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R/rw1scanBam.r
In ramwas: Fast Methylome-Wide Association Study Pipeline for Enrichment Platforms
Defines functions
ramwas1scanBams
.ramwas1scanBamJob
pipelineProcessBam
bam.scanBamFile
pipelineSaveQCplots
Documented in
pipelineProcessBam
ramwas1scanBams
# Make QC plots for an Rbam
pipelineSaveQCplots = function(param, rbam, bamname){
filename = sprintf("%s/score/hs_%s.pdf", param$dirqc, bamname);
dir.create(dirname(filename), showWarnings = FALSE, recursive = TRUE);
pdf(filename);
plot(rbam$qc$hist.score1, samplename = bamname);
plot(rbam$qc$bf.hist.score1, samplename = bamname);
dev.off();
rm(filename);
filename = sprintf("%s/edit_distance/ed_%s.pdf", param$dirqc, bamname);
dir.create(dirname(filename), showWarnings = FALSE, recursive = TRUE);
pdf(filename);
plot(rbam$qc$hist.edit.dist1, samplename = bamname);
plot(rbam$qc$bf.hist.edit.dist1, samplename = bamname);
dev.off();
rm(filename);
filename = sprintf("%s/matched_length/ml_%s.pdf", param$dirqc, bamname);
dir.create(dirname(filename), showWarnings = FALSE, recursive = TRUE);
pdf(filename);
plot(rbam$qc$hist.length.matched, samplename = bamname);
plot(rbam$qc$bf.hist.length.matched, samplename = bamname);
dev.off();
rm(filename);
if( !is.null(rbam$qc$hist.isolated.dist1) ){
filename = sprintf("%s/isolated_distance/id_%s.pdf",
param$dirqc, bamname);
dir.create(dirname(filename), showWarnings = FALSE, recursive = TRUE);
pdf(filename);
plot(rbam$qc$hist.isolated.dist1, samplename = bamname);
dev.off();
rm(filename);
}
if( !is.null(rbam$qc$avg.coverage.by.density) ){
filename = sprintf("%s/isolated_distance/cbd_%s.pdf",
param$dirqc, bamname);
dir.create(dirname(filename), showWarnings = FALSE, recursive = TRUE);
pdf(filename);
plot(rbam$qc$avg.coverage.by.density, samplename = bamname);
dev.off();
rm(filename);
}
}
# Scan a BAM file into Rbam object
bam.scanBamFile = function(bamfilename, scoretag = "MAPQ", minscore = 4){
fields = c("qname", "rname", "pos", "cigar", "flag");
# "qname" is read name, "rname" is chromosome
tags = "NM";# character();
# Open the BAM file
{
if(nchar(scoretag) == 2){
scoretag = toupper(scoretag);
tags = c(tags, scoretag);
} else {
scoretag = tolower(scoretag);
fields = c(fields,scoretag);
}
flag = scanBamFlag(isUnmappedQuery=NA, isSecondMateRead=FALSE);
param = ScanBamParam(flag=flag, what=fields, tag=tags);
bf = BamFile(bamfilename, yieldSize=1e6) ## typically, yieldSize=1e6
open(bf);
rm(fields, tags, flag);
} # bf, param
qc = list(nbams = 1L);
startlistfwd = NULL;
repeat{
### Read "yieldSize" rows
bb = scanBam(file=bf, param=param)[[1]];
if( length(bb[[1]])==0 )
break;
### Put tags in the main list
bb = c(bb[names(bb) != "tag"], bb$tag);
# stopifnot( length(bb[[scoretag]]) == length(bb[[1]]) )
### Create output lists
if(is.null(startlistfwd)){
startlistfwd = vector("list",length(levels(bb$rname)));
startlistrev = vector("list",length(levels(bb$rname)));
names(startlistfwd) = levels(bb$rname);
names(startlistrev) = levels(bb$rname);
startlistfwd[] = list(list())
startlistrev[] = list(list())
