% Generated by roxygen2: do not edit by hand % Please edit documentation in R/win_prob.R \name{win_prob} \alias{win_prob} \title{Calculates the probability of winning} \source{ \doi{10.1161/STROKEAHA.121.037744} } \usage{ win_prob( data, response = NULL, group = NULL, alpha = 0.05, beta = 0.2, group.ratio = 1, sample.size = FALSE, print.tables = FALSE, dec = 3 ) } \arguments{ \item{data}{A data frame containing the response and group variable.} \item{response}{The name of the response variable. Takes first column if empty.} \item{group}{The name of the group variable. Takes second column if empty.} \item{alpha}{The alpha level for the hypothesis test. Default is 0.05.} \item{beta}{The beta level for the sample size calculation. Default is 0.2.} \item{group.ratio}{The ratio of group sizes. Default is 1.} \item{sample.size}{Flag to include sample size calculation. Default is FALSE.} \item{print.tables}{Flag to print cumulative tables. Default is FALSE.} \item{dec}{Numeric for decimals to print. Default is 3.} } \value{ A list containing the win_prob statistics. } \description{ Calculates the probability of winning (winP). In the referenced article Zou et al (2022) proposes a method for calculating probability of winning with a confidence interval an p-value testing. } \examples{ win_prob(data=stRoke::talos,response="mrs_6",group="rtreat") }