46_02_df_all = etable(BroadCGFE_DD_EET2016_exit46_02, BroadCGFE_DD_EET2016_exit46_02_HC, BroadCGFE_DD_EET2016_exit46_02_clusteredNACE)

#export
BroadCGFE_DD_EET2016_exit46_02_df_confint = confint(BroadCGFE_DD_EET2016_exit46_02)

BroadCGFE_DD_EET2016_exit46_02_HC_df_confint = confint(BroadCGFE_DD_EET2016_exit46_02_HC)

BroadCGFE_DD_EET2016_exit46_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_exit46_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_exit46_02_df_all,BroadCGFE_DD_EET2016_exit46_02_df_confint, BroadCGFE_DD_EET2016_exit46_02_HC_df_confint, BroadCGFE_DD_EET2016_exit46_02_clusteredNACE_df_confint ), path = "Broad CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")


#47 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_exit47_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_exit47_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_exit47_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47)
#ETABLE

BroadCGFE_DD_EET2016_exit47_02_df_all = etable(BroadCGFE_DD_EET2016_exit47_02, BroadCGFE_DD_EET2016_exit47_02_HC, BroadCGFE_DD_EET2016_exit47_02_clusteredNACE)

#export
BroadCGFE_DD_EET2016_exit47_02_df_confint = confint(BroadCGFE_DD_EET2016_exit47_02)

BroadCGFE_DD_EET2016_exit47_02_HC_df_confint = confint(BroadCGFE_DD_EET2016_exit47_02_HC)

BroadCGFE_DD_EET2016_exit47_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_exit47_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_exit47_02_df_all,BroadCGFE_DD_EET2016_exit47_02_df_confint, BroadCGFE_DD_EET2016_exit47_02_HC_df_confint, BroadCGFE_DD_EET2016_exit47_02_clusteredNACE_df_confint ), path = "Broad CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")


#55 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_exit55_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_exit55_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_exit55_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55)
#ETABLE

BroadCGFE_DD_EET2016_exit55_02_df_all = etable(BroadCGFE_DD_EET2016_exit55_02, BroadCGFE_DD_EET2016_exit55_02_HC, BroadCGFE_DD_EET2016_exit55_02_clusteredNACE)

#export
BroadCGFE_DD_EET2016_exit55_02_df_confint = confint(BroadCGFE_DD_EET2016_exit55_02)

BroadCGFE_DD_EET2016_exit55_02_HC_df_confint = confint(BroadCGFE_DD_EET2016_exit55_02_HC)

BroadCGFE_DD_EET2016_exit55_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_exit55_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_exit55_02_df_all,BroadCGFE_DD_EET2016_exit55_02_df_confint, BroadCGFE_DD_EET2016_exit55_02_HC_df_confint, BroadCGFE_DD_EET2016_exit55_02_clusteredNACE_df_confint ), path = "Broad CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")



#56 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_exit56_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_exit56_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_exit56_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56)
#ETABLE

BroadCGFE_DD_EET2016_exit56_02_df_all = etable(BroadCGFE_DD_EET2016_exit56_02, BroadCGFE_DD_EET2016_exit56_02_HC, BroadCGFE_DD_EET2016_exit56_02_clusteredNACE)

#export
BroadCGFE_DD_EET2016_exit56_02_df_confint = confint(BroadCGFE_DD_EET2016_exit56_02)

BroadCGFE_DD_EET2016_exit56_02_HC_df_confint = confint(BroadCGFE_DD_EET2016_exit56_02_HC)

BroadCGFE_DD_EET2016_exit56_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_exit56_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_exit56_02_df_all,BroadCGFE_DD_EET2016_exit56_02_df_confint, BroadCGFE_DD_EET2016_exit56_02_HC_df_confint, BroadCGFE_DD_EET2016_exit56_02_clusteredNACE_df_confint ), path = "Broad CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")








#45 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_entry45_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_entry45_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_entry45_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45)
#ETABLE

BroadCGFE_DD_EET2016_entry45_03_df_all = etable(BroadCGFE_DD_EET2016_entry45_03, BroadCGFE_DD_EET2016_entry45_03_HC, BroadCGFE_DD_EET2016_entry45_03_clusteredNACE)

#export
BroadCGFE_DD_EET2016_entry45_03_df_confint = confint(BroadCGFE_DD_EET2016_entry45_03)

BroadCGFE_DD_EET2016_entry45_03_HC_df_confint = confint(BroadCGFE_DD_EET2016_entry45_03_HC)

BroadCGFE_DD_EET2016_entry45_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_entry45_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_entry45_03_df_all,BroadCGFE_DD_EET2016_entry45_03_df_confint, BroadCGFE_DD_EET2016_entry45_03_HC_df_confint, BroadCGFE_DD_EET2016_entry45_03_clusteredNACE_df_confint ), path = "Broad CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#46 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_entry46_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_entry46_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_entry46_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46)
#ETABLE

BroadCGFE_DD_EET2016_entry46_03_df_all = etable(BroadCGFE_DD_EET2016_entry46_03, BroadCGFE_DD_EET2016_entry46_03_HC, BroadCGFE_DD_EET2016_entry46_03_clusteredNACE)

#export
BroadCGFE_DD_EET2016_entry46_03_df_confint = confint(BroadCGFE_DD_EET2016_entry46_03)

BroadCGFE_DD_EET2016_entry46_03_HC_df_confint = confint(BroadCGFE_DD_EET2016_entry46_03_HC)

BroadCGFE_DD_EET2016_entry46_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_entry46_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_entry46_03_df_all,BroadCGFE_DD_EET2016_entry46_03_df_confint, BroadCGFE_DD_EET2016_entry46_03_HC_df_confint, BroadCGFE_DD_EET2016_entry46_03_clusteredNACE_df_confint ), path = "Broad CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#47 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_entry47_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_entry47_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_entry47_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47)
#ETABLE

BroadCGFE_DD_EET2016_entry47_03_df_all = etable(BroadCGFE_DD_EET2016_entry47_03, BroadCGFE_DD_EET2016_entry47_03_HC, BroadCGFE_DD_EET2016_entry47_03_clusteredNACE)

#export
BroadCGFE_DD_EET2016_entry47_03_df_confint = confint(BroadCGFE_DD_EET2016_entry47_03)

BroadCGFE_DD_EET2016_entry47_03_HC_df_confint = confint(BroadCGFE_DD_EET2016_entry47_03_HC)

BroadCGFE_DD_EET2016_entry47_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_entry47_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_entry47_03_df_all,BroadCGFE_DD_EET2016_entry47_03_df_confint, BroadCGFE_DD_EET2016_entry47_03_HC_df_confint, BroadCGFE_DD_EET2016_entry47_03_clusteredNACE_df_confint ), path = "Broad CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#55 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_entry55_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_entry55_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_entry55_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55)
#ETABLE

BroadCGFE_DD_EET2016_entry55_03_df_all = etable(BroadCGFE_DD_EET2016_entry55_03, BroadCGFE_DD_EET2016_entry55_03_HC, BroadCGFE_DD_EET2016_entry55_03_clusteredNACE)

#export
BroadCGFE_DD_EET2016_entry55_03_df_confint = confint(BroadCGFE_DD_EET2016_entry55_03)

BroadCGFE_DD_EET2016_entry55_03_HC_df_confint = confint(BroadCGFE_DD_EET2016_entry55_03_HC)

BroadCGFE_DD_EET2016_entry55_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_entry55_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_entry55_03_df_all,BroadCGFE_DD_EET2016_entry55_03_df_confint, BroadCGFE_DD_EET2016_entry55_03_HC_df_confint, BroadCGFE_DD_EET2016_entry55_03_clusteredNACE_df_confint ), path = "Broad CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#56 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_entry56_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_entry56_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_entry56_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56)
#ETABLE

BroadCGFE_DD_EET2016_entry56_03_df_all = etable(BroadCGFE_DD_EET2016_entry56_03, BroadCGFE_DD_EET2016_entry56_03_HC, BroadCGFE_DD_EET2016_entry56_03_clusteredNACE)

#export
BroadCGFE_DD_EET2016_entry56_03_df_confint = confint(BroadCGFE_DD_EET2016_entry56_03)

BroadCGFE_DD_EET2016_entry56_03_HC_df_confint = confint(BroadCGFE_DD_EET2016_entry56_03_HC)

BroadCGFE_DD_EET2016_entry56_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_entry56_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_entry56_03_df_all,BroadCGFE_DD_EET2016_entry56_03_df_confint, BroadCGFE_DD_EET2016_entry56_03_HC_df_confint, BroadCGFE_DD_EET2016_entry56_03_clusteredNACE_df_confint ), path = "Broad CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")

#45 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_exit45_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_exit45_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_exit45_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG45)
#ETABLE

BroadCGFE_DD_EET2016_exit45_03_df_all = etable(BroadCGFE_DD_EET2016_exit45_03, BroadCGFE_DD_EET2016_exit45_03_HC, BroadCGFE_DD_EET2016_exit45_03_clusteredNACE)

#export
BroadCGFE_DD_EET2016_exit45_03_df_confint = confint(BroadCGFE_DD_EET2016_exit45_03)

BroadCGFE_DD_EET2016_exit45_03_HC_df_confint = confint(BroadCGFE_DD_EET2016_exit45_03_HC)

BroadCGFE_DD_EET2016_exit45_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_exit45_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_exit45_03_df_all,BroadCGFE_DD_EET2016_exit45_03_df_confint, BroadCGFE_DD_EET2016_exit45_03_HC_df_confint, BroadCGFE_DD_EET2016_exit45_03_clusteredNACE_df_confint ), path = "Broad CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#46 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_exit46_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_exit46_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_exit46_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG46)
#ETABLE

BroadCGFE_DD_EET2016_exit46_03_df_all = etable(BroadCGFE_DD_EET2016_exit46_03, BroadCGFE_DD_EET2016_exit46_03_HC, BroadCGFE_DD_EET2016_exit46_03_clusteredNACE)

#export
BroadCGFE_DD_EET2016_exit46_03_df_confint = confint(BroadCGFE_DD_EET2016_exit46_03)

BroadCGFE_DD_EET2016_exit46_03_HC_df_confint = confint(BroadCGFE_DD_EET2016_exit46_03_HC)

BroadCGFE_DD_EET2016_exit46_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_exit46_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_exit46_03_df_all,BroadCGFE_DD_EET2016_exit46_03_df_confint, BroadCGFE_DD_EET2016_exit46_03_HC_df_confint, BroadCGFE_DD_EET2016_exit46_03_clusteredNACE_df_confint ), path = "Broad CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#47 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_exit47_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_exit47_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_exit47_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG47)
#ETABLE

BroadCGFE_DD_EET2016_exit47_03_df_all = etable(BroadCGFE_DD_EET2016_exit47_03, BroadCGFE_DD_EET2016_exit47_03_HC, BroadCGFE_DD_EET2016_exit47_03_clusteredNACE)

#export
BroadCGFE_DD_EET2016_exit47_03_df_confint = confint(BroadCGFE_DD_EET2016_exit47_03)

BroadCGFE_DD_EET2016_exit47_03_HC_df_confint = confint(BroadCGFE_DD_EET2016_exit47_03_HC)

BroadCGFE_DD_EET2016_exit47_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_exit47_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_exit47_03_df_all,BroadCGFE_DD_EET2016_exit47_03_df_confint, BroadCGFE_DD_EET2016_exit47_03_HC_df_confint, BroadCGFE_DD_EET2016_exit47_03_clusteredNACE_df_confint ), path = "Broad CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#55 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_exit55_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_exit55_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_exit55_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG55)
#ETABLE

BroadCGFE_DD_EET2016_exit55_03_df_all = etable(BroadCGFE_DD_EET2016_exit55_03, BroadCGFE_DD_EET2016_exit55_03_HC, BroadCGFE_DD_EET2016_exit55_03_clusteredNACE)

#export
BroadCGFE_DD_EET2016_exit55_03_df_confint = confint(BroadCGFE_DD_EET2016_exit55_03)

BroadCGFE_DD_EET2016_exit55_03_HC_df_confint = confint(BroadCGFE_DD_EET2016_exit55_03_HC)

BroadCGFE_DD_EET2016_exit55_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_exit55_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_exit55_03_df_all,BroadCGFE_DD_EET2016_exit55_03_df_confint, BroadCGFE_DD_EET2016_exit55_03_HC_df_confint, BroadCGFE_DD_EET2016_exit55_03_clusteredNACE_df_confint ), path = "Broad CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#56 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EET2016_exit56_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, cluster = "ID_ANON" )
#HC robust SE
BroadCGFE_DD_EET2016_exit56_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EET2016_exit56_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = BroadCG56)
#ETABLE

BroadCGFE_DD_EET2016_exit56_03_df_all = etable(BroadCGFE_DD_EET2016_exit56_03, BroadCGFE_DD_EET2016_exit56_03_HC, BroadCGFE_DD_EET2016_exit56_03_clusteredNACE)

#export
BroadCGFE_DD_EET2016_exit56_03_df_confint = confint(BroadCGFE_DD_EET2016_exit56_03)

BroadCGFE_DD_EET2016_exit56_03_HC_df_confint = confint(BroadCGFE_DD_EET2016_exit56_03_HC)

BroadCGFE_DD_EET2016_exit56_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EET2016_exit56_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EET2016_exit56_03_df_all,BroadCGFE_DD_EET2016_exit56_03_df_confint, BroadCGFE_DD_EET2016_exit56_03_HC_df_confint, BroadCGFE_DD_EET2016_exit56_03_clusteredNACE_df_confint ), path = "Broad CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")





















#Fixed effect difference in differences analyza s NarrowCG
#45
NarrowCGdatasetNACE45 = c(29,32,33,45,95)

NarrowCG45 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE45),]
#46
NarrowCGdatasetNACE46 = c(32,46,52,62,74,78,82)

NarrowCG46 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE46),]
#47
NarrowCGdatasetNACE47 = c(32,47,58,90,95,96)

NarrowCG47 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE47),]
#55
NarrowCGdatasetNACE55 = c(55,68,77,79,81,93,95,96)

NarrowCG55 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE55),]
#56
NarrowCGdatasetNACE56 = c(56,61,79,90,93,95,96)

NarrowCG56 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE56),]


#ENTRY A EXIT
#NARROW
#45 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_entry45_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_entry45_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_entry45_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45)
#ETABLE

NarrowCGFE_DD_EET2016_entry45_01_df_all = etable(NarrowCGFE_DD_EET2016_entry45_01, NarrowCGFE_DD_EET2016_entry45_01_HC, NarrowCGFE_DD_EET2016_entry45_01_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_entry45_01_df_confint = confint(NarrowCGFE_DD_EET2016_entry45_01)

NarrowCGFE_DD_EET2016_entry45_01_HC_df_confint = confint(NarrowCGFE_DD_EET2016_entry45_01_HC)

NarrowCGFE_DD_EET2016_entry45_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_entry45_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_entry45_01_df_all,NarrowCGFE_DD_EET2016_entry45_01_df_confint, NarrowCGFE_DD_EET2016_entry45_01_HC_df_confint, NarrowCGFE_DD_EET2016_entry45_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")


#46 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_entry46_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_entry46_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_entry46_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46)
#ETABLE

NarrowCGFE_DD_EET2016_entry46_01_df_all = etable(NarrowCGFE_DD_EET2016_entry46_01, NarrowCGFE_DD_EET2016_entry46_01_HC, NarrowCGFE_DD_EET2016_entry46_01_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_entry46_01_df_confint = confint(NarrowCGFE_DD_EET2016_entry46_01)

NarrowCGFE_DD_EET2016_entry46_01_HC_df_confint = confint(NarrowCGFE_DD_EET2016_entry46_01_HC)

NarrowCGFE_DD_EET2016_entry46_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_entry46_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_entry46_01_df_all,NarrowCGFE_DD_EET2016_entry46_01_df_confint, NarrowCGFE_DD_EET2016_entry46_01_HC_df_confint, NarrowCGFE_DD_EET2016_entry46_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")

#47 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_entry47_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_entry47_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_entry47_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47)
#ETABLE

NarrowCGFE_DD_EET2016_entry47_01_df_all = etable(NarrowCGFE_DD_EET2016_entry47_01, NarrowCGFE_DD_EET2016_entry47_01_HC, NarrowCGFE_DD_EET2016_entry47_01_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_entry47_01_df_confint = confint(NarrowCGFE_DD_EET2016_entry47_01)

NarrowCGFE_DD_EET2016_entry47_01_HC_df_confint = confint(NarrowCGFE_DD_EET2016_entry47_01_HC)

NarrowCGFE_DD_EET2016_entry47_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_entry47_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_entry47_01_df_all,NarrowCGFE_DD_EET2016_entry47_01_df_confint, NarrowCGFE_DD_EET2016_entry47_01_HC_df_confint, NarrowCGFE_DD_EET2016_entry47_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")


#55 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_entry55_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_entry55_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_entry55_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55)
#ETABLE

NarrowCGFE_DD_EET2016_entry55_01_df_all = etable(NarrowCGFE_DD_EET2016_entry55_01, NarrowCGFE_DD_EET2016_entry55_01_HC, NarrowCGFE_DD_EET2016_entry55_01_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_entry55_01_df_confint = confint(NarrowCGFE_DD_EET2016_entry55_01)

NarrowCGFE_DD_EET2016_entry55_01_HC_df_confint = confint(NarrowCGFE_DD_EET2016_entry55_01_HC)

NarrowCGFE_DD_EET2016_entry55_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_entry55_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_entry55_01_df_all,NarrowCGFE_DD_EET2016_entry55_01_df_confint, NarrowCGFE_DD_EET2016_entry55_01_HC_df_confint, NarrowCGFE_DD_EET2016_entry55_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")

#56 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_entry56_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_entry56_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_entry56_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56)
#ETABLE

NarrowCGFE_DD_EET2016_entry56_01_df_all = etable(NarrowCGFE_DD_EET2016_entry56_01, NarrowCGFE_DD_EET2016_entry56_01_HC, NarrowCGFE_DD_EET2016_entry56_01_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_entry56_01_df_confint = confint(NarrowCGFE_DD_EET2016_entry56_01)

NarrowCGFE_DD_EET2016_entry56_01_HC_df_confint = confint(NarrowCGFE_DD_EET2016_entry56_01_HC)

NarrowCGFE_DD_EET2016_entry56_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_entry56_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_entry56_01_df_all,NarrowCGFE_DD_EET2016_entry56_01_df_confint, NarrowCGFE_DD_EET2016_entry56_01_HC_df_confint, NarrowCGFE_DD_EET2016_entry56_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")






#45 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_exit45_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_exit45_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_exit45_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45)
#ETABLE

NarrowCGFE_DD_EET2016_exit45_01_df_all = etable(NarrowCGFE_DD_EET2016_exit45_01, NarrowCGFE_DD_EET2016_exit45_01_HC, NarrowCGFE_DD_EET2016_exit45_01_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_exit45_01_df_confint = confint(NarrowCGFE_DD_EET2016_exit45_01)

NarrowCGFE_DD_EET2016_exit45_01_HC_df_confint = confint(NarrowCGFE_DD_EET2016_exit45_01_HC)

NarrowCGFE_DD_EET2016_exit45_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_exit45_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_exit45_01_df_all,NarrowCGFE_DD_EET2016_exit45_01_df_confint, NarrowCGFE_DD_EET2016_exit45_01_HC_df_confint, NarrowCGFE_DD_EET2016_exit45_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")


#46 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_exit46_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_exit46_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_exit46_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46)
#ETABLE

NarrowCGFE_DD_EET2016_exit46_01_df_all = etable(NarrowCGFE_DD_EET2016_exit46_01, NarrowCGFE_DD_EET2016_exit46_01_HC, NarrowCGFE_DD_EET2016_exit46_01_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_exit46_01_df_confint = confint(NarrowCGFE_DD_EET2016_exit46_01)

NarrowCGFE_DD_EET2016_exit46_01_HC_df_confint = confint(NarrowCGFE_DD_EET2016_exit46_01_HC)

NarrowCGFE_DD_EET2016_exit46_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_exit46_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_exit46_01_df_all,NarrowCGFE_DD_EET2016_exit46_01_df_confint, NarrowCGFE_DD_EET2016_exit46_01_HC_df_confint, NarrowCGFE_DD_EET2016_exit46_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")

#47 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_exit47_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_exit47_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_exit47_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47)
#ETABLE

NarrowCGFE_DD_EET2016_exit47_01_df_all = etable(NarrowCGFE_DD_EET2016_exit47_01, NarrowCGFE_DD_EET2016_exit47_01_HC, NarrowCGFE_DD_EET2016_exit47_01_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_exit47_01_df_confint = confint(NarrowCGFE_DD_EET2016_exit47_01)

NarrowCGFE_DD_EET2016_exit47_01_HC_df_confint = confint(NarrowCGFE_DD_EET2016_exit47_01_HC)

NarrowCGFE_DD_EET2016_exit47_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_exit47_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_exit47_01_df_all,NarrowCGFE_DD_EET2016_exit47_01_df_confint, NarrowCGFE_DD_EET2016_exit47_01_HC_df_confint, NarrowCGFE_DD_EET2016_exit47_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")


#55 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_exit55_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_exit55_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_exit55_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55)
#ETABLE

NarrowCGFE_DD_EET2016_exit55_01_df_all = etable(NarrowCGFE_DD_EET2016_exit55_01, NarrowCGFE_DD_EET2016_exit55_01_HC, NarrowCGFE_DD_EET2016_exit55_01_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_exit55_01_df_confint = confint(NarrowCGFE_DD_EET2016_exit55_01)

NarrowCGFE_DD_EET2016_exit55_01_HC_df_confint = confint(NarrowCGFE_DD_EET2016_exit55_01_HC)

NarrowCGFE_DD_EET2016_exit55_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_exit55_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_exit55_01_df_all,NarrowCGFE_DD_EET2016_exit55_01_df_confint, NarrowCGFE_DD_EET2016_exit55_01_HC_df_confint, NarrowCGFE_DD_EET2016_exit55_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")

#56 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_exit56_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_exit56_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_exit56_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56)
#ETABLE

NarrowCGFE_DD_EET2016_exit56_01_df_all = etable(NarrowCGFE_DD_EET2016_exit56_01, NarrowCGFE_DD_EET2016_exit56_01_HC, NarrowCGFE_DD_EET2016_exit56_01_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_exit56_01_df_confint = confint(NarrowCGFE_DD_EET2016_exit56_01)

NarrowCGFE_DD_EET2016_exit56_01_HC_df_confint = confint(NarrowCGFE_DD_EET2016_exit56_01_HC)

NarrowCGFE_DD_EET2016_exit56_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_exit56_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_exit56_01_df_all,NarrowCGFE_DD_EET2016_exit56_01_df_confint, NarrowCGFE_DD_EET2016_exit56_01_HC_df_confint, NarrowCGFE_DD_EET2016_exit56_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")











#45 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_entry45_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_entry45_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_entry45_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45)
#ETABLE

NarrowCGFE_DD_EET2016_entry45_02_df_all = etable(NarrowCGFE_DD_EET2016_entry45_02, NarrowCGFE_DD_EET2016_entry45_02_HC, NarrowCGFE_DD_EET2016_entry45_02_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_entry45_02_df_confint = confint(NarrowCGFE_DD_EET2016_entry45_02)

NarrowCGFE_DD_EET2016_entry45_02_HC_df_confint = confint(NarrowCGFE_DD_EET2016_entry45_02_HC)

NarrowCGFE_DD_EET2016_entry45_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_entry45_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_entry45_02_df_all,NarrowCGFE_DD_EET2016_entry45_02_df_confint, NarrowCGFE_DD_EET2016_entry45_02_HC_df_confint, NarrowCGFE_DD_EET2016_entry45_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")



#46 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_entry46_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_entry46_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_entry46_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46)
#ETABLE

NarrowCGFE_DD_EET2016_entry46_02_df_all = etable(NarrowCGFE_DD_EET2016_entry46_02, NarrowCGFE_DD_EET2016_entry46_02_HC, NarrowCGFE_DD_EET2016_entry46_02_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_entry46_02_df_confint = confint(NarrowCGFE_DD_EET2016_entry46_02)

NarrowCGFE_DD_EET2016_entry46_02_HC_df_confint = confint(NarrowCGFE_DD_EET2016_entry46_02_HC)

NarrowCGFE_DD_EET2016_entry46_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_entry46_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_entry46_02_df_all,NarrowCGFE_DD_EET2016_entry46_02_df_confint, NarrowCGFE_DD_EET2016_entry46_02_HC_df_confint, NarrowCGFE_DD_EET2016_entry46_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")


#47 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_entry47_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_entry47_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_entry47_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47)
#ETABLE

NarrowCGFE_DD_EET2016_entry47_02_df_all = etable(NarrowCGFE_DD_EET2016_entry47_02, NarrowCGFE_DD_EET2016_entry47_02_HC, NarrowCGFE_DD_EET2016_entry47_02_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_entry47_02_df_confint = confint(NarrowCGFE_DD_EET2016_entry47_02)

NarrowCGFE_DD_EET2016_entry47_02_HC_df_confint = confint(NarrowCGFE_DD_EET2016_entry47_02_HC)

NarrowCGFE_DD_EET2016_entry47_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_entry47_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_entry47_02_df_all,NarrowCGFE_DD_EET2016_entry47_02_df_confint, NarrowCGFE_DD_EET2016_entry47_02_HC_df_confint, NarrowCGFE_DD_EET2016_entry47_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")


#55 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_entry55_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_entry55_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_entry55_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55)
#ETABLE

NarrowCGFE_DD_EET2016_entry55_02_df_all = etable(NarrowCGFE_DD_EET2016_entry55_02, NarrowCGFE_DD_EET2016_entry55_02_HC, NarrowCGFE_DD_EET2016_entry55_02_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_entry55_02_df_confint = confint(NarrowCGFE_DD_EET2016_entry55_02)

NarrowCGFE_DD_EET2016_entry55_02_HC_df_confint = confint(NarrowCGFE_DD_EET2016_entry55_02_HC)

NarrowCGFE_DD_EET2016_entry55_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_entry55_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_entry55_02_df_all,NarrowCGFE_DD_EET2016_entry55_02_df_confint, NarrowCGFE_DD_EET2016_entry55_02_HC_df_confint, NarrowCGFE_DD_EET2016_entry55_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")



#56 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_entry56_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_entry56_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_entry56_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56)
#ETABLE