} # startlistfwd, startlistrev
### Keep only primary reads
{
keep = bitwAnd(bb$flag, 256L) == 0L;
if(!all(keep))
bb = lapply(bb,`[`,which(keep));
rm(keep);
}
qc$reads.total = qc$reads.total %add% length(bb[[1]]);
### Keep only aligned reads
{
keep = bitwAnd(bb$flag, 4L) == 0L;
if(!all(keep))
bb = lapply(bb,`[`,which(keep));
rm(keep);
}
if(length(bb[[1]])==0){
message(sprintf("Recorded %.f of %.f reads",
qc$reads.recorded,qc$reads.total));
next;
}
bb$matchedAlongQuerySpace =
cigarWidthAlongQuerySpace(bb$cigar,after.soft.clipping = TRUE);
qc$reads.aligned =
qc$reads.aligned %add% length(bb[[1]]);
qc$bf.hist.score1 =
qc$bf.hist.score1 %add% tabulate(pmax(bb[[scoretag]]+1L,1L));
qc$bf.hist.edit.dist1 =
qc$bf.hist.edit.dist1 %add% tabulate(bb$NM+1L);
qc$bf.hist.length.matched =
qc$bf.hist.length.matched %add% tabulate(bb$matchedAlongQuerySpace);
### Keep score >= minscore
if( !is.null(minscore) ){
score = bb[[scoretag]];
keep = score >= minscore;
keep[is.na(keep)] = FALSE;
if(!all(keep))
bb = lapply(bb,`[`,which(keep));
rm(keep);
}
qc$reads.recorded =
qc$reads.recorded %add% length(bb[[1]]);
qc$hist.score1 =
qc$hist.score1 %add% tabulate(pmax(bb[[scoretag]]+1L,1L));
qc$hist.edit.dist1 =
qc$hist.edit.dist1 %add% tabulate(bb$NM+1L);
qc$hist.length.matched =
qc$hist.length.matched %add% tabulate(bb$matchedAlongQuerySpace);
### Forward vs. Reverse strand
bb$isReverse = bitwAnd(bb$flag, 0x10) > 0;
qc$frwrev = qc$frwrev %add% tabulate(bb$isReverse + 1L)
### Read start positions (accounting for direction)
{
bb$startpos = bb$pos;
bb$startpos[bb$isReverse] = bb$startpos[bb$isReverse] +
(cigarWidthAlongReferenceSpace(bb$cigar[bb$isReverse])-1L) - 1L;
# Last -1L is for shift from C on reverse strand to C on the forward
} # startpos
### Split and store the start locations
{
offset = length(startlistfwd);
split.levels = as.integer(bb$rname) + offset*bb$isReverse;
levels(split.levels) = c(
names(startlistfwd),
paste0(names(startlistfwd),"-"));
class(split.levels) = "factor";
splt = split( bb$startpos, split.levels, drop = FALSE);
# print(vapply(splt,length,0))
for( i in seq_along(startlistfwd) ){
if( length(splt[i]) > 0 ){
startlistfwd[[i]][[length(startlistfwd[[i]])+1L]] =
splt[[i]];
}
if( length(splt[i+offset]) > 0 ){
startlistrev[[i]][[length(startlistrev[[i]])+1L]] =
splt[[i+offset]];
}
}
rm(offset, split.levels, splt);
} # startlistfwd, startlistrev
message(sprintf("Recorded %.f of %.f reads",
qc$reads.recorded,qc$reads.total));
}
close(bf);
rm(bf); # , oldtail
startsfwd = startlistfwd;
startsrev = startlistrev;
### combine and sort lists in "outlist"
for( i in seq_along(startlistfwd) ){
startsfwd[[i]] = sort.int(unlist(startlistfwd[[i]]));
startsrev[[i]] = sort.int(unlist(startlistrev[[i]]));
}
gc();
if( !is.null(qc$hist.score1))
class(qc$hist.score1) = "qcHistScore";
if( !is.null(qc$bf.hist.score1))
class(qc$bf.hist.score1) = "qcHistScoreBF";
if( !is.null(qc$hist.edit.dist1))
class(qc$hist.edit.dist1) = "qcEditDist";
if( !is.null(qc$bf.hist.edit.dist1))
class(qc$bf.hist.edit.dist1) = "qcEditDistBF";
if( !is.null(qc$hist.length.matched))
