Nothing
##----------------------------------------------------------------------------------
## Compute SNR for simulated change-points for Data Set 2
##----------------------------------------------------------------------------------
library(acnr)
library(jointSeg)
library("R.menu")
library(xtable)
source("myImagePlot.R")
## Function to compute SNR
SNRFunctionSample <- function(datReg1, datReg2, covariance, reg1, reg2){
cnReg1 <- log2(datReg1$c)-1
cnReg2 <- log2(datReg2$c)-1
dReg1 <- 2*abs(subset(datReg1, genotype==0.5)$b-1/2)
dReg2 <- 2*abs(subset(datReg2, genotype==0.5)$b-1/2)
y <- c(cn=mean(cnReg1, na.rm=TRUE)-mean(cnReg2, na.rm=TRUE), d=(mean(dReg1, na.rm=TRUE)-mean(dReg2, na.rm=TRUE)))
S0 <- covariance[[reg1]]/matrix(c(length(cnReg1), length(dReg1), length(dReg1), length(dReg1)), ncol=2, byrow=TRUE)
S1 <- covariance[[reg2]]/matrix(c(length(cnReg2), length(dReg2), length(dReg2), length(dReg2)), ncol=2, byrow=TRUE)
res <- as.numeric(t(y)%*%solve(S0+S1)%*%y)
return(res)
}
## Data set parameters
dataSet <- "CRL2324,BAF"
Chip <- "HumanCNV370v1/"
pp <- "50"
B <- 50
K <- 20
len <- 200000
## Methods which will be evaluated
candK <- 10*K
methTags <- c(sprintf("RBS+DP:log(c),d (Kmax=%s)", candK),
sprintf("GFLars+DP:log(c),d (Kmax=%s)", candK),
"PSCBS",
sprintf("RBS+DP:log(c) (Kmax=%s)", candK),
sprintf("GFLars+DP:log(c) (Kmax=%s)", candK),
"CBS:log(c)",
sprintf("DP:log(c) (Kmax=%s)", candK),
sprintf("RBS+DP:d (Kmax=%s)", candK),
sprintf("GFLars+DP:d (Kmax=%s)", candK),
"CBS:d",
sprintf("DP:d (Kmax=%s)", candK)
)
## Studied transitions
regions <- c("(0,1)", "(0,2)", "(1,1)", "(1,2)")
SNR50Meth <- lapply(methTags, function(methTag){
print(methTag)
dat <- loadCnRegionData(dataSet="GSE11976", tumorFraction=as.numeric(pp)/100)
dat$d <- 2*abs(dat$b-1/2)
dat[which(dat$genotype!=0.5),]$d <- NaN
dat$c = log2(dat$c)-1
varCN = as.matrix(by(dat$c, dat$region, var))
vard = as.matrix(by(dat$d, dat$region, var, na.rm=TRUE))
covariance <- by(cbind(dat$c,dat$d), dat$region,var,na.rm=TRUE)
for(i in 1:7){
covariance[[i]][1,1] <- varCN[i,1]
}
pathnameDat <- sprintf("simData/%s,ROC,n=2e+05,K=20,regSize=0,minL=100,pct=%s", dataSet, pp)
### Compute SNR for each profiles and each bkp
SNRResults <- lapply(1:B,function(bb){
dataSample <- loadObject(sprintf("%s/%s,ROC,n=2e+05,K=20,regSize=0,minL=100,pct=%s,b=%s.xdr",pathnameDat, dataSet, pp,bb))
start <- c(1,dataSample$bkp[-K]+1)
inter <- dataSample$bkp
end <- c(dataSample$bkp[-1],len)
temp <- mapply( function(ss,ii,ee){
## ss:ii : index for s0 (segment 0)
## ii+1:ee : index for s1 (segment 1)
datReg1 = dataSample$profile[ss:ii,]
datReg2 = dataSample$profile[(ii+1):ee,]
## Region s0
reg1 = dataSample$profile$region[ss]
## Region s1
reg2 = dataSample$profile$region[ee]
## Compute SNR for this change-point
res <- SNRFunctionSample(datReg1 = datReg1,
datReg2 = datReg2,
covariance,
reg1,
reg2)
if(is.nan(res)){res <- 0}
return(list(bkp=ii,SNR=res, reg1=reg1, reg2=reg2, len1=(ii-ss), len2=(ee-ii)))
}, start,inter,end)
return(temp)
})