NarrowCGFE_DD_EET2016_entry56_02_df_all = etable(NarrowCGFE_DD_EET2016_entry56_02, NarrowCGFE_DD_EET2016_entry56_02_HC, NarrowCGFE_DD_EET2016_entry56_02_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_entry56_02_df_confint = confint(NarrowCGFE_DD_EET2016_entry56_02)

NarrowCGFE_DD_EET2016_entry56_02_HC_df_confint = confint(NarrowCGFE_DD_EET2016_entry56_02_HC)

NarrowCGFE_DD_EET2016_entry56_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_entry56_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_entry56_02_df_all,NarrowCGFE_DD_EET2016_entry56_02_df_confint, NarrowCGFE_DD_EET2016_entry56_02_HC_df_confint, NarrowCGFE_DD_EET2016_entry56_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")

#45 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_exit45_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_exit45_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_exit45_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45)
#ETABLE

NarrowCGFE_DD_EET2016_exit45_02_df_all = etable(NarrowCGFE_DD_EET2016_exit45_02, NarrowCGFE_DD_EET2016_exit45_02_HC, NarrowCGFE_DD_EET2016_exit45_02_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_exit45_02_df_confint = confint(NarrowCGFE_DD_EET2016_exit45_02)

NarrowCGFE_DD_EET2016_exit45_02_HC_df_confint = confint(NarrowCGFE_DD_EET2016_exit45_02_HC)

NarrowCGFE_DD_EET2016_exit45_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_exit45_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_exit45_02_df_all,NarrowCGFE_DD_EET2016_exit45_02_df_confint, NarrowCGFE_DD_EET2016_exit45_02_HC_df_confint, NarrowCGFE_DD_EET2016_exit45_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")



#46 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_exit46_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_exit46_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_exit46_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46)
#ETABLE

NarrowCGFE_DD_EET2016_exit46_02_df_all = etable(NarrowCGFE_DD_EET2016_exit46_02, NarrowCGFE_DD_EET2016_exit46_02_HC, NarrowCGFE_DD_EET2016_exit46_02_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_exit46_02_df_confint = confint(NarrowCGFE_DD_EET2016_exit46_02)

NarrowCGFE_DD_EET2016_exit46_02_HC_df_confint = confint(NarrowCGFE_DD_EET2016_exit46_02_HC)

NarrowCGFE_DD_EET2016_exit46_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_exit46_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_exit46_02_df_all,NarrowCGFE_DD_EET2016_exit46_02_df_confint, NarrowCGFE_DD_EET2016_exit46_02_HC_df_confint, NarrowCGFE_DD_EET2016_exit46_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")


#47 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_exit47_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_exit47_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_exit47_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47)
#ETABLE

NarrowCGFE_DD_EET2016_exit47_02_df_all = etable(NarrowCGFE_DD_EET2016_exit47_02, NarrowCGFE_DD_EET2016_exit47_02_HC, NarrowCGFE_DD_EET2016_exit47_02_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_exit47_02_df_confint = confint(NarrowCGFE_DD_EET2016_exit47_02)

NarrowCGFE_DD_EET2016_exit47_02_HC_df_confint = confint(NarrowCGFE_DD_EET2016_exit47_02_HC)

NarrowCGFE_DD_EET2016_exit47_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_exit47_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_exit47_02_df_all,NarrowCGFE_DD_EET2016_exit47_02_df_confint, NarrowCGFE_DD_EET2016_exit47_02_HC_df_confint, NarrowCGFE_DD_EET2016_exit47_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")


#55 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_exit55_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_exit55_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_exit55_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55)
#ETABLE

NarrowCGFE_DD_EET2016_exit55_02_df_all = etable(NarrowCGFE_DD_EET2016_exit55_02, NarrowCGFE_DD_EET2016_exit55_02_HC, NarrowCGFE_DD_EET2016_exit55_02_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_exit55_02_df_confint = confint(NarrowCGFE_DD_EET2016_exit55_02)

NarrowCGFE_DD_EET2016_exit55_02_HC_df_confint = confint(NarrowCGFE_DD_EET2016_exit55_02_HC)

NarrowCGFE_DD_EET2016_exit55_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_exit55_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_exit55_02_df_all,NarrowCGFE_DD_EET2016_exit55_02_df_confint, NarrowCGFE_DD_EET2016_exit55_02_HC_df_confint, NarrowCGFE_DD_EET2016_exit55_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")



#56 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_exit56_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_exit56_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_exit56_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56)
#ETABLE

NarrowCGFE_DD_EET2016_exit56_02_df_all = etable(NarrowCGFE_DD_EET2016_exit56_02, NarrowCGFE_DD_EET2016_exit56_02_HC, NarrowCGFE_DD_EET2016_exit56_02_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_exit56_02_df_confint = confint(NarrowCGFE_DD_EET2016_exit56_02)

NarrowCGFE_DD_EET2016_exit56_02_HC_df_confint = confint(NarrowCGFE_DD_EET2016_exit56_02_HC)

NarrowCGFE_DD_EET2016_exit56_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_exit56_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_exit56_02_df_all,NarrowCGFE_DD_EET2016_exit56_02_df_confint, NarrowCGFE_DD_EET2016_exit56_02_HC_df_confint, NarrowCGFE_DD_EET2016_exit56_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")








#45 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_entry45_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_entry45_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_entry45_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45)
#ETABLE

NarrowCGFE_DD_EET2016_entry45_03_df_all = etable(NarrowCGFE_DD_EET2016_entry45_03, NarrowCGFE_DD_EET2016_entry45_03_HC, NarrowCGFE_DD_EET2016_entry45_03_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_entry45_03_df_confint = confint(NarrowCGFE_DD_EET2016_entry45_03)

NarrowCGFE_DD_EET2016_entry45_03_HC_df_confint = confint(NarrowCGFE_DD_EET2016_entry45_03_HC)

NarrowCGFE_DD_EET2016_entry45_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_entry45_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_entry45_03_df_all,NarrowCGFE_DD_EET2016_entry45_03_df_confint, NarrowCGFE_DD_EET2016_entry45_03_HC_df_confint, NarrowCGFE_DD_EET2016_entry45_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#46 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_entry46_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_entry46_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_entry46_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46)
#ETABLE

NarrowCGFE_DD_EET2016_entry46_03_df_all = etable(NarrowCGFE_DD_EET2016_entry46_03, NarrowCGFE_DD_EET2016_entry46_03_HC, NarrowCGFE_DD_EET2016_entry46_03_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_entry46_03_df_confint = confint(NarrowCGFE_DD_EET2016_entry46_03)

NarrowCGFE_DD_EET2016_entry46_03_HC_df_confint = confint(NarrowCGFE_DD_EET2016_entry46_03_HC)

NarrowCGFE_DD_EET2016_entry46_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_entry46_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_entry46_03_df_all,NarrowCGFE_DD_EET2016_entry46_03_df_confint, NarrowCGFE_DD_EET2016_entry46_03_HC_df_confint, NarrowCGFE_DD_EET2016_entry46_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#47 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_entry47_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_entry47_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_entry47_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47)
#ETABLE

NarrowCGFE_DD_EET2016_entry47_03_df_all = etable(NarrowCGFE_DD_EET2016_entry47_03, NarrowCGFE_DD_EET2016_entry47_03_HC, NarrowCGFE_DD_EET2016_entry47_03_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_entry47_03_df_confint = confint(NarrowCGFE_DD_EET2016_entry47_03)

NarrowCGFE_DD_EET2016_entry47_03_HC_df_confint = confint(NarrowCGFE_DD_EET2016_entry47_03_HC)

NarrowCGFE_DD_EET2016_entry47_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_entry47_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_entry47_03_df_all,NarrowCGFE_DD_EET2016_entry47_03_df_confint, NarrowCGFE_DD_EET2016_entry47_03_HC_df_confint, NarrowCGFE_DD_EET2016_entry47_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#55 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_entry55_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_entry55_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_entry55_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55)
#ETABLE

NarrowCGFE_DD_EET2016_entry55_03_df_all = etable(NarrowCGFE_DD_EET2016_entry55_03, NarrowCGFE_DD_EET2016_entry55_03_HC, NarrowCGFE_DD_EET2016_entry55_03_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_entry55_03_df_confint = confint(NarrowCGFE_DD_EET2016_entry55_03)

NarrowCGFE_DD_EET2016_entry55_03_HC_df_confint = confint(NarrowCGFE_DD_EET2016_entry55_03_HC)

NarrowCGFE_DD_EET2016_entry55_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_entry55_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_entry55_03_df_all,NarrowCGFE_DD_EET2016_entry55_03_df_confint, NarrowCGFE_DD_EET2016_entry55_03_HC_df_confint, NarrowCGFE_DD_EET2016_entry55_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#56 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_entry56_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_entry56_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_entry56_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56)
#ETABLE

NarrowCGFE_DD_EET2016_entry56_03_df_all = etable(NarrowCGFE_DD_EET2016_entry56_03, NarrowCGFE_DD_EET2016_entry56_03_HC, NarrowCGFE_DD_EET2016_entry56_03_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_entry56_03_df_confint = confint(NarrowCGFE_DD_EET2016_entry56_03)

NarrowCGFE_DD_EET2016_entry56_03_HC_df_confint = confint(NarrowCGFE_DD_EET2016_entry56_03_HC)

NarrowCGFE_DD_EET2016_entry56_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_entry56_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_entry56_03_df_all,NarrowCGFE_DD_EET2016_entry56_03_df_confint, NarrowCGFE_DD_EET2016_entry56_03_HC_df_confint, NarrowCGFE_DD_EET2016_entry56_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")

#45 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_exit45_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_exit45_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_exit45_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG45)
#ETABLE

NarrowCGFE_DD_EET2016_exit45_03_df_all = etable(NarrowCGFE_DD_EET2016_exit45_03, NarrowCGFE_DD_EET2016_exit45_03_HC, NarrowCGFE_DD_EET2016_exit45_03_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_exit45_03_df_confint = confint(NarrowCGFE_DD_EET2016_exit45_03)

NarrowCGFE_DD_EET2016_exit45_03_HC_df_confint = confint(NarrowCGFE_DD_EET2016_exit45_03_HC)

NarrowCGFE_DD_EET2016_exit45_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_exit45_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_exit45_03_df_all,NarrowCGFE_DD_EET2016_exit45_03_df_confint, NarrowCGFE_DD_EET2016_exit45_03_HC_df_confint, NarrowCGFE_DD_EET2016_exit45_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#46 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_exit46_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_exit46_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_exit46_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG46)
#ETABLE

NarrowCGFE_DD_EET2016_exit46_03_df_all = etable(NarrowCGFE_DD_EET2016_exit46_03, NarrowCGFE_DD_EET2016_exit46_03_HC, NarrowCGFE_DD_EET2016_exit46_03_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_exit46_03_df_confint = confint(NarrowCGFE_DD_EET2016_exit46_03)

NarrowCGFE_DD_EET2016_exit46_03_HC_df_confint = confint(NarrowCGFE_DD_EET2016_exit46_03_HC)

NarrowCGFE_DD_EET2016_exit46_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_exit46_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_exit46_03_df_all,NarrowCGFE_DD_EET2016_exit46_03_df_confint, NarrowCGFE_DD_EET2016_exit46_03_HC_df_confint, NarrowCGFE_DD_EET2016_exit46_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#47 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_exit47_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_exit47_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_exit47_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG47)
#ETABLE

NarrowCGFE_DD_EET2016_exit47_03_df_all = etable(NarrowCGFE_DD_EET2016_exit47_03, NarrowCGFE_DD_EET2016_exit47_03_HC, NarrowCGFE_DD_EET2016_exit47_03_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_exit47_03_df_confint = confint(NarrowCGFE_DD_EET2016_exit47_03)

NarrowCGFE_DD_EET2016_exit47_03_HC_df_confint = confint(NarrowCGFE_DD_EET2016_exit47_03_HC)

NarrowCGFE_DD_EET2016_exit47_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_exit47_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_exit47_03_df_all,NarrowCGFE_DD_EET2016_exit47_03_df_confint, NarrowCGFE_DD_EET2016_exit47_03_HC_df_confint, NarrowCGFE_DD_EET2016_exit47_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#55 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_exit55_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_exit55_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_exit55_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG55)
#ETABLE

NarrowCGFE_DD_EET2016_exit55_03_df_all = etable(NarrowCGFE_DD_EET2016_exit55_03, NarrowCGFE_DD_EET2016_exit55_03_HC, NarrowCGFE_DD_EET2016_exit55_03_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_exit55_03_df_confint = confint(NarrowCGFE_DD_EET2016_exit55_03)

NarrowCGFE_DD_EET2016_exit55_03_HC_df_confint = confint(NarrowCGFE_DD_EET2016_exit55_03_HC)

NarrowCGFE_DD_EET2016_exit55_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_exit55_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_exit55_03_df_all,NarrowCGFE_DD_EET2016_exit55_03_df_confint, NarrowCGFE_DD_EET2016_exit55_03_HC_df_confint, NarrowCGFE_DD_EET2016_exit55_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#56 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EET2016_exit56_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, cluster = "ID_ANON" )
#HC robust SE
NarrowCGFE_DD_EET2016_exit56_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EET2016_exit56_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = NarrowCG56)
#ETABLE

NarrowCGFE_DD_EET2016_exit56_03_df_all = etable(NarrowCGFE_DD_EET2016_exit56_03, NarrowCGFE_DD_EET2016_exit56_03_HC, NarrowCGFE_DD_EET2016_exit56_03_clusteredNACE)

#export
NarrowCGFE_DD_EET2016_exit56_03_df_confint = confint(NarrowCGFE_DD_EET2016_exit56_03)

NarrowCGFE_DD_EET2016_exit56_03_HC_df_confint = confint(NarrowCGFE_DD_EET2016_exit56_03_HC)

NarrowCGFE_DD_EET2016_exit56_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EET2016_exit56_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EET2016_exit56_03_df_all,NarrowCGFE_DD_EET2016_exit56_03_df_confint, NarrowCGFE_DD_EET2016_exit56_03_HC_df_confint, NarrowCGFE_DD_EET2016_exit56_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")

























#Fixed effect difference in differences analyza s AlgorithmicCG
#45
AlgorithmicCGdatasetNACE45 = c(45,93,79,31,16,58)

AlgorithmicCG45 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE45),]
#46
AlgorithmicCGdatasetNACE46 = c(46,41,59,90,10,95)

AlgorithmicCG46 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE46),]
#47
AlgorithmicCGdatasetNACE47 = c(47,93,79,41,58,90)

AlgorithmicCG47 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE47),]
#55
AlgorithmicCGdatasetNACE55 = c(55,93,16,31,77,11)

AlgorithmicCG55 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE55),]
#56
AlgorithmicCGdatasetNACE56 = c(56,14,96,10,90,43)

AlgorithmicCG56 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE56),]


#ENTRY A EXIT
#ALGORITHMIC
#45 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry45_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry45_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry45_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry45_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry45_01, AlgorithmicCGFE_DD_EET2016_entry45_01_HC, AlgorithmicCGFE_DD_EET2016_entry45_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry45_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry45_01)

AlgorithmicCGFE_DD_EET2016_entry45_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry45_01_HC)

AlgorithmicCGFE_DD_EET2016_entry45_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry45_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry45_01_df_all,AlgorithmicCGFE_DD_EET2016_entry45_01_df_confint, AlgorithmicCGFE_DD_EET2016_entry45_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry45_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")


#46 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry46_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry46_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry46_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry46_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry46_01, AlgorithmicCGFE_DD_EET2016_entry46_01_HC, AlgorithmicCGFE_DD_EET2016_entry46_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry46_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry46_01)

AlgorithmicCGFE_DD_EET2016_entry46_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry46_01_HC)

AlgorithmicCGFE_DD_EET2016_entry46_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry46_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry46_01_df_all,AlgorithmicCGFE_DD_EET2016_entry46_01_df_confint, AlgorithmicCGFE_DD_EET2016_entry46_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry46_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")

#47 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry47_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry47_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry47_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry47_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry47_01, AlgorithmicCGFE_DD_EET2016_entry47_01_HC, AlgorithmicCGFE_DD_EET2016_entry47_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry47_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry47_01)

AlgorithmicCGFE_DD_EET2016_entry47_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry47_01_HC)

AlgorithmicCGFE_DD_EET2016_entry47_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry47_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry47_01_df_all,AlgorithmicCGFE_DD_EET2016_entry47_01_df_confint, AlgorithmicCGFE_DD_EET2016_entry47_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry47_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")


#55 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry55_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry55_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry55_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry55_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry55_01, AlgorithmicCGFE_DD_EET2016_entry55_01_HC, AlgorithmicCGFE_DD_EET2016_entry55_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry55_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry55_01)

AlgorithmicCGFE_DD_EET2016_entry55_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry55_01_HC)

AlgorithmicCGFE_DD_EET2016_entry55_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry55_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry55_01_df_all,AlgorithmicCGFE_DD_EET2016_entry55_01_df_confint, AlgorithmicCGFE_DD_EET2016_entry55_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry55_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")

#56 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry56_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry56_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry56_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry56_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry56_01, AlgorithmicCGFE_DD_EET2016_entry56_01_HC, AlgorithmicCGFE_DD_EET2016_entry56_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry56_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry56_01)

AlgorithmicCGFE_DD_EET2016_entry56_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry56_01_HC)

AlgorithmicCGFE_DD_EET2016_entry56_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry56_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry56_01_df_all,AlgorithmicCGFE_DD_EET2016_entry56_01_df_confint, AlgorithmicCGFE_DD_EET2016_entry56_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry56_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")






#45 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit45_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit45_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit45_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit45_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit45_01, AlgorithmicCGFE_DD_EET2016_exit45_01_HC, AlgorithmicCGFE_DD_EET2016_exit45_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit45_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit45_01)

AlgorithmicCGFE_DD_EET2016_exit45_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit45_01_HC)

AlgorithmicCGFE_DD_EET2016_exit45_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit45_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit45_01_df_all,AlgorithmicCGFE_DD_EET2016_exit45_01_df_confint, AlgorithmicCGFE_DD_EET2016_exit45_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit45_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")


#46 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit46_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit46_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit46_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit46_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit46_01, AlgorithmicCGFE_DD_EET2016_exit46_01_HC, AlgorithmicCGFE_DD_EET2016_exit46_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit46_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit46_01)

AlgorithmicCGFE_DD_EET2016_exit46_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit46_01_HC)

AlgorithmicCGFE_DD_EET2016_exit46_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit46_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit46_01_df_all,AlgorithmicCGFE_DD_EET2016_exit46_01_df_confint, AlgorithmicCGFE_DD_EET2016_exit46_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit46_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")

#47 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit47_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit47_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit47_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit47_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit47_01, AlgorithmicCGFE_DD_EET2016_exit47_01_HC, AlgorithmicCGFE_DD_EET2016_exit47_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit47_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit47_01)

AlgorithmicCGFE_DD_EET2016_exit47_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit47_01_HC)

AlgorithmicCGFE_DD_EET2016_exit47_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit47_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit47_01_df_all,AlgorithmicCGFE_DD_EET2016_exit47_01_df_confint, AlgorithmicCGFE_DD_EET2016_exit47_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit47_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")


#55 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit55_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit55_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit55_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit55_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit55_01, AlgorithmicCGFE_DD_EET2016_exit55_01_HC, AlgorithmicCGFE_DD_EET2016_exit55_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit55_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit55_01)

AlgorithmicCGFE_DD_EET2016_exit55_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit55_01_HC)

AlgorithmicCGFE_DD_EET2016_exit55_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit55_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit55_01_df_all,AlgorithmicCGFE_DD_EET2016_exit55_01_df_confint, AlgorithmicCGFE_DD_EET2016_exit55_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit55_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")

#56 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit56_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit56_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit56_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit56_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit56_01, AlgorithmicCGFE_DD_EET2016_exit56_01_HC, AlgorithmicCGFE_DD_EET2016_exit56_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit56_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit56_01)

AlgorithmicCGFE_DD_EET2016_exit56_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit56_01_HC)

AlgorithmicCGFE_DD_EET2016_exit56_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit56_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit56_01_df_all,AlgorithmicCGFE_DD_EET2016_exit56_01_df_confint, AlgorithmicCGFE_DD_EET2016_exit56_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit56_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")











#45 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry45_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry45_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry45_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry45_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry45_02, AlgorithmicCGFE_DD_EET2016_entry45_02_HC, AlgorithmicCGFE_DD_EET2016_entry45_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry45_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry45_02)

AlgorithmicCGFE_DD_EET2016_entry45_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry45_02_HC)

AlgorithmicCGFE_DD_EET2016_entry45_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry45_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry45_02_df_all,AlgorithmicCGFE_DD_EET2016_entry45_02_df_confint, AlgorithmicCGFE_DD_EET2016_entry45_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry45_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")



#46 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry46_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry46_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry46_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry46_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry46_02, AlgorithmicCGFE_DD_EET2016_entry46_02_HC, AlgorithmicCGFE_DD_EET2016_entry46_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry46_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry46_02)

AlgorithmicCGFE_DD_EET2016_entry46_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry46_02_HC)

AlgorithmicCGFE_DD_EET2016_entry46_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry46_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry46_02_df_all,AlgorithmicCGFE_DD_EET2016_entry46_02_df_confint, AlgorithmicCGFE_DD_EET2016_entry46_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry46_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")


#47 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry47_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry47_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry47_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry47_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry47_02, AlgorithmicCGFE_DD_EET2016_entry47_02_HC, AlgorithmicCGFE_DD_EET2016_entry47_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry47_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry47_02)

AlgorithmicCGFE_DD_EET2016_entry47_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry47_02_HC)

AlgorithmicCGFE_DD_EET2016_entry47_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry47_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry47_02_df_all,AlgorithmicCGFE_DD_EET2016_entry47_02_df_confint, AlgorithmicCGFE_DD_EET2016_entry47_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry47_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")


#55 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry55_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry55_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry55_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry55_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry55_02, AlgorithmicCGFE_DD_EET2016_entry55_02_HC, AlgorithmicCGFE_DD_EET2016_entry55_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry55_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry55_02)

AlgorithmicCGFE_DD_EET2016_entry55_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry55_02_HC)

AlgorithmicCGFE_DD_EET2016_entry55_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry55_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry55_02_df_all,AlgorithmicCGFE_DD_EET2016_entry55_02_df_confint, AlgorithmicCGFE_DD_EET2016_entry55_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry55_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")



#56 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry56_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry56_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry56_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry56_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry56_02, AlgorithmicCGFE_DD_EET2016_entry56_02_HC, AlgorithmicCGFE_DD_EET2016_entry56_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry56_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry56_02)

AlgorithmicCGFE_DD_EET2016_entry56_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry56_02_HC)

AlgorithmicCGFE_DD_EET2016_entry56_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry56_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry56_02_df_all,AlgorithmicCGFE_DD_EET2016_entry56_02_df_confint, AlgorithmicCGFE_DD_EET2016_entry56_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry56_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")

#45 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit45_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit45_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit45_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit45_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit45_02, AlgorithmicCGFE_DD_EET2016_exit45_02_HC, AlgorithmicCGFE_DD_EET2016_exit45_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit45_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit45_02)

AlgorithmicCGFE_DD_EET2016_exit45_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit45_02_HC)

AlgorithmicCGFE_DD_EET2016_exit45_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit45_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit45_02_df_all,AlgorithmicCGFE_DD_EET2016_exit45_02_df_confint, AlgorithmicCGFE_DD_EET2016_exit45_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit45_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")



#46 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit46_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit46_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit46_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit46_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit46_02, AlgorithmicCGFE_DD_EET2016_exit46_02_HC, AlgorithmicCGFE_DD_EET2016_exit46_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit46_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit46_02)

AlgorithmicCGFE_DD_EET2016_exit46_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit46_02_HC)

AlgorithmicCGFE_DD_EET2016_exit46_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit46_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit46_02_df_all,AlgorithmicCGFE_DD_EET2016_exit46_02_df_confint, AlgorithmicCGFE_DD_EET2016_exit46_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit46_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")


#47 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit47_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit47_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit47_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit47_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit47_02, AlgorithmicCGFE_DD_EET2016_exit47_02_HC, AlgorithmicCGFE_DD_EET2016_exit47_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit47_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit47_02)

AlgorithmicCGFE_DD_EET2016_exit47_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit47_02_HC)

AlgorithmicCGFE_DD_EET2016_exit47_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit47_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit47_02_df_all,AlgorithmicCGFE_DD_EET2016_exit47_02_df_confint, AlgorithmicCGFE_DD_EET2016_exit47_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit47_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")


#55 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit55_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit55_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit55_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit55_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit55_02, AlgorithmicCGFE_DD_EET2016_exit55_02_HC, AlgorithmicCGFE_DD_EET2016_exit55_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit55_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit55_02)

AlgorithmicCGFE_DD_EET2016_exit55_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit55_02_HC)

AlgorithmicCGFE_DD_EET2016_exit55_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit55_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit55_02_df_all,AlgorithmicCGFE_DD_EET2016_exit55_02_df_confint, AlgorithmicCGFE_DD_EET2016_exit55_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit55_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")



#56 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit56_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit56_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit56_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit56_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit56_02, AlgorithmicCGFE_DD_EET2016_exit56_02_HC, AlgorithmicCGFE_DD_EET2016_exit56_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit56_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit56_02)

AlgorithmicCGFE_DD_EET2016_exit56_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit56_02_HC)

AlgorithmicCGFE_DD_EET2016_exit56_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit56_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit56_02_df_all,AlgorithmicCGFE_DD_EET2016_exit56_02_df_confint, AlgorithmicCGFE_DD_EET2016_exit56_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit56_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")








#45 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry45_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry45_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry45_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry45_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry45_03, AlgorithmicCGFE_DD_EET2016_entry45_03_HC, AlgorithmicCGFE_DD_EET2016_entry45_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry45_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry45_03)

AlgorithmicCGFE_DD_EET2016_entry45_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry45_03_HC)

AlgorithmicCGFE_DD_EET2016_entry45_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry45_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry45_03_df_all,AlgorithmicCGFE_DD_EET2016_entry45_03_df_confint, AlgorithmicCGFE_DD_EET2016_entry45_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry45_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#46 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry46_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry46_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry46_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry46_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry46_03, AlgorithmicCGFE_DD_EET2016_entry46_03_HC, AlgorithmicCGFE_DD_EET2016_entry46_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry46_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry46_03)