class(qc$hist.length.matched) = "qcLengthMatched";
if( !is.null(qc$bf.hist.length.matched))
class(qc$bf.hist.length.matched) = "qcLengthMatchedBF";
if( !is.null(qc$frwrev) )
class(qc$frwrev) = "qcFrwrev";
info = list(bamname = bamfilename,
scoretag = scoretag,
minscore = minscore,
filesize = file.size(bamfilename));
rbam = list(startsfwd = startsfwd,
startsrev = startsrev,
qc = qc,
info = info);
return( rbam );
}
# Scan a BAM, calculate QCs, generate plots
pipelineProcessBam = function(bamname, param){
# Used parameters: scoretag, minscore, filecpgset, maxrepeats
param = parameterPreprocess(param);
if( !is.null(param$filecpgset) && is.null(param$maxfragmentsize) )
return("Parameter not set: maxfragmentsize");
bamname = gsub("\\.bam$", "", bamname, ignore.case = TRUE);
bamfullname = makefullpath(param$dirbam, paste0(bamname,".bam"))
dir.create(param$dirrbam, showWarnings = FALSE, recursive = TRUE)
dir.create(param$dirrqc, showWarnings = FALSE, recursive = TRUE)
rdsbmfile = paste0(param$dirrbam, "/", basename(bamname), ".rbam.rds");
rdsqcfile = paste0(param$dirrqc, "/", basename(bamname), ".qc.rds");
savebam = TRUE;
rbam = NULL;
if( file.exists(rdsqcfile) & file.exists(rdsbmfile) ){
if( param$recalculate.QCs ){
### Precache the input rds file
rbam = readRDS(rdsbmfile);
savebam = FALSE;
} else {
if( !file.exists( bamfullname ) )
return(paste0("Rbam rds file already exists",
" (no bam): ", rdsqcfile));
if( file.mtime(rdsbmfile) > file.mtime(bamfullname) )
return(paste0("Rbam rds file already exists",
" (newer than bam): ", rdsqcfile));
}
}
if( is.null(rbam) ){
if( !file.exists( bamfullname ) )
return(paste0("Bam file does not exist: ", bamfullname));
rbam = bam.scanBamFile(
bamfilename = bamfullname,
scoretag = param$scoretag,
minscore = param$minscore);
}
rbam2 = bam.removeRepeats(rbam, param$maxrepeats);
rbam2 = bam.chrXY.qc(rbam2);
rbam2$qc$nbams = 1L;
if( !is.null(param$filecpgset) ){
cpgset = cachedRDSload(param$filecpgset);
noncpgset = cachedRDSload(param$filenoncpgset);
isocpgset = isocpgSitesFromCpGset(
cpgset = cpgset,
distance = param$maxfragmentsize);
rbam3 = bam.hist.isolated.distances(
rbam = rbam2,
isocpgset = isocpgset,
distance = param$maxfragmentsize);
rbam4 = bam.coverage.by.density(
rbam = rbam3,
cpgset = cpgset,
noncpgset = noncpgset,
minfragmentsize = param$minfragmentsize,
maxfragmentsize = param$maxfragmentsize)
rbam5 = bam.count.nonCpG.reads(
rbam = rbam4,
cpgset = cpgset,
distance = param$maxfragmentsize);
### QC plots
pipelineSaveQCplots(param, rbam5, basename(bamname));
} else {
rbam5 = rbam2;
}
# .qc qcmean(rbam5$qc$chrX.count)
# rbam5$qc$chrX.count[1]/rbam5$qc$chrX.count[2]
# message(.qcTextLine(rbam5$qc, bamname))
if(savebam)
saveRDS( object = rbam5, file = rdsbmfile, compress = "xz");
rbam6 = rbam5;
rbam6$startsfwd = NULL;
rbam6$startsrev = NULL;
saveRDS( object = rbam6, file = rdsqcfile, compress = "xz");
return(NULL);
}
# Parallel job function
.ramwas1scanBamJob = function(bamname, param){
ld = param$dirfilter;
.log(ld, "%s, Process %06d, Starting BAM: %s",
date(), Sys.getpid(), bamname);
