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| rm(list=ls()) |
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| require(readstata13) |
| require(MASS) |
| require(sandwich) |
| require(lmtest) |
| source("Help.R") |
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| dat <- read.dta13("context.dta") |
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| dat_2015 <- dat[dat$year == 2015, ] |
| dat_2016 <- dat[dat$year == 2016, ] |
| dat_2017 <- dat[dat$year == 2017, ] |
| dat_2015$Hate_all_muni_1517 <- dat_2015$Hate_all_muni + dat_2016$Hate_all_muni + dat_2017$Hate_all_muni |
| dat_2015$Hate_all_muni_1517_bin <- ifelse(dat_2015$Hate_all_muni_1517 > 0, 1, 0) |
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| range_x <- quantile(dat_2015$pop_15_44_muni_gendergap_2015, c(0.025, 0.975), na.rm = TRUE) |
| dat_2015_s <- dat_2015[dat_2015$pop_15_44_muni_gendergap_2015 >= range_x[1] & |
| dat_2015$pop_15_44_muni_gendergap_2015 <= range_x[2], ] |
| dat_s <- dat[dat$pop_15_44_muni_gendergap_2015 >= range_x[1] & |
| dat$pop_15_44_muni_gendergap_2015 <= range_x[2], ] |
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| bin_1_sum <- bin.summary(Hate_all_muni_1517_bin ~ |
| pop_15_44_muni_gendergap_2015 + |
| log_population_muni_2015 + log_popdens_muni_2015 + |
| log_unemp_all_muni_2015 + d_pop1511_muni + vote_afd_2013_muni + |
| log_ref_inflow_1514 + log_pop_ref_2014 + log_violence_percap_2015 + |
| pc_hidegree_all2011 + d_manuf1115 + pc_manufacturing_2015 + |
| unemp_gendergap_2015 + as.factor(ags_state), |
| id = "ags_county", data = dat_2015_s) |
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| bin_1_p <- bin.summary(Hate_all_muni_bin ~ |
| pop_15_44_muni_gendergap_2015 + |
| log_population_muni_2015 + log_popdens_muni_2015 + |
| log_unemp_all_muni_2015 + d_pop1511_muni + vote_afd_2013_muni + |
| log_ref_inflow_1514 + log_pop_ref_2014 + log_violence_percap_2015 + |
| pc_hidegree_all2011 + d_manuf1115 + pc_manufacturing_2015 + |
| unemp_gendergap_2015 + as.factor(ags_state) + as.factor(year), |
| id = "ags_county", data = dat_s) |
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| bin_1_sum_effect <- marginal_effect(bin_1_sum, |
| newdata = dat_2015_s, family = "logit", |
| main_var = "pop_15_44_muni_gendergap_2015", |
| difference = TRUE, |
| treat_range = c(1, 1.2)) |
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| bin_1_p_effect <- marginal_effect(bin_1_p, |
| newdata = dat_s, family = "logit", |
| main_var = "pop_15_44_muni_gendergap_2015", |
| difference = TRUE, |
| treat_range = c(1, 1.2)) |
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| bin_1_sum_dose <- marginal_effect(bin_1_sum, |
| newdata = dat_2015_s, family = "logit", |
| main_var = "pop_15_44_muni_gendergap_2015") |
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| bin_1_p_dose <- marginal_effect(bin_1_p, |
| newdata = dat_s, family = "logit", |
| main_var = "pop_15_44_muni_gendergap_2015") |
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| bin_1_sum_gap <- marginal_effect(bin_1_sum, |
| newdata = dat_2015_s, family = "logit", |
| main_var = "unemp_gendergap_2015", |
| difference = TRUE, |
| treat_range = c(1, 1.15)) |
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| bin_1_p_gap <- marginal_effect(bin_1_p, |
| newdata = dat_s, family = "logit", |
| main_var = "unemp_gendergap_2015", |
| difference = TRUE, |
| treat_range = c(1, 1.15)) |
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| bin_1_sum_gap_dose <- marginal_effect(bin_1_sum, |
| newdata = dat_2015_s, family = "logit", |
| main_var = "unemp_gendergap_2015") |
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| bin_1_p_gap_dose <- marginal_effect(bin_1_p, |
| newdata = dat_s, family = "logit", |
| main_var = "unemp_gendergap_2015") |
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| point <- c(bin_1_sum_effect$out_main[2], bin_1_p_effect$out_main[2]) |
| high <- c(bin_1_sum_effect$out_main[3], bin_1_p_effect$out_main[3]) |
| low <- c(bin_1_sum_effect$out_main[1], bin_1_p_effect$out_main[1]) |
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| marginal_list <- list() |
| marginal_list[[1]] <- bin_1_sum_dose |
| marginal_list[[2]] <- bin_1_p_dose |
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| title_c <- c("Predicted Probability: Sum", "Predicted Probability: Annual") |