AlgorithmicCGFE_DD_EET2016_entry46_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry46_03_HC)

AlgorithmicCGFE_DD_EET2016_entry46_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry46_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry46_03_df_all,AlgorithmicCGFE_DD_EET2016_entry46_03_df_confint, AlgorithmicCGFE_DD_EET2016_entry46_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry46_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#47 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry47_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry47_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry47_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry47_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry47_03, AlgorithmicCGFE_DD_EET2016_entry47_03_HC, AlgorithmicCGFE_DD_EET2016_entry47_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry47_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry47_03)

AlgorithmicCGFE_DD_EET2016_entry47_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry47_03_HC)

AlgorithmicCGFE_DD_EET2016_entry47_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry47_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry47_03_df_all,AlgorithmicCGFE_DD_EET2016_entry47_03_df_confint, AlgorithmicCGFE_DD_EET2016_entry47_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry47_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#55 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry55_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry55_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry55_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry55_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry55_03, AlgorithmicCGFE_DD_EET2016_entry55_03_HC, AlgorithmicCGFE_DD_EET2016_entry55_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry55_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry55_03)

AlgorithmicCGFE_DD_EET2016_entry55_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry55_03_HC)

AlgorithmicCGFE_DD_EET2016_entry55_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry55_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry55_03_df_all,AlgorithmicCGFE_DD_EET2016_entry55_03_df_confint, AlgorithmicCGFE_DD_EET2016_entry55_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry55_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#56 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry56_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry56_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry56_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry56_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry56_03, AlgorithmicCGFE_DD_EET2016_entry56_03_HC, AlgorithmicCGFE_DD_EET2016_entry56_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry56_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry56_03)

AlgorithmicCGFE_DD_EET2016_entry56_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry56_03_HC)

AlgorithmicCGFE_DD_EET2016_entry56_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry56_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry56_03_df_all,AlgorithmicCGFE_DD_EET2016_entry56_03_df_confint, AlgorithmicCGFE_DD_EET2016_entry56_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry56_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")

#45 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit45_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit45_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit45_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit45_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit45_03, AlgorithmicCGFE_DD_EET2016_exit45_03_HC, AlgorithmicCGFE_DD_EET2016_exit45_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit45_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit45_03)

AlgorithmicCGFE_DD_EET2016_exit45_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit45_03_HC)

AlgorithmicCGFE_DD_EET2016_exit45_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit45_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit45_03_df_all,AlgorithmicCGFE_DD_EET2016_exit45_03_df_confint, AlgorithmicCGFE_DD_EET2016_exit45_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit45_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#46 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit46_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit46_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit46_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit46_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit46_03, AlgorithmicCGFE_DD_EET2016_exit46_03_HC, AlgorithmicCGFE_DD_EET2016_exit46_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit46_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit46_03)

AlgorithmicCGFE_DD_EET2016_exit46_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit46_03_HC)

AlgorithmicCGFE_DD_EET2016_exit46_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit46_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit46_03_df_all,AlgorithmicCGFE_DD_EET2016_exit46_03_df_confint, AlgorithmicCGFE_DD_EET2016_exit46_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit46_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#47 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit47_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit47_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit47_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit47_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit47_03, AlgorithmicCGFE_DD_EET2016_exit47_03_HC, AlgorithmicCGFE_DD_EET2016_exit47_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit47_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit47_03)

AlgorithmicCGFE_DD_EET2016_exit47_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit47_03_HC)

AlgorithmicCGFE_DD_EET2016_exit47_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit47_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit47_03_df_all,AlgorithmicCGFE_DD_EET2016_exit47_03_df_confint, AlgorithmicCGFE_DD_EET2016_exit47_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit47_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#55 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit55_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit55_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit55_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit55_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit55_03, AlgorithmicCGFE_DD_EET2016_exit55_03_HC, AlgorithmicCGFE_DD_EET2016_exit55_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit55_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit55_03)

AlgorithmicCGFE_DD_EET2016_exit55_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit55_03_HC)

AlgorithmicCGFE_DD_EET2016_exit55_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit55_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit55_03_df_all,AlgorithmicCGFE_DD_EET2016_exit55_03_df_confint, AlgorithmicCGFE_DD_EET2016_exit55_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit55_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#56 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit56_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit56_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit56_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit56_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit56_03, AlgorithmicCGFE_DD_EET2016_exit56_03_HC, AlgorithmicCGFE_DD_EET2016_exit56_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit56_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit56_03)

AlgorithmicCGFE_DD_EET2016_exit56_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit56_03_HC)

AlgorithmicCGFE_DD_EET2016_exit56_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit56_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit56_03_df_all,AlgorithmicCGFE_DD_EET2016_exit56_03_df_confint, AlgorithmicCGFE_DD_EET2016_exit56_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit56_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")
gc()










































































#Fixed effect difference in differences anal?za s BroadCG
#45
BroadCGdatasetNACE45 = c(8,10,11,13,14,15,16,17,18,20,21,22,23,24,25,26,27,28,29,30,31,32,33,41,42,43,45,52,58,59,60,61,62,63,68,69,70,71,72,73,74,75,77,78,79,80,81,82,90,92,93,95,96)

BroadCG45 = BroadCG[which(BroadCG$nace2digit %in% BroadCGdatasetNACE45),]
#46
BroadCGdatasetNACE46 = c(8,10,11,13,14,15,16,17,18,20,21,22,23,24,25,26,27,28,29,30,31,32,33,41,42,43,46,52,58,59,60,61,62,63,68,69,70,71,72,73,74,75,77,78,79,80,81,82,90,92,93,95,96)

BroadCG46 = BroadCG[which(BroadCG$nace2digit %in% BroadCGdatasetNACE46),]
#47
BroadCGdatasetNACE47 = c(8,10,11,13,14,15,16,17,18,20,21,22,23,24,25,26,27,28,29,30,31,32,33,41,42,43,47,52,58,59,60,61,62,63,68,69,70,71,72,73,74,75,77,78,79,80,81,82,90,92,93,95,96)

BroadCG47 = BroadCG[which(BroadCG$nace2digit %in% BroadCGdatasetNACE47),]
#55
BroadCGdatasetNACE55 = c(8,10,11,13,14,15,16,17,18,20,21,22,23,24,25,26,27,28,29,30,31,32,33,41,42,43,52,55,58,59,60,61,62,63,68,69,70,71,72,73,74,75,77,78,79,80,81,82,90,92,93,95,96)

BroadCG55 = BroadCG[which(BroadCG$nace2digit %in% BroadCGdatasetNACE55),]
#56
BroadCGdatasetNACE56 = c(8,10,11,13,14,15,16,17,18,20,21,22,23,24,25,26,27,28,29,30,31,32,33,41,42,43,52,56,58,59,60,61,62,63,68,69,70,71,72,73,74,75,77,78,79,80,81,82,90,92,93,95,96)

BroadCG56 = BroadCG[which(BroadCG$nace2digit %in% BroadCGdatasetNACE56),]









#BROAD


#45 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlOUT45_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45 )
#HC robust SE
BroadCGFE_DD_EETALTlOUT45_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlOUT45_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlOUT45_01_df_all = etable(BroadCGFE_DD_EETALTlOUT45_01, BroadCGFE_DD_EETALTlOUT45_01_HC, BroadCGFE_DD_EETALTlOUT45_01_clusteredNACE)

#export
BroadCGFE_DD_EETALTlOUT45_01_df_confint = confint(BroadCGFE_DD_EETALTlOUT45_01)

BroadCGFE_DD_EETALTlOUT45_01_HC_df_confint = confint(BroadCGFE_DD_EETALTlOUT45_01_HC)

BroadCGFE_DD_EETALTlOUT45_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlOUT45_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlOUT45_01_df_all,BroadCGFE_DD_EETALTlOUT45_01_df_confint, BroadCGFE_DD_EETALTlOUT45_01_HC_df_confint, BroadCGFE_DD_EETALTlOUT45_01_clusteredNACE_df_confint ), path = "Broad CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#46 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlOUT46_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46 )
#HC robust SE
BroadCGFE_DD_EETALTlOUT46_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlOUT46_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlOUT46_01_df_all = etable(BroadCGFE_DD_EETALTlOUT46_01, BroadCGFE_DD_EETALTlOUT46_01_HC, BroadCGFE_DD_EETALTlOUT46_01_clusteredNACE)

#export
BroadCGFE_DD_EETALTlOUT46_01_df_confint = confint(BroadCGFE_DD_EETALTlOUT46_01)

BroadCGFE_DD_EETALTlOUT46_01_HC_df_confint = confint(BroadCGFE_DD_EETALTlOUT46_01_HC)

BroadCGFE_DD_EETALTlOUT46_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlOUT46_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlOUT46_01_df_all,BroadCGFE_DD_EETALTlOUT46_01_df_confint, BroadCGFE_DD_EETALTlOUT46_01_HC_df_confint, BroadCGFE_DD_EETALTlOUT46_01_clusteredNACE_df_confint ), path = "Broad CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#47 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlOUT47_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47 )
#HC robust SE
BroadCGFE_DD_EETALTlOUT47_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlOUT47_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlOUT47_01_df_all = etable(BroadCGFE_DD_EETALTlOUT47_01, BroadCGFE_DD_EETALTlOUT47_01_HC, BroadCGFE_DD_EETALTlOUT47_01_clusteredNACE)

#export
BroadCGFE_DD_EETALTlOUT47_01_df_confint = confint(BroadCGFE_DD_EETALTlOUT47_01)

BroadCGFE_DD_EETALTlOUT47_01_HC_df_confint = confint(BroadCGFE_DD_EETALTlOUT47_01_HC)

BroadCGFE_DD_EETALTlOUT47_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlOUT47_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlOUT47_01_df_all,BroadCGFE_DD_EETALTlOUT47_01_df_confint, BroadCGFE_DD_EETALTlOUT47_01_HC_df_confint, BroadCGFE_DD_EETALTlOUT47_01_clusteredNACE_df_confint ), path = "Broad CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")




#55 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlOUT55_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55 )
#HC robust SE
BroadCGFE_DD_EETALTlOUT55_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlOUT55_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlOUT55_01_df_all = etable(BroadCGFE_DD_EETALTlOUT55_01, BroadCGFE_DD_EETALTlOUT55_01_HC, BroadCGFE_DD_EETALTlOUT55_01_clusteredNACE)

#export
BroadCGFE_DD_EETALTlOUT55_01_df_confint = confint(BroadCGFE_DD_EETALTlOUT55_01)

BroadCGFE_DD_EETALTlOUT55_01_HC_df_confint = confint(BroadCGFE_DD_EETALTlOUT55_01_HC)

BroadCGFE_DD_EETALTlOUT55_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlOUT55_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlOUT55_01_df_all,BroadCGFE_DD_EETALTlOUT55_01_df_confint, BroadCGFE_DD_EETALTlOUT55_01_HC_df_confint, BroadCGFE_DD_EETALTlOUT55_01_clusteredNACE_df_confint ), path = "Broad CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")





#56 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlOUT56_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56 )
#HC robust SE
BroadCGFE_DD_EETALTlOUT56_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlOUT56_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlOUT56_01_df_all = etable(BroadCGFE_DD_EETALTlOUT56_01, BroadCGFE_DD_EETALTlOUT56_01_HC, BroadCGFE_DD_EETALTlOUT56_01_clusteredNACE)

#export
BroadCGFE_DD_EETALTlOUT56_01_df_confint = confint(BroadCGFE_DD_EETALTlOUT56_01)

BroadCGFE_DD_EETALTlOUT56_01_HC_df_confint = confint(BroadCGFE_DD_EETALTlOUT56_01_HC)

BroadCGFE_DD_EETALTlOUT56_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlOUT56_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlOUT56_01_df_all,BroadCGFE_DD_EETALTlOUT56_01_df_confint, BroadCGFE_DD_EETALTlOUT56_01_HC_df_confint, BroadCGFE_DD_EETALTlOUT56_01_clusteredNACE_df_confint ), path = "Broad CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#45 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlPRCHS45_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45 )
#HC robust SE
BroadCGFE_DD_EETALTlPRCHS45_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlPRCHS45_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlPRCHS45_01_df_all = etable(BroadCGFE_DD_EETALTlPRCHS45_01, BroadCGFE_DD_EETALTlPRCHS45_01_HC, BroadCGFE_DD_EETALTlPRCHS45_01_clusteredNACE)

#export
BroadCGFE_DD_EETALTlPRCHS45_01_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS45_01)

BroadCGFE_DD_EETALTlPRCHS45_01_HC_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS45_01_HC)

BroadCGFE_DD_EETALTlPRCHS45_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS45_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlPRCHS45_01_df_all,BroadCGFE_DD_EETALTlPRCHS45_01_df_confint, BroadCGFE_DD_EETALTlPRCHS45_01_HC_df_confint, BroadCGFE_DD_EETALTlPRCHS45_01_clusteredNACE_df_confint ), path = "Broad CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#46 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlPRCHS46_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46 )
#HC robust SE
BroadCGFE_DD_EETALTlPRCHS46_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlPRCHS46_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlPRCHS46_01_df_all = etable(BroadCGFE_DD_EETALTlPRCHS46_01, BroadCGFE_DD_EETALTlPRCHS46_01_HC, BroadCGFE_DD_EETALTlPRCHS46_01_clusteredNACE)

#export
BroadCGFE_DD_EETALTlPRCHS46_01_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS46_01)

BroadCGFE_DD_EETALTlPRCHS46_01_HC_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS46_01_HC)

BroadCGFE_DD_EETALTlPRCHS46_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS46_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlPRCHS46_01_df_all,BroadCGFE_DD_EETALTlPRCHS46_01_df_confint, BroadCGFE_DD_EETALTlPRCHS46_01_HC_df_confint, BroadCGFE_DD_EETALTlPRCHS46_01_clusteredNACE_df_confint ), path = "Broad CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#47 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlPRCHS47_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47 )
#HC robust SE
BroadCGFE_DD_EETALTlPRCHS47_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlPRCHS47_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlPRCHS47_01_df_all = etable(BroadCGFE_DD_EETALTlPRCHS47_01, BroadCGFE_DD_EETALTlPRCHS47_01_HC, BroadCGFE_DD_EETALTlPRCHS47_01_clusteredNACE)

#export
BroadCGFE_DD_EETALTlPRCHS47_01_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS47_01)

BroadCGFE_DD_EETALTlPRCHS47_01_HC_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS47_01_HC)

BroadCGFE_DD_EETALTlPRCHS47_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS47_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlPRCHS47_01_df_all,BroadCGFE_DD_EETALTlPRCHS47_01_df_confint, BroadCGFE_DD_EETALTlPRCHS47_01_HC_df_confint, BroadCGFE_DD_EETALTlPRCHS47_01_clusteredNACE_df_confint ), path = "Broad CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")




#55 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlPRCHS55_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55 )
#HC robust SE
BroadCGFE_DD_EETALTlPRCHS55_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlPRCHS55_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlPRCHS55_01_df_all = etable(BroadCGFE_DD_EETALTlPRCHS55_01, BroadCGFE_DD_EETALTlPRCHS55_01_HC, BroadCGFE_DD_EETALTlPRCHS55_01_clusteredNACE)

#export
BroadCGFE_DD_EETALTlPRCHS55_01_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS55_01)

BroadCGFE_DD_EETALTlPRCHS55_01_HC_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS55_01_HC)

BroadCGFE_DD_EETALTlPRCHS55_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS55_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlPRCHS55_01_df_all,BroadCGFE_DD_EETALTlPRCHS55_01_df_confint, BroadCGFE_DD_EETALTlPRCHS55_01_HC_df_confint, BroadCGFE_DD_EETALTlPRCHS55_01_clusteredNACE_df_confint ), path = "Broad CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")





#56 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlPRCHS56_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56 )
#HC robust SE
BroadCGFE_DD_EETALTlPRCHS56_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlPRCHS56_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlPRCHS56_01_df_all = etable(BroadCGFE_DD_EETALTlPRCHS56_01, BroadCGFE_DD_EETALTlPRCHS56_01_HC, BroadCGFE_DD_EETALTlPRCHS56_01_clusteredNACE)

#export
BroadCGFE_DD_EETALTlPRCHS56_01_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS56_01)

BroadCGFE_DD_EETALTlPRCHS56_01_HC_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS56_01_HC)

BroadCGFE_DD_EETALTlPRCHS56_01_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS56_01_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlPRCHS56_01_df_all,BroadCGFE_DD_EETALTlPRCHS56_01_df_confint, BroadCGFE_DD_EETALTlPRCHS56_01_HC_df_confint, BroadCGFE_DD_EETALTlPRCHS56_01_clusteredNACE_df_confint ), path = "Broad CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")










#45 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlOUT45_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45 )
#HC robust SE
BroadCGFE_DD_EETALTlOUT45_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlOUT45_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlOUT45_02_df_all = etable(BroadCGFE_DD_EETALTlOUT45_02, BroadCGFE_DD_EETALTlOUT45_02_HC, BroadCGFE_DD_EETALTlOUT45_02_clusteredNACE)

#export
BroadCGFE_DD_EETALTlOUT45_02_df_confint = confint(BroadCGFE_DD_EETALTlOUT45_02)

BroadCGFE_DD_EETALTlOUT45_02_HC_df_confint = confint(BroadCGFE_DD_EETALTlOUT45_02_HC)

BroadCGFE_DD_EETALTlOUT45_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlOUT45_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlOUT45_02_df_all,BroadCGFE_DD_EETALTlOUT45_02_df_confint, BroadCGFE_DD_EETALTlOUT45_02_HC_df_confint, BroadCGFE_DD_EETALTlOUT45_02_clusteredNACE_df_confint ), path = "Broad CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#46 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlOUT46_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46 )
#HC robust SE
BroadCGFE_DD_EETALTlOUT46_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlOUT46_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlOUT46_02_df_all = etable(BroadCGFE_DD_EETALTlOUT46_02, BroadCGFE_DD_EETALTlOUT46_02_HC, BroadCGFE_DD_EETALTlOUT46_02_clusteredNACE)

#export
BroadCGFE_DD_EETALTlOUT46_02_df_confint = confint(BroadCGFE_DD_EETALTlOUT46_02)

BroadCGFE_DD_EETALTlOUT46_02_HC_df_confint = confint(BroadCGFE_DD_EETALTlOUT46_02_HC)

BroadCGFE_DD_EETALTlOUT46_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlOUT46_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlOUT46_02_df_all,BroadCGFE_DD_EETALTlOUT46_02_df_confint, BroadCGFE_DD_EETALTlOUT46_02_HC_df_confint, BroadCGFE_DD_EETALTlOUT46_02_clusteredNACE_df_confint ), path = "Broad CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#47 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlOUT47_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47 )
#HC robust SE
BroadCGFE_DD_EETALTlOUT47_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlOUT47_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlOUT47_02_df_all = etable(BroadCGFE_DD_EETALTlOUT47_02, BroadCGFE_DD_EETALTlOUT47_02_HC, BroadCGFE_DD_EETALTlOUT47_02_clusteredNACE)

#export
BroadCGFE_DD_EETALTlOUT47_02_df_confint = confint(BroadCGFE_DD_EETALTlOUT47_02)

BroadCGFE_DD_EETALTlOUT47_02_HC_df_confint = confint(BroadCGFE_DD_EETALTlOUT47_02_HC)

BroadCGFE_DD_EETALTlOUT47_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlOUT47_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlOUT47_02_df_all,BroadCGFE_DD_EETALTlOUT47_02_df_confint, BroadCGFE_DD_EETALTlOUT47_02_HC_df_confint, BroadCGFE_DD_EETALTlOUT47_02_clusteredNACE_df_confint ), path = "Broad CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")



#55 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlOUT55_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55 )
#HC robust SE
BroadCGFE_DD_EETALTlOUT55_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlOUT55_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlOUT55_02_df_all = etable(BroadCGFE_DD_EETALTlOUT55_02, BroadCGFE_DD_EETALTlOUT55_02_HC, BroadCGFE_DD_EETALTlOUT55_02_clusteredNACE)

#export
BroadCGFE_DD_EETALTlOUT55_02_df_confint = confint(BroadCGFE_DD_EETALTlOUT55_02)

BroadCGFE_DD_EETALTlOUT55_02_HC_df_confint = confint(BroadCGFE_DD_EETALTlOUT55_02_HC)

BroadCGFE_DD_EETALTlOUT55_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlOUT55_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlOUT55_02_df_all,BroadCGFE_DD_EETALTlOUT55_02_df_confint, BroadCGFE_DD_EETALTlOUT55_02_HC_df_confint, BroadCGFE_DD_EETALTlOUT55_02_clusteredNACE_df_confint ), path = "Broad CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#56 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlOUT56_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56 )
#HC robust SE
BroadCGFE_DD_EETALTlOUT56_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlOUT56_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlOUT56_02_df_all = etable(BroadCGFE_DD_EETALTlOUT56_02, BroadCGFE_DD_EETALTlOUT56_02_HC, BroadCGFE_DD_EETALTlOUT56_02_clusteredNACE)

#export
BroadCGFE_DD_EETALTlOUT56_02_df_confint = confint(BroadCGFE_DD_EETALTlOUT56_02)

BroadCGFE_DD_EETALTlOUT56_02_HC_df_confint = confint(BroadCGFE_DD_EETALTlOUT56_02_HC)

BroadCGFE_DD_EETALTlOUT56_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlOUT56_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlOUT56_02_df_all,BroadCGFE_DD_EETALTlOUT56_02_df_confint, BroadCGFE_DD_EETALTlOUT56_02_HC_df_confint, BroadCGFE_DD_EETALTlOUT56_02_clusteredNACE_df_confint ), path = "Broad CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")






#45 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlPRCHS45_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45 )
#HC robust SE
BroadCGFE_DD_EETALTlPRCHS45_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlPRCHS45_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlPRCHS45_02_df_all = etable(BroadCGFE_DD_EETALTlPRCHS45_02, BroadCGFE_DD_EETALTlPRCHS45_02_HC, BroadCGFE_DD_EETALTlPRCHS45_02_clusteredNACE)

#export
BroadCGFE_DD_EETALTlPRCHS45_02_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS45_02)

BroadCGFE_DD_EETALTlPRCHS45_02_HC_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS45_02_HC)

BroadCGFE_DD_EETALTlPRCHS45_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS45_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlPRCHS45_02_df_all,BroadCGFE_DD_EETALTlPRCHS45_02_df_confint, BroadCGFE_DD_EETALTlPRCHS45_02_HC_df_confint, BroadCGFE_DD_EETALTlPRCHS45_02_clusteredNACE_df_confint ), path = "Broad CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#46 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlPRCHS46_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46 )
#HC robust SE
BroadCGFE_DD_EETALTlPRCHS46_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlPRCHS46_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlPRCHS46_02_df_all = etable(BroadCGFE_DD_EETALTlPRCHS46_02, BroadCGFE_DD_EETALTlPRCHS46_02_HC, BroadCGFE_DD_EETALTlPRCHS46_02_clusteredNACE)

#export
BroadCGFE_DD_EETALTlPRCHS46_02_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS46_02)

BroadCGFE_DD_EETALTlPRCHS46_02_HC_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS46_02_HC)

BroadCGFE_DD_EETALTlPRCHS46_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS46_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlPRCHS46_02_df_all,BroadCGFE_DD_EETALTlPRCHS46_02_df_confint, BroadCGFE_DD_EETALTlPRCHS46_02_HC_df_confint, BroadCGFE_DD_EETALTlPRCHS46_02_clusteredNACE_df_confint ), path = "Broad CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#47 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlPRCHS47_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47 )
#HC robust SE
BroadCGFE_DD_EETALTlPRCHS47_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlPRCHS47_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlPRCHS47_02_df_all = etable(BroadCGFE_DD_EETALTlPRCHS47_02, BroadCGFE_DD_EETALTlPRCHS47_02_HC, BroadCGFE_DD_EETALTlPRCHS47_02_clusteredNACE)

#export
BroadCGFE_DD_EETALTlPRCHS47_02_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS47_02)

BroadCGFE_DD_EETALTlPRCHS47_02_HC_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS47_02_HC)

BroadCGFE_DD_EETALTlPRCHS47_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS47_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlPRCHS47_02_df_all,BroadCGFE_DD_EETALTlPRCHS47_02_df_confint, BroadCGFE_DD_EETALTlPRCHS47_02_HC_df_confint, BroadCGFE_DD_EETALTlPRCHS47_02_clusteredNACE_df_confint ), path = "Broad CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")



#55 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlPRCHS55_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55 )
#HC robust SE
BroadCGFE_DD_EETALTlPRCHS55_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlPRCHS55_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlPRCHS55_02_df_all = etable(BroadCGFE_DD_EETALTlPRCHS55_02, BroadCGFE_DD_EETALTlPRCHS55_02_HC, BroadCGFE_DD_EETALTlPRCHS55_02_clusteredNACE)

#export
BroadCGFE_DD_EETALTlPRCHS55_02_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS55_02)

BroadCGFE_DD_EETALTlPRCHS55_02_HC_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS55_02_HC)

BroadCGFE_DD_EETALTlPRCHS55_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS55_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlPRCHS55_02_df_all,BroadCGFE_DD_EETALTlPRCHS55_02_df_confint, BroadCGFE_DD_EETALTlPRCHS55_02_HC_df_confint, BroadCGFE_DD_EETALTlPRCHS55_02_clusteredNACE_df_confint ), path = "Broad CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#56 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlPRCHS56_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56 )
#HC robust SE
BroadCGFE_DD_EETALTlPRCHS56_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlPRCHS56_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlPRCHS56_02_df_all = etable(BroadCGFE_DD_EETALTlPRCHS56_02, BroadCGFE_DD_EETALTlPRCHS56_02_HC, BroadCGFE_DD_EETALTlPRCHS56_02_clusteredNACE)

#export
BroadCGFE_DD_EETALTlPRCHS56_02_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS56_02)

BroadCGFE_DD_EETALTlPRCHS56_02_HC_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS56_02_HC)