rez = pipelineProcessBam(bamname = bamname, param = param);
.log(ld, "%s, Process %06d, Finished BAM: %s",
date(), Sys.getpid(), bamname);
return(rez);
}
# Step 1 of the pipeline
ramwas1scanBams = function( param ){
param = parameterPreprocess(param);
ld = param$dirfilter;
# Parameter checks
if( is.null(param$bamnames) )
stop("BAM names must be specified. ",
"See \"filebamlist\" or \"bamnames\" parameter.");
if( !dir.exists(param$dirbam) )
stop("Directory with BAM files not found: ",
param$dirbam, "\n",
"See \"dirbam\" parameter");
for( nm in param$bamname ){ # nm = param$bamname[1]
fn = makefullpath(param$dirbam, paste0(nm, ".bam"));
if( !file.exists(fn) )
stop("BAM file not found: ", fn);
}
if( !is.null(param$filecpgset) && is.null(param$maxfragmentsize) )
stop("Parameter not set: maxfragmentsize");
dir.create(param$dirfilter, showWarnings = FALSE, recursive = TRUE);
.log(ld, "%s, Start ramwas1scanBams() call", date(), append = FALSE);
nthreads = min(param$cputhreads, length(param$bamname));
if( nthreads > 1 ){
cl = makeCluster(nthreads);
on.exit({stopCluster(cl);});
logfun = .logErrors(ld, .ramwas1scanBamJob);
z = clusterApplyLB(
cl = cl,
x = param$bamnames,
fun = logfun,
param = param);
tmp = sys.on.exit();
eval(tmp);
rm(tmp);
on.exit();
} else {
z = vector("list", length(param$bamnames));
names(z) = param$bamnames;
for( i in seq_along(param$bamnames) ){ # i=1
z[[i]] = .ramwas1scanBamJob(
bamname = param$bamnames[i],
param = param);
}
}
.showErrors(z);
.log(ld, "%s, Done ramwas1scanBams() call", date());
return(invisible(z));
}
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Defines functions ramwas1scanBams .ramwas1scanBamJob pipelineProcessBam bam.scanBamFile pipelineSaveQCplots
Documented in pipelineProcessBam ramwas1scanBams
# Make QC plots for an Rbam
pipelineSaveQCplots = function(param, rbam, bamname){
filename = sprintf("%s/score/hs_%s.pdf", param$dirqc, bamname);
dir.create(dirname(filename), showWarnings = FALSE, recursive = TRUE);
pdf(filename);
plot(rbam$qc$hist.score1, samplename = bamname);
plot(rbam$qc$bf.hist.score1, samplename = bamname);
dev.off();
rm(filename);
filename = sprintf("%s/edit_distance/ed_%s.pdf", param$dirqc, bamname);
dir.create(dirname(filename), showWarnings = FALSE, recursive = TRUE);
pdf(filename);
plot(rbam$qc$hist.edit.dist1, samplename = bamname);
plot(rbam$qc$bf.hist.edit.dist1, samplename = bamname);
dev.off();
rm(filename);
filename = sprintf("%s/matched_length/ml_%s.pdf", param$dirqc, bamname);
dir.create(dirname(filename), showWarnings = FALSE, recursive = TRUE);
pdf(filename);
plot(rbam$qc$hist.length.matched, samplename = bamname);
plot(rbam$qc$bf.hist.length.matched, samplename = bamname);
dev.off();
rm(filename);
if( !is.null(rbam$qc$hist.isolated.dist1) ){
filename = sprintf("%s/isolated_distance/id_%s.pdf",
param$dirqc, bamname);
dir.create(dirname(filename), showWarnings = FALSE, recursive = TRUE);
pdf(filename);
plot(rbam$qc$hist.isolated.dist1, samplename = bamname);
dev.off();
rm(filename);
}
if( !is.null(rbam$qc$avg.coverage.by.density) ){