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| pdf("figure_1.pdf", height = 4, width = 11) |
| par(mfrow = c(1,3), mar = c(4.5, 2, 4, 1), oma = c(0, 2, 0, 0)) |
| for(i in 1:2){ |
| plot_coef_all <- do.call("rbind", marginal_list[[i]]$out_main) |
| plot_x <- marginal_list[[i]]$treat_range |
| if(i == 1){ |
| ylim_u <- c(0.14, 0.23) |
| ylab_u <- "" |
| } |
| if(i == 2){ |
| ylim_u <- c(0.06, 0.11) |
| ylab_u <- "" |
| } |
| |
| plot(plot_x, plot_coef_all[ ,2], pch = 19, |
| main = paste("", title_c[i], sep = ""), |
| ylim = ylim_u, |
| xlab = "Excess Males", |
| ylab = ylab_u, |
| col = "black", cex = 2, type = "l", lwd = 3, cex.lab = 1.5, cex.main = 1.5, cex.axis = 1.5) |
| lines(plot_x, plot_coef_all[ ,1], col = "black", lty = 2) |
| lines(plot_x, plot_coef_all[ ,3], col = "black", lty = 2) |
| abline(h = marginal_list[[i]]$sample, lty = 2, col = "red", lwd = 2) |
| polygon(c(plot_x, rev(plot_x)), c(plot_coef_all[ ,1], rev(plot_coef_all[ ,3])), |
| col = adjustcolor("black", 0.2), border = NA) |
| par(new=TRUE) |
| hist(dat_2015_s$pop_15_44_muni_gendergap_2015, freq = FALSE, |
| breaks = seq(from = 0, to = 6, by = 0.01), xlim = c(min(plot_x), max(plot_x)), |
| xaxt = "n", yaxt = "n", xlab = "", ylab = "", ylim = c(0, 40), main ="") |
| } |
| par(mar = c(4.5, 5, 4, 1)) |
| plot(seq(1:2), point, ylim = c(-0.005, 0.045), |
| ylab = "Effects on Prob (hate crime)", |
| main = "Effects of Excess Males", |
| xlim = c(0.5, 2.5), xlab = "Outcome Types", xaxt = "n", pch = c(19, 15), |
| cex.lab = 1.5, cex.axis = 1.5, cex.main = 1.5) |
| segments(seq(1:6), low, seq(1:6), high, lwd = 2, c(rep("black",2), rep("black",2), rep("black",2))) |
| Axis(side = 1, at = c(1, 2), labels = c("Sum", "Annual"), cex.axis = 1.5) |
| abline(h = 0, lty = 2) |
| mtext(side = 2, at = 0.5, "Prob (hate crime)", outer = TRUE, line = 0.5) |
| dev.off() |
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| point_g <- c(bin_1_sum_gap$out_main[2], bin_1_p_gap$out_main[2]) |
| high_g <- c(bin_1_sum_gap$out_main[3], bin_1_p_gap$out_main[3]) |
| low_g <- c(bin_1_sum_gap$out_main[1], bin_1_p_gap$out_main[1]) |
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| marginal_list_g <- list() |
| marginal_list_g[[1]] <- bin_1_sum_gap_dose |
| marginal_list_g[[2]] <- bin_1_p_gap_dose |
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| title_c <- c("Predicted Probability: Sum", "Predicted Probability: Annual") |
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| pdf("figure_C8.pdf", height = 4, width = 11) |
| par(mfrow = c(1,3), mar = c(4.5, 2, 4, 1), oma = c(0, 2, 0, 0)) |
| for(i in 1:2){ |
| plot_coef_all <- do.call("rbind", marginal_list_g[[i]]$out_main) |
| plot_x <- marginal_list_g[[i]]$treat_range |
| if(i <=1) ylim_u <- c(0.14, 0.22) |
| if(i > 1) ylim_u <- c(0.06, 0.11) |
| |
| plot(plot_x, plot_coef_all[ ,2], pch = 19, |
| main = paste("", title_c[i], sep = ""), |
| ylim = ylim_u, |
| xlab = "Male Disadvantage", |
| ylab = "", |
| col = "black", cex = 2, type = "l", lwd = 3, cex.lab = 1.5, cex.axis = 1.5, cex.main = 1.5) |
| lines(plot_x, plot_coef_all[ ,1], col = "black", lty = 2) |
| lines(plot_x, plot_coef_all[ ,3], col = "black", lty = 2) |
| abline(h = marginal_list_g[[i]]$sample, lty = 2, col = "red", lwd = 2) |
| polygon(c(plot_x, rev(plot_x)), c(plot_coef_all[ ,1], rev(plot_coef_all[ ,3])), |
| col = adjustcolor("black", 0.2), border = NA) |
| par(new=TRUE) |
| hist(dat_2015_s$unemp_gendergap_2015, freq = FALSE, |
| breaks = seq(from = 0, to = 6, by = 0.01), xlim = c(min(plot_x), max(plot_x)), |
| xaxt = "n", yaxt = "n", xlab = "", ylab = "", ylim = c(0, 40), main ="") |
| } |
| par(mar = c(4.5, 5, 4, 1)) |
| plot(seq(1:2), point_g, ylim = c(-0.01, 0.035), |
| ylab = "Effects on Prob (hate crime)", |
| main = "Effects of Male Disadvantage", |
| xlim = c(0.5, 2.5), xlab = "Outcome Types", xaxt = "n", pch = c(19, 15), |
| cex.lab = 1.5, cex.axis = 1.5, cex.main = 1.5) |
| segments(seq(1:6), low_g, seq(1:6), high_g, lwd = 2, c(rep("black",2), rep("black",2), rep("black",2))) |
| Axis(side = 1, at = c(1, 2), labels = c("Sum", "Annual"), cex.axis = 1.25) |
| abline(h = 0, lty = 2) |
| mtext(side = 2, at = 0.5, "Prob (hate crime)", outer = TRUE, line = 0.5) |
| dev.off() |