BroadCGFE_DD_EETALTlPRCHS56_02_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS56_02_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlPRCHS56_02_df_all,BroadCGFE_DD_EETALTlPRCHS56_02_df_confint, BroadCGFE_DD_EETALTlPRCHS56_02_HC_df_confint, BroadCGFE_DD_EETALTlPRCHS56_02_clusteredNACE_df_confint ), path = "Broad CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")




#45 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlOUT45_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45 )
#HC robust SE
BroadCGFE_DD_EETALTlOUT45_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlOUT45_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlOUT45_03_df_all = etable(BroadCGFE_DD_EETALTlOUT45_03, BroadCGFE_DD_EETALTlOUT45_03_HC, BroadCGFE_DD_EETALTlOUT45_03_clusteredNACE)

#export
BroadCGFE_DD_EETALTlOUT45_03_df_confint = confint(BroadCGFE_DD_EETALTlOUT45_03)

BroadCGFE_DD_EETALTlOUT45_03_HC_df_confint = confint(BroadCGFE_DD_EETALTlOUT45_03_HC)

BroadCGFE_DD_EETALTlOUT45_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlOUT45_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlOUT45_03_df_all,BroadCGFE_DD_EETALTlOUT45_03_df_confint, BroadCGFE_DD_EETALTlOUT45_03_HC_df_confint, BroadCGFE_DD_EETALTlOUT45_03_clusteredNACE_df_confint ), path = "Broad CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#46 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlOUT46_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46 )
#HC robust SE
BroadCGFE_DD_EETALTlOUT46_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlOUT46_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlOUT46_03_df_all = etable(BroadCGFE_DD_EETALTlOUT46_03, BroadCGFE_DD_EETALTlOUT46_03_HC, BroadCGFE_DD_EETALTlOUT46_03_clusteredNACE)

#export
BroadCGFE_DD_EETALTlOUT46_03_df_confint = confint(BroadCGFE_DD_EETALTlOUT46_03)

BroadCGFE_DD_EETALTlOUT46_03_HC_df_confint = confint(BroadCGFE_DD_EETALTlOUT46_03_HC)

BroadCGFE_DD_EETALTlOUT46_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlOUT46_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlOUT46_03_df_all,BroadCGFE_DD_EETALTlOUT46_03_df_confint, BroadCGFE_DD_EETALTlOUT46_03_HC_df_confint, BroadCGFE_DD_EETALTlOUT46_03_clusteredNACE_df_confint ), path = "Broad CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#47 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlOUT47_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47 )
#HC robust SE
BroadCGFE_DD_EETALTlOUT47_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlOUT47_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlOUT47_03_df_all = etable(BroadCGFE_DD_EETALTlOUT47_03, BroadCGFE_DD_EETALTlOUT47_03_HC, BroadCGFE_DD_EETALTlOUT47_03_clusteredNACE)

#export
BroadCGFE_DD_EETALTlOUT47_03_df_confint = confint(BroadCGFE_DD_EETALTlOUT47_03)

BroadCGFE_DD_EETALTlOUT47_03_HC_df_confint = confint(BroadCGFE_DD_EETALTlOUT47_03_HC)

BroadCGFE_DD_EETALTlOUT47_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlOUT47_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlOUT47_03_df_all,BroadCGFE_DD_EETALTlOUT47_03_df_confint, BroadCGFE_DD_EETALTlOUT47_03_HC_df_confint, BroadCGFE_DD_EETALTlOUT47_03_clusteredNACE_df_confint ), path = "Broad CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#55 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlOUT55_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55 )
#HC robust SE
BroadCGFE_DD_EETALTlOUT55_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlOUT55_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlOUT55_03_df_all = etable(BroadCGFE_DD_EETALTlOUT55_03, BroadCGFE_DD_EETALTlOUT55_03_HC, BroadCGFE_DD_EETALTlOUT55_03_clusteredNACE)

#export
BroadCGFE_DD_EETALTlOUT55_03_df_confint = confint(BroadCGFE_DD_EETALTlOUT55_03)

BroadCGFE_DD_EETALTlOUT55_03_HC_df_confint = confint(BroadCGFE_DD_EETALTlOUT55_03_HC)

BroadCGFE_DD_EETALTlOUT55_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlOUT55_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlOUT55_03_df_all,BroadCGFE_DD_EETALTlOUT55_03_df_confint, BroadCGFE_DD_EETALTlOUT55_03_HC_df_confint, BroadCGFE_DD_EETALTlOUT55_03_clusteredNACE_df_confint ), path = "Broad CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#56 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlOUT56_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56 )
#HC robust SE
BroadCGFE_DD_EETALTlOUT56_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlOUT56_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlOUT56_03_df_all = etable(BroadCGFE_DD_EETALTlOUT56_03, BroadCGFE_DD_EETALTlOUT56_03_HC, BroadCGFE_DD_EETALTlOUT56_03_clusteredNACE)

#export
BroadCGFE_DD_EETALTlOUT56_03_df_confint = confint(BroadCGFE_DD_EETALTlOUT56_03)

BroadCGFE_DD_EETALTlOUT56_03_HC_df_confint = confint(BroadCGFE_DD_EETALTlOUT56_03_HC)

BroadCGFE_DD_EETALTlOUT56_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlOUT56_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlOUT56_03_df_all,BroadCGFE_DD_EETALTlOUT56_03_df_confint, BroadCGFE_DD_EETALTlOUT56_03_HC_df_confint, BroadCGFE_DD_EETALTlOUT56_03_clusteredNACE_df_confint ), path = "Broad CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#45 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlPRCHS45_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45 )
#HC robust SE
BroadCGFE_DD_EETALTlPRCHS45_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlPRCHS45_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG45, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlPRCHS45_03_df_all = etable(BroadCGFE_DD_EETALTlPRCHS45_03, BroadCGFE_DD_EETALTlPRCHS45_03_HC, BroadCGFE_DD_EETALTlPRCHS45_03_clusteredNACE)

#export
BroadCGFE_DD_EETALTlPRCHS45_03_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS45_03)

BroadCGFE_DD_EETALTlPRCHS45_03_HC_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS45_03_HC)

BroadCGFE_DD_EETALTlPRCHS45_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS45_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlPRCHS45_03_df_all,BroadCGFE_DD_EETALTlPRCHS45_03_df_confint, BroadCGFE_DD_EETALTlPRCHS45_03_HC_df_confint, BroadCGFE_DD_EETALTlPRCHS45_03_clusteredNACE_df_confint ), path = "Broad CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#46 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlPRCHS46_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46 )
#HC robust SE
BroadCGFE_DD_EETALTlPRCHS46_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlPRCHS46_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG46, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlPRCHS46_03_df_all = etable(BroadCGFE_DD_EETALTlPRCHS46_03, BroadCGFE_DD_EETALTlPRCHS46_03_HC, BroadCGFE_DD_EETALTlPRCHS46_03_clusteredNACE)

#export
BroadCGFE_DD_EETALTlPRCHS46_03_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS46_03)

BroadCGFE_DD_EETALTlPRCHS46_03_HC_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS46_03_HC)

BroadCGFE_DD_EETALTlPRCHS46_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS46_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlPRCHS46_03_df_all,BroadCGFE_DD_EETALTlPRCHS46_03_df_confint, BroadCGFE_DD_EETALTlPRCHS46_03_HC_df_confint, BroadCGFE_DD_EETALTlPRCHS46_03_clusteredNACE_df_confint ), path = "Broad CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#47 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlPRCHS47_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47 )
#HC robust SE
BroadCGFE_DD_EETALTlPRCHS47_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlPRCHS47_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG47, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlPRCHS47_03_df_all = etable(BroadCGFE_DD_EETALTlPRCHS47_03, BroadCGFE_DD_EETALTlPRCHS47_03_HC, BroadCGFE_DD_EETALTlPRCHS47_03_clusteredNACE)

#export
BroadCGFE_DD_EETALTlPRCHS47_03_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS47_03)

BroadCGFE_DD_EETALTlPRCHS47_03_HC_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS47_03_HC)

BroadCGFE_DD_EETALTlPRCHS47_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS47_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlPRCHS47_03_df_all,BroadCGFE_DD_EETALTlPRCHS47_03_df_confint, BroadCGFE_DD_EETALTlPRCHS47_03_HC_df_confint, BroadCGFE_DD_EETALTlPRCHS47_03_clusteredNACE_df_confint ), path = "Broad CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#55 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlPRCHS55_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55 )
#HC robust SE
BroadCGFE_DD_EETALTlPRCHS55_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlPRCHS55_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG55, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlPRCHS55_03_df_all = etable(BroadCGFE_DD_EETALTlPRCHS55_03, BroadCGFE_DD_EETALTlPRCHS55_03_HC, BroadCGFE_DD_EETALTlPRCHS55_03_clusteredNACE)

#export
BroadCGFE_DD_EETALTlPRCHS55_03_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS55_03)

BroadCGFE_DD_EETALTlPRCHS55_03_HC_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS55_03_HC)

BroadCGFE_DD_EETALTlPRCHS55_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS55_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlPRCHS55_03_df_all,BroadCGFE_DD_EETALTlPRCHS55_03_df_confint, BroadCGFE_DD_EETALTlPRCHS55_03_HC_df_confint, BroadCGFE_DD_EETALTlPRCHS55_03_clusteredNACE_df_confint ), path = "Broad CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#56 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
BroadCGFE_DD_EETALTlPRCHS56_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56 )
#HC robust SE
BroadCGFE_DD_EETALTlPRCHS56_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, se = "hetero" )
#clustered by NACE SE
BroadCGFE_DD_EETALTlPRCHS56_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = BroadCG56, cluster = "nace2digit" )
#ETABLE

BroadCGFE_DD_EETALTlPRCHS56_03_df_all = etable(BroadCGFE_DD_EETALTlPRCHS56_03, BroadCGFE_DD_EETALTlPRCHS56_03_HC, BroadCGFE_DD_EETALTlPRCHS56_03_clusteredNACE)

#export
BroadCGFE_DD_EETALTlPRCHS56_03_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS56_03)

BroadCGFE_DD_EETALTlPRCHS56_03_HC_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS56_03_HC)

BroadCGFE_DD_EETALTlPRCHS56_03_clusteredNACE_df_confint = confint(BroadCGFE_DD_EETALTlPRCHS56_03_clusteredNACE)

write_xlsx(list(BroadCGFE_DD_EETALTlPRCHS56_03_df_all,BroadCGFE_DD_EETALTlPRCHS56_03_df_confint, BroadCGFE_DD_EETALTlPRCHS56_03_HC_df_confint, BroadCGFE_DD_EETALTlPRCHS56_03_clusteredNACE_df_confint ), path = "Broad CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#Fixed effect difference in differences analyza s NarrowCG
#45
NarrowCGdatasetNACE45 = c(29,32,33,45,95)

NarrowCG45 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE45),]
#46
NarrowCGdatasetNACE46 = c(32,46,52,62,74,78,82)

NarrowCG46 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE46),]
#47
NarrowCGdatasetNACE47 = c(32,47,58,90,95,96)

NarrowCG47 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE47),]
#55
NarrowCGdatasetNACE55 = c(55,68,77,79,81,93,95,96)

NarrowCG55 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE55),]
#56
NarrowCGdatasetNACE56 = c(56,61,79,90,93,95,96)

NarrowCG56 = BroadCG[which(BroadCG$nace2digit %in% NarrowCGdatasetNACE56),]


#NARROW


#45 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlOUT45_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45 )
#HC robust SE
NarrowCGFE_DD_EETALTlOUT45_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlOUT45_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlOUT45_01_df_all = etable(NarrowCGFE_DD_EETALTlOUT45_01, NarrowCGFE_DD_EETALTlOUT45_01_HC, NarrowCGFE_DD_EETALTlOUT45_01_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlOUT45_01_df_confint = confint(NarrowCGFE_DD_EETALTlOUT45_01)

NarrowCGFE_DD_EETALTlOUT45_01_HC_df_confint = confint(NarrowCGFE_DD_EETALTlOUT45_01_HC)

NarrowCGFE_DD_EETALTlOUT45_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlOUT45_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlOUT45_01_df_all,NarrowCGFE_DD_EETALTlOUT45_01_df_confint, NarrowCGFE_DD_EETALTlOUT45_01_HC_df_confint, NarrowCGFE_DD_EETALTlOUT45_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#46 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlOUT46_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46 )
#HC robust SE
NarrowCGFE_DD_EETALTlOUT46_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlOUT46_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlOUT46_01_df_all = etable(NarrowCGFE_DD_EETALTlOUT46_01, NarrowCGFE_DD_EETALTlOUT46_01_HC, NarrowCGFE_DD_EETALTlOUT46_01_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlOUT46_01_df_confint = confint(NarrowCGFE_DD_EETALTlOUT46_01)

NarrowCGFE_DD_EETALTlOUT46_01_HC_df_confint = confint(NarrowCGFE_DD_EETALTlOUT46_01_HC)

NarrowCGFE_DD_EETALTlOUT46_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlOUT46_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlOUT46_01_df_all,NarrowCGFE_DD_EETALTlOUT46_01_df_confint, NarrowCGFE_DD_EETALTlOUT46_01_HC_df_confint, NarrowCGFE_DD_EETALTlOUT46_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#47 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlOUT47_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47 )
#HC robust SE
NarrowCGFE_DD_EETALTlOUT47_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlOUT47_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlOUT47_01_df_all = etable(NarrowCGFE_DD_EETALTlOUT47_01, NarrowCGFE_DD_EETALTlOUT47_01_HC, NarrowCGFE_DD_EETALTlOUT47_01_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlOUT47_01_df_confint = confint(NarrowCGFE_DD_EETALTlOUT47_01)

NarrowCGFE_DD_EETALTlOUT47_01_HC_df_confint = confint(NarrowCGFE_DD_EETALTlOUT47_01_HC)

NarrowCGFE_DD_EETALTlOUT47_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlOUT47_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlOUT47_01_df_all,NarrowCGFE_DD_EETALTlOUT47_01_df_confint, NarrowCGFE_DD_EETALTlOUT47_01_HC_df_confint, NarrowCGFE_DD_EETALTlOUT47_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")




#55 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlOUT55_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55 )
#HC robust SE
NarrowCGFE_DD_EETALTlOUT55_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlOUT55_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlOUT55_01_df_all = etable(NarrowCGFE_DD_EETALTlOUT55_01, NarrowCGFE_DD_EETALTlOUT55_01_HC, NarrowCGFE_DD_EETALTlOUT55_01_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlOUT55_01_df_confint = confint(NarrowCGFE_DD_EETALTlOUT55_01)

NarrowCGFE_DD_EETALTlOUT55_01_HC_df_confint = confint(NarrowCGFE_DD_EETALTlOUT55_01_HC)

NarrowCGFE_DD_EETALTlOUT55_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlOUT55_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlOUT55_01_df_all,NarrowCGFE_DD_EETALTlOUT55_01_df_confint, NarrowCGFE_DD_EETALTlOUT55_01_HC_df_confint, NarrowCGFE_DD_EETALTlOUT55_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")





#56 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlOUT56_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56 )
#HC robust SE
NarrowCGFE_DD_EETALTlOUT56_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlOUT56_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlOUT56_01_df_all = etable(NarrowCGFE_DD_EETALTlOUT56_01, NarrowCGFE_DD_EETALTlOUT56_01_HC, NarrowCGFE_DD_EETALTlOUT56_01_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlOUT56_01_df_confint = confint(NarrowCGFE_DD_EETALTlOUT56_01)

NarrowCGFE_DD_EETALTlOUT56_01_HC_df_confint = confint(NarrowCGFE_DD_EETALTlOUT56_01_HC)

NarrowCGFE_DD_EETALTlOUT56_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlOUT56_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlOUT56_01_df_all,NarrowCGFE_DD_EETALTlOUT56_01_df_confint, NarrowCGFE_DD_EETALTlOUT56_01_HC_df_confint, NarrowCGFE_DD_EETALTlOUT56_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#45 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlPRCHS45_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45 )
#HC robust SE
NarrowCGFE_DD_EETALTlPRCHS45_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlPRCHS45_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlPRCHS45_01_df_all = etable(NarrowCGFE_DD_EETALTlPRCHS45_01, NarrowCGFE_DD_EETALTlPRCHS45_01_HC, NarrowCGFE_DD_EETALTlPRCHS45_01_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlPRCHS45_01_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS45_01)

NarrowCGFE_DD_EETALTlPRCHS45_01_HC_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS45_01_HC)

NarrowCGFE_DD_EETALTlPRCHS45_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS45_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlPRCHS45_01_df_all,NarrowCGFE_DD_EETALTlPRCHS45_01_df_confint, NarrowCGFE_DD_EETALTlPRCHS45_01_HC_df_confint, NarrowCGFE_DD_EETALTlPRCHS45_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#46 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlPRCHS46_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46 )
#HC robust SE
NarrowCGFE_DD_EETALTlPRCHS46_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlPRCHS46_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlPRCHS46_01_df_all = etable(NarrowCGFE_DD_EETALTlPRCHS46_01, NarrowCGFE_DD_EETALTlPRCHS46_01_HC, NarrowCGFE_DD_EETALTlPRCHS46_01_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlPRCHS46_01_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS46_01)

NarrowCGFE_DD_EETALTlPRCHS46_01_HC_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS46_01_HC)

NarrowCGFE_DD_EETALTlPRCHS46_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS46_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlPRCHS46_01_df_all,NarrowCGFE_DD_EETALTlPRCHS46_01_df_confint, NarrowCGFE_DD_EETALTlPRCHS46_01_HC_df_confint, NarrowCGFE_DD_EETALTlPRCHS46_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#47 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlPRCHS47_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47 )
#HC robust SE
NarrowCGFE_DD_EETALTlPRCHS47_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlPRCHS47_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlPRCHS47_01_df_all = etable(NarrowCGFE_DD_EETALTlPRCHS47_01, NarrowCGFE_DD_EETALTlPRCHS47_01_HC, NarrowCGFE_DD_EETALTlPRCHS47_01_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlPRCHS47_01_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS47_01)

NarrowCGFE_DD_EETALTlPRCHS47_01_HC_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS47_01_HC)

NarrowCGFE_DD_EETALTlPRCHS47_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS47_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlPRCHS47_01_df_all,NarrowCGFE_DD_EETALTlPRCHS47_01_df_confint, NarrowCGFE_DD_EETALTlPRCHS47_01_HC_df_confint, NarrowCGFE_DD_EETALTlPRCHS47_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")




#55 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlPRCHS55_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55 )
#HC robust SE
NarrowCGFE_DD_EETALTlPRCHS55_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlPRCHS55_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlPRCHS55_01_df_all = etable(NarrowCGFE_DD_EETALTlPRCHS55_01, NarrowCGFE_DD_EETALTlPRCHS55_01_HC, NarrowCGFE_DD_EETALTlPRCHS55_01_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlPRCHS55_01_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS55_01)

NarrowCGFE_DD_EETALTlPRCHS55_01_HC_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS55_01_HC)

NarrowCGFE_DD_EETALTlPRCHS55_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS55_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlPRCHS55_01_df_all,NarrowCGFE_DD_EETALTlPRCHS55_01_df_confint, NarrowCGFE_DD_EETALTlPRCHS55_01_HC_df_confint, NarrowCGFE_DD_EETALTlPRCHS55_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")





#56 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlPRCHS56_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56 )
#HC robust SE
NarrowCGFE_DD_EETALTlPRCHS56_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlPRCHS56_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlPRCHS56_01_df_all = etable(NarrowCGFE_DD_EETALTlPRCHS56_01, NarrowCGFE_DD_EETALTlPRCHS56_01_HC, NarrowCGFE_DD_EETALTlPRCHS56_01_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlPRCHS56_01_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS56_01)

NarrowCGFE_DD_EETALTlPRCHS56_01_HC_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS56_01_HC)

NarrowCGFE_DD_EETALTlPRCHS56_01_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS56_01_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlPRCHS56_01_df_all,NarrowCGFE_DD_EETALTlPRCHS56_01_df_confint, NarrowCGFE_DD_EETALTlPRCHS56_01_HC_df_confint, NarrowCGFE_DD_EETALTlPRCHS56_01_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")










#45 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlOUT45_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45 )
#HC robust SE
NarrowCGFE_DD_EETALTlOUT45_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlOUT45_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlOUT45_02_df_all = etable(NarrowCGFE_DD_EETALTlOUT45_02, NarrowCGFE_DD_EETALTlOUT45_02_HC, NarrowCGFE_DD_EETALTlOUT45_02_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlOUT45_02_df_confint = confint(NarrowCGFE_DD_EETALTlOUT45_02)

NarrowCGFE_DD_EETALTlOUT45_02_HC_df_confint = confint(NarrowCGFE_DD_EETALTlOUT45_02_HC)

NarrowCGFE_DD_EETALTlOUT45_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlOUT45_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlOUT45_02_df_all,NarrowCGFE_DD_EETALTlOUT45_02_df_confint, NarrowCGFE_DD_EETALTlOUT45_02_HC_df_confint, NarrowCGFE_DD_EETALTlOUT45_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#46 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlOUT46_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46 )
#HC robust SE
NarrowCGFE_DD_EETALTlOUT46_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlOUT46_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlOUT46_02_df_all = etable(NarrowCGFE_DD_EETALTlOUT46_02, NarrowCGFE_DD_EETALTlOUT46_02_HC, NarrowCGFE_DD_EETALTlOUT46_02_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlOUT46_02_df_confint = confint(NarrowCGFE_DD_EETALTlOUT46_02)

NarrowCGFE_DD_EETALTlOUT46_02_HC_df_confint = confint(NarrowCGFE_DD_EETALTlOUT46_02_HC)

NarrowCGFE_DD_EETALTlOUT46_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlOUT46_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlOUT46_02_df_all,NarrowCGFE_DD_EETALTlOUT46_02_df_confint, NarrowCGFE_DD_EETALTlOUT46_02_HC_df_confint, NarrowCGFE_DD_EETALTlOUT46_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#47 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlOUT47_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47 )
#HC robust SE
NarrowCGFE_DD_EETALTlOUT47_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlOUT47_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlOUT47_02_df_all = etable(NarrowCGFE_DD_EETALTlOUT47_02, NarrowCGFE_DD_EETALTlOUT47_02_HC, NarrowCGFE_DD_EETALTlOUT47_02_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlOUT47_02_df_confint = confint(NarrowCGFE_DD_EETALTlOUT47_02)

NarrowCGFE_DD_EETALTlOUT47_02_HC_df_confint = confint(NarrowCGFE_DD_EETALTlOUT47_02_HC)

NarrowCGFE_DD_EETALTlOUT47_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlOUT47_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlOUT47_02_df_all,NarrowCGFE_DD_EETALTlOUT47_02_df_confint, NarrowCGFE_DD_EETALTlOUT47_02_HC_df_confint, NarrowCGFE_DD_EETALTlOUT47_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")



#55 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlOUT55_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55 )
#HC robust SE
NarrowCGFE_DD_EETALTlOUT55_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlOUT55_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlOUT55_02_df_all = etable(NarrowCGFE_DD_EETALTlOUT55_02, NarrowCGFE_DD_EETALTlOUT55_02_HC, NarrowCGFE_DD_EETALTlOUT55_02_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlOUT55_02_df_confint = confint(NarrowCGFE_DD_EETALTlOUT55_02)

NarrowCGFE_DD_EETALTlOUT55_02_HC_df_confint = confint(NarrowCGFE_DD_EETALTlOUT55_02_HC)

NarrowCGFE_DD_EETALTlOUT55_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlOUT55_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlOUT55_02_df_all,NarrowCGFE_DD_EETALTlOUT55_02_df_confint, NarrowCGFE_DD_EETALTlOUT55_02_HC_df_confint, NarrowCGFE_DD_EETALTlOUT55_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#56 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlOUT56_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56 )
#HC robust SE
NarrowCGFE_DD_EETALTlOUT56_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlOUT56_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlOUT56_02_df_all = etable(NarrowCGFE_DD_EETALTlOUT56_02, NarrowCGFE_DD_EETALTlOUT56_02_HC, NarrowCGFE_DD_EETALTlOUT56_02_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlOUT56_02_df_confint = confint(NarrowCGFE_DD_EETALTlOUT56_02)

NarrowCGFE_DD_EETALTlOUT56_02_HC_df_confint = confint(NarrowCGFE_DD_EETALTlOUT56_02_HC)

NarrowCGFE_DD_EETALTlOUT56_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlOUT56_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlOUT56_02_df_all,NarrowCGFE_DD_EETALTlOUT56_02_df_confint, NarrowCGFE_DD_EETALTlOUT56_02_HC_df_confint, NarrowCGFE_DD_EETALTlOUT56_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")






#45 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlPRCHS45_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45 )
#HC robust SE
NarrowCGFE_DD_EETALTlPRCHS45_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlPRCHS45_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlPRCHS45_02_df_all = etable(NarrowCGFE_DD_EETALTlPRCHS45_02, NarrowCGFE_DD_EETALTlPRCHS45_02_HC, NarrowCGFE_DD_EETALTlPRCHS45_02_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlPRCHS45_02_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS45_02)

NarrowCGFE_DD_EETALTlPRCHS45_02_HC_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS45_02_HC)

NarrowCGFE_DD_EETALTlPRCHS45_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS45_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlPRCHS45_02_df_all,NarrowCGFE_DD_EETALTlPRCHS45_02_df_confint, NarrowCGFE_DD_EETALTlPRCHS45_02_HC_df_confint, NarrowCGFE_DD_EETALTlPRCHS45_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#46 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlPRCHS46_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46 )
#HC robust SE
NarrowCGFE_DD_EETALTlPRCHS46_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlPRCHS46_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlPRCHS46_02_df_all = etable(NarrowCGFE_DD_EETALTlPRCHS46_02, NarrowCGFE_DD_EETALTlPRCHS46_02_HC, NarrowCGFE_DD_EETALTlPRCHS46_02_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlPRCHS46_02_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS46_02)

NarrowCGFE_DD_EETALTlPRCHS46_02_HC_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS46_02_HC)

NarrowCGFE_DD_EETALTlPRCHS46_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS46_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlPRCHS46_02_df_all,NarrowCGFE_DD_EETALTlPRCHS46_02_df_confint, NarrowCGFE_DD_EETALTlPRCHS46_02_HC_df_confint, NarrowCGFE_DD_EETALTlPRCHS46_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#47 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlPRCHS47_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47 )
#HC robust SE
NarrowCGFE_DD_EETALTlPRCHS47_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlPRCHS47_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlPRCHS47_02_df_all = etable(NarrowCGFE_DD_EETALTlPRCHS47_02, NarrowCGFE_DD_EETALTlPRCHS47_02_HC, NarrowCGFE_DD_EETALTlPRCHS47_02_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlPRCHS47_02_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS47_02)

