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R/CreateVectors.R
In FISHalyseR: FISHalyseR a package for automated FISH quantification
Defines functions
CreateOutputAreaVector
CreateOutputDistanceVector
###
#
# calculate the distance vector from the distances matrix
#
###
CreateOutputDistanceVector <- function(Channel,iCell,maxProbe,isOneColour){
if(maxProbe[1]!=0 && maxProbe[2]!=0){
ProbeIds<-unique(Channel[which(Channel[,2]==iCell),3]) #sort by size
# is different colour total connection per cell - maxCol1 x maxCol2
if(isOneColour==0){
dVector<-matrix(data=NA, ncol=maxProbe[1]*maxProbe[2], nrow=1)
}else if (isOneColour==1){
sum<-0
for(i in 1:maxProbe[1]){
sum<-sum +i
}
dVector<-matrix(data=NA,ncol=sum,nrow=1)
}
# we find some probes
if (length(ProbeIds)>0) {
# atleast two rows per cell id
if (isTRUE(dim(Channel[which(Channel[,2]==iCell),])[1]>1)){
# contains distances per cell id as a matrix
SubChannel<-Channel[which(Channel[,2]==iCell),]
}else{
# make matrix format if it is one row
SubChannel<-t(as.matrix(Channel[which(Channel[,2]==iCell),]))
}
if(isOneColour==1){
pos <- maxProbe[1]
first <- 1
for( i in ProbeIds){
lastlen <- (first+pos) -1
# print (paste(first," " ,i2))
dVector[1,first:lastlen] <- c(SubChannel[which(SubChannel[,3]==i)][1:pos])
first <- first+pos
pos <- pos -1
}
}else if(isOneColour==0){
idVector=seq(1, maxProbe[1]*maxProbe[2], maxProbe[2])
pos<-1
for (i in ProbeIds){
dVector[1,idVector[pos]:(idVector[pos]+(maxProbe[2]-1))]<-c(SubChannel[which(SubChannel[,3]==i)][1:maxProbe[2]]) #sort()
pos <- pos +1
}
}
}
}else{
dVector = matrix(data=c(-999), nrow=1, ncol=1)
}
return (dVector)
}
###
#
# Channel - features of the probes with their cell id
# MaxNElements - maximum no of probes within a cell
# more MaxNElements - sorted select first MaxNElements
# less MaxNElements - fill with NA
# return the areas of the probe within a cell
#
###
CreateOutputAreaVector <- function(Channel,iCell,MaxNElements){
# iCell is the CellID
if(MaxNElements!=0){
celIndex = ncol(Channel)
nProbes<-length(Channel[which(Channel[,celIndex]==iCell),'x.0.s.area'])
aVector <- matrix(data=NA, ncol=MaxNElements+1, nrow=1)
if(nProbes>0){
aVector[1,1:nProbes] <-Channel[which(Channel[,celIndex]==iCell),'x.0.s.area']
}
}else{
dVector = matrix(data=c(-999), nrow=1, ncol=1)
}
return(aVector)
}
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FISHalyseR documentation built on Nov. 8, 2020, 5:30 p.m.
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Defines functions CreateOutputAreaVector CreateOutputDistanceVector
###
#
# calculate the distance vector from the distances matrix
#
###
CreateOutputDistanceVector <- function(Channel,iCell,maxProbe,isOneColour){
if(maxProbe[1]!=0 && maxProbe[2]!=0){
ProbeIds<-unique(Channel[which(Channel[,2]==iCell),3]) #sort by size
# is different colour total connection per cell - maxCol1 x maxCol2
if(isOneColour==0){
dVector<-matrix(data=NA, ncol=maxProbe[1]*maxProbe[2], nrow=1)
}else if (isOneColour==1){
sum<-0
for(i in 1:maxProbe[1]){
sum<-sum +i
}
dVector<-matrix(data=NA,ncol=sum,nrow=1)
}
# we find some probes
if (length(ProbeIds)>0) {
# atleast two rows per cell id
if (isTRUE(dim(Channel[which(Channel[,2]==iCell),])[1]>1)){
# contains distances per cell id as a matrix
SubChannel<-Channel[which(Channel[,2]==iCell),]
}else{
# make matrix format if it is one row
SubChannel<-t(as.matrix(Channel[which(Channel[,2]==iCell),]))
}
if(isOneColour==1){
pos <- maxProbe[1]
first <- 1
for( i in ProbeIds){
lastlen <- (first+pos) -1
# print (paste(first," " ,i2))
dVector[1,first:lastlen] <- c(SubChannel[which(SubChannel[,3]==i)][1:pos])
first <- first+pos
pos <- pos -1
}
}else if(isOneColour==0){
idVector=seq(1, maxProbe[1]*maxProbe[2], maxProbe[2])
pos<-1
for (i in ProbeIds){
dVector[1,idVector[pos]:(idVector[pos]+(maxProbe[2]-1))]<-c(SubChannel[which(SubChannel[,3]==i)][1:maxProbe[2]]) #sort()
pos <- pos +1
}
}
}
}else{
dVector = matrix(data=c(-999), nrow=1, ncol=1)
}
return (dVector)
}
###
#
# Channel - features of the probes with their cell id
# MaxNElements - maximum no of probes within a cell
# more MaxNElements - sorted select first MaxNElements
# less MaxNElements - fill with NA
# return the areas of the probe within a cell
#
###
CreateOutputAreaVector <- function(Channel,iCell,MaxNElements){
# iCell is the CellID
if(MaxNElements!=0){
celIndex = ncol(Channel)
nProbes<-length(Channel[which(Channel[,celIndex]==iCell),'x.0.s.area'])
aVector <- matrix(data=NA, ncol=MaxNElements+1, nrow=1)
if(nProbes>0){
aVector[1,1:nProbes] <-Channel[which(Channel[,celIndex]==iCell),'x.0.s.area']
}
}else{
dVector = matrix(data=c(-999), nrow=1, ncol=1)
}
return(aVector)
}
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