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| capture log close |
| clear |
| set matsize 3000 |
| set more off |
| set scheme s2color |
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| cd /Users/`c(username)'/Dropbox/Research_ElSalvador_LandReform/Replication |
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| use "Data/censo_ag_wreform.dta", clear |
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| label var Above500 "Above 500 Ha" |
| label var norm_dist "Normalized Distance to Reform Threshold (has)" |
| label var own_amt "Cumulative Landholdings of Former Owner (has)" |
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| local polynomial_level 1 |
| local bandwidth_choice "mserd" |
| local kernel_choice "tri" |
| local cluster_level "Expropretario_ISTA" |
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| rdrobust ln_agprod_pricew_crops norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
| outreg2 using "Output/Table4_LogProductivity_agg.tex", replace se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') addtext(Fuzzy RD, N) |
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| rdrobust ln_agprod_pricew_crops norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') fuzzy(reform sharpbw) |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
| outreg2 using "Output/Table4_LogProductivity_agg.tex", append se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') addtext(Fuzzy RD, Y) |
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| rdrobust ln_agprod norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
| outreg2 using "Output/Table4_LogProductivity_agg.tex", append se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') addtext(Fuzzy RD, N) |
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| rdrobust ln_agprod norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') fuzzy(reform sharpbw) |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
| outreg2 using "Output/Table4_LogProductivity_agg.tex", append se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') addtext(Fuzzy RD, Y) |
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| rdrobust ln_tfp_geo norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
| outreg2 using "Output/Table4_LogProductivity_agg.tex", append se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') addtext(Fuzzy RD, N) |
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| rdrobust ln_tfp_geo norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') fuzzy(reform sharpbw) |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
| outreg2 using "Output/Table4_LogProductivity_agg.tex", append se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') addtext(Fuzzy RD, Y) |
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| rdrobust CashCrop_Indicator norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
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| rdrobust CashCrop_Share norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
| outreg2 using "Output/Table2_CashCrops_agg.tex", replace se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') |
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| rdrobust SugarCane_Indicator norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
| outreg2 using "Output/Table2_CashCrops_agg.tex", append se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') |
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| rdrobust SugarCane_Share norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
| outreg2 using "Output/Table2_CashCrops_agg.tex", append se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') |
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| rdrobust SugarCane_Yield norm_dist, c(0) p(`polynomial_level') h(`e(h_r)') b(`e(b_r)') kernel(`kernel_choice') vce(cluster `cluster_level') |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
| outreg2 using "Output/Table2_CashCrops_agg.tex", append se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') |
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| rdrobust Coffee_Indicator norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| outreg2 using "Output/Table2_CashCrops_agg.tex", append se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') |
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| rdrobust Coffee_Share norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| outreg2 using "Output/Table2_CashCrops_agg.tex", append se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') |
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| rdrobust Coffee_Yield norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| outreg2 using "Output/Table2_CashCrops_agg.tex", append se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') |
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| rdrobust ConsCrop_Indicator norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
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| rdrobust StapleCrop_Share norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
| outreg2 using "Output/Table3_ConsCrops_agg.tex", replace se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') |
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| rdrobust Maize_Indicator norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
| outreg2 using "Output/Table3_ConsCrops_agg.tex", append se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') |
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| rdrobust Maize_Share norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') |
| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
| outreg2 using "Output/Table3_ConsCrops_agg.tex", append se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') |
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| rdrobust Maize_Yield norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') |
| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
| outreg2 using "Output/Table3_ConsCrops_agg.tex", append se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') |
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| rdrobust Beans_Indicator norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
| outreg2 using "Output/Table3_ConsCrops_agg.tex", append se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') |
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| rdrobust Beans_Share norm_dist, c(0) p(`polynomial_level') bwselect(`bandwidth_choice') kernel(`kernel_choice') vce(cluster `cluster_level') |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
| outreg2 using "Output/Table3_ConsCrops_agg.tex", append se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') |
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| rdrobust Beans_Yield norm_dist, c(0) p(`polynomial_level') b(`e(h_r)') h(`e(b_r)') kernel(`kernel_choice') vce(cluster `cluster_level') |
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| distinct `cluster_level' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' & `e(outcomevar)'!=. & `e(runningvar)'!=. |
| local n_clust = `r(ndistinct)' |
| su `e(outcomevar)' if norm_dist < `e(h_l)' & norm_dist > -1*`e(h_r)' |
| outreg2 using "Output/Table3_ConsCrops_agg.tex", append se tex noobs addstat(Observations, `e(N_h_l)' + `e(N_h_r)', Clusters, `n_clust', Mean Dep. Var., `r(mean)', Bandwidth, `e(h_l)') |
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