NarrowCGFE_DD_EETALTlPRCHS47_02_HC_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS47_02_HC)

NarrowCGFE_DD_EETALTlPRCHS47_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS47_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlPRCHS47_02_df_all,NarrowCGFE_DD_EETALTlPRCHS47_02_df_confint, NarrowCGFE_DD_EETALTlPRCHS47_02_HC_df_confint, NarrowCGFE_DD_EETALTlPRCHS47_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")



#55 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlPRCHS55_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55 )
#HC robust SE
NarrowCGFE_DD_EETALTlPRCHS55_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlPRCHS55_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlPRCHS55_02_df_all = etable(NarrowCGFE_DD_EETALTlPRCHS55_02, NarrowCGFE_DD_EETALTlPRCHS55_02_HC, NarrowCGFE_DD_EETALTlPRCHS55_02_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlPRCHS55_02_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS55_02)

NarrowCGFE_DD_EETALTlPRCHS55_02_HC_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS55_02_HC)

NarrowCGFE_DD_EETALTlPRCHS55_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS55_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlPRCHS55_02_df_all,NarrowCGFE_DD_EETALTlPRCHS55_02_df_confint, NarrowCGFE_DD_EETALTlPRCHS55_02_HC_df_confint, NarrowCGFE_DD_EETALTlPRCHS55_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#56 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlPRCHS56_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56 )
#HC robust SE
NarrowCGFE_DD_EETALTlPRCHS56_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlPRCHS56_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlPRCHS56_02_df_all = etable(NarrowCGFE_DD_EETALTlPRCHS56_02, NarrowCGFE_DD_EETALTlPRCHS56_02_HC, NarrowCGFE_DD_EETALTlPRCHS56_02_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlPRCHS56_02_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS56_02)

NarrowCGFE_DD_EETALTlPRCHS56_02_HC_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS56_02_HC)

NarrowCGFE_DD_EETALTlPRCHS56_02_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS56_02_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlPRCHS56_02_df_all,NarrowCGFE_DD_EETALTlPRCHS56_02_df_confint, NarrowCGFE_DD_EETALTlPRCHS56_02_HC_df_confint, NarrowCGFE_DD_EETALTlPRCHS56_02_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")




#45 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlOUT45_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45 )
#HC robust SE
NarrowCGFE_DD_EETALTlOUT45_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlOUT45_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlOUT45_03_df_all = etable(NarrowCGFE_DD_EETALTlOUT45_03, NarrowCGFE_DD_EETALTlOUT45_03_HC, NarrowCGFE_DD_EETALTlOUT45_03_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlOUT45_03_df_confint = confint(NarrowCGFE_DD_EETALTlOUT45_03)

NarrowCGFE_DD_EETALTlOUT45_03_HC_df_confint = confint(NarrowCGFE_DD_EETALTlOUT45_03_HC)

NarrowCGFE_DD_EETALTlOUT45_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlOUT45_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlOUT45_03_df_all,NarrowCGFE_DD_EETALTlOUT45_03_df_confint, NarrowCGFE_DD_EETALTlOUT45_03_HC_df_confint, NarrowCGFE_DD_EETALTlOUT45_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#46 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlOUT46_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46 )
#HC robust SE
NarrowCGFE_DD_EETALTlOUT46_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlOUT46_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlOUT46_03_df_all = etable(NarrowCGFE_DD_EETALTlOUT46_03, NarrowCGFE_DD_EETALTlOUT46_03_HC, NarrowCGFE_DD_EETALTlOUT46_03_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlOUT46_03_df_confint = confint(NarrowCGFE_DD_EETALTlOUT46_03)

NarrowCGFE_DD_EETALTlOUT46_03_HC_df_confint = confint(NarrowCGFE_DD_EETALTlOUT46_03_HC)

NarrowCGFE_DD_EETALTlOUT46_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlOUT46_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlOUT46_03_df_all,NarrowCGFE_DD_EETALTlOUT46_03_df_confint, NarrowCGFE_DD_EETALTlOUT46_03_HC_df_confint, NarrowCGFE_DD_EETALTlOUT46_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#47 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlOUT47_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47 )
#HC robust SE
NarrowCGFE_DD_EETALTlOUT47_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlOUT47_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlOUT47_03_df_all = etable(NarrowCGFE_DD_EETALTlOUT47_03, NarrowCGFE_DD_EETALTlOUT47_03_HC, NarrowCGFE_DD_EETALTlOUT47_03_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlOUT47_03_df_confint = confint(NarrowCGFE_DD_EETALTlOUT47_03)

NarrowCGFE_DD_EETALTlOUT47_03_HC_df_confint = confint(NarrowCGFE_DD_EETALTlOUT47_03_HC)

NarrowCGFE_DD_EETALTlOUT47_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlOUT47_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlOUT47_03_df_all,NarrowCGFE_DD_EETALTlOUT47_03_df_confint, NarrowCGFE_DD_EETALTlOUT47_03_HC_df_confint, NarrowCGFE_DD_EETALTlOUT47_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#55 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlOUT55_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55 )
#HC robust SE
NarrowCGFE_DD_EETALTlOUT55_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlOUT55_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlOUT55_03_df_all = etable(NarrowCGFE_DD_EETALTlOUT55_03, NarrowCGFE_DD_EETALTlOUT55_03_HC, NarrowCGFE_DD_EETALTlOUT55_03_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlOUT55_03_df_confint = confint(NarrowCGFE_DD_EETALTlOUT55_03)

NarrowCGFE_DD_EETALTlOUT55_03_HC_df_confint = confint(NarrowCGFE_DD_EETALTlOUT55_03_HC)

NarrowCGFE_DD_EETALTlOUT55_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlOUT55_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlOUT55_03_df_all,NarrowCGFE_DD_EETALTlOUT55_03_df_confint, NarrowCGFE_DD_EETALTlOUT55_03_HC_df_confint, NarrowCGFE_DD_EETALTlOUT55_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#56 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlOUT56_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56 )
#HC robust SE
NarrowCGFE_DD_EETALTlOUT56_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlOUT56_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlOUT56_03_df_all = etable(NarrowCGFE_DD_EETALTlOUT56_03, NarrowCGFE_DD_EETALTlOUT56_03_HC, NarrowCGFE_DD_EETALTlOUT56_03_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlOUT56_03_df_confint = confint(NarrowCGFE_DD_EETALTlOUT56_03)

NarrowCGFE_DD_EETALTlOUT56_03_HC_df_confint = confint(NarrowCGFE_DD_EETALTlOUT56_03_HC)

NarrowCGFE_DD_EETALTlOUT56_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlOUT56_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlOUT56_03_df_all,NarrowCGFE_DD_EETALTlOUT56_03_df_confint, NarrowCGFE_DD_EETALTlOUT56_03_HC_df_confint, NarrowCGFE_DD_EETALTlOUT56_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#45 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlPRCHS45_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45 )
#HC robust SE
NarrowCGFE_DD_EETALTlPRCHS45_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlPRCHS45_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG45, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlPRCHS45_03_df_all = etable(NarrowCGFE_DD_EETALTlPRCHS45_03, NarrowCGFE_DD_EETALTlPRCHS45_03_HC, NarrowCGFE_DD_EETALTlPRCHS45_03_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlPRCHS45_03_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS45_03)

NarrowCGFE_DD_EETALTlPRCHS45_03_HC_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS45_03_HC)

NarrowCGFE_DD_EETALTlPRCHS45_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS45_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlPRCHS45_03_df_all,NarrowCGFE_DD_EETALTlPRCHS45_03_df_confint, NarrowCGFE_DD_EETALTlPRCHS45_03_HC_df_confint, NarrowCGFE_DD_EETALTlPRCHS45_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#46 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlPRCHS46_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46 )
#HC robust SE
NarrowCGFE_DD_EETALTlPRCHS46_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlPRCHS46_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG46, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlPRCHS46_03_df_all = etable(NarrowCGFE_DD_EETALTlPRCHS46_03, NarrowCGFE_DD_EETALTlPRCHS46_03_HC, NarrowCGFE_DD_EETALTlPRCHS46_03_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlPRCHS46_03_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS46_03)

NarrowCGFE_DD_EETALTlPRCHS46_03_HC_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS46_03_HC)

NarrowCGFE_DD_EETALTlPRCHS46_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS46_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlPRCHS46_03_df_all,NarrowCGFE_DD_EETALTlPRCHS46_03_df_confint, NarrowCGFE_DD_EETALTlPRCHS46_03_HC_df_confint, NarrowCGFE_DD_EETALTlPRCHS46_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#47 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlPRCHS47_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47 )
#HC robust SE
NarrowCGFE_DD_EETALTlPRCHS47_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlPRCHS47_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG47, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlPRCHS47_03_df_all = etable(NarrowCGFE_DD_EETALTlPRCHS47_03, NarrowCGFE_DD_EETALTlPRCHS47_03_HC, NarrowCGFE_DD_EETALTlPRCHS47_03_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlPRCHS47_03_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS47_03)

NarrowCGFE_DD_EETALTlPRCHS47_03_HC_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS47_03_HC)

NarrowCGFE_DD_EETALTlPRCHS47_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS47_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlPRCHS47_03_df_all,NarrowCGFE_DD_EETALTlPRCHS47_03_df_confint, NarrowCGFE_DD_EETALTlPRCHS47_03_HC_df_confint, NarrowCGFE_DD_EETALTlPRCHS47_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#55 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlPRCHS55_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55 )
#HC robust SE
NarrowCGFE_DD_EETALTlPRCHS55_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlPRCHS55_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG55, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlPRCHS55_03_df_all = etable(NarrowCGFE_DD_EETALTlPRCHS55_03, NarrowCGFE_DD_EETALTlPRCHS55_03_HC, NarrowCGFE_DD_EETALTlPRCHS55_03_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlPRCHS55_03_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS55_03)

NarrowCGFE_DD_EETALTlPRCHS55_03_HC_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS55_03_HC)

NarrowCGFE_DD_EETALTlPRCHS55_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS55_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlPRCHS55_03_df_all,NarrowCGFE_DD_EETALTlPRCHS55_03_df_confint, NarrowCGFE_DD_EETALTlPRCHS55_03_HC_df_confint, NarrowCGFE_DD_EETALTlPRCHS55_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#56 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
NarrowCGFE_DD_EETALTlPRCHS56_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56 )
#HC robust SE
NarrowCGFE_DD_EETALTlPRCHS56_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, se = "hetero" )
#clustered by NACE SE
NarrowCGFE_DD_EETALTlPRCHS56_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = NarrowCG56, cluster = "nace2digit" )
#ETABLE

NarrowCGFE_DD_EETALTlPRCHS56_03_df_all = etable(NarrowCGFE_DD_EETALTlPRCHS56_03, NarrowCGFE_DD_EETALTlPRCHS56_03_HC, NarrowCGFE_DD_EETALTlPRCHS56_03_clusteredNACE)

#export
NarrowCGFE_DD_EETALTlPRCHS56_03_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS56_03)

NarrowCGFE_DD_EETALTlPRCHS56_03_HC_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS56_03_HC)

NarrowCGFE_DD_EETALTlPRCHS56_03_clusteredNACE_df_confint = confint(NarrowCGFE_DD_EETALTlPRCHS56_03_clusteredNACE)

write_xlsx(list(NarrowCGFE_DD_EETALTlPRCHS56_03_df_all,NarrowCGFE_DD_EETALTlPRCHS56_03_df_confint, NarrowCGFE_DD_EETALTlPRCHS56_03_HC_df_confint, NarrowCGFE_DD_EETALTlPRCHS56_03_clusteredNACE_df_confint ), path = "Narrow CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")





















#Fixed effect difference in differences analyza s AlgorithmicCG
#45
AlgorithmicCGdatasetNACE45 = c(45,93,79,31,16,58)

AlgorithmicCG45 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE45),]
#46
AlgorithmicCGdatasetNACE46 = c(46,41,59,90,10,95)

AlgorithmicCG46 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE46),]
#47
AlgorithmicCGdatasetNACE47 = c(47,93,79,41,58,90)

AlgorithmicCG47 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE47),]
#55
AlgorithmicCGdatasetNACE55 = c(55,93,16,31,77,11)

AlgorithmicCG55 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE55),]
#56
AlgorithmicCGdatasetNACE56 = c(56,14,96,10,90,43)

AlgorithmicCG56 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE56),]



#ALGORITHMIC


#45 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT45_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT45_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT45_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT45_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT45_01, AlgorithmicCGFE_DD_EETALTlOUT45_01_HC, AlgorithmicCGFE_DD_EETALTlOUT45_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT45_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT45_01)

AlgorithmicCGFE_DD_EETALTlOUT45_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT45_01_HC)

AlgorithmicCGFE_DD_EETALTlOUT45_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT45_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT45_01_df_all,AlgorithmicCGFE_DD_EETALTlOUT45_01_df_confint, AlgorithmicCGFE_DD_EETALTlOUT45_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT45_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#46 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT46_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT46_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT46_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT46_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT46_01, AlgorithmicCGFE_DD_EETALTlOUT46_01_HC, AlgorithmicCGFE_DD_EETALTlOUT46_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT46_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT46_01)

AlgorithmicCGFE_DD_EETALTlOUT46_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT46_01_HC)

AlgorithmicCGFE_DD_EETALTlOUT46_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT46_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT46_01_df_all,AlgorithmicCGFE_DD_EETALTlOUT46_01_df_confint, AlgorithmicCGFE_DD_EETALTlOUT46_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT46_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#47 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT47_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT47_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT47_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT47_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT47_01, AlgorithmicCGFE_DD_EETALTlOUT47_01_HC, AlgorithmicCGFE_DD_EETALTlOUT47_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT47_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT47_01)

AlgorithmicCGFE_DD_EETALTlOUT47_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT47_01_HC)

AlgorithmicCGFE_DD_EETALTlOUT47_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT47_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT47_01_df_all,AlgorithmicCGFE_DD_EETALTlOUT47_01_df_confint, AlgorithmicCGFE_DD_EETALTlOUT47_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT47_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")




#55 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT55_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT55_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT55_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT55_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT55_01, AlgorithmicCGFE_DD_EETALTlOUT55_01_HC, AlgorithmicCGFE_DD_EETALTlOUT55_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT55_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT55_01)

AlgorithmicCGFE_DD_EETALTlOUT55_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT55_01_HC)

AlgorithmicCGFE_DD_EETALTlOUT55_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT55_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT55_01_df_all,AlgorithmicCGFE_DD_EETALTlOUT55_01_df_confint, AlgorithmicCGFE_DD_EETALTlOUT55_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT55_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")





#56 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT56_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT56_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT56_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT56_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT56_01, AlgorithmicCGFE_DD_EETALTlOUT56_01_HC, AlgorithmicCGFE_DD_EETALTlOUT56_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT56_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT56_01)

AlgorithmicCGFE_DD_EETALTlOUT56_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT56_01_HC)

AlgorithmicCGFE_DD_EETALTlOUT56_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT56_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT56_01_df_all,AlgorithmicCGFE_DD_EETALTlOUT56_01_df_confint, AlgorithmicCGFE_DD_EETALTlOUT56_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT56_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#45 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS45_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS45_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS45_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS45_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS45_01, AlgorithmicCGFE_DD_EETALTlPRCHS45_01_HC, AlgorithmicCGFE_DD_EETALTlPRCHS45_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS45_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS45_01)

AlgorithmicCGFE_DD_EETALTlPRCHS45_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS45_01_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS45_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS45_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS45_01_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS45_01_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS45_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS45_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#46 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS46_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS46_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS46_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS46_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS46_01, AlgorithmicCGFE_DD_EETALTlPRCHS46_01_HC, AlgorithmicCGFE_DD_EETALTlPRCHS46_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS46_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS46_01)

AlgorithmicCGFE_DD_EETALTlPRCHS46_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS46_01_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS46_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS46_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS46_01_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS46_01_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS46_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS46_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#47 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS47_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS47_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS47_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS47_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS47_01, AlgorithmicCGFE_DD_EETALTlPRCHS47_01_HC, AlgorithmicCGFE_DD_EETALTlPRCHS47_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS47_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS47_01)

AlgorithmicCGFE_DD_EETALTlPRCHS47_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS47_01_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS47_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS47_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS47_01_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS47_01_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS47_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS47_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")




#55 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS55_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS55_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS55_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS55_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS55_01, AlgorithmicCGFE_DD_EETALTlPRCHS55_01_HC, AlgorithmicCGFE_DD_EETALTlPRCHS55_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS55_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS55_01)

AlgorithmicCGFE_DD_EETALTlPRCHS55_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS55_01_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS55_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS55_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS55_01_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS55_01_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS55_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS55_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")





#56 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS56_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS56_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS56_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS56_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS56_01, AlgorithmicCGFE_DD_EETALTlPRCHS56_01_HC, AlgorithmicCGFE_DD_EETALTlPRCHS56_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS56_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS56_01)

AlgorithmicCGFE_DD_EETALTlPRCHS56_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS56_01_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS56_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS56_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS56_01_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS56_01_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS56_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS56_01_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")










#45 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT45_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT45_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT45_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT45_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT45_02, AlgorithmicCGFE_DD_EETALTlOUT45_02_HC, AlgorithmicCGFE_DD_EETALTlOUT45_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT45_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT45_02)

AlgorithmicCGFE_DD_EETALTlOUT45_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT45_02_HC)

AlgorithmicCGFE_DD_EETALTlOUT45_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT45_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT45_02_df_all,AlgorithmicCGFE_DD_EETALTlOUT45_02_df_confint, AlgorithmicCGFE_DD_EETALTlOUT45_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT45_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#46 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT46_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT46_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT46_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT46_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT46_02, AlgorithmicCGFE_DD_EETALTlOUT46_02_HC, AlgorithmicCGFE_DD_EETALTlOUT46_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT46_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT46_02)

AlgorithmicCGFE_DD_EETALTlOUT46_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT46_02_HC)

AlgorithmicCGFE_DD_EETALTlOUT46_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT46_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT46_02_df_all,AlgorithmicCGFE_DD_EETALTlOUT46_02_df_confint, AlgorithmicCGFE_DD_EETALTlOUT46_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT46_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#47 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT47_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT47_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT47_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT47_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT47_02, AlgorithmicCGFE_DD_EETALTlOUT47_02_HC, AlgorithmicCGFE_DD_EETALTlOUT47_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT47_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT47_02)

AlgorithmicCGFE_DD_EETALTlOUT47_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT47_02_HC)

AlgorithmicCGFE_DD_EETALTlOUT47_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT47_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT47_02_df_all,AlgorithmicCGFE_DD_EETALTlOUT47_02_df_confint, AlgorithmicCGFE_DD_EETALTlOUT47_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT47_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")



#55 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT55_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT55_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT55_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT55_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT55_02, AlgorithmicCGFE_DD_EETALTlOUT55_02_HC, AlgorithmicCGFE_DD_EETALTlOUT55_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT55_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT55_02)

AlgorithmicCGFE_DD_EETALTlOUT55_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT55_02_HC)

AlgorithmicCGFE_DD_EETALTlOUT55_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT55_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT55_02_df_all,AlgorithmicCGFE_DD_EETALTlOUT55_02_df_confint, AlgorithmicCGFE_DD_EETALTlOUT55_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT55_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#56 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT56_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT56_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT56_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT56_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT56_02, AlgorithmicCGFE_DD_EETALTlOUT56_02_HC, AlgorithmicCGFE_DD_EETALTlOUT56_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT56_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT56_02)

AlgorithmicCGFE_DD_EETALTlOUT56_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT56_02_HC)

AlgorithmicCGFE_DD_EETALTlOUT56_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT56_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT56_02_df_all,AlgorithmicCGFE_DD_EETALTlOUT56_02_df_confint, AlgorithmicCGFE_DD_EETALTlOUT56_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT56_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")






#45 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS45_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS45_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS45_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS45_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS45_02, AlgorithmicCGFE_DD_EETALTlPRCHS45_02_HC, AlgorithmicCGFE_DD_EETALTlPRCHS45_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS45_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS45_02)

AlgorithmicCGFE_DD_EETALTlPRCHS45_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS45_02_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS45_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS45_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS45_02_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS45_02_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS45_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS45_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#46 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS46_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS46_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS46_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS46_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS46_02, AlgorithmicCGFE_DD_EETALTlPRCHS46_02_HC, AlgorithmicCGFE_DD_EETALTlPRCHS46_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS46_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS46_02)

AlgorithmicCGFE_DD_EETALTlPRCHS46_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS46_02_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS46_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS46_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS46_02_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS46_02_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS46_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS46_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#47 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS47_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS47_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS47_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS47_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS47_02, AlgorithmicCGFE_DD_EETALTlPRCHS47_02_HC, AlgorithmicCGFE_DD_EETALTlPRCHS47_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS47_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS47_02)

AlgorithmicCGFE_DD_EETALTlPRCHS47_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS47_02_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS47_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS47_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS47_02_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS47_02_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS47_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS47_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")



#55 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS55_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS55_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS55_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS55_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS55_02, AlgorithmicCGFE_DD_EETALTlPRCHS55_02_HC, AlgorithmicCGFE_DD_EETALTlPRCHS55_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS55_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS55_02)

AlgorithmicCGFE_DD_EETALTlPRCHS55_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS55_02_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS55_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS55_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS55_02_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS55_02_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS55_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS55_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#56 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS56_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS56_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS56_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS56_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS56_02, AlgorithmicCGFE_DD_EETALTlPRCHS56_02_HC, AlgorithmicCGFE_DD_EETALTlPRCHS56_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS56_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS56_02)

AlgorithmicCGFE_DD_EETALTlPRCHS56_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS56_02_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS56_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS56_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS56_02_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS56_02_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS56_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS56_02_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")




#45 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT45_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT45_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT45_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT45_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT45_03, AlgorithmicCGFE_DD_EETALTlOUT45_03_HC, AlgorithmicCGFE_DD_EETALTlOUT45_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT45_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT45_03)

AlgorithmicCGFE_DD_EETALTlOUT45_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT45_03_HC)

AlgorithmicCGFE_DD_EETALTlOUT45_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT45_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT45_03_df_all,AlgorithmicCGFE_DD_EETALTlOUT45_03_df_confint, AlgorithmicCGFE_DD_EETALTlOUT45_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT45_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#46 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT46_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT46_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT46_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT46_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT46_03, AlgorithmicCGFE_DD_EETALTlOUT46_03_HC, AlgorithmicCGFE_DD_EETALTlOUT46_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT46_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT46_03)

AlgorithmicCGFE_DD_EETALTlOUT46_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT46_03_HC)

AlgorithmicCGFE_DD_EETALTlOUT46_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT46_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT46_03_df_all,AlgorithmicCGFE_DD_EETALTlOUT46_03_df_confint, AlgorithmicCGFE_DD_EETALTlOUT46_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT46_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#47 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT47_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT47_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT47_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT47_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT47_03, AlgorithmicCGFE_DD_EETALTlOUT47_03_HC, AlgorithmicCGFE_DD_EETALTlOUT47_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT47_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT47_03)

AlgorithmicCGFE_DD_EETALTlOUT47_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT47_03_HC)

AlgorithmicCGFE_DD_EETALTlOUT47_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT47_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT47_03_df_all,AlgorithmicCGFE_DD_EETALTlOUT47_03_df_confint, AlgorithmicCGFE_DD_EETALTlOUT47_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT47_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#55 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT55_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT55_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT55_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT55_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT55_03, AlgorithmicCGFE_DD_EETALTlOUT55_03_HC, AlgorithmicCGFE_DD_EETALTlOUT55_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT55_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT55_03)

AlgorithmicCGFE_DD_EETALTlOUT55_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT55_03_HC)

AlgorithmicCGFE_DD_EETALTlOUT55_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT55_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT55_03_df_all,AlgorithmicCGFE_DD_EETALTlOUT55_03_df_confint, AlgorithmicCGFE_DD_EETALTlOUT55_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT55_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#56 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT56_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT56_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT56_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT56_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT56_03, AlgorithmicCGFE_DD_EETALTlOUT56_03_HC, AlgorithmicCGFE_DD_EETALTlOUT56_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT56_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT56_03)

AlgorithmicCGFE_DD_EETALTlOUT56_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT56_03_HC)

AlgorithmicCGFE_DD_EETALTlOUT56_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT56_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT56_03_df_all,AlgorithmicCGFE_DD_EETALTlOUT56_03_df_confint, AlgorithmicCGFE_DD_EETALTlOUT56_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT56_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#45 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS45_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS45_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS45_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS45_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS45_03, AlgorithmicCGFE_DD_EETALTlPRCHS45_03_HC, AlgorithmicCGFE_DD_EETALTlPRCHS45_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS45_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS45_03)

AlgorithmicCGFE_DD_EETALTlPRCHS45_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS45_03_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS45_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS45_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS45_03_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS45_03_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS45_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS45_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#46 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS46_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS46_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS46_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS46_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS46_03, AlgorithmicCGFE_DD_EETALTlPRCHS46_03_HC, AlgorithmicCGFE_DD_EETALTlPRCHS46_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS46_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS46_03)

AlgorithmicCGFE_DD_EETALTlPRCHS46_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS46_03_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS46_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS46_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS46_03_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS46_03_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS46_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS46_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#47 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS47_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS47_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS47_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS47_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS47_03, AlgorithmicCGFE_DD_EETALTlPRCHS47_03_HC, AlgorithmicCGFE_DD_EETALTlPRCHS47_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS47_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS47_03)

AlgorithmicCGFE_DD_EETALTlPRCHS47_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS47_03_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS47_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS47_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS47_03_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS47_03_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS47_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS47_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#55 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS55_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS55_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS55_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS55_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS55_03, AlgorithmicCGFE_DD_EETALTlPRCHS55_03_HC, AlgorithmicCGFE_DD_EETALTlPRCHS55_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS55_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS55_03)

AlgorithmicCGFE_DD_EETALTlPRCHS55_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS55_03_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS55_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS55_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS55_03_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS55_03_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS55_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS55_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#56 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS56_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS56_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS56_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS56_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS56_03, AlgorithmicCGFE_DD_EETALTlPRCHS56_03_HC, AlgorithmicCGFE_DD_EETALTlPRCHS56_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS56_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS56_03)

AlgorithmicCGFE_DD_EETALTlPRCHS56_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS56_03_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS56_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS56_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS56_03_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS56_03_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS56_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS56_03_clusteredNACE_df_confint ), path = "Algorithmic CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


















































































