R/methods-MAQMapQA.R
In Bioconductor/ShortRead: FASTQ input and manipulation
Defines functions
.qa_MAQMap
.qa_MAQMap_lane
.maq_reverse
.MAQMapQA
.MAQMapQA <- function(x, ...)
{
new("MAQMapQA", .srlist=x, ...)
}
.maq_reverse <- function(aln)
{
plus <- strand(aln) == "+"
new("AlignedRead",
append(aln[plus], aln[!plus]),
sread=append(
sread(aln)[plus],
reverseComplement(sread(aln)[!plus])),
quality=append(
quality(aln)[plus],
FastqQuality(reverse(quality(quality(aln)[!plus])))))
}
.qa_MAQMap_lane <-
function(dirPath, pattern, type, ..., verbose=FALSE)
{
if (verbose)
message("qa '", type, "' pattern: ", pattern, sep="")
rpt <- .maq_reverse(readAligned(dirPath, pattern, type, ...))
alf <- .qa_alphabetFrequency(sread(rpt), baseOnly=TRUE, collapse=TRUE)
bqtbl <- .qa_alphabetFrequency(quality(rpt), collapse=TRUE)
rqs <- .qa_qdensity(quality(rpt))
freqtbl <- tables(sread(rpt))
abc <- alphabetByCycle(rpt)
perCycleBaseCall <- .qa_perCycleBaseCall(abc, pattern)
perCycleQuality <- .qa_perCycleQuality(abc, quality(rpt), pattern)
aqtbl <- table(quality(alignQuality(rpt)))
list(readCounts=data.frame(
read=NA, filter=NA, aligned=length(rpt),
row.names=pattern),
baseCalls=data.frame(
A=alf[["A"]], C=alf[["C"]], G=alf[["G"]], T=alf[["T"]],
N=alf[["other"]], row.names=pattern),
readQualityScore=data.frame(
quality=rqs$x,
density=rqs$y,
lane=pattern,
type="aligned", row.names=NULL),
baseQuality=data.frame(
score=names(bqtbl),
count=as.vector(bqtbl),
lane=pattern, row.names=NULL),
alignQuality=data.frame(
score=as.numeric(names(aqtbl)),
count=as.vector(aqtbl),
lane=pattern, row.names=NULL),
frequentSequences=data.frame(
sequence=names(freqtbl$top),
count=as.integer(freqtbl$top),
type="aligned",
lane=pattern, row.names=NULL),
sequenceDistribution=cbind(
freqtbl$distribution,
type="aligned",
lane=pattern, row.names=NULL),
perCycle=list(
baseCall=perCycleBaseCall,
quality=perCycleQuality),
perTile=list(
readCounts=data.frame(
count=integer(0), type=character(0),
tile=integer(0), lane=character(0)),
medianReadQualityScore=data.frame(
score=integer(), type=character(), tile=integer(),
lane=integer()))
)
}
.qa_MAQMap <-
function(dirPath, pattern, type, ..., verbose=FALSE)
{
fls <- .file_names(dirPath, pattern)
lst <- bplapply(basename(fls), .qa_MAQMap_lane, dirPath=dirPath,
type=type, ..., verbose=verbose)
lst <-
list(readCounts=.bind(lst, "readCounts"),
baseCalls=.bind(lst, "baseCalls"),
readQualityScore=.bind(lst, "readQualityScore"),
baseQuality=.bind(lst, "baseQuality"),
alignQuality=.bind(lst, "alignQuality"),
frequentSequences=.bind(lst, "frequentSequences"),
sequenceDistribution=.bind(lst, "sequenceDistribution"),
perCycle=local({
lst <- subListExtract(lst, "perCycle")
list(baseCall=.bind(lst, "baseCall"),
quality=.bind(lst, "quality"))
}),
perTile=local({
lst <- subListExtract(lst, "perTile")
list(readCounts=.bind(lst, "readCounts"),
medianReadQualityScore=.bind(
lst, "medianReadQualityScore"))
}))
.MAQMapQA(lst)
}
setMethod(report_html, "MAQMapQA",
function(x, dest, type, ...)
