Nothing
globalVariables(c("Feature","Performance", "CV_result","Batch","Overall"))
#' @title output summary for Dforest Cross-validation results
#' @description Draw plot for Dforest Cross-validation results
#'
#'
#' @param CV_result Training Dataset
#' @param plot if TRUE (default), draw plot
#'
#' @import ggplot2
#' @export
#'
#'
DF_CVsummary =function(CV_result,plot=T){
if (CV_result$Method =="ACC"){
perform_use = CV_result$performance$ACC
}else if (CV_result$Method =="bACC"){
perform_use = CV_result$performance$bACC
}else if (CV_result$Method =="MCC"){
perform_use = CV_result$performance$MCC
}else if (CV_result$Method =="MIS"){
perform_use = CV_result$performance$MIS
}
Detail_info = CV_result$detail
CV_fold = max(unlist(Detail_info[,"Stage"]))
Total_feature = unlist(Detail_info[,"Used Feature"])
tmp_feat = as.data.frame(table(Total_feature))
Feature_count=tmp_feat[order(tmp_feat[,"Freq"],decreasing = T),]
cat(paste("Overall ",CV_fold,"-fold Cross-Validation result: ",round(perform_use,3),"\n",sep=""))
cat(paste("Most 5 used features: ", paste(Feature_count[c(1:5),1],collapse = ', '),"\n",sep=""))
cat(paste("Top 5 frequencies in (",CV_fold,"): ", paste(Feature_count[c(1:5),2],collapse = ', '),"\n",sep=""))
if (plot == T){
plot_matrix = matrix(0,nrow=CV_fold,ncol=3)
for (i in 1:CV_fold){
plot_matrix[i,1] = i
plot_matrix[i,2] = max(unlist(Detail_info[Detail_info[,"Stage"]==i,4]))
plot_matrix[i,3] = perform_use
}
plot_matrix=as.data.frame(plot_matrix)
colnames(plot_matrix)=c("Batch","Performance","Overall")
p=ggplot(plot_matrix)+
geom_line(aes(x=Batch, y=Overall,color="Green",size=Overall))+
scale_size_continuous(range=c(1,1),guide=FALSE)+
scale_colour_manual(values="red",name=NULL, labels="CV Overall")+
geom_bar(aes(x=Batch, y=Performance, fill=Performance, alpha = 0.7),stat = "Identity")+
scale_fill_continuous(low="lightblue", high="darkblue", name = CV_result$Method )+
scale_alpha_identity()+
ylim(0,1) +
labs(y = paste("Performance: ",CV_result$Method,sep=""), x = paste(CV_fold," Fold Cross Validation", sep=""))+
scale_x_continuous(breaks=plot_matrix[,1])
return(p)
}else{
return(Feature_count)
}
}
#' @title output summary for Dforest test results
#' @description Draw plot for Dforest test results
#'
#'
#' @param used_model Training result
#' @param plot if TRUE (default), draw plot
#'
#' @import ggplot2
#' @export
#'
#'
DF_Trainsummary =function(used_model,plot=T){
perform_use = used_model$performance[[used_model$Method]]
used_row = which(used_model$detail[,"Model status"]=="Fit - Kept")
Detail_info = used_model$detail[used_row,]
Total_feature = unlist(Detail_info[,"Used Feature"])
tmp_feat = as.data.frame(table(Total_feature))
Feature_count=tmp_feat[order(tmp_feat[,"Total_feature"],decreasing = F),]
cat(paste("Overall Training (",used_model$Method,"): ",round(perform_use,3),"\n",sep=""))
cat(paste("Used features (in Forest): ", paste(Feature_count[,1],collapse = ', '),"\n",sep=""))
if (plot == T){
tmp_table = Detail_info
data=data.frame("Feature"=1:nrow(tmp_table),"Performance"=unlist(tmp_table[,4]))
p=ggplot(data,aes(x = Feature, y = Performance))+
#geom_point(size=4,color="black")+
geom_bar(aes(fill = Performance, alpha=1), color="black",stat = "Identity")+
scale_fill_continuous(low="brown",high="Green")+
scale_alpha_continuous(range = c(0.9,0.9),guide=FALSE)+
#geom_line(stat = "identity",colour="darkgray", size = 2)+
labs(x = "Combined Trees ", y = paste("Performance: ",used_model$Method,sep="")) + scale_x_continuous(breaks=(1:nrow(tmp_table)))
if (max(unlist(tmp_table[,4]))<1){
p=p+ylim(0,1)
}
return(p)
}else{
return(data)
}
}
#' @title multiplot
#'
#' @description Multiple plot function
#'
#' If the layout is something like matrix(c(1,2,3,3), nrow=2, byrow=TRUE),
#' then plot 1 will go in the upper left, 2 will go in the upper right, and
#' 3 will go all the way across the bottom.
#'
#' @param ... ggplot objects
#' @param plotlist a list of ggplot objects
#' @param cols Number of columns in layout
#' @param layout A matrix specifying the layout. If present, 'cols' is ignored.
#'
#' @importFrom grid grid.layout grid.newpage viewport pushViewport
#'
multiplot <- function(..., plotlist=NULL, cols=1, layout=NULL) {
# Make a list from the ... arguments and plotlist
plots <- c(list(...), plotlist)
numPlots = length(plots)
# If layout is NULL, then use 'cols' to determine layout
if (is.null(layout)) {
# Make the panel
# ncol: Number of columns of plots
# nrow: Number of rows needed, calculated from # of cols
layout <- matrix(seq(1, cols * ceiling(numPlots/cols)),
ncol = cols, nrow = ceiling(numPlots/cols))
}
if (numPlots==1) {
print(plots[[1]])
} else {
# Set up the page
grid.newpage()
pushViewport(viewport(layout = grid.layout(nrow(layout), ncol(layout))))
# Make each plot, in the correct location
for (i in 1:numPlots) {
# Get the i,j matrix positions of the regions that contain this subplot
matchidx <- as.data.frame(which(layout == i, arr.ind = TRUE))
print(plots[[i]], vp = viewport(layout.pos.row = matchidx$row,
layout.pos.col = matchidx$col))
}
}
}
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