#ALTERNATIVNI ALGORITHMIC SKUPINA 1

#Fixed effect difference in differences analyza s AlgorithmicCG
#45
AlgorithmicCGdatasetNACE45 = c(45,10,79,90,93)

AlgorithmicCG45 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE45),]
#46
AlgorithmicCGdatasetNACE46 = c(46,59,74,79)

AlgorithmicCG46 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE46),]
#47
AlgorithmicCGdatasetNACE47 = c(47,14,58,79,90,96)

AlgorithmicCG47 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE47),]
#55
AlgorithmicCGdatasetNACE55 = c(55,31,68,69,81,93)

AlgorithmicCG55 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE55),]
#56
AlgorithmicCGdatasetNACE56 = c(56,10,15,74,79,96)

AlgorithmicCG56 = BroadCG[which(BroadCG$nace2digit %in% AlgorithmicCGdatasetNACE56),]



#ALGORITHMIC


#45 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT45_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DDlOUT45_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT45_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT45_01_df_all = etable(AlgorithmicCGFE_DDlOUT45_01, AlgorithmicCGFE_DDlOUT45_01_HC, AlgorithmicCGFE_DDlOUT45_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT45_01_df_confint = confint(AlgorithmicCGFE_DDlOUT45_01)

AlgorithmicCGFE_DDlOUT45_01_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT45_01_HC)

AlgorithmicCGFE_DDlOUT45_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT45_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT45_01_df_all,AlgorithmicCGFE_DDlOUT45_01_df_confint, AlgorithmicCGFE_DDlOUT45_01_HC_df_confint, AlgorithmicCGFE_DDlOUT45_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#46 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT46_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DDlOUT46_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT46_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT46_01_df_all = etable(AlgorithmicCGFE_DDlOUT46_01, AlgorithmicCGFE_DDlOUT46_01_HC, AlgorithmicCGFE_DDlOUT46_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT46_01_df_confint = confint(AlgorithmicCGFE_DDlOUT46_01)

AlgorithmicCGFE_DDlOUT46_01_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT46_01_HC)

AlgorithmicCGFE_DDlOUT46_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT46_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT46_01_df_all,AlgorithmicCGFE_DDlOUT46_01_df_confint, AlgorithmicCGFE_DDlOUT46_01_HC_df_confint, AlgorithmicCGFE_DDlOUT46_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#47 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT47_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DDlOUT47_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT47_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT47_01_df_all = etable(AlgorithmicCGFE_DDlOUT47_01, AlgorithmicCGFE_DDlOUT47_01_HC, AlgorithmicCGFE_DDlOUT47_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT47_01_df_confint = confint(AlgorithmicCGFE_DDlOUT47_01)

AlgorithmicCGFE_DDlOUT47_01_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT47_01_HC)

AlgorithmicCGFE_DDlOUT47_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT47_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT47_01_df_all,AlgorithmicCGFE_DDlOUT47_01_df_confint, AlgorithmicCGFE_DDlOUT47_01_HC_df_confint, AlgorithmicCGFE_DDlOUT47_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")




#55 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT55_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DDlOUT55_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT55_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT55_01_df_all = etable(AlgorithmicCGFE_DDlOUT55_01, AlgorithmicCGFE_DDlOUT55_01_HC, AlgorithmicCGFE_DDlOUT55_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT55_01_df_confint = confint(AlgorithmicCGFE_DDlOUT55_01)

AlgorithmicCGFE_DDlOUT55_01_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT55_01_HC)

AlgorithmicCGFE_DDlOUT55_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT55_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT55_01_df_all,AlgorithmicCGFE_DDlOUT55_01_df_confint, AlgorithmicCGFE_DDlOUT55_01_HC_df_confint, AlgorithmicCGFE_DDlOUT55_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")





#56 Output

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT56_01 = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DDlOUT56_01_HC = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT56_01_clusteredNACE = feols(lOUTdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT56_01_df_all = etable(AlgorithmicCGFE_DDlOUT56_01, AlgorithmicCGFE_DDlOUT56_01_HC, AlgorithmicCGFE_DDlOUT56_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT56_01_df_confint = confint(AlgorithmicCGFE_DDlOUT56_01)

AlgorithmicCGFE_DDlOUT56_01_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT56_01_HC)

AlgorithmicCGFE_DDlOUT56_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT56_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT56_01_df_all,AlgorithmicCGFE_DDlOUT56_01_df_confint, AlgorithmicCGFE_DDlOUT56_01_HC_df_confint, AlgorithmicCGFE_DDlOUT56_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#45 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS45_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS45_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS45_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS45_01_df_all = etable(AlgorithmicCGFE_DDlPRCHS45_01, AlgorithmicCGFE_DDlPRCHS45_01_HC, AlgorithmicCGFE_DDlPRCHS45_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS45_01_df_confint = confint(AlgorithmicCGFE_DDlPRCHS45_01)

AlgorithmicCGFE_DDlPRCHS45_01_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS45_01_HC)

AlgorithmicCGFE_DDlPRCHS45_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS45_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS45_01_df_all,AlgorithmicCGFE_DDlPRCHS45_01_df_confint, AlgorithmicCGFE_DDlPRCHS45_01_HC_df_confint, AlgorithmicCGFE_DDlPRCHS45_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#46 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS46_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS46_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS46_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS46_01_df_all = etable(AlgorithmicCGFE_DDlPRCHS46_01, AlgorithmicCGFE_DDlPRCHS46_01_HC, AlgorithmicCGFE_DDlPRCHS46_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS46_01_df_confint = confint(AlgorithmicCGFE_DDlPRCHS46_01)

AlgorithmicCGFE_DDlPRCHS46_01_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS46_01_HC)

AlgorithmicCGFE_DDlPRCHS46_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS46_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS46_01_df_all,AlgorithmicCGFE_DDlPRCHS46_01_df_confint, AlgorithmicCGFE_DDlPRCHS46_01_HC_df_confint, AlgorithmicCGFE_DDlPRCHS46_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")



#47 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS47_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS47_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS47_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS47_01_df_all = etable(AlgorithmicCGFE_DDlPRCHS47_01, AlgorithmicCGFE_DDlPRCHS47_01_HC, AlgorithmicCGFE_DDlPRCHS47_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS47_01_df_confint = confint(AlgorithmicCGFE_DDlPRCHS47_01)

AlgorithmicCGFE_DDlPRCHS47_01_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS47_01_HC)

AlgorithmicCGFE_DDlPRCHS47_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS47_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS47_01_df_all,AlgorithmicCGFE_DDlPRCHS47_01_df_confint, AlgorithmicCGFE_DDlPRCHS47_01_HC_df_confint, AlgorithmicCGFE_DDlPRCHS47_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")




#55 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS55_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS55_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS55_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS55_01_df_all = etable(AlgorithmicCGFE_DDlPRCHS55_01, AlgorithmicCGFE_DDlPRCHS55_01_HC, AlgorithmicCGFE_DDlPRCHS55_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS55_01_df_confint = confint(AlgorithmicCGFE_DDlPRCHS55_01)

AlgorithmicCGFE_DDlPRCHS55_01_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS55_01_HC)

AlgorithmicCGFE_DDlPRCHS55_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS55_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS55_01_df_all,AlgorithmicCGFE_DDlPRCHS55_01_df_confint, AlgorithmicCGFE_DDlPRCHS55_01_HC_df_confint, AlgorithmicCGFE_DDlPRCHS55_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")





#56 Purchases

#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS56_01 = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS56_01_HC = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS56_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS56_01_df_all = etable(AlgorithmicCGFE_DDlPRCHS56_01, AlgorithmicCGFE_DDlPRCHS56_01_HC, AlgorithmicCGFE_DDlPRCHS56_01_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS56_01_df_confint = confint(AlgorithmicCGFE_DDlPRCHS56_01)

AlgorithmicCGFE_DDlPRCHS56_01_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS56_01_HC)

AlgorithmicCGFE_DDlPRCHS56_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS56_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS56_01_df_all,AlgorithmicCGFE_DDlPRCHS56_01_df_confint, AlgorithmicCGFE_DDlPRCHS56_01_HC_df_confint, AlgorithmicCGFE_DDlPRCHS56_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")










#45 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT45_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DDlOUT45_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT45_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT45_02_df_all = etable(AlgorithmicCGFE_DDlOUT45_02, AlgorithmicCGFE_DDlOUT45_02_HC, AlgorithmicCGFE_DDlOUT45_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT45_02_df_confint = confint(AlgorithmicCGFE_DDlOUT45_02)

AlgorithmicCGFE_DDlOUT45_02_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT45_02_HC)

AlgorithmicCGFE_DDlOUT45_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT45_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT45_02_df_all,AlgorithmicCGFE_DDlOUT45_02_df_confint, AlgorithmicCGFE_DDlOUT45_02_HC_df_confint, AlgorithmicCGFE_DDlOUT45_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#46 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT46_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DDlOUT46_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT46_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT46_02_df_all = etable(AlgorithmicCGFE_DDlOUT46_02, AlgorithmicCGFE_DDlOUT46_02_HC, AlgorithmicCGFE_DDlOUT46_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT46_02_df_confint = confint(AlgorithmicCGFE_DDlOUT46_02)

AlgorithmicCGFE_DDlOUT46_02_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT46_02_HC)

AlgorithmicCGFE_DDlOUT46_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT46_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT46_02_df_all,AlgorithmicCGFE_DDlOUT46_02_df_confint, AlgorithmicCGFE_DDlOUT46_02_HC_df_confint, AlgorithmicCGFE_DDlOUT46_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#47 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT47_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DDlOUT47_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT47_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT47_02_df_all = etable(AlgorithmicCGFE_DDlOUT47_02, AlgorithmicCGFE_DDlOUT47_02_HC, AlgorithmicCGFE_DDlOUT47_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT47_02_df_confint = confint(AlgorithmicCGFE_DDlOUT47_02)

AlgorithmicCGFE_DDlOUT47_02_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT47_02_HC)

AlgorithmicCGFE_DDlOUT47_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT47_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT47_02_df_all,AlgorithmicCGFE_DDlOUT47_02_df_confint, AlgorithmicCGFE_DDlOUT47_02_HC_df_confint, AlgorithmicCGFE_DDlOUT47_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")



#55 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT55_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DDlOUT55_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT55_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT55_02_df_all = etable(AlgorithmicCGFE_DDlOUT55_02, AlgorithmicCGFE_DDlOUT55_02_HC, AlgorithmicCGFE_DDlOUT55_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT55_02_df_confint = confint(AlgorithmicCGFE_DDlOUT55_02)

AlgorithmicCGFE_DDlOUT55_02_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT55_02_HC)

AlgorithmicCGFE_DDlOUT55_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT55_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT55_02_df_all,AlgorithmicCGFE_DDlOUT55_02_df_confint, AlgorithmicCGFE_DDlOUT55_02_HC_df_confint, AlgorithmicCGFE_DDlOUT55_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#56 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT56_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DDlOUT56_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT56_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT56_02_df_all = etable(AlgorithmicCGFE_DDlOUT56_02, AlgorithmicCGFE_DDlOUT56_02_HC, AlgorithmicCGFE_DDlOUT56_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT56_02_df_confint = confint(AlgorithmicCGFE_DDlOUT56_02)

AlgorithmicCGFE_DDlOUT56_02_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT56_02_HC)

AlgorithmicCGFE_DDlOUT56_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT56_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT56_02_df_all,AlgorithmicCGFE_DDlOUT56_02_df_confint, AlgorithmicCGFE_DDlOUT56_02_HC_df_confint, AlgorithmicCGFE_DDlOUT56_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")






#45 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS45_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS45_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS45_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS45_02_df_all = etable(AlgorithmicCGFE_DDlPRCHS45_02, AlgorithmicCGFE_DDlPRCHS45_02_HC, AlgorithmicCGFE_DDlPRCHS45_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS45_02_df_confint = confint(AlgorithmicCGFE_DDlPRCHS45_02)

AlgorithmicCGFE_DDlPRCHS45_02_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS45_02_HC)

AlgorithmicCGFE_DDlPRCHS45_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS45_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS45_02_df_all,AlgorithmicCGFE_DDlPRCHS45_02_df_confint, AlgorithmicCGFE_DDlPRCHS45_02_HC_df_confint, AlgorithmicCGFE_DDlPRCHS45_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#46 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS46_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS46_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS46_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS46_02_df_all = etable(AlgorithmicCGFE_DDlPRCHS46_02, AlgorithmicCGFE_DDlPRCHS46_02_HC, AlgorithmicCGFE_DDlPRCHS46_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS46_02_df_confint = confint(AlgorithmicCGFE_DDlPRCHS46_02)

AlgorithmicCGFE_DDlPRCHS46_02_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS46_02_HC)

AlgorithmicCGFE_DDlPRCHS46_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS46_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS46_02_df_all,AlgorithmicCGFE_DDlPRCHS46_02_df_confint, AlgorithmicCGFE_DDlPRCHS46_02_HC_df_confint, AlgorithmicCGFE_DDlPRCHS46_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#47 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS47_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS47_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS47_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS47_02_df_all = etable(AlgorithmicCGFE_DDlPRCHS47_02, AlgorithmicCGFE_DDlPRCHS47_02_HC, AlgorithmicCGFE_DDlPRCHS47_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS47_02_df_confint = confint(AlgorithmicCGFE_DDlPRCHS47_02)

AlgorithmicCGFE_DDlPRCHS47_02_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS47_02_HC)

AlgorithmicCGFE_DDlPRCHS47_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS47_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS47_02_df_all,AlgorithmicCGFE_DDlPRCHS47_02_df_confint, AlgorithmicCGFE_DDlPRCHS47_02_HC_df_confint, AlgorithmicCGFE_DDlPRCHS47_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")



#55 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS55_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS55_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS55_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS55_02_df_all = etable(AlgorithmicCGFE_DDlPRCHS55_02, AlgorithmicCGFE_DDlPRCHS55_02_HC, AlgorithmicCGFE_DDlPRCHS55_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS55_02_df_confint = confint(AlgorithmicCGFE_DDlPRCHS55_02)

AlgorithmicCGFE_DDlPRCHS55_02_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS55_02_HC)

AlgorithmicCGFE_DDlPRCHS55_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS55_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS55_02_df_all,AlgorithmicCGFE_DDlPRCHS55_02_df_confint, AlgorithmicCGFE_DDlPRCHS55_02_HC_df_confint, AlgorithmicCGFE_DDlPRCHS55_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")


#56 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS56_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS56_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS56_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS56_02_df_all = etable(AlgorithmicCGFE_DDlPRCHS56_02, AlgorithmicCGFE_DDlPRCHS56_02_HC, AlgorithmicCGFE_DDlPRCHS56_02_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS56_02_df_confint = confint(AlgorithmicCGFE_DDlPRCHS56_02)

AlgorithmicCGFE_DDlPRCHS56_02_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS56_02_HC)

AlgorithmicCGFE_DDlPRCHS56_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS56_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS56_02_df_all,AlgorithmicCGFE_DDlPRCHS56_02_df_confint, AlgorithmicCGFE_DDlPRCHS56_02_HC_df_confint, AlgorithmicCGFE_DDlPRCHS56_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku.xlsx")




#45 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT45_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DDlOUT45_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT45_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT45_03_df_all = etable(AlgorithmicCGFE_DDlOUT45_03, AlgorithmicCGFE_DDlOUT45_03_HC, AlgorithmicCGFE_DDlOUT45_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT45_03_df_confint = confint(AlgorithmicCGFE_DDlOUT45_03)

AlgorithmicCGFE_DDlOUT45_03_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT45_03_HC)

AlgorithmicCGFE_DDlOUT45_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT45_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT45_03_df_all,AlgorithmicCGFE_DDlOUT45_03_df_confint, AlgorithmicCGFE_DDlOUT45_03_HC_df_confint, AlgorithmicCGFE_DDlOUT45_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#46 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT46_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DDlOUT46_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT46_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT46_03_df_all = etable(AlgorithmicCGFE_DDlOUT46_03, AlgorithmicCGFE_DDlOUT46_03_HC, AlgorithmicCGFE_DDlOUT46_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT46_03_df_confint = confint(AlgorithmicCGFE_DDlOUT46_03)

AlgorithmicCGFE_DDlOUT46_03_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT46_03_HC)

AlgorithmicCGFE_DDlOUT46_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT46_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT46_03_df_all,AlgorithmicCGFE_DDlOUT46_03_df_confint, AlgorithmicCGFE_DDlOUT46_03_HC_df_confint, AlgorithmicCGFE_DDlOUT46_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#47 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT47_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DDlOUT47_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT47_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT47_03_df_all = etable(AlgorithmicCGFE_DDlOUT47_03, AlgorithmicCGFE_DDlOUT47_03_HC, AlgorithmicCGFE_DDlOUT47_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT47_03_df_confint = confint(AlgorithmicCGFE_DDlOUT47_03)

AlgorithmicCGFE_DDlOUT47_03_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT47_03_HC)

AlgorithmicCGFE_DDlOUT47_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT47_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT47_03_df_all,AlgorithmicCGFE_DDlOUT47_03_df_confint, AlgorithmicCGFE_DDlOUT47_03_HC_df_confint, AlgorithmicCGFE_DDlOUT47_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#55 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT55_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DDlOUT55_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT55_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT55_03_df_all = etable(AlgorithmicCGFE_DDlOUT55_03, AlgorithmicCGFE_DDlOUT55_03_HC, AlgorithmicCGFE_DDlOUT55_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT55_03_df_confint = confint(AlgorithmicCGFE_DDlOUT55_03)

AlgorithmicCGFE_DDlOUT55_03_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT55_03_HC)

AlgorithmicCGFE_DDlOUT55_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT55_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT55_03_df_all,AlgorithmicCGFE_DDlOUT55_03_df_confint, AlgorithmicCGFE_DDlOUT55_03_HC_df_confint, AlgorithmicCGFE_DDlOUT55_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#56 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlOUT56_03 = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DDlOUT56_03_HC = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlOUT56_03_clusteredNACE = feols(lOUTdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlOUT56_03_df_all = etable(AlgorithmicCGFE_DDlOUT56_03, AlgorithmicCGFE_DDlOUT56_03_HC, AlgorithmicCGFE_DDlOUT56_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlOUT56_03_df_confint = confint(AlgorithmicCGFE_DDlOUT56_03)

AlgorithmicCGFE_DDlOUT56_03_HC_df_confint = confint(AlgorithmicCGFE_DDlOUT56_03_HC)

AlgorithmicCGFE_DDlOUT56_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlOUT56_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlOUT56_03_df_all,AlgorithmicCGFE_DDlOUT56_03_df_confint, AlgorithmicCGFE_DDlOUT56_03_HC_df_confint, AlgorithmicCGFE_DDlOUT56_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#45 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS45_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS45_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS45_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS45_03_df_all = etable(AlgorithmicCGFE_DDlPRCHS45_03, AlgorithmicCGFE_DDlPRCHS45_03_HC, AlgorithmicCGFE_DDlPRCHS45_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS45_03_df_confint = confint(AlgorithmicCGFE_DDlPRCHS45_03)

AlgorithmicCGFE_DDlPRCHS45_03_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS45_03_HC)

AlgorithmicCGFE_DDlPRCHS45_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS45_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS45_03_df_all,AlgorithmicCGFE_DDlPRCHS45_03_df_confint, AlgorithmicCGFE_DDlPRCHS45_03_HC_df_confint, AlgorithmicCGFE_DDlPRCHS45_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#46 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS46_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS46_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS46_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS46_03_df_all = etable(AlgorithmicCGFE_DDlPRCHS46_03, AlgorithmicCGFE_DDlPRCHS46_03_HC, AlgorithmicCGFE_DDlPRCHS46_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS46_03_df_confint = confint(AlgorithmicCGFE_DDlPRCHS46_03)

AlgorithmicCGFE_DDlPRCHS46_03_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS46_03_HC)

AlgorithmicCGFE_DDlPRCHS46_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS46_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS46_03_df_all,AlgorithmicCGFE_DDlPRCHS46_03_df_confint, AlgorithmicCGFE_DDlPRCHS46_03_HC_df_confint, AlgorithmicCGFE_DDlPRCHS46_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#47 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS47_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS47_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS47_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS47_03_df_all = etable(AlgorithmicCGFE_DDlPRCHS47_03, AlgorithmicCGFE_DDlPRCHS47_03_HC, AlgorithmicCGFE_DDlPRCHS47_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS47_03_df_confint = confint(AlgorithmicCGFE_DDlPRCHS47_03)

AlgorithmicCGFE_DDlPRCHS47_03_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS47_03_HC)

AlgorithmicCGFE_DDlPRCHS47_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS47_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS47_03_df_all,AlgorithmicCGFE_DDlPRCHS47_03_df_confint, AlgorithmicCGFE_DDlPRCHS47_03_HC_df_confint, AlgorithmicCGFE_DDlPRCHS47_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#55 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS55_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS55_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS55_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS55_03_df_all = etable(AlgorithmicCGFE_DDlPRCHS55_03, AlgorithmicCGFE_DDlPRCHS55_03_HC, AlgorithmicCGFE_DDlPRCHS55_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS55_03_df_confint = confint(AlgorithmicCGFE_DDlPRCHS55_03)

AlgorithmicCGFE_DDlPRCHS55_03_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS55_03_HC)

AlgorithmicCGFE_DDlPRCHS55_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS55_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS55_03_df_all,AlgorithmicCGFE_DDlPRCHS55_03_df_confint, AlgorithmicCGFE_DDlPRCHS55_03_HC_df_confint, AlgorithmicCGFE_DDlPRCHS55_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#56 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DDlPRCHS56_03 = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DDlPRCHS56_03_HC = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DDlPRCHS56_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DDlPRCHS56_03_df_all = etable(AlgorithmicCGFE_DDlPRCHS56_03, AlgorithmicCGFE_DDlPRCHS56_03_HC, AlgorithmicCGFE_DDlPRCHS56_03_clusteredNACE)

#export
AlgorithmicCGFE_DDlPRCHS56_03_df_confint = confint(AlgorithmicCGFE_DDlPRCHS56_03)

AlgorithmicCGFE_DDlPRCHS56_03_HC_df_confint = confint(AlgorithmicCGFE_DDlPRCHS56_03_HC)

AlgorithmicCGFE_DDlPRCHS56_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DDlPRCHS56_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DDlPRCHS56_03_df_all,AlgorithmicCGFE_DDlPRCHS56_03_df_confint, AlgorithmicCGFE_DDlPRCHS56_03_HC_df_confint, AlgorithmicCGFE_DDlPRCHS56_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")






#ENTRY A EXIT
#ALGORITHMIC
#45 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry45_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry45_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry45_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_entry45_01_df_all = etable(AlgorithmicCGFE_DD_entry45_01, AlgorithmicCGFE_DD_entry45_01_HC, AlgorithmicCGFE_DD_entry45_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry45_01_df_confint = confint(AlgorithmicCGFE_DD_entry45_01)

AlgorithmicCGFE_DD_entry45_01_HC_df_confint = confint(AlgorithmicCGFE_DD_entry45_01_HC)

AlgorithmicCGFE_DD_entry45_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry45_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry45_01_df_all,AlgorithmicCGFE_DD_entry45_01_df_confint, AlgorithmicCGFE_DD_entry45_01_HC_df_confint, AlgorithmicCGFE_DD_entry45_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")


#46 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry46_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry46_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry46_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_entry46_01_df_all = etable(AlgorithmicCGFE_DD_entry46_01, AlgorithmicCGFE_DD_entry46_01_HC, AlgorithmicCGFE_DD_entry46_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry46_01_df_confint = confint(AlgorithmicCGFE_DD_entry46_01)

AlgorithmicCGFE_DD_entry46_01_HC_df_confint = confint(AlgorithmicCGFE_DD_entry46_01_HC)

AlgorithmicCGFE_DD_entry46_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry46_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry46_01_df_all,AlgorithmicCGFE_DD_entry46_01_df_confint, AlgorithmicCGFE_DD_entry46_01_HC_df_confint, AlgorithmicCGFE_DD_entry46_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")

#47 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry47_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry47_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry47_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_entry47_01_df_all = etable(AlgorithmicCGFE_DD_entry47_01, AlgorithmicCGFE_DD_entry47_01_HC, AlgorithmicCGFE_DD_entry47_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry47_01_df_confint = confint(AlgorithmicCGFE_DD_entry47_01)

AlgorithmicCGFE_DD_entry47_01_HC_df_confint = confint(AlgorithmicCGFE_DD_entry47_01_HC)

AlgorithmicCGFE_DD_entry47_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry47_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry47_01_df_all,AlgorithmicCGFE_DD_entry47_01_df_confint, AlgorithmicCGFE_DD_entry47_01_HC_df_confint, AlgorithmicCGFE_DD_entry47_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")


#55 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry55_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry55_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry55_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_entry55_01_df_all = etable(AlgorithmicCGFE_DD_entry55_01, AlgorithmicCGFE_DD_entry55_01_HC, AlgorithmicCGFE_DD_entry55_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry55_01_df_confint = confint(AlgorithmicCGFE_DD_entry55_01)

AlgorithmicCGFE_DD_entry55_01_HC_df_confint = confint(AlgorithmicCGFE_DD_entry55_01_HC)

AlgorithmicCGFE_DD_entry55_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry55_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry55_01_df_all,AlgorithmicCGFE_DD_entry55_01_df_confint, AlgorithmicCGFE_DD_entry55_01_HC_df_confint, AlgorithmicCGFE_DD_entry55_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")

#56 Entry
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry56_01 = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry56_01_HC = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry56_01_clusteredNACE = feols(entry ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_entry56_01_df_all = etable(AlgorithmicCGFE_DD_entry56_01, AlgorithmicCGFE_DD_entry56_01_HC, AlgorithmicCGFE_DD_entry56_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry56_01_df_confint = confint(AlgorithmicCGFE_DD_entry56_01)

AlgorithmicCGFE_DD_entry56_01_HC_df_confint = confint(AlgorithmicCGFE_DD_entry56_01_HC)

AlgorithmicCGFE_DD_entry56_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry56_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry56_01_df_all,AlgorithmicCGFE_DD_entry56_01_df_confint, AlgorithmicCGFE_DD_entry56_01_HC_df_confint, AlgorithmicCGFE_DD_entry56_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")