filename = sprintf("%s/isolated_distance/cbd_%s.pdf",
param$dirqc, bamname);
dir.create(dirname(filename), showWarnings = FALSE, recursive = TRUE);
pdf(filename);
plot(rbam$qc$avg.coverage.by.density, samplename = bamname);
dev.off();
rm(filename);
}
}
# Scan a BAM file into Rbam object
bam.scanBamFile = function(bamfilename, scoretag = "MAPQ", minscore = 4){
fields = c("qname", "rname", "pos", "cigar", "flag");
# "qname" is read name, "rname" is chromosome
tags = "NM";# character();
# Open the BAM file
{
if(nchar(scoretag) == 2){
scoretag = toupper(scoretag);
tags = c(tags, scoretag);
} else {
scoretag = tolower(scoretag);
fields = c(fields,scoretag);
}
flag = scanBamFlag(isUnmappedQuery=NA, isSecondMateRead=FALSE);
param = ScanBamParam(flag=flag, what=fields, tag=tags);
bf = BamFile(bamfilename, yieldSize=1e6) ## typically, yieldSize=1e6
open(bf);
rm(fields, tags, flag);
} # bf, param
qc = list(nbams = 1L);
startlistfwd = NULL;
repeat{
### Read "yieldSize" rows
bb = scanBam(file=bf, param=param)[[1]];
if( length(bb[[1]])==0 )
break;
### Put tags in the main list
bb = c(bb[names(bb) != "tag"], bb$tag);
# stopifnot( length(bb[[scoretag]]) == length(bb[[1]]) )
### Create output lists
if(is.null(startlistfwd)){
startlistfwd = vector("list",length(levels(bb$rname)));
startlistrev = vector("list",length(levels(bb$rname)));
names(startlistfwd) = levels(bb$rname);
names(startlistrev) = levels(bb$rname);
startlistfwd[] = list(list())
startlistrev[] = list(list())
} # startlistfwd, startlistrev
### Keep only primary reads
{
keep = bitwAnd(bb$flag, 256L) == 0L;
if(!all(keep))
bb = lapply(bb,`[`,which(keep));
rm(keep);
}
qc$reads.total = qc$reads.total %add% length(bb[[1]]);
### Keep only aligned reads
{
keep = bitwAnd(bb$flag, 4L) == 0L;
if(!all(keep))
bb = lapply(bb,`[`,which(keep));
rm(keep);
}
if(length(bb[[1]])==0){
message(sprintf("Recorded %.f of %.f reads",
qc$reads.recorded,qc$reads.total));
next;
}
bb$matchedAlongQuerySpace =
cigarWidthAlongQuerySpace(bb$cigar,after.soft.clipping = TRUE);
qc$reads.aligned =
qc$reads.aligned %add% length(bb[[1]]);
qc$bf.hist.score1 =
qc$bf.hist.score1 %add% tabulate(pmax(bb[[scoretag]]+1L,1L));
qc$bf.hist.edit.dist1 =
qc$bf.hist.edit.dist1 %add% tabulate(bb$NM+1L);
qc$bf.hist.length.matched =
qc$bf.hist.length.matched %add% tabulate(bb$matchedAlongQuerySpace);
### Keep score >= minscore
if( !is.null(minscore) ){
score = bb[[scoretag]];
keep = score >= minscore;
keep[is.na(keep)] = FALSE;
if(!all(keep))
bb = lapply(bb,`[`,which(keep));
rm(keep);
}
qc$reads.recorded =
qc$reads.recorded %add% length(bb[[1]]);
qc$hist.score1 =
qc$hist.score1 %add% tabulate(pmax(bb[[scoretag]]+1L,1L));
qc$hist.edit.dist1 =
qc$hist.edit.dist1 %add% tabulate(bb$NM+1L);
qc$hist.length.matched =
qc$hist.length.matched %add% tabulate(bb$matchedAlongQuerySpace);
### Forward vs. Reverse strand
bb$isReverse = bitwAnd(bb$flag, 0x10) > 0;
qc$frwrev = qc$frwrev %add% tabulate(bb$isReverse + 1L)
### Read start positions (accounting for direction)
{
bb$startpos = bb$pos;
bb$startpos[bb$isReverse] = bb$startpos[bb$isReverse] +