### Sort bkp by missed and caught for each method.
pathnameBkp <- sprintf("bkpData/%s,ROC,n=2e+05,K=20,regSize=0,minL=100,pct=%s", dataSet, pp)
snrbymeth=data.frame(bkp=NA,SNR=NA,status=NA, reg1 = NA, reg2=NA, len1=NA, len2=NA)
for(bb in 1:50){
dataBkp <- loadObject(sprintf("%s/%s,ROC,n=2e+05,K=20,regSize=0,minL=100,pct=%s,b=%s,%s.xdr",pathnameBkp, dataSet, pp, bb, methTag))
SNRs <-SNRResults[[bb]]
trueBkp <- unlist(SNRs[1,])
candidates <- dataBkp$bestBkp
status= rep("missed",K)
res=NULL
for (cc in candidates){
distC <- abs(trueBkp-cc)
minC <- min(distC)
idx <- which(distC==minC)
if(minC<=2){
status[idx] <- "caught"
}
}
res <- data.frame(bkp=unlist(SNRs["bkp",]),SNR=as.numeric(unlist(SNRs["SNR",])),status=status,reg1=unlist(SNRs["reg1",]),reg2=unlist(SNRs["reg2",]),len1 =unlist(SNRs["len1",]), len2 = unlist(SNRs["len2",]))
snrbymeth <- rbind(snrbymeth,res)
}
snrbymeth
})
names(SNR50Meth) <- methTags
## Lists which contain for missed and caught bkp : position of bkp, region before and after bkp, SNR of bkp.
resBkpMissedBymeth <- list()
resRegMissedBymeth <- list()
resBkpCaughtBymeth <- list()
resRegCaughtBymeth <- list()
for(methTag in methTags){
resBkpMissedBymeth[[methTag]] <- which(SNR50Meth[[methTag]]$status=="missed")
resRegMissedBymeth[[methTag]][["reg1"]] <- SNR50Meth[[methTag]]$reg1[which(SNR50Meth[[methTag]]$status=="missed")]
resRegMissedBymeth[[methTag]][["reg2"]] <- SNR50Meth[[methTag]]$reg2[which(SNR50Meth[[methTag]]$status=="missed")]
resRegMissedBymeth[[methTag]][["SNR"]] <- SNR50Meth[[methTag]]$SNR[which(SNR50Meth[[methTag]]$status=="missed")]
resBkpCaughtBymeth[[methTag]] <- which(SNR50Meth[[methTag]]$status=="caught")
resRegCaughtBymeth[[methTag]][["reg1"]] <- SNR50Meth[[methTag]]$reg1[which(SNR50Meth[[methTag]]$status=="caught")]
resRegCaughtBymeth[[methTag]][["reg2"]] <- SNR50Meth[[methTag]]$reg2[which(SNR50Meth[[methTag]]$status=="caught")]
resRegCaughtBymeth[[methTag]][["SNR"]] <- SNR50Meth[[methTag]]$SNR[which(SNR50Meth[[methTag]]$status=="caught")]
}
## Bkp Missed
## Mean of SNR for Bkp missed form each method
ListSNR50Missed <- lapply(resRegMissedBymeth,
function(tt){
mapply(function(ind1,ind2){
## Reg1
reg1 <- regions[ind1]
## Reg2
reg2 <- regions[ind2]
## Transitions "reg1-reg2"
indReg1 <- which(tt$reg1==reg1)
indReg2 <- which(tt$reg2==reg2)
indReg1Reg2 <- intersect(indReg1,indReg2)
## Transitions "reg2-reg1"
indReg1 <- which(tt$reg1==reg2)
indReg2 <- which(tt$reg2==reg1)
indReg2Reg1 <- intersect(indReg1,indReg2)
## All transitions Missed
indFinal <- c(indReg1Reg2,indReg2Reg1)
return(matrix(mean(tt$SNR[indFinal]), dimnames = list(reg1, reg2)))
}, 1:length(regions), rep(1:length(regions),each=length(regions)))
})
## Change into a matrix
matMissed <-lapply(ListSNR50Missed, function(ll){
matrix(ll, nrow=length(regions), ncol = 4, byrow = FALSE,
dimnames =list(regions, regions ))
})
tt1 <- c("(0,1)", "(1,1)", "(0,1)", "(0,2)")