#45 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit45_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit45_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit45_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_exit45_01_df_all = etable(AlgorithmicCGFE_DD_exit45_01, AlgorithmicCGFE_DD_exit45_01_HC, AlgorithmicCGFE_DD_exit45_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit45_01_df_confint = confint(AlgorithmicCGFE_DD_exit45_01)

AlgorithmicCGFE_DD_exit45_01_HC_df_confint = confint(AlgorithmicCGFE_DD_exit45_01_HC)

AlgorithmicCGFE_DD_exit45_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit45_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit45_01_df_all,AlgorithmicCGFE_DD_exit45_01_df_confint, AlgorithmicCGFE_DD_exit45_01_HC_df_confint, AlgorithmicCGFE_DD_exit45_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")


#46 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit46_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit46_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit46_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_exit46_01_df_all = etable(AlgorithmicCGFE_DD_exit46_01, AlgorithmicCGFE_DD_exit46_01_HC, AlgorithmicCGFE_DD_exit46_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit46_01_df_confint = confint(AlgorithmicCGFE_DD_exit46_01)

AlgorithmicCGFE_DD_exit46_01_HC_df_confint = confint(AlgorithmicCGFE_DD_exit46_01_HC)

AlgorithmicCGFE_DD_exit46_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit46_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit46_01_df_all,AlgorithmicCGFE_DD_exit46_01_df_confint, AlgorithmicCGFE_DD_exit46_01_HC_df_confint, AlgorithmicCGFE_DD_exit46_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")

#47 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit47_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit47_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit47_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_exit47_01_df_all = etable(AlgorithmicCGFE_DD_exit47_01, AlgorithmicCGFE_DD_exit47_01_HC, AlgorithmicCGFE_DD_exit47_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit47_01_df_confint = confint(AlgorithmicCGFE_DD_exit47_01)

AlgorithmicCGFE_DD_exit47_01_HC_df_confint = confint(AlgorithmicCGFE_DD_exit47_01_HC)

AlgorithmicCGFE_DD_exit47_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit47_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit47_01_df_all,AlgorithmicCGFE_DD_exit47_01_df_confint, AlgorithmicCGFE_DD_exit47_01_HC_df_confint, AlgorithmicCGFE_DD_exit47_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")


#55 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit55_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit55_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit55_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_exit55_01_df_all = etable(AlgorithmicCGFE_DD_exit55_01, AlgorithmicCGFE_DD_exit55_01_HC, AlgorithmicCGFE_DD_exit55_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit55_01_df_confint = confint(AlgorithmicCGFE_DD_exit55_01)

AlgorithmicCGFE_DD_exit55_01_HC_df_confint = confint(AlgorithmicCGFE_DD_exit55_01_HC)

AlgorithmicCGFE_DD_exit55_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit55_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit55_01_df_all,AlgorithmicCGFE_DD_exit55_01_df_confint, AlgorithmicCGFE_DD_exit55_01_HC_df_confint, AlgorithmicCGFE_DD_exit55_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")

#56 Exit
#Interakce treatment a EET
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit56_01 = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit56_01_HC = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit56_01_clusteredNACE = feols(exit ~ treated:EET + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_exit56_01_df_all = etable(AlgorithmicCGFE_DD_exit56_01, AlgorithmicCGFE_DD_exit56_01_HC, AlgorithmicCGFE_DD_exit56_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit56_01_df_confint = confint(AlgorithmicCGFE_DD_exit56_01)

AlgorithmicCGFE_DD_exit56_01_HC_df_confint = confint(AlgorithmicCGFE_DD_exit56_01_HC)

AlgorithmicCGFE_DD_exit56_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit56_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit56_01_df_all,AlgorithmicCGFE_DD_exit56_01_df_confint, AlgorithmicCGFE_DD_exit56_01_HC_df_confint, AlgorithmicCGFE_DD_exit56_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT.xlsx")











#45 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry45_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry45_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry45_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_entry45_02_df_all = etable(AlgorithmicCGFE_DD_entry45_02, AlgorithmicCGFE_DD_entry45_02_HC, AlgorithmicCGFE_DD_entry45_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry45_02_df_confint = confint(AlgorithmicCGFE_DD_entry45_02)

AlgorithmicCGFE_DD_entry45_02_HC_df_confint = confint(AlgorithmicCGFE_DD_entry45_02_HC)

AlgorithmicCGFE_DD_entry45_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry45_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry45_02_df_all,AlgorithmicCGFE_DD_entry45_02_df_confint, AlgorithmicCGFE_DD_entry45_02_HC_df_confint, AlgorithmicCGFE_DD_entry45_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")



#46 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry46_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry46_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry46_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_entry46_02_df_all = etable(AlgorithmicCGFE_DD_entry46_02, AlgorithmicCGFE_DD_entry46_02_HC, AlgorithmicCGFE_DD_entry46_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry46_02_df_confint = confint(AlgorithmicCGFE_DD_entry46_02)

AlgorithmicCGFE_DD_entry46_02_HC_df_confint = confint(AlgorithmicCGFE_DD_entry46_02_HC)

AlgorithmicCGFE_DD_entry46_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry46_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry46_02_df_all,AlgorithmicCGFE_DD_entry46_02_df_confint, AlgorithmicCGFE_DD_entry46_02_HC_df_confint, AlgorithmicCGFE_DD_entry46_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")


#47 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry47_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry47_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry47_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_entry47_02_df_all = etable(AlgorithmicCGFE_DD_entry47_02, AlgorithmicCGFE_DD_entry47_02_HC, AlgorithmicCGFE_DD_entry47_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry47_02_df_confint = confint(AlgorithmicCGFE_DD_entry47_02)

AlgorithmicCGFE_DD_entry47_02_HC_df_confint = confint(AlgorithmicCGFE_DD_entry47_02_HC)

AlgorithmicCGFE_DD_entry47_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry47_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry47_02_df_all,AlgorithmicCGFE_DD_entry47_02_df_confint, AlgorithmicCGFE_DD_entry47_02_HC_df_confint, AlgorithmicCGFE_DD_entry47_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")


#55 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry55_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry55_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry55_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_entry55_02_df_all = etable(AlgorithmicCGFE_DD_entry55_02, AlgorithmicCGFE_DD_entry55_02_HC, AlgorithmicCGFE_DD_entry55_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry55_02_df_confint = confint(AlgorithmicCGFE_DD_entry55_02)

AlgorithmicCGFE_DD_entry55_02_HC_df_confint = confint(AlgorithmicCGFE_DD_entry55_02_HC)

AlgorithmicCGFE_DD_entry55_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry55_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry55_02_df_all,AlgorithmicCGFE_DD_entry55_02_df_confint, AlgorithmicCGFE_DD_entry55_02_HC_df_confint, AlgorithmicCGFE_DD_entry55_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")



#56 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry56_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry56_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry56_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_entry56_02_df_all = etable(AlgorithmicCGFE_DD_entry56_02, AlgorithmicCGFE_DD_entry56_02_HC, AlgorithmicCGFE_DD_entry56_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry56_02_df_confint = confint(AlgorithmicCGFE_DD_entry56_02)

AlgorithmicCGFE_DD_entry56_02_HC_df_confint = confint(AlgorithmicCGFE_DD_entry56_02_HC)

AlgorithmicCGFE_DD_entry56_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry56_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry56_02_df_all,AlgorithmicCGFE_DD_entry56_02_df_confint, AlgorithmicCGFE_DD_entry56_02_HC_df_confint, AlgorithmicCGFE_DD_entry56_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")

#45 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit45_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit45_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit45_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_exit45_02_df_all = etable(AlgorithmicCGFE_DD_exit45_02, AlgorithmicCGFE_DD_exit45_02_HC, AlgorithmicCGFE_DD_exit45_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit45_02_df_confint = confint(AlgorithmicCGFE_DD_exit45_02)

AlgorithmicCGFE_DD_exit45_02_HC_df_confint = confint(AlgorithmicCGFE_DD_exit45_02_HC)

AlgorithmicCGFE_DD_exit45_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit45_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit45_02_df_all,AlgorithmicCGFE_DD_exit45_02_df_confint, AlgorithmicCGFE_DD_exit45_02_HC_df_confint, AlgorithmicCGFE_DD_exit45_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")



#46 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit46_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit46_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit46_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_exit46_02_df_all = etable(AlgorithmicCGFE_DD_exit46_02, AlgorithmicCGFE_DD_exit46_02_HC, AlgorithmicCGFE_DD_exit46_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit46_02_df_confint = confint(AlgorithmicCGFE_DD_exit46_02)

AlgorithmicCGFE_DD_exit46_02_HC_df_confint = confint(AlgorithmicCGFE_DD_exit46_02_HC)

AlgorithmicCGFE_DD_exit46_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit46_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit46_02_df_all,AlgorithmicCGFE_DD_exit46_02_df_confint, AlgorithmicCGFE_DD_exit46_02_HC_df_confint, AlgorithmicCGFE_DD_exit46_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")


#47 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit47_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit47_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit47_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_exit47_02_df_all = etable(AlgorithmicCGFE_DD_exit47_02, AlgorithmicCGFE_DD_exit47_02_HC, AlgorithmicCGFE_DD_exit47_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit47_02_df_confint = confint(AlgorithmicCGFE_DD_exit47_02)

AlgorithmicCGFE_DD_exit47_02_HC_df_confint = confint(AlgorithmicCGFE_DD_exit47_02_HC)

AlgorithmicCGFE_DD_exit47_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit47_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit47_02_df_all,AlgorithmicCGFE_DD_exit47_02_df_confint, AlgorithmicCGFE_DD_exit47_02_HC_df_confint, AlgorithmicCGFE_DD_exit47_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")


#55 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit55_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit55_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit55_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_exit55_02_df_all = etable(AlgorithmicCGFE_DD_exit55_02, AlgorithmicCGFE_DD_exit55_02_HC, AlgorithmicCGFE_DD_exit55_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit55_02_df_confint = confint(AlgorithmicCGFE_DD_exit55_02)

AlgorithmicCGFE_DD_exit55_02_HC_df_confint = confint(AlgorithmicCGFE_DD_exit55_02_HC)

AlgorithmicCGFE_DD_exit55_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit55_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit55_02_df_all,AlgorithmicCGFE_DD_exit55_02_df_confint, AlgorithmicCGFE_DD_exit55_02_HC_df_confint, AlgorithmicCGFE_DD_exit55_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")



#56 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit56_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit56_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit56_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_exit56_02_df_all = etable(AlgorithmicCGFE_DD_exit56_02, AlgorithmicCGFE_DD_exit56_02_HC, AlgorithmicCGFE_DD_exit56_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit56_02_df_confint = confint(AlgorithmicCGFE_DD_exit56_02)

AlgorithmicCGFE_DD_exit56_02_HC_df_confint = confint(AlgorithmicCGFE_DD_exit56_02_HC)

AlgorithmicCGFE_DD_exit56_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit56_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit56_02_df_all,AlgorithmicCGFE_DD_exit56_02_df_confint, AlgorithmicCGFE_DD_exit56_02_HC_df_confint, AlgorithmicCGFE_DD_exit56_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku.xlsx")








#45 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry45_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry45_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry45_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_entry45_03_df_all = etable(AlgorithmicCGFE_DD_entry45_03, AlgorithmicCGFE_DD_entry45_03_HC, AlgorithmicCGFE_DD_entry45_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry45_03_df_confint = confint(AlgorithmicCGFE_DD_entry45_03)

AlgorithmicCGFE_DD_entry45_03_HC_df_confint = confint(AlgorithmicCGFE_DD_entry45_03_HC)

AlgorithmicCGFE_DD_entry45_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry45_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry45_03_df_all,AlgorithmicCGFE_DD_entry45_03_df_confint, AlgorithmicCGFE_DD_entry45_03_HC_df_confint, AlgorithmicCGFE_DD_entry45_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#46 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry46_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry46_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry46_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_entry46_03_df_all = etable(AlgorithmicCGFE_DD_entry46_03, AlgorithmicCGFE_DD_entry46_03_HC, AlgorithmicCGFE_DD_entry46_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry46_03_df_confint = confint(AlgorithmicCGFE_DD_entry46_03)

AlgorithmicCGFE_DD_entry46_03_HC_df_confint = confint(AlgorithmicCGFE_DD_entry46_03_HC)

AlgorithmicCGFE_DD_entry46_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry46_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry46_03_df_all,AlgorithmicCGFE_DD_entry46_03_df_confint, AlgorithmicCGFE_DD_entry46_03_HC_df_confint, AlgorithmicCGFE_DD_entry46_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#47 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry47_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry47_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry47_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_entry47_03_df_all = etable(AlgorithmicCGFE_DD_entry47_03, AlgorithmicCGFE_DD_entry47_03_HC, AlgorithmicCGFE_DD_entry47_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry47_03_df_confint = confint(AlgorithmicCGFE_DD_entry47_03)

AlgorithmicCGFE_DD_entry47_03_HC_df_confint = confint(AlgorithmicCGFE_DD_entry47_03_HC)

AlgorithmicCGFE_DD_entry47_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry47_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry47_03_df_all,AlgorithmicCGFE_DD_entry47_03_df_confint, AlgorithmicCGFE_DD_entry47_03_HC_df_confint, AlgorithmicCGFE_DD_entry47_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#55 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry55_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry55_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry55_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_entry55_03_df_all = etable(AlgorithmicCGFE_DD_entry55_03, AlgorithmicCGFE_DD_entry55_03_HC, AlgorithmicCGFE_DD_entry55_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry55_03_df_confint = confint(AlgorithmicCGFE_DD_entry55_03)

AlgorithmicCGFE_DD_entry55_03_HC_df_confint = confint(AlgorithmicCGFE_DD_entry55_03_HC)

AlgorithmicCGFE_DD_entry55_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry55_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry55_03_df_all,AlgorithmicCGFE_DD_entry55_03_df_confint, AlgorithmicCGFE_DD_entry55_03_HC_df_confint, AlgorithmicCGFE_DD_entry55_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#56 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_entry56_03 = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_entry56_03_HC = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_entry56_03_clusteredNACE = feols(entry ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_entry56_03_df_all = etable(AlgorithmicCGFE_DD_entry56_03, AlgorithmicCGFE_DD_entry56_03_HC, AlgorithmicCGFE_DD_entry56_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_entry56_03_df_confint = confint(AlgorithmicCGFE_DD_entry56_03)

AlgorithmicCGFE_DD_entry56_03_HC_df_confint = confint(AlgorithmicCGFE_DD_entry56_03_HC)

AlgorithmicCGFE_DD_entry56_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_entry56_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_entry56_03_df_all,AlgorithmicCGFE_DD_entry56_03_df_confint, AlgorithmicCGFE_DD_entry56_03_HC_df_confint, AlgorithmicCGFE_DD_entry56_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")

#45 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit45_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit45_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit45_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_exit45_03_df_all = etable(AlgorithmicCGFE_DD_exit45_03, AlgorithmicCGFE_DD_exit45_03_HC, AlgorithmicCGFE_DD_exit45_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit45_03_df_confint = confint(AlgorithmicCGFE_DD_exit45_03)

AlgorithmicCGFE_DD_exit45_03_HC_df_confint = confint(AlgorithmicCGFE_DD_exit45_03_HC)

AlgorithmicCGFE_DD_exit45_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit45_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit45_03_df_all,AlgorithmicCGFE_DD_exit45_03_df_confint, AlgorithmicCGFE_DD_exit45_03_HC_df_confint, AlgorithmicCGFE_DD_exit45_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#46 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit46_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit46_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit46_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_exit46_03_df_all = etable(AlgorithmicCGFE_DD_exit46_03, AlgorithmicCGFE_DD_exit46_03_HC, AlgorithmicCGFE_DD_exit46_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit46_03_df_confint = confint(AlgorithmicCGFE_DD_exit46_03)

AlgorithmicCGFE_DD_exit46_03_HC_df_confint = confint(AlgorithmicCGFE_DD_exit46_03_HC)

AlgorithmicCGFE_DD_exit46_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit46_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit46_03_df_all,AlgorithmicCGFE_DD_exit46_03_df_confint, AlgorithmicCGFE_DD_exit46_03_HC_df_confint, AlgorithmicCGFE_DD_exit46_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#47 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit47_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit47_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit47_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_exit47_03_df_all = etable(AlgorithmicCGFE_DD_exit47_03, AlgorithmicCGFE_DD_exit47_03_HC, AlgorithmicCGFE_DD_exit47_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit47_03_df_confint = confint(AlgorithmicCGFE_DD_exit47_03)

AlgorithmicCGFE_DD_exit47_03_HC_df_confint = confint(AlgorithmicCGFE_DD_exit47_03_HC)

AlgorithmicCGFE_DD_exit47_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit47_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit47_03_df_all,AlgorithmicCGFE_DD_exit47_03_df_confint, AlgorithmicCGFE_DD_exit47_03_HC_df_confint, AlgorithmicCGFE_DD_exit47_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#55 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit55_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit55_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit55_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_exit55_03_df_all = etable(AlgorithmicCGFE_DD_exit55_03, AlgorithmicCGFE_DD_exit55_03_HC, AlgorithmicCGFE_DD_exit55_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit55_03_df_confint = confint(AlgorithmicCGFE_DD_exit55_03)

AlgorithmicCGFE_DD_exit55_03_HC_df_confint = confint(AlgorithmicCGFE_DD_exit55_03_HC)

AlgorithmicCGFE_DD_exit55_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit55_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit55_03_df_all,AlgorithmicCGFE_DD_exit55_03_df_confint, AlgorithmicCGFE_DD_exit55_03_HC_df_confint, AlgorithmicCGFE_DD_exit55_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#56 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_exit56_03 = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_exit56_03_HC = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_exit56_03_clusteredNACE = feols(exit ~ treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_exit56_03_df_all = etable(AlgorithmicCGFE_DD_exit56_03, AlgorithmicCGFE_DD_exit56_03_HC, AlgorithmicCGFE_DD_exit56_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_exit56_03_df_confint = confint(AlgorithmicCGFE_DD_exit56_03)

AlgorithmicCGFE_DD_exit56_03_HC_df_confint = confint(AlgorithmicCGFE_DD_exit56_03_HC)

AlgorithmicCGFE_DD_exit56_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_exit56_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_exit56_03_df_all,AlgorithmicCGFE_DD_exit56_03_df_confint, AlgorithmicCGFE_DD_exit56_03_HC_df_confint, AlgorithmicCGFE_DD_exit56_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#ENTRY A EXIT
#ALGORITHMIC
#45 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry45_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry45_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry45_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry45_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry45_01, AlgorithmicCGFE_DD_EET2016_entry45_01_HC, AlgorithmicCGFE_DD_EET2016_entry45_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry45_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry45_01)

AlgorithmicCGFE_DD_EET2016_entry45_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry45_01_HC)

AlgorithmicCGFE_DD_EET2016_entry45_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry45_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry45_01_df_all,AlgorithmicCGFE_DD_EET2016_entry45_01_df_confint, AlgorithmicCGFE_DD_EET2016_entry45_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry45_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")


#46 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry46_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry46_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry46_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry46_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry46_01, AlgorithmicCGFE_DD_EET2016_entry46_01_HC, AlgorithmicCGFE_DD_EET2016_entry46_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry46_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry46_01)

AlgorithmicCGFE_DD_EET2016_entry46_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry46_01_HC)

AlgorithmicCGFE_DD_EET2016_entry46_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry46_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry46_01_df_all,AlgorithmicCGFE_DD_EET2016_entry46_01_df_confint, AlgorithmicCGFE_DD_EET2016_entry46_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry46_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")

#47 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry47_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry47_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry47_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry47_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry47_01, AlgorithmicCGFE_DD_EET2016_entry47_01_HC, AlgorithmicCGFE_DD_EET2016_entry47_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry47_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry47_01)

AlgorithmicCGFE_DD_EET2016_entry47_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry47_01_HC)

AlgorithmicCGFE_DD_EET2016_entry47_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry47_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry47_01_df_all,AlgorithmicCGFE_DD_EET2016_entry47_01_df_confint, AlgorithmicCGFE_DD_EET2016_entry47_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry47_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")


#55 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry55_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry55_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry55_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry55_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry55_01, AlgorithmicCGFE_DD_EET2016_entry55_01_HC, AlgorithmicCGFE_DD_EET2016_entry55_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry55_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry55_01)

AlgorithmicCGFE_DD_EET2016_entry55_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry55_01_HC)

AlgorithmicCGFE_DD_EET2016_entry55_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry55_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry55_01_df_all,AlgorithmicCGFE_DD_EET2016_entry55_01_df_confint, AlgorithmicCGFE_DD_EET2016_entry55_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry55_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")

#56 Entry
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry56_01 = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry56_01_HC = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry56_01_clusteredNACE = feols(entry ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry56_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry56_01, AlgorithmicCGFE_DD_EET2016_entry56_01_HC, AlgorithmicCGFE_DD_EET2016_entry56_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry56_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry56_01)

AlgorithmicCGFE_DD_EET2016_entry56_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry56_01_HC)

AlgorithmicCGFE_DD_EET2016_entry56_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry56_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry56_01_df_all,AlgorithmicCGFE_DD_EET2016_entry56_01_df_confint, AlgorithmicCGFE_DD_EET2016_entry56_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry56_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")






#45 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit45_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit45_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit45_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit45_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit45_01, AlgorithmicCGFE_DD_EET2016_exit45_01_HC, AlgorithmicCGFE_DD_EET2016_exit45_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit45_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit45_01)

AlgorithmicCGFE_DD_EET2016_exit45_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit45_01_HC)

AlgorithmicCGFE_DD_EET2016_exit45_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit45_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit45_01_df_all,AlgorithmicCGFE_DD_EET2016_exit45_01_df_confint, AlgorithmicCGFE_DD_EET2016_exit45_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit45_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")


#46 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit46_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit46_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit46_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit46_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit46_01, AlgorithmicCGFE_DD_EET2016_exit46_01_HC, AlgorithmicCGFE_DD_EET2016_exit46_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit46_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit46_01)

AlgorithmicCGFE_DD_EET2016_exit46_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit46_01_HC)

AlgorithmicCGFE_DD_EET2016_exit46_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit46_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit46_01_df_all,AlgorithmicCGFE_DD_EET2016_exit46_01_df_confint, AlgorithmicCGFE_DD_EET2016_exit46_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit46_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")

#47 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit47_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit47_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit47_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit47_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit47_01, AlgorithmicCGFE_DD_EET2016_exit47_01_HC, AlgorithmicCGFE_DD_EET2016_exit47_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit47_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit47_01)

AlgorithmicCGFE_DD_EET2016_exit47_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit47_01_HC)

AlgorithmicCGFE_DD_EET2016_exit47_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit47_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit47_01_df_all,AlgorithmicCGFE_DD_EET2016_exit47_01_df_confint, AlgorithmicCGFE_DD_EET2016_exit47_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit47_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")


#55 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit55_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit55_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit55_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit55_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit55_01, AlgorithmicCGFE_DD_EET2016_exit55_01_HC, AlgorithmicCGFE_DD_EET2016_exit55_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit55_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit55_01)

AlgorithmicCGFE_DD_EET2016_exit55_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit55_01_HC)

AlgorithmicCGFE_DD_EET2016_exit55_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit55_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit55_01_df_all,AlgorithmicCGFE_DD_EET2016_exit55_01_df_confint, AlgorithmicCGFE_DD_EET2016_exit55_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit55_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")

#56 Exit
#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit56_01 = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit56_01_HC = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit56_01_clusteredNACE = feols(exit ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit56_01_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit56_01, AlgorithmicCGFE_DD_EET2016_exit56_01_HC, AlgorithmicCGFE_DD_EET2016_exit56_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit56_01_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit56_01)

AlgorithmicCGFE_DD_EET2016_exit56_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit56_01_HC)

AlgorithmicCGFE_DD_EET2016_exit56_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit56_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit56_01_df_all,AlgorithmicCGFE_DD_EET2016_exit56_01_df_confint, AlgorithmicCGFE_DD_EET2016_exit56_01_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit56_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT.xlsx")











#45 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry45_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry45_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry45_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry45_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry45_02, AlgorithmicCGFE_DD_EET2016_entry45_02_HC, AlgorithmicCGFE_DD_EET2016_entry45_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry45_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry45_02)

AlgorithmicCGFE_DD_EET2016_entry45_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry45_02_HC)

AlgorithmicCGFE_DD_EET2016_entry45_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry45_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry45_02_df_all,AlgorithmicCGFE_DD_EET2016_entry45_02_df_confint, AlgorithmicCGFE_DD_EET2016_entry45_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry45_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")



#46 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry46_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry46_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry46_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry46_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry46_02, AlgorithmicCGFE_DD_EET2016_entry46_02_HC, AlgorithmicCGFE_DD_EET2016_entry46_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry46_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry46_02)

AlgorithmicCGFE_DD_EET2016_entry46_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry46_02_HC)

AlgorithmicCGFE_DD_EET2016_entry46_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry46_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry46_02_df_all,AlgorithmicCGFE_DD_EET2016_entry46_02_df_confint, AlgorithmicCGFE_DD_EET2016_entry46_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry46_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")


#47 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry47_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry47_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry47_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry47_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry47_02, AlgorithmicCGFE_DD_EET2016_entry47_02_HC, AlgorithmicCGFE_DD_EET2016_entry47_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry47_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry47_02)

AlgorithmicCGFE_DD_EET2016_entry47_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry47_02_HC)

AlgorithmicCGFE_DD_EET2016_entry47_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry47_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry47_02_df_all,AlgorithmicCGFE_DD_EET2016_entry47_02_df_confint, AlgorithmicCGFE_DD_EET2016_entry47_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry47_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")


#55 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry55_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry55_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry55_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry55_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry55_02, AlgorithmicCGFE_DD_EET2016_entry55_02_HC, AlgorithmicCGFE_DD_EET2016_entry55_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry55_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry55_02)

AlgorithmicCGFE_DD_EET2016_entry55_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry55_02_HC)

AlgorithmicCGFE_DD_EET2016_entry55_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry55_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry55_02_df_all,AlgorithmicCGFE_DD_EET2016_entry55_02_df_confint, AlgorithmicCGFE_DD_EET2016_entry55_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry55_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")



