Mercurial > repos > davidvanzessen > mutation_analysis
view baseline/comparePDFs.r @ 0:8a5a2abbb870 draft default tip
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author | davidvanzessen |
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date | Mon, 29 Aug 2016 05:36:10 -0400 |
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options("warn"=-1) #from http://selection.med.yale.edu/baseline/Archive/Baseline%20Version%201.3/Baseline_Functions_Version1.3.r # Compute p-value of two distributions compareTwoDistsFaster <-function(sigma_S=seq(-20,20,length.out=4001), N=10000, dens1=runif(4001,0,1), dens2=runif(4001,0,1)){ #print(c(length(dens1),length(dens2))) if(length(dens1)>1 & length(dens2)>1 ){ dens1<-dens1/sum(dens1) dens2<-dens2/sum(dens2) cum2 <- cumsum(dens2)-dens2/2 tmp<- sum(sapply(1:length(dens1),function(i)return(dens1[i]*cum2[i]))) #print(tmp) if(tmp>0.5)tmp<-tmp-1 return( tmp ) } else { return(NA) } #return (sum(sapply(1:N,function(i)(sample(sigma_S,1,prob=dens1)>sample(sigma_S,1,prob=dens2))))/N) } require("grid") arg <- commandArgs(TRUE) #arg <- c("300143","4","5") arg[!arg=="clonal"] input <- arg[1] output <- arg[2] rowIDs <- as.numeric( sapply(arg[3:(max(3,length(arg)))],function(x){ gsub("chkbx","",x) } ) ) numbSeqs = length(rowIDs) if ( is.na(rowIDs[1]) | numbSeqs>10 ) { stop( paste("Error: Please select between one and 10 seqeunces to compare.") ) } #load( paste("output/",sessionID,".RData",sep="") ) load( input ) #input xMarks = seq(-20,20,length.out=4001) plot_grid_s<-function(pdf1,pdf2,Sample=100,cex=1,xlim=NULL,xMarks = seq(-20,20,length.out=4001)){ yMax = max(c(abs(as.numeric(unlist(listPDFs[pdf1]))),abs(as.numeric(unlist(listPDFs[pdf2]))),0),na.rm=T) * 1.1 if(length(xlim==2)){ xMin=xlim[1] xMax=xlim[2] } else { xMin_CDR = xMarks[listPDFs[pdf1][[1]][["CDR"]]>0.001][1] xMin_FWR = xMarks[listPDFs[pdf1][[1]][["FWR"]]>0.001][1] xMax_CDR = xMarks[listPDFs[pdf1][[1]][["CDR"]]>0.001][length(xMarks[listPDFs[pdf1][[1]][["CDR"]]>0.001])] xMax_FWR = xMarks[listPDFs[pdf1][[1]][["FWR"]]>0.001][length(xMarks[listPDFs[pdf1][[1]][["FWR"]]>0.001])] xMin_CDR2 = xMarks[listPDFs[pdf2][[1]][["CDR"]]>0.001][1] xMin_FWR2 = xMarks[listPDFs[pdf2][[1]][["FWR"]]>0.001][1] xMax_CDR2 = xMarks[listPDFs[pdf2][[1]][["CDR"]]>0.001][length(xMarks[listPDFs[pdf2][[1]][["CDR"]]>0.001])] xMax_FWR2 = xMarks[listPDFs[pdf2][[1]][["FWR"]]>0.001][length(xMarks[listPDFs[pdf2][[1]][["FWR"]]>0.001])] xMin=min(c(xMin_CDR,xMin_FWR,xMin_CDR2,xMin_FWR2,0),na.rm=TRUE) xMax=max(c(xMax_CDR,xMax_FWR,xMax_CDR2,xMax_FWR2,0),na.rm=TRUE) } sigma<-approx(xMarks,xout=seq(xMin,xMax,length.out=Sample))$x grid.rect(gp = gpar(col=gray(0.6),fill="white",cex=cex)) x <- sigma pushViewport(viewport(x=0.175,y=0.175,width=0.825,height=0.825,just=c("left","bottom"),default.units="npc")) #pushViewport(plotViewport(c(1.8, 1.8, 0.25, 0.25)*cex)) pushViewport(dataViewport(x, c(yMax,-yMax),gp = gpar(cex=cex),extension=c(0.05))) grid.polygon(c(0,0,1,1),c(0,0.5,0.5,0),gp=gpar(col=grey(0.95),fill=grey(0.95)),default.units="npc") grid.polygon(c(0,0,1,1),c(1,0.5,0.5,1),gp=gpar(col=grey(0.9),fill=grey(0.9)),default.units="npc") grid.rect() grid.xaxis(gp = gpar(cex=cex/1.1)) yticks = pretty(c(-yMax,yMax),8) yticks = yticks[yticks>(-yMax) & yticks<(yMax)] grid.yaxis(at=yticks,label=abs(yticks),gp = gpar(cex=cex/1.1)) if(length(listPDFs[pdf1][[1]][["CDR"]])>1){ ycdr<-approx(xMarks,listPDFs[pdf1][[1]][["CDR"]],xout=seq(xMin,xMax,length.out=Sample),yleft=0,yright=0)$y grid.lines(unit(x,"native"), unit(ycdr,"native"),gp=gpar(col=2,lwd=2)) } if(length(listPDFs[pdf1][[1]][["FWR"]])>1){ yfwr<-approx(xMarks,listPDFs[pdf1][[1]][["FWR"]],xout=seq(xMin,xMax,length.out=Sample),yleft=0,yright=0)$y grid.lines(unit(x,"native"), unit(-yfwr,"native"),gp=gpar(col=4,lwd=2)) } if(length(listPDFs[pdf2][[1]][["CDR"]])>1){ ycdr2<-approx(xMarks,listPDFs[pdf2][[1]][["CDR"]],xout=seq(xMin,xMax,length.out=Sample),yleft=0,yright=0)$y grid.lines(unit(x,"native"), unit(ycdr2,"native"),gp=gpar(col=2,lwd=2,lty=2)) } if(length(listPDFs[pdf2][[1]][["FWR"]])>1){ yfwr2<-approx(xMarks,listPDFs[pdf2][[1]][["FWR"]],xout=seq(xMin,xMax,length.out=Sample),yleft=0,yright=0)$y grid.lines(unit(x,"native"), unit(-yfwr2,"native"),gp=gpar(col=4,lwd=2,lty=2)) } grid.lines(unit(c(0,1),"npc"), unit(c(0.5,0.5),"npc"),gp=gpar(col=1)) grid.lines(unit(c(0,0),"native"), unit(c(0,1),"npc"),gp=gpar(col=1,lwd=1,lty=3)) grid.text("Density", x = unit(-2.5, "lines"), rot = 90,gp = gpar(cex=cex)) grid.text( expression(paste("Selection Strength (", Sigma, ")", sep="")) , y = unit(-2.5, "lines"),gp = gpar(cex=cex)) if(pdf1==pdf2 & length(listPDFs[pdf2][[1]][["FWR"]])>1 & length(listPDFs[pdf2][[1]][["CDR"]])>1 ){ pCDRFWR = compareTwoDistsFaster(sigma_S=xMarks, N=10000, dens1=listPDFs[[pdf1]][["CDR"]], dens2=listPDFs[[pdf1]][["FWR"]]) pval = formatC(as.numeric(pCDRFWR),digits=3) grid.text( substitute(expression(paste(P[CDR/FWR], "=", x, sep="")),list(x=pval))[[2]] , x = unit(0.02, "npc"),y = unit(0.98, "npc"),just=c("left", "top"),gp = gpar(cex=cex*1.2)) } grid.text(paste("CDR"), x = unit(0.98, "npc"),y = unit(0.98, "npc"),just=c("right", "top"),gp = gpar(cex=cex*1.5)) grid.text(paste("FWR"), x = unit(0.98, "npc"),y = unit(0.02, "npc"),just=c("right", "bottom"),gp = gpar(cex=cex*1.5)) popViewport(2) } #plot_grid_s(1) p2col<-function(p=0.01){ breaks=c(-.51,-0.1,-.05,-0.01,-0.005,0,0.005,0.01,0.05,0.1,0.51) i<-findInterval(p,breaks) cols = c( rgb(0.8,1,0.8), rgb(0.6,1,0.6), rgb(0.4,1,0.4), rgb(0.2,1,0.2) , rgb(0,1,0), rgb(1,0,0), rgb(1,.2,.2), rgb(1,.4,.4), rgb(1,.6,.6) , rgb(1,.8,.8) ) return(cols[i]) } plot_pvals<-function(pdf1,pdf2,cex=1,upper=TRUE){ if(upper){ pCDR1FWR2 = compareTwoDistsFaster(sigma_S=xMarks, N=10000, dens1=listPDFs[[pdf1]][["CDR"]], dens2=listPDFs[[pdf2]][["FWR"]]) pFWR1FWR2 = compareTwoDistsFaster(sigma_S=xMarks, N=10000, dens1=listPDFs[[pdf1]][["FWR"]], dens2=listPDFs[[pdf2]][["FWR"]]) pFWR1CDR2 = compareTwoDistsFaster(sigma_S=xMarks, N=10000, dens2=listPDFs[[pdf2]][["CDR"]], dens1=listPDFs[[pdf1]][["FWR"]]) pCDR1CDR2 = compareTwoDistsFaster(sigma_S=xMarks, N=10000, dens2=listPDFs[[pdf2]][["CDR"]], dens1=listPDFs[[pdf1]][["CDR"]]) grid.polygon(c(0.5,0.5,1,1),c(0,0.5,0.5,0),gp=gpar(col=p2col(pFWR1FWR2),fill=p2col(pFWR1FWR2)),default.units="npc") grid.polygon(c(0.5,0.5,1,1),c(1,0.5,0.5,1),gp=gpar(col=p2col(pCDR1FWR2),fill=p2col(pCDR1FWR2)),default.units="npc") grid.polygon(c(0.5,0.5,0,0),c(1,0.5,0.5,1),gp=gpar(col=p2col(pCDR1CDR2),fill=p2col(pCDR1CDR2)),default.units="npc") grid.polygon(c(0.5,0.5,0,0),c(0,0.5,0.5,0),gp=gpar(col=p2col(pFWR1CDR2),fill=p2col(pFWR1CDR2)),default.units="npc") grid.lines(c(0,1),0.5,gp=gpar(lty=2,col=gray(0.925))) grid.lines(0.5,c(0,1),gp=gpar(lty=2,col=gray(0.925))) grid.text(formatC(as.numeric(pFWR1FWR2),digits=3), x = unit(0.75, "npc"),y = unit(0.25, "npc"),just=c("center", "center"),gp = gpar(cex=cex)) grid.text(formatC(as.numeric(pCDR1FWR2),digits=3), x = unit(0.75, "npc"),y = unit(0.75, "npc"),just=c("center", "center"),gp = gpar(cex=cex)) grid.text(formatC(as.numeric(pCDR1CDR2),digits=3), x = unit(0.25, "npc"),y = unit(0.75, "npc"),just=c("center", "center"),gp = gpar(cex=cex)) grid.text(formatC(as.numeric(pFWR1CDR2),digits=3), x = unit(0.25, "npc"),y = unit(0.25, "npc"),just=c("center", "center"),gp = gpar(cex=cex)) # grid.text(paste("P = ",formatC(pCDRFWR,digits=3)), x = unit(0.5, "npc"),y = unit(0.98, "npc"),just=c("center", "top"),gp = gpar(cex=cex)) # grid.text(paste("P = ",formatC(pFWRFWR,digits=3)), x = unit(0.5, "npc"),y = unit(0.02, "npc"),just=c("center", "bottom"),gp = gpar(cex=cex)) } else{ } } ################################################################################## ################## The whole OCD's matrix ######################################## ################################################################################## #pdf(width=4*numbSeqs+1/3,height=4*numbSeqs+1/3) pdf( output ,width=4*numbSeqs+1/3,height=4*numbSeqs+1/3) pushViewport(viewport(x=0.02,y=0.02,just = c("left", "bottom"),w =0.96,height=0.96,layout = grid.layout(numbSeqs+1,numbSeqs+1,widths=unit.c(unit(rep(1,numbSeqs),"null"),unit(4,"lines")),heights=unit.c(unit(4,"lines"),unit(rep(1,numbSeqs),"null"))))) for( seqOne in 1:numbSeqs+1){ pushViewport(viewport(layout.pos.col = seqOne-1, layout.pos.row = 1)) if(seqOne>2){ grid.polygon(c(0,0,0.5,0.5),c(0,0.5,0.5,0),gp=gpar(col=grey(0.5),fill=grey(0.9)),default.units="npc") grid.polygon(c(1,1,0.5,0.5),c(0,0.5,0.5,0),gp=gpar(col=grey(0.5),fill=grey(0.95)),default.units="npc") grid.polygon(c(0,0,1,1),c(1,0.5,0.5,1),gp=gpar(col=grey(0.5)),default.units="npc") grid.text(y=.25,x=0.75,"FWR",gp = gpar(cex=1.5),just="center") grid.text(y=.25,x=0.25,"CDR",gp = gpar(cex=1.5),just="center") } grid.rect(gp = gpar(col=grey(0.9))) grid.text(y=.75,substr(paste(names(listPDFs)[rowIDs[seqOne-1]]),1,16),gp = gpar(cex=2),just="center") popViewport(1) } for( seqOne in 1:numbSeqs+1){ pushViewport(viewport(layout.pos.row = seqOne, layout.pos.col = numbSeqs+1)) if(seqOne<=numbSeqs){ grid.polygon(c(0,0.5,0.5,0),c(0,0,0.5,0.5),gp=gpar(col=grey(0.5),fill=grey(0.95)),default.units="npc") grid.polygon(c(0,0.5,0.5,0),c(1,1,0.5,0.5),gp=gpar(col=grey(0.5),fill=grey(0.9)),default.units="npc") grid.polygon(c(1,0.5,0.5,1),c(0,0,1,1),gp=gpar(col=grey(0.5)),default.units="npc") grid.text(x=.25,y=0.75,"CDR",gp = gpar(cex=1.5),just="center",rot=270) grid.text(x=.25,y=0.25,"FWR",gp = gpar(cex=1.5),just="center",rot=270) } grid.rect(gp = gpar(col=grey(0.9))) grid.text(x=0.75,substr(paste(names(listPDFs)[rowIDs[seqOne-1]]),1,16),gp = gpar(cex=2),rot=270,just="center") popViewport(1) } for( seqOne in 1:numbSeqs+1){ for(seqTwo in 1:numbSeqs+1){ pushViewport(viewport(layout.pos.col = seqTwo-1, layout.pos.row = seqOne)) if(seqTwo>seqOne){ plot_pvals(rowIDs[seqOne-1],rowIDs[seqTwo-1],cex=2) grid.rect() } popViewport(1) } } xMin=0 xMax=0.01 for(pdf1 in rowIDs){ xMin_CDR = xMarks[listPDFs[pdf1][[1]][["CDR"]]>0.001][1] xMin_FWR = xMarks[listPDFs[pdf1][[1]][["FWR"]]>0.001][1] xMax_CDR = xMarks[listPDFs[pdf1][[1]][["CDR"]]>0.001][length(xMarks[listPDFs[pdf1][[1]][["CDR"]]>0.001])] xMax_FWR = xMarks[listPDFs[pdf1][[1]][["FWR"]]>0.001][length(xMarks[listPDFs[pdf1][[1]][["FWR"]]>0.001])] xMin=min(c(xMin_CDR,xMin_FWR,xMin),na.rm=TRUE) xMax=max(c(xMax_CDR,xMax_FWR,xMax),na.rm=TRUE) } for(i in 1:numbSeqs+1){ for(j in (i-1):numbSeqs){ pushViewport(viewport(layout.pos.col = i-1, layout.pos.row = j+1)) grid.rect() plot_grid_s(rowIDs[i-1],rowIDs[j],cex=1) popViewport(1) } } dev.off() cat("Success", paste(rowIDs,collapse="_"),sep=":")