## ----include = FALSE---------------------------------------------------------- knitr::opts_chunk$set( collapse = TRUE, comment = NA ) ## ----eval=FALSE--------------------------------------------------------------- # #install.packages("devtools") # devtools::install_github("cardiomoon/autoReg") ## ----------------------------------------------------------------------------- library(autoReg) ## ----------------------------------------------------------------------------- library(moonBook) # For use of example data acs gaze(sex~.,data=acs) ## ----------------------------------------------------------------------------- library(dplyr) # for use of `%>%` ft=gaze(sex~.,data=acs) %>% myft() ft ## ----eval=FALSE--------------------------------------------------------------- # library(rrtable) # # table2pptx(ft) ## ----eval=FALSE--------------------------------------------------------------- # table2docx(ft) ## ----------------------------------------------------------------------------- gaze(sex+Dx~.,data=acs) %>% myft() ## ----------------------------------------------------------------------------- gaze(sex+DM+HBP~age,data=acs) %>% myft() ## ----------------------------------------------------------------------------- library(survival) # For use of data colon data(cancer) fit=glm(status~rx+sex+age+obstruct+perfor+nodes,data=colon,family="binomial") summary(fit) ## ----------------------------------------------------------------------------- autoReg(fit) ## ----------------------------------------------------------------------------- autoReg(fit) %>% myft() ## ----------------------------------------------------------------------------- colon$status.factor=factor(colon$status,labels=c("Alive","Died")) colon$obstruct.factor=factor(colon$obstruct,labels=c("No","Yes")) colon$perfor.factor=factor(colon$perfor,labels=c("No","Yes")) colon$sex.factor=factor(colon$sex,labels=c("Female","Male")) fit=glm(status.factor~rx+sex.factor+age+obstruct.factor+perfor.factor+nodes,data=colon,family="binomial") result=autoReg(fit) result %>% myft() ## ----------------------------------------------------------------------------- colon$status.factor=setLabel(colon$status.factor,"Mortality") colon$rx=setLabel(colon$rx,"Treatment") colon$age=setLabel(colon$age,"Age(Years)") colon$sex.factor=setLabel(colon$sex.factor,"Sex") colon$obstruct.factor=setLabel(colon$obstruct.factor,"Obstruction") colon$perfor.factor=setLabel(colon$perfor.factor,"Perforation") colon$nodes=setLabel(colon$nodes,"Positive nodes") fit=glm(status.factor~rx+sex.factor+age+obstruct.factor+perfor.factor+nodes,data=colon,family="binomial") result=autoReg(fit) result %>% myft() ## ----------------------------------------------------------------------------- shorten(result) %>% myft() ## ----------------------------------------------------------------------------- autoReg(fit, uni=TRUE) %>% myft() ## ----------------------------------------------------------------------------- autoReg(fit, uni=TRUE,threshold=1) %>% myft() ## ----------------------------------------------------------------------------- autoReg(fit, uni=TRUE,threshold=1, final=TRUE) %>% myft() ## ----------------------------------------------------------------------------- autoReg(fit, imputed=TRUE) %>% myft() ## ----fig.width=8,fig.height=7------------------------------------------------- x=modelPlot(fit) x ## ----fig.show='hide',eval=FALSE----------------------------------------------- # plot2pptx(print(x)) ## ----fig.width=8,fig.height=7------------------------------------------------- modelPlot(fit,uni=TRUE,threshold=1,show.ref=FALSE)