(cigarWidthAlongReferenceSpace(bb$cigar[bb$isReverse])-1L) - 1L;
# Last -1L is for shift from C on reverse strand to C on the forward
} # startpos
### Split and store the start locations
{
offset = length(startlistfwd);
split.levels = as.integer(bb$rname) + offset*bb$isReverse;
levels(split.levels) = c(
names(startlistfwd),
paste0(names(startlistfwd),"-"));
class(split.levels) = "factor";
splt = split( bb$startpos, split.levels, drop = FALSE);
# print(vapply(splt,length,0))
for( i in seq_along(startlistfwd) ){
if( length(splt[i]) > 0 ){
startlistfwd[[i]][[length(startlistfwd[[i]])+1L]] =
splt[[i]];
}
if( length(splt[i+offset]) > 0 ){
startlistrev[[i]][[length(startlistrev[[i]])+1L]] =
splt[[i+offset]];
}
}
rm(offset, split.levels, splt);
} # startlistfwd, startlistrev
message(sprintf("Recorded %.f of %.f reads",
qc$reads.recorded,qc$reads.total));
}
close(bf);
rm(bf); # , oldtail
startsfwd = startlistfwd;
startsrev = startlistrev;
### combine and sort lists in "outlist"
for( i in seq_along(startlistfwd) ){
startsfwd[[i]] = sort.int(unlist(startlistfwd[[i]]));
startsrev[[i]] = sort.int(unlist(startlistrev[[i]]));
}
gc();
if( !is.null(qc$hist.score1))
class(qc$hist.score1) = "qcHistScore";
if( !is.null(qc$bf.hist.score1))
class(qc$bf.hist.score1) = "qcHistScoreBF";
if( !is.null(qc$hist.edit.dist1))
class(qc$hist.edit.dist1) = "qcEditDist";
if( !is.null(qc$bf.hist.edit.dist1))
class(qc$bf.hist.edit.dist1) = "qcEditDistBF";
if( !is.null(qc$hist.length.matched))
class(qc$hist.length.matched) = "qcLengthMatched";
if( !is.null(qc$bf.hist.length.matched))
class(qc$bf.hist.length.matched) = "qcLengthMatchedBF";
if( !is.null(qc$frwrev) )
class(qc$frwrev) = "qcFrwrev";
info = list(bamname = bamfilename,
scoretag = scoretag,
minscore = minscore,
filesize = file.size(bamfilename));
rbam = list(startsfwd = startsfwd,
startsrev = startsrev,
qc = qc,
info = info);
return( rbam );
}
# Scan a BAM, calculate QCs, generate plots
pipelineProcessBam = function(bamname, param){
# Used parameters: scoretag, minscore, filecpgset, maxrepeats
param = parameterPreprocess(param);
if( !is.null(param$filecpgset) && is.null(param$maxfragmentsize) )
return("Parameter not set: maxfragmentsize");
bamname = gsub("\\.bam$", "", bamname, ignore.case = TRUE);
bamfullname = makefullpath(param$dirbam, paste0(bamname,".bam"))
dir.create(param$dirrbam, showWarnings = FALSE, recursive = TRUE)
dir.create(param$dirrqc, showWarnings = FALSE, recursive = TRUE)
rdsbmfile = paste0(param$dirrbam, "/", basename(bamname), ".rbam.rds");
rdsqcfile = paste0(param$dirrqc, "/", basename(bamname), ".qc.rds");
savebam = TRUE;
rbam = NULL;
if( file.exists(rdsqcfile) & file.exists(rdsbmfile) ){
if( param$recalculate.QCs ){
### Precache the input rds file
rbam = readRDS(rdsbmfile);
savebam = FALSE;
} else {
if( !file.exists( bamfullname ) )
return(paste0("Rbam rds file already exists",
" (no bam): ", rdsqcfile));
if( file.mtime(rdsbmfile) > file.mtime(bamfullname) )
return(paste0("Rbam rds file already exists",
" (newer than bam): ", rdsqcfile));
}
}
if( is.null(rbam) ){
if( !file.exists( bamfullname ) )
