ht_two_mean_sim <- function(y, x, null, alternative, nsim, seed,
y_name, x_name,
show_var_types, show_summ_stats, show_res,
show_eda_plot, show_inf_plot){
# set seed
if(!is.null(seed)){ set.seed(seed) }
# calculate n1 and n2
ns <- by(y, x, length)
n1 <- as.numeric(ns[1])
n2 <- as.numeric(ns[2])
n <- n1 + n2
# calculate y-bar1 and y-bar2
y_bars <- by(y, x, mean)
y_bar1 <- as.numeric(y_bars[1])
y_bar2 <- as.numeric(y_bars[2])
# calculate difference in y-bars
y_bar_diff <- y_bar1 - y_bar2
# create null distribution
sim_dist <- rep(NA, nsim)
for(i in 1:nsim){
y_sim <- sample(y, size = n, replace = FALSE)
y_sim_bars <- by(y_sim, x, mean)
y_sim_bar1 <- as.numeric(y_sim_bars[1])
y_sim_bar2 <- as.numeric(y_sim_bars[2])
sim_dist[i] <- y_sim_bar1 - y_sim_bar2
}
# shading cutoffs
if(alternative == "greater"){
x_min <- y_bar_diff
x_max <- Inf
}
if(alternative == "less"){
x_min <- -Inf
x_max <- y_bar_diff
}
if(alternative == "twosided"){
if(y_bar_diff >= null){
x_min <- c(null - (y_bar_diff - null), y_bar_diff)
x_max <- c(-Inf, Inf)
}
if(y_bar_diff <= null){
x_min <- c(y_bar_diff, null + (null - y_bar_diff))
x_max <- c(-Inf, Inf)
}
}
# calculate p-value
if(alternative == "greater"){ p_value <- sum(sim_dist >= y_bar_diff) / nsim }
if(alternative == "less"){ p_value <- sum(sim_dist <= y_bar_diff) / nsim }
if(alternative == "twosided"){
if(y_bar_diff > null){
p_value <- min(2 * (sum(sim_dist >= y_bar_diff) / nsim), 1)
}
if(y_bar_diff < null){
p_value <- min(2 * (sum(sim_dist <= y_bar_diff) / nsim), 1)
}
if(y_bar_diff == null){ p_value <- 1 }
}
# print variable types
if(show_var_types == TRUE){
n_x_levels <- length(levels(x))
cat(paste0("Response variable: numerical\n"))
cat(paste0("Explanatory variable: categorical (", n_x_levels, " levels) \n"))
}
# print summary statistics
if(show_summ_stats == TRUE){
gr1 <- levels(x)[1]
gr2 <- levels(x)[2]
sds <- by(y, x, IQR)
s1 <- sds[1]
s2 <- sds[2]
cat(paste0("n_", gr1, " = ", n1, ", y_bar_", gr1, " = ", round(y_bar1, 4),
", s_", gr1, " = ", s1, "\n"))
cat(paste0("n_", gr2, " = ", n2, ", y_bar_", gr2, " = ", round(y_bar2, 4),
", s_", gr2, " = ", s2, "\n"))
}
# print results
if(show_res == TRUE){
if(alternative == "greater"){
alt_sign <- ">"
} else if(alternative == "less"){
alt_sign <- "<"
} else {
alt_sign <- "!="
}
cat(paste0("H0: mu_", gr1, " = mu_", gr2, "\n"))
cat(paste0("HA: mu_", gr1, " ", alt_sign, " mu_", gr2, "\n"))
p_val_to_print <- ifelse(round(p_value, 4) == 0, "< 0.0001", round(p_value, 4))
cat(paste0("p_value = ", p_val_to_print))
}
# eda_plot
d_eda <- data.frame(y = y, x = x)
d_means <- data.frame(y_bars = as.numeric(y_bars), x = levels(x))
eda_plot <- ggplot2::ggplot(data = d_eda, ggplot2::aes(x = y), environment = environment()) +
ggplot2::geom_histogram(fill = "#8FDEE1", binwidth = diff(range(y)) / 20) +
ggplot2::xlab(y_name) +
ggplot2::ylab(x_name) +
ggplot2::ggtitle("Sample Distribution") +
ggplot2::geom_vline(data = d_means, ggplot2::aes(xintercept = y_bars), col = "#1FBEC3", lwd = 1.5) +
ggplot2::facet_grid(x ~ .)
# inf_plot
d_inf <- data.frame(sim_dist = sim_dist)
inf_plot <- ggplot2::ggplot(data = d_inf, ggplot2::aes(x = sim_dist), environment = environment()) +
ggplot2::geom_histogram(fill = "#CCCCCC", binwidth = diff(range(sim_dist)) / 20) +
ggplot2::annotate("rect", xmin = x_min, xmax = x_max, ymin = 0, ymax = Inf,
alpha = 0.3, fill = "#FABAB8") +
ggplot2::xlab("simulated difference in means") +
ggplot2::ylab("") +
ggplot2::ggtitle("Null Distribution") +
ggplot2::geom_vline(xintercept = y_bar_diff, color = "#F57670", lwd = 1.5)
# print plots
if(show_eda_plot & !show_inf_plot){
print(eda_plot)
}
if(!show_eda_plot & show_inf_plot){
print(inf_plot)
}
if(show_eda_plot & show_inf_plot){
gridExtra::grid.arrange(eda_plot, inf_plot, ncol = 2)
}
# return
return(list(sim_dist = sim_dist, p_value = p_value))
}
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.