R/tb1simple.R
tb1simple2.Rdtb1 module for propensity score analysis for reactive data
tb1simple2( input, output, session, data, matdata, data_label, data_varStruct = NULL, vlist, group_var, showAllLevels = T )
| input | input |
|---|---|
| output | output |
| session | session |
| data | Original reactive data with propensity score |
| matdata | Matching reactive data |
| data_label | Reactive data label |
| data_varStruct | List of variable structure, Default: NULL |
| vlist | List including factor/continuous/binary/except/non-normal variables |
| group_var | Group variable to run propensity score analysis. |
| showAllLevels | Show All label information with 2 categorical variables, Default: T |
Table 1 with original data/matching data/IPTW data
Table 1 module server for propensity score analysis
library(shiny) library(DT) library(data.table) library(readxl) library(jstable) library(haven) library(survey) ui <- fluidPage( sidebarLayout( sidebarPanel( FilePsInput("datafile"), tb1simpleUI("tb1") ), mainPanel( DTOutput("table1_original"), DTOutput("table1_ps"), DTOutput("table1_iptw") ) ) ) server <- function(input, output, session) { mat.info <- callModule(FilePs, "datafile") data <- reactive(mat.info()$data) matdata <- reactive(mat.info()$matdata) data.label <- reactive(mat.info()$data.label) vlist <- eventReactive(mat.info(), { mklist <- function(varlist, vars) { lapply( varlist, function(x) { inter <- intersect(x, vars) if (length(inter) == 1) { inter <- c(inter, "") } return(inter) } ) } factor_vars <- names(data())[data()[, lapply(.SD, class) %in% c("factor", "character")]] factor_list <- mklist(data_varStruct(), factor_vars) conti_vars <- setdiff(names(data()), c(factor_vars, "pscore", "iptw")) conti_list <- mklist(data_varStruct(), conti_vars) nclass_factor <- unlist(data()[, lapply(.SD, function(x) { length(unique(x)[!is.na(unique(x))]) }), .SDcols = factor_vars ]) class01_factor <- unlist(data()[, lapply(.SD, function(x) { identical(levels(x), c("0", "1")) }), .SDcols = factor_vars ]) validate( need(!is.null(class01_factor), "No categorical variables coded as 0, 1 in data") ) factor_01vars <- factor_vars[class01_factor] factor_01_list <- mklist(data_varStruct(), factor_01vars) group_vars <- factor_vars[nclass_factor >= 2 & nclass_factor <= 10 & nclass_factor < nrow(data())] group_list <- mklist(data_varStruct(), group_vars) except_vars <- factor_vars[nclass_factor > 10 | nclass_factor == 1 | nclass_factor == nrow(data())] ## non-normal: shapiro test f <- function(x) { if (diff(range(x, na.rm = T)) == 0) { return(F) } else { return(shapiro.test(x)$p.value <= 0.05) } } non_normal <- ifelse(nrow(data()) <= 3 | nrow(data()) >= 5000, rep(F, length(conti_vars)), sapply(conti_vars, function(x) { f(data()[[x]]) }) ) return(list( factor_vars = factor_vars, factor_list = factor_list, conti_vars = conti_vars, conti_list = conti_list, factor_01vars = factor_01vars, factor_01_list = factor_01_list, group_list = group_list, except_vars = except_vars, non_normal = non_normal )) }) out.tb1 <- callModule(tb1simple2, "tb1", data = data, matdata = matdata, data_label = data.label, data_varStruct = NULL, vlist = vlist, group_var = reactive(mat.info()$group_var) ) output$table1_original <- renderDT({ tb <- out.tb1()$original$table cap <- out.tb1()$original$caption out <- datatable(tb, rownames = T, extension = "Buttons", caption = cap) return(out) }) output$table1_ps <- renderDT({ tb <- out.tb1()$ps$table cap <- out.tb1()$ps$caption out <- datatable(tb, rownames = T, extension = "Buttons", caption = cap) return(out) }) output$table1_iptw <- renderDT({ tb <- out.tb1()$iptw$table cap <- out.tb1()$iptw$caption out <- datatable(tb, rownames = T, extension = "Buttons", caption = cap) return(out) }) }