#56 Entry
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry56_02 = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry56_02_HC = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry56_02_clusteredNACE = feols(entry ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry56_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry56_02, AlgorithmicCGFE_DD_EET2016_entry56_02_HC, AlgorithmicCGFE_DD_EET2016_entry56_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry56_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry56_02)

AlgorithmicCGFE_DD_EET2016_entry56_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry56_02_HC)

AlgorithmicCGFE_DD_EET2016_entry56_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry56_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry56_02_df_all,AlgorithmicCGFE_DD_EET2016_entry56_02_df_confint, AlgorithmicCGFE_DD_EET2016_entry56_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry56_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")

#45 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit45_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit45_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit45_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit45_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit45_02, AlgorithmicCGFE_DD_EET2016_exit45_02_HC, AlgorithmicCGFE_DD_EET2016_exit45_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit45_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit45_02)

AlgorithmicCGFE_DD_EET2016_exit45_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit45_02_HC)

AlgorithmicCGFE_DD_EET2016_exit45_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit45_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit45_02_df_all,AlgorithmicCGFE_DD_EET2016_exit45_02_df_confint, AlgorithmicCGFE_DD_EET2016_exit45_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit45_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")



#46 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit46_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit46_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit46_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit46_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit46_02, AlgorithmicCGFE_DD_EET2016_exit46_02_HC, AlgorithmicCGFE_DD_EET2016_exit46_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit46_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit46_02)

AlgorithmicCGFE_DD_EET2016_exit46_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit46_02_HC)

AlgorithmicCGFE_DD_EET2016_exit46_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit46_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit46_02_df_all,AlgorithmicCGFE_DD_EET2016_exit46_02_df_confint, AlgorithmicCGFE_DD_EET2016_exit46_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit46_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")


#47 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit47_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit47_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit47_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit47_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit47_02, AlgorithmicCGFE_DD_EET2016_exit47_02_HC, AlgorithmicCGFE_DD_EET2016_exit47_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit47_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit47_02)

AlgorithmicCGFE_DD_EET2016_exit47_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit47_02_HC)

AlgorithmicCGFE_DD_EET2016_exit47_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit47_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit47_02_df_all,AlgorithmicCGFE_DD_EET2016_exit47_02_df_confint, AlgorithmicCGFE_DD_EET2016_exit47_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit47_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")


#55 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit55_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit55_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit55_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit55_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit55_02, AlgorithmicCGFE_DD_EET2016_exit55_02_HC, AlgorithmicCGFE_DD_EET2016_exit55_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit55_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit55_02)

AlgorithmicCGFE_DD_EET2016_exit55_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit55_02_HC)

AlgorithmicCGFE_DD_EET2016_exit55_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit55_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit55_02_df_all,AlgorithmicCGFE_DD_EET2016_exit55_02_df_confint, AlgorithmicCGFE_DD_EET2016_exit55_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit55_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")



#56 Exit
#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit56_02 = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit56_02_HC = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit56_02_clusteredNACE = feols(exit ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit56_02_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit56_02, AlgorithmicCGFE_DD_EET2016_exit56_02_HC, AlgorithmicCGFE_DD_EET2016_exit56_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit56_02_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit56_02)

AlgorithmicCGFE_DD_EET2016_exit56_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit56_02_HC)

AlgorithmicCGFE_DD_EET2016_exit56_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit56_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit56_02_df_all,AlgorithmicCGFE_DD_EET2016_exit56_02_df_confint, AlgorithmicCGFE_DD_EET2016_exit56_02_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit56_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku.xlsx")








#45 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry45_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry45_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry45_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry45_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry45_03, AlgorithmicCGFE_DD_EET2016_entry45_03_HC, AlgorithmicCGFE_DD_EET2016_entry45_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry45_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry45_03)

AlgorithmicCGFE_DD_EET2016_entry45_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry45_03_HC)

AlgorithmicCGFE_DD_EET2016_entry45_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry45_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry45_03_df_all,AlgorithmicCGFE_DD_EET2016_entry45_03_df_confint, AlgorithmicCGFE_DD_EET2016_entry45_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry45_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#46 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry46_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry46_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry46_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry46_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry46_03, AlgorithmicCGFE_DD_EET2016_entry46_03_HC, AlgorithmicCGFE_DD_EET2016_entry46_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry46_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry46_03)

AlgorithmicCGFE_DD_EET2016_entry46_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry46_03_HC)

AlgorithmicCGFE_DD_EET2016_entry46_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry46_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry46_03_df_all,AlgorithmicCGFE_DD_EET2016_entry46_03_df_confint, AlgorithmicCGFE_DD_EET2016_entry46_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry46_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#47 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry47_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry47_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry47_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry47_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry47_03, AlgorithmicCGFE_DD_EET2016_entry47_03_HC, AlgorithmicCGFE_DD_EET2016_entry47_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry47_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry47_03)

AlgorithmicCGFE_DD_EET2016_entry47_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry47_03_HC)

AlgorithmicCGFE_DD_EET2016_entry47_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry47_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry47_03_df_all,AlgorithmicCGFE_DD_EET2016_entry47_03_df_confint, AlgorithmicCGFE_DD_EET2016_entry47_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry47_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#55 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry55_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry55_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry55_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry55_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry55_03, AlgorithmicCGFE_DD_EET2016_entry55_03_HC, AlgorithmicCGFE_DD_EET2016_entry55_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry55_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry55_03)

AlgorithmicCGFE_DD_EET2016_entry55_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry55_03_HC)

AlgorithmicCGFE_DD_EET2016_entry55_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry55_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry55_03_df_all,AlgorithmicCGFE_DD_EET2016_entry55_03_df_confint, AlgorithmicCGFE_DD_EET2016_entry55_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry55_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#56 Entry
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_entry56_03 = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_entry56_03_HC = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_entry56_03_clusteredNACE = feols(entry ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_EET2016_entry56_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_entry56_03, AlgorithmicCGFE_DD_EET2016_entry56_03_HC, AlgorithmicCGFE_DD_EET2016_entry56_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_entry56_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry56_03)

AlgorithmicCGFE_DD_EET2016_entry56_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry56_03_HC)

AlgorithmicCGFE_DD_EET2016_entry56_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_entry56_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_entry56_03_df_all,AlgorithmicCGFE_DD_EET2016_entry56_03_df_confint, AlgorithmicCGFE_DD_EET2016_entry56_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_entry56_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 ENTRY Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")

#45 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit45_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit45_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit45_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG45)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit45_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit45_03, AlgorithmicCGFE_DD_EET2016_exit45_03_HC, AlgorithmicCGFE_DD_EET2016_exit45_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit45_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit45_03)

AlgorithmicCGFE_DD_EET2016_exit45_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit45_03_HC)

AlgorithmicCGFE_DD_EET2016_exit45_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit45_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit45_03_df_all,AlgorithmicCGFE_DD_EET2016_exit45_03_df_confint, AlgorithmicCGFE_DD_EET2016_exit45_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit45_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#46 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit46_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit46_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit46_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG46)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit46_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit46_03, AlgorithmicCGFE_DD_EET2016_exit46_03_HC, AlgorithmicCGFE_DD_EET2016_exit46_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit46_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit46_03)

AlgorithmicCGFE_DD_EET2016_exit46_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit46_03_HC)

AlgorithmicCGFE_DD_EET2016_exit46_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit46_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit46_03_df_all,AlgorithmicCGFE_DD_EET2016_exit46_03_df_confint, AlgorithmicCGFE_DD_EET2016_exit46_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit46_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")


#47 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit47_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit47_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit47_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG47)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit47_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit47_03, AlgorithmicCGFE_DD_EET2016_exit47_03_HC, AlgorithmicCGFE_DD_EET2016_exit47_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit47_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit47_03)

AlgorithmicCGFE_DD_EET2016_exit47_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit47_03_HC)

AlgorithmicCGFE_DD_EET2016_exit47_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit47_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit47_03_df_all,AlgorithmicCGFE_DD_EET2016_exit47_03_df_confint, AlgorithmicCGFE_DD_EET2016_exit47_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit47_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#55 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit55_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit55_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit55_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG55)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit55_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit55_03, AlgorithmicCGFE_DD_EET2016_exit55_03_HC, AlgorithmicCGFE_DD_EET2016_exit55_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit55_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit55_03)

AlgorithmicCGFE_DD_EET2016_exit55_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit55_03_HC)

AlgorithmicCGFE_DD_EET2016_exit55_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit55_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit55_03_df_all,AlgorithmicCGFE_DD_EET2016_exit55_03_df_confint, AlgorithmicCGFE_DD_EET2016_exit55_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit55_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")



#56 Exit
#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EET2016_exit56_03 = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, cluster = "ID_ANON" )
#HC robust SE
AlgorithmicCGFE_DD_EET2016_exit56_03_HC = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EET2016_exit56_03_clusteredNACE = feols(exit ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| nace2digit, data = AlgorithmicCG56)
#ETABLE

AlgorithmicCGFE_DD_EET2016_exit56_03_df_all = etable(AlgorithmicCGFE_DD_EET2016_exit56_03, AlgorithmicCGFE_DD_EET2016_exit56_03_HC, AlgorithmicCGFE_DD_EET2016_exit56_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EET2016_exit56_03_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit56_03)

AlgorithmicCGFE_DD_EET2016_exit56_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit56_03_HC)

AlgorithmicCGFE_DD_EET2016_exit56_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EET2016_exit56_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EET2016_exit56_03_df_all,AlgorithmicCGFE_DD_EET2016_exit56_03_df_confint, AlgorithmicCGFE_DD_EET2016_exit56_03_HC_df_confint, AlgorithmicCGFE_DD_EET2016_exit56_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 EXIT Fixest EXCEL FE s DOP cleaned EET2016 posunuté plus ConfINT interakce treatment a roku ALTERNATIVNI.xlsx")
gc()















#ALGORITHMIC


#45 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT45_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT45_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT45_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT45_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT45_01, AlgorithmicCGFE_DD_EETALTlOUT45_01_HC, AlgorithmicCGFE_DD_EETALTlOUT45_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT45_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT45_01)

AlgorithmicCGFE_DD_EETALTlOUT45_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT45_01_HC)

AlgorithmicCGFE_DD_EETALTlOUT45_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT45_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT45_01_df_all,AlgorithmicCGFE_DD_EETALTlOUT45_01_df_confint, AlgorithmicCGFE_DD_EETALTlOUT45_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT45_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#46 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT46_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT46_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT46_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT46_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT46_01, AlgorithmicCGFE_DD_EETALTlOUT46_01_HC, AlgorithmicCGFE_DD_EETALTlOUT46_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT46_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT46_01)

AlgorithmicCGFE_DD_EETALTlOUT46_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT46_01_HC)

AlgorithmicCGFE_DD_EETALTlOUT46_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT46_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT46_01_df_all,AlgorithmicCGFE_DD_EETALTlOUT46_01_df_confint, AlgorithmicCGFE_DD_EETALTlOUT46_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT46_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#47 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT47_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT47_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT47_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT47_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT47_01, AlgorithmicCGFE_DD_EETALTlOUT47_01_HC, AlgorithmicCGFE_DD_EETALTlOUT47_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT47_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT47_01)

AlgorithmicCGFE_DD_EETALTlOUT47_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT47_01_HC)

AlgorithmicCGFE_DD_EETALTlOUT47_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT47_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT47_01_df_all,AlgorithmicCGFE_DD_EETALTlOUT47_01_df_confint, AlgorithmicCGFE_DD_EETALTlOUT47_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT47_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")




#55 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT55_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT55_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT55_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT55_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT55_01, AlgorithmicCGFE_DD_EETALTlOUT55_01_HC, AlgorithmicCGFE_DD_EETALTlOUT55_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT55_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT55_01)

AlgorithmicCGFE_DD_EETALTlOUT55_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT55_01_HC)

AlgorithmicCGFE_DD_EETALTlOUT55_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT55_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT55_01_df_all,AlgorithmicCGFE_DD_EETALTlOUT55_01_df_confint, AlgorithmicCGFE_DD_EETALTlOUT55_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT55_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")





#56 Output

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT56_01 = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT56_01_HC = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT56_01_clusteredNACE = feols(lOUTdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT56_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT56_01, AlgorithmicCGFE_DD_EETALTlOUT56_01_HC, AlgorithmicCGFE_DD_EETALTlOUT56_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT56_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT56_01)

AlgorithmicCGFE_DD_EETALTlOUT56_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT56_01_HC)

AlgorithmicCGFE_DD_EETALTlOUT56_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT56_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT56_01_df_all,AlgorithmicCGFE_DD_EETALTlOUT56_01_df_confint, AlgorithmicCGFE_DD_EETALTlOUT56_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT56_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#45 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS45_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS45_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS45_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS45_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS45_01, AlgorithmicCGFE_DD_EETALTlPRCHS45_01_HC, AlgorithmicCGFE_DD_EETALTlPRCHS45_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS45_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS45_01)

AlgorithmicCGFE_DD_EETALTlPRCHS45_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS45_01_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS45_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS45_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS45_01_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS45_01_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS45_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS45_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#46 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS46_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS46_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS46_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS46_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS46_01, AlgorithmicCGFE_DD_EETALTlPRCHS46_01_HC, AlgorithmicCGFE_DD_EETALTlPRCHS46_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS46_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS46_01)

AlgorithmicCGFE_DD_EETALTlPRCHS46_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS46_01_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS46_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS46_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS46_01_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS46_01_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS46_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS46_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")



#47 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS47_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS47_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS47_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS47_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS47_01, AlgorithmicCGFE_DD_EETALTlPRCHS47_01_HC, AlgorithmicCGFE_DD_EETALTlPRCHS47_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS47_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS47_01)

AlgorithmicCGFE_DD_EETALTlPRCHS47_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS47_01_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS47_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS47_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS47_01_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS47_01_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS47_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS47_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")




#55 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS55_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS55_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS55_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS55_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS55_01, AlgorithmicCGFE_DD_EETALTlPRCHS55_01_HC, AlgorithmicCGFE_DD_EETALTlPRCHS55_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS55_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS55_01)

AlgorithmicCGFE_DD_EETALTlPRCHS55_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS55_01_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS55_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS55_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS55_01_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS55_01_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS55_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS55_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")





#56 Purchases

#Interakce treatment a EET2016
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS56_01 = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS56_01_HC = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS56_01_clusteredNACE = feols(lPRCHSdef ~ treated:EET2016 + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS56_01_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS56_01, AlgorithmicCGFE_DD_EETALTlPRCHS56_01_HC, AlgorithmicCGFE_DD_EETALTlPRCHS56_01_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS56_01_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS56_01)

AlgorithmicCGFE_DD_EETALTlPRCHS56_01_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS56_01_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS56_01_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS56_01_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS56_01_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS56_01_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS56_01_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS56_01_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT.xlsx")










#45 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT45_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT45_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT45_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT45_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT45_02, AlgorithmicCGFE_DD_EETALTlOUT45_02_HC, AlgorithmicCGFE_DD_EETALTlOUT45_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT45_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT45_02)

AlgorithmicCGFE_DD_EETALTlOUT45_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT45_02_HC)

AlgorithmicCGFE_DD_EETALTlOUT45_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT45_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT45_02_df_all,AlgorithmicCGFE_DD_EETALTlOUT45_02_df_confint, AlgorithmicCGFE_DD_EETALTlOUT45_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT45_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#46 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT46_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT46_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT46_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT46_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT46_02, AlgorithmicCGFE_DD_EETALTlOUT46_02_HC, AlgorithmicCGFE_DD_EETALTlOUT46_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT46_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT46_02)

AlgorithmicCGFE_DD_EETALTlOUT46_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT46_02_HC)

AlgorithmicCGFE_DD_EETALTlOUT46_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT46_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT46_02_df_all,AlgorithmicCGFE_DD_EETALTlOUT46_02_df_confint, AlgorithmicCGFE_DD_EETALTlOUT46_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT46_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#47 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT47_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT47_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT47_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT47_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT47_02, AlgorithmicCGFE_DD_EETALTlOUT47_02_HC, AlgorithmicCGFE_DD_EETALTlOUT47_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT47_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT47_02)

AlgorithmicCGFE_DD_EETALTlOUT47_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT47_02_HC)

AlgorithmicCGFE_DD_EETALTlOUT47_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT47_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT47_02_df_all,AlgorithmicCGFE_DD_EETALTlOUT47_02_df_confint, AlgorithmicCGFE_DD_EETALTlOUT47_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT47_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")



#55 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT55_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT55_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT55_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT55_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT55_02, AlgorithmicCGFE_DD_EETALTlOUT55_02_HC, AlgorithmicCGFE_DD_EETALTlOUT55_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT55_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT55_02)

AlgorithmicCGFE_DD_EETALTlOUT55_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT55_02_HC)

AlgorithmicCGFE_DD_EETALTlOUT55_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT55_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT55_02_df_all,AlgorithmicCGFE_DD_EETALTlOUT55_02_df_confint, AlgorithmicCGFE_DD_EETALTlOUT55_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT55_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#56 Output

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT56_02 = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT56_02_HC = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT56_02_clusteredNACE = feols(lOUTdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT56_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT56_02, AlgorithmicCGFE_DD_EETALTlOUT56_02_HC, AlgorithmicCGFE_DD_EETALTlOUT56_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT56_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT56_02)

AlgorithmicCGFE_DD_EETALTlOUT56_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT56_02_HC)

AlgorithmicCGFE_DD_EETALTlOUT56_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT56_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT56_02_df_all,AlgorithmicCGFE_DD_EETALTlOUT56_02_df_confint, AlgorithmicCGFE_DD_EETALTlOUT56_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT56_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")






#45 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS45_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS45_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS45_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS45_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS45_02, AlgorithmicCGFE_DD_EETALTlPRCHS45_02_HC, AlgorithmicCGFE_DD_EETALTlPRCHS45_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS45_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS45_02)

AlgorithmicCGFE_DD_EETALTlPRCHS45_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS45_02_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS45_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS45_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS45_02_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS45_02_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS45_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS45_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#46 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS46_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS46_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS46_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS46_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS46_02, AlgorithmicCGFE_DD_EETALTlPRCHS46_02_HC, AlgorithmicCGFE_DD_EETALTlPRCHS46_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS46_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS46_02)

AlgorithmicCGFE_DD_EETALTlPRCHS46_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS46_02_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS46_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS46_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS46_02_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS46_02_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS46_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS46_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#47 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS47_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS47_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS47_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS47_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS47_02, AlgorithmicCGFE_DD_EETALTlPRCHS47_02_HC, AlgorithmicCGFE_DD_EETALTlPRCHS47_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS47_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS47_02)

AlgorithmicCGFE_DD_EETALTlPRCHS47_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS47_02_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS47_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS47_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS47_02_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS47_02_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS47_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS47_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")



#55 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS55_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS55_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS55_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS55_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS55_02, AlgorithmicCGFE_DD_EETALTlPRCHS55_02_HC, AlgorithmicCGFE_DD_EETALTlPRCHS55_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS55_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS55_02)

AlgorithmicCGFE_DD_EETALTlPRCHS55_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS55_02_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS55_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS55_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS55_02_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS55_02_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS55_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS55_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")


#56 Purchases

#Interakce treatment a roku
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS56_02 = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS56_02_HC = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS56_02_clusteredNACE = feols(lPRCHSdef ~ treated:y2012 + treated:y2013 + treated:y2014 + treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS56_02_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS56_02, AlgorithmicCGFE_DD_EETALTlPRCHS56_02_HC, AlgorithmicCGFE_DD_EETALTlPRCHS56_02_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS56_02_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS56_02)

AlgorithmicCGFE_DD_EETALTlPRCHS56_02_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS56_02_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS56_02_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS56_02_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS56_02_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS56_02_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS56_02_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS56_02_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku.xlsx")




#45 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT45_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT45_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT45_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT45_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT45_03, AlgorithmicCGFE_DD_EETALTlOUT45_03_HC, AlgorithmicCGFE_DD_EETALTlOUT45_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT45_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT45_03)

AlgorithmicCGFE_DD_EETALTlOUT45_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT45_03_HC)

AlgorithmicCGFE_DD_EETALTlOUT45_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT45_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT45_03_df_all,AlgorithmicCGFE_DD_EETALTlOUT45_03_df_confint, AlgorithmicCGFE_DD_EETALTlOUT45_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT45_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#46 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT46_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT46_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT46_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT46_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT46_03, AlgorithmicCGFE_DD_EETALTlOUT46_03_HC, AlgorithmicCGFE_DD_EETALTlOUT46_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT46_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT46_03)

AlgorithmicCGFE_DD_EETALTlOUT46_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT46_03_HC)

AlgorithmicCGFE_DD_EETALTlOUT46_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT46_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT46_03_df_all,AlgorithmicCGFE_DD_EETALTlOUT46_03_df_confint, AlgorithmicCGFE_DD_EETALTlOUT46_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT46_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#47 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT47_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT47_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT47_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT47_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT47_03, AlgorithmicCGFE_DD_EETALTlOUT47_03_HC, AlgorithmicCGFE_DD_EETALTlOUT47_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT47_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT47_03)

AlgorithmicCGFE_DD_EETALTlOUT47_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT47_03_HC)

AlgorithmicCGFE_DD_EETALTlOUT47_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT47_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT47_03_df_all,AlgorithmicCGFE_DD_EETALTlOUT47_03_df_confint, AlgorithmicCGFE_DD_EETALTlOUT47_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT47_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#55 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT55_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT55_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT55_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT55_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT55_03, AlgorithmicCGFE_DD_EETALTlOUT55_03_HC, AlgorithmicCGFE_DD_EETALTlOUT55_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT55_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT55_03)

AlgorithmicCGFE_DD_EETALTlOUT55_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT55_03_HC)

AlgorithmicCGFE_DD_EETALTlOUT55_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT55_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT55_03_df_all,AlgorithmicCGFE_DD_EETALTlOUT55_03_df_confint, AlgorithmicCGFE_DD_EETALTlOUT55_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT55_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#56 Output

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlOUT56_03 = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlOUT56_03_HC = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlOUT56_03_clusteredNACE = feols(lOUTdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlOUT56_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlOUT56_03, AlgorithmicCGFE_DD_EETALTlOUT56_03_HC, AlgorithmicCGFE_DD_EETALTlOUT56_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlOUT56_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT56_03)

AlgorithmicCGFE_DD_EETALTlOUT56_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT56_03_HC)

AlgorithmicCGFE_DD_EETALTlOUT56_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlOUT56_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlOUT56_03_df_all,AlgorithmicCGFE_DD_EETALTlOUT56_03_df_confint, AlgorithmicCGFE_DD_EETALTlOUT56_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlOUT56_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 OUTPUT Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#45 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS45_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS45_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS45_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG45, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS45_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS45_03, AlgorithmicCGFE_DD_EETALTlPRCHS45_03_HC, AlgorithmicCGFE_DD_EETALTlPRCHS45_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS45_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS45_03)

AlgorithmicCGFE_DD_EETALTlPRCHS45_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS45_03_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS45_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS45_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS45_03_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS45_03_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS45_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS45_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 45 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")


#46 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS46_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS46_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS46_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG46, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS46_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS46_03, AlgorithmicCGFE_DD_EETALTlPRCHS46_03_HC, AlgorithmicCGFE_DD_EETALTlPRCHS46_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS46_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS46_03)

AlgorithmicCGFE_DD_EETALTlPRCHS46_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS46_03_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS46_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS46_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS46_03_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS46_03_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS46_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS46_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 46 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#47 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS47_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS47_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS47_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG47, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS47_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS47_03, AlgorithmicCGFE_DD_EETALTlPRCHS47_03_HC, AlgorithmicCGFE_DD_EETALTlPRCHS47_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS47_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS47_03)

AlgorithmicCGFE_DD_EETALTlPRCHS47_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS47_03_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS47_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS47_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS47_03_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS47_03_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS47_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS47_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 47 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#55 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS55_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS55_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS55_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG55, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS55_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS55_03, AlgorithmicCGFE_DD_EETALTlPRCHS55_03_HC, AlgorithmicCGFE_DD_EETALTlPRCHS55_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS55_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS55_03)

AlgorithmicCGFE_DD_EETALTlPRCHS55_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS55_03_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS55_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS55_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS55_03_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS55_03_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS55_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS55_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 55 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")

#56 Purchases

#Interakce treatment a roku ALTERNATIVNI
#Normal SE (clustered by firm)
AlgorithmicCGFE_DD_EETALTlPRCHS56_03 = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56 )
#HC robust SE
AlgorithmicCGFE_DD_EETALTlPRCHS56_03_HC = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, se = "hetero" )
#clustered by NACE SE
AlgorithmicCGFE_DD_EETALTlPRCHS56_03_clusteredNACE = feols(lPRCHSdef ~ treated:y2016 + treated:y2017 + treated:y2018 + treated:y2019 +  + y2012 + y2013 + y2014 + y2016 + y2017 + y2018 + y2019| ID_ANON, data = AlgorithmicCG56, cluster = "nace2digit" )
#ETABLE

AlgorithmicCGFE_DD_EETALTlPRCHS56_03_df_all = etable(AlgorithmicCGFE_DD_EETALTlPRCHS56_03, AlgorithmicCGFE_DD_EETALTlPRCHS56_03_HC, AlgorithmicCGFE_DD_EETALTlPRCHS56_03_clusteredNACE)

#export
AlgorithmicCGFE_DD_EETALTlPRCHS56_03_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS56_03)

AlgorithmicCGFE_DD_EETALTlPRCHS56_03_HC_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS56_03_HC)

AlgorithmicCGFE_DD_EETALTlPRCHS56_03_clusteredNACE_df_confint = confint(AlgorithmicCGFE_DD_EETALTlPRCHS56_03_clusteredNACE)

write_xlsx(list(AlgorithmicCGFE_DD_EETALTlPRCHS56_03_df_all,AlgorithmicCGFE_DD_EETALTlPRCHS56_03_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS56_03_HC_df_confint, AlgorithmicCGFE_DD_EETALTlPRCHS56_03_clusteredNACE_df_confint ), path = "Algorithmic Synth vetsi CG NACE 56 PURCHASES Fixest EXCEL FE s DOP cleaned EET 2016 plus ConfINT interakce treatead a roku ALTERNATIVNI.xlsx")