tt2 <- c("(0,2)", "(1,2)", "(1,1)", "(1,2)")
matSNRbkpMissed <- sapply(matMissed, function(ll){
mapply(function(reg1,reg2){
res <- ll[reg1,reg2]
names(res) <- sprintf("%s\n%s",reg1,reg2)
return(res)
},tt1, tt2, USE.NAMES=FALSE)
})
### Bkp Caught
ListSNR50Caught <- lapply(resRegCaughtBymeth,
function(tt){
mapply(
function(ind1,ind2){
## Reg1
reg1 <- regions[ind1]
## Reg2
reg2 <- regions[ind2]
## Transitions "reg1-reg2"
indReg1 <- which(tt$reg1==reg1)
indReg2 <- which(tt$reg2==reg2)
indReg1Reg2 <- intersect(indReg1,indReg2)
## Transitions "reg2-reg1"
indReg1 <- which(tt$reg1==reg2)
indReg2 <- which(tt$reg2==reg1)
indReg2Reg1 <- intersect(indReg1,indReg2)
## All transitions Caught
indFinal <- c(indReg1Reg2,indReg2Reg1)
return(matrix(mean(tt$SNR[indFinal]), dimnames = list(reg1, reg2)))
}, 1:length(regions), rep(1:length(regions),each=length(regions)))
})
## Change into a matrix
matSNRCaught <-lapply(ListSNR50Caught, function(ll){
matrix(ll, nrow=length(regions), ncol = 4, byrow = FALSE,
dimnames =list(regions, regions ))
})
matSNRbkpCaught <- sapply(matSNRCaught, function(ll){
mapply(function(reg1,reg2){
res <- ll[reg1,reg2]
names(res) <- sprintf("%s\n%s",reg1,reg2)
return(res)
},tt1, tt2, USE.NAMES=FALSE)
})
### Graphics
## Parameters
ylabs <- c("RBS","GFLars","PSCBS","RBS","GFLars","CBS","cghseg","RBS","GFLars","CBS","cghseg")
xlabs <- sprintf("%s\n%s",tt1,tt2)
ymin <- log(min(matSNRbkpMissed, matSNRbkpCaught, na.rm=TRUE))
ymax <- log(max(matSNRbkpMissed, matSNRbkpCaught, na.rm=TRUE))
ab <- c(4.5,8.5)
mar <- c(4,8,2.5,2)
pdf(sprintf("fig/SNRForMissedBkp,%s,pct=50.pdf", dataSet),width=7, height=8.5)
zM <- t(log(matSNRbkpMissed))
myImagePlot(zM, min=ymin , max=ymax, yLabels=ylabs, xLabels=xlabs,title=c(""), ab=ab,mar=mar)
dev.off()
pdf(sprintf("fig/SNRForCaughtBkp,%s,pct=50.pdf", dataSet),width=7, height=8.5)
zC <- zM <- t(log(matSNRbkpCaught))
myImagePlot(zC, min=ymin , max=ymax, yLabels=ylabs, xLabels=xlabs,title=c(""), ab=ab,mar=mar)
dev.off()
###Table
## All transitions observed
resReg <- list(reg1=SNR50Meth[[methTag]]$reg1, reg2=SNR50Meth[[methTag]]$reg2)
TransitionsObserved <- table(resReg[["reg1"]], resReg[["reg2"]])[regions, regions]
AllTransitions <-
mapply(function(reg1,reg2){
res <- TransitionsObserved[reg1, reg2] + TransitionsObserved[reg2, reg1]
names(res) <- paste(reg1, "-", reg2)
return(res)
},tt1, tt2, USE.NAMES =FALSE)
FinalTable <- t(sapply(methTags, function(methTag){
matReg <- table(resRegMissedBymeth[[methTag]][["reg1"]], resRegMissedBymeth[[methTag]][["reg2"]])[regions, regions]
MissedTransitions <-
mapply(function(reg1, reg2){
res <- matReg[reg1, reg2] + matReg[reg2, reg1]
names(res) <- paste(reg1, "-", reg2)
return(res)
},tt1, tt2, USE.NAMES =FALSE)
MissedTransitions/AllTransitions
}))
rownames(FinalTable) <- ylabs
xtable(round(FinalTable, 2))
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