## ----setup, include = FALSE------------------
knitr::opts_chunk$set(
collapse = TRUE,
comment = "#>"
)
## ----vignette-setup, include=FALSE-----------
knitr::opts_chunk$set(echo = TRUE)
# Libraries necessary for this vignette
library(rio)
library(flextable)
library(dplyr)
library(tidyr)
library(semanticprimeR)
set.seed(84930)
## --------------------------------------------
DF <- import("data/roer_data.xlsx")
drops <- c("Scenario")
DF <- DF[ , !(names(DF) %in% drops)]
DF <- cbind(Participant_Number = 1:nrow(DF) , DF)
str(DF)
## --------------------------------------------
metadata <- import("data/roer_metadata.xlsx")
flextable(metadata) %>% autofit()
## --------------------------------------------
DF_long <- pivot_longer(DF, cols = -c(Participant_Number)) %>%
dplyr:: rename(item = name, score = value)
flextable(head(DF_long)) %>% autofit()
## --------------------------------------------
# individual SEs
SE <- tapply(DF_long$score, DF_long$item, function (x) { sd(x)/sqrt(length(x)) })
SE
cutoff <- quantile(SE, probs = .40)
cutoff
# we could also use the cutoff score function in semanticprimeR
cutoff_score <- calculate_cutoff(population = DF_long,
grouping_items = "item",
score = "score",
minimum = min(DF_long$score),
maximum = max(DF_long$score))
cutoff_score$cutoff
## --------------------------------------------
# sequence of sample sizes to try
nsim <- 10 # small for cran
samplesize_values <- seq(20, 500, 5)
# create a blank table for us to save the values in
sim_table <- matrix(NA,
nrow = length(samplesize_values)*nsim,
ncol = length(unique(DF_long$item)))
# make it a data frame
sim_table <- as.data.frame(sim_table)
# add a place for sample size values
sim_table$sample_size <- NA
iterate <- 1
for (p in 1:nsim){
# loop over sample sizes
for (i in 1:length(samplesize_values)){
# temp dataframe that samples and summarizes
temp <- DF_long %>%
group_by(item) %>%
sample_n(samplesize_values[i], replace = T) %>%
summarize(se = sd(score)/sqrt(length(score)))
colnames(sim_table)[1:length(unique(DF_long$item))] <- temp$item
sim_table[iterate, 1:length(unique(DF_long$item))] <- temp$se
sim_table[iterate, "sample_size"] <- samplesize_values[i]
sim_table[iterate, "nsim"] <- p
iterate <- iterate + 1
}
}
final_sample <-
sim_table %>%
pivot_longer(cols = -c(sample_size, nsim)) %>%
dplyr::rename(item = name, se = value) %>%
group_by(sample_size, nsim) %>%
summarize(percent_below = sum(se <= cutoff)/length(unique(DF_long$item))) %>%
ungroup() %>%
# then summarize all down averaging percents
dplyr::group_by(sample_size) %>%
summarize(percent_below = mean(percent_below)) %>%
dplyr::arrange(percent_below) %>%
ungroup()
flextable(final_sample %>% head()) %>% autofit()
## --------------------------------------------
final_table <- calculate_correction(
proportion_summary = final_sample,
pilot_sample_size = DF_long %>% group_by(item) %>%
summarize(sample_size = n()) %>% ungroup() %>%
summarize(avg_sample = mean(sample_size)) %>% pull(avg_sample),
proportion_variability = cutoff_score$prop_var
)
flextable(final_table) %>%
autofit()
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