return(paste0("Bam file does not exist: ", bamfullname));
rbam = bam.scanBamFile(
bamfilename = bamfullname,
scoretag = param$scoretag,
minscore = param$minscore);
}
rbam2 = bam.removeRepeats(rbam, param$maxrepeats);
rbam2 = bam.chrXY.qc(rbam2);
rbam2$qc$nbams = 1L;
if( !is.null(param$filecpgset) ){
cpgset = cachedRDSload(param$filecpgset);
noncpgset = cachedRDSload(param$filenoncpgset);
isocpgset = isocpgSitesFromCpGset(
cpgset = cpgset,
distance = param$maxfragmentsize);
rbam3 = bam.hist.isolated.distances(
rbam = rbam2,
isocpgset = isocpgset,
distance = param$maxfragmentsize);
rbam4 = bam.coverage.by.density(
rbam = rbam3,
cpgset = cpgset,
noncpgset = noncpgset,
minfragmentsize = param$minfragmentsize,
maxfragmentsize = param$maxfragmentsize)
rbam5 = bam.count.nonCpG.reads(
rbam = rbam4,
cpgset = cpgset,
distance = param$maxfragmentsize);
### QC plots
pipelineSaveQCplots(param, rbam5, basename(bamname));
} else {
rbam5 = rbam2;
}
# .qc qcmean(rbam5$qc$chrX.count)
# rbam5$qc$chrX.count[1]/rbam5$qc$chrX.count[2]
# message(.qcTextLine(rbam5$qc, bamname))
if(savebam)
saveRDS( object = rbam5, file = rdsbmfile, compress = "xz");
rbam6 = rbam5;
rbam6$startsfwd = NULL;
rbam6$startsrev = NULL;
saveRDS( object = rbam6, file = rdsqcfile, compress = "xz");
return(NULL);
}
# Parallel job function
.ramwas1scanBamJob = function(bamname, param){
ld = param$dirfilter;
.log(ld, "%s, Process %06d, Starting BAM: %s",
date(), Sys.getpid(), bamname);
rez = pipelineProcessBam(bamname = bamname, param = param);
.log(ld, "%s, Process %06d, Finished BAM: %s",
date(), Sys.getpid(), bamname);
return(rez);
}
# Step 1 of the pipeline
ramwas1scanBams = function( param ){
param = parameterPreprocess(param);
ld = param$dirfilter;
# Parameter checks
if( is.null(param$bamnames) )
stop("BAM names must be specified. ",
"See \"filebamlist\" or \"bamnames\" parameter.");
if( !dir.exists(param$dirbam) )
stop("Directory with BAM files not found: ",
param$dirbam, "\n",
"See \"dirbam\" parameter");
for( nm in param$bamname ){ # nm = param$bamname[1]
fn = makefullpath(param$dirbam, paste0(nm, ".bam"));
if( !file.exists(fn) )
stop("BAM file not found: ", fn);
}
if( !is.null(param$filecpgset) && is.null(param$maxfragmentsize) )
stop("Parameter not set: maxfragmentsize");
dir.create(param$dirfilter, showWarnings = FALSE, recursive = TRUE);
.log(ld, "%s, Start ramwas1scanBams() call", date(), append = FALSE);
nthreads = min(param$cputhreads, length(param$bamname));
if( nthreads > 1 ){
cl = makeCluster(nthreads);
on.exit({stopCluster(cl);});
logfun = .logErrors(ld, .ramwas1scanBamJob);
z = clusterApplyLB(
cl = cl,
x = param$bamnames,
fun = logfun,
param = param);
tmp = sys.on.exit();
eval(tmp);
rm(tmp);
on.exit();
} else {
z = vector("list", length(param$bamnames));
names(z) = param$bamnames;
for( i in seq_along(param$bamnames) ){ # i=1
z[[i]] = .ramwas1scanBamJob(
bamname = param$bamnames[i],
param = param);
}
}
.showErrors(z);
.log(ld, "%s, Done ramwas1scanBams() call", date());
return(invisible(z));
}
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