{
qa <- .qa_sampleKey(x)
dir.create(dest, recursive=TRUE)
fls <- c("0000-Header.html", "1000-Overview.html",
"2000-RunSummary.html", "3000-ReadDistribution.html",
"4000-CycleSpecific.html",
"6000-Alignment.html",
"9999-Footer.html")
sections <- system.file("template", fls, package="ShortRead")
perCycle <- qa[["perCycle"]]
values <-
list(SAMPLE_KEY=hwrite(qa[["keyValue"]], border=0),
PPN_COUNT=.html_img(
dest, "readCount", .plotReadCount(qa)),
PPN_COUNT_TBL=hwrite(
.ppnCount(qa[["readCounts"]]),
border=0),
BASE_CALL_COUNT=.html_img(
dest, "baseCalls", .plotNucleotideCount(qa)),
READ_QUALITY_FIGURE=.htmlReadQuality(
dest, "readQuality", qa, "aligned"),
READ_OCCURRENCES_FIGURE=.htmlReadOccur(
dest, "readOccurences", qa, "aligned"),
FREQUENT_SEQUENCES_READ=hwrite(
.freqSequences(qa, "read"),
border=0),
FREQUENT_SEQUENCES_FILTERED=hwrite(
.freqSequences(qa, "filtered"),
border=0),
FREQUENT_SEQUENCES_ALIGNED=hwrite(
.freqSequences(qa, "aligned"),
border=0),
CYCLE_BASE_CALL_FIGURE=.html_img(
dest, "perCycleBaseCall",
.plotCycleBaseCall(perCycle$baseCall)),
CYCLE_QUALITY_FIGURE=.html_img(
dest, "perCycleQuality",
.plotCycleQuality(perCycle$quality)),
ALIGN_QUALITY_FIGURE=.html_img(
dest, "alignmentQuality",
.plotAlignQuality(qa[["alignQuality"]]))
)
.report_html_do(dest, sections, values, ...)
})
Bioconductor/ShortRead documentation built on Feb. 11, 2024, 8:18 p.m.
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Defines functions .qa_MAQMap .qa_MAQMap_lane .maq_reverse .MAQMapQA
.MAQMapQA <- function(x, ...)
{
new("MAQMapQA", .srlist=x, ...)
}
.maq_reverse <- function(aln)
{
plus <- strand(aln) == "+"
new("AlignedRead",
append(aln[plus], aln[!plus]),
sread=append(
sread(aln)[plus],
reverseComplement(sread(aln)[!plus])),
quality=append(
quality(aln)[plus],
FastqQuality(reverse(quality(quality(aln)[!plus])))))
}
.qa_MAQMap_lane <-
function(dirPath, pattern, type, ..., verbose=FALSE)
{
if (verbose)
message("qa '", type, "' pattern: ", pattern, sep="")
rpt <- .maq_reverse(readAligned(dirPath, pattern, type, ...))
alf <- .qa_alphabetFrequency(sread(rpt), baseOnly=TRUE, collapse=TRUE)
bqtbl <- .qa_alphabetFrequency(quality(rpt), collapse=TRUE)
rqs <- .qa_qdensity(quality(rpt))
freqtbl <- tables(sread(rpt))
abc <- alphabetByCycle(rpt)
perCycleBaseCall <- .qa_perCycleBaseCall(abc, pattern)
perCycleQuality <- .qa_perCycleQuality(abc, quality(rpt), pattern)
aqtbl <- table(quality(alignQuality(rpt)))
list(readCounts=data.frame(
read=NA, filter=NA, aligned=length(rpt),
row.names=pattern),
baseCalls=data.frame(
A=alf[["A"]], C=alf[["C"]], G=alf[["G"]], T=alf[["T"]],
N=alf[["other"]], row.names=pattern),
readQualityScore=data.frame(
quality=rqs$x,
density=rqs$y,
lane=pattern,
type="aligned", row.names=NULL),
baseQuality=data.frame(
score=names(bqtbl),
count=as.vector(bqtbl),
lane=pattern, row.names=NULL),
alignQuality=data.frame(
score=as.numeric(names(aqtbl)),
count=as.vector(aqtbl),
lane=pattern, row.names=NULL),
frequentSequences=data.frame(
sequence=names(freqtbl$top),
count=as.integer(freqtbl$top),
type="aligned",
lane=pattern, row.names=NULL),
sequenceDistribution=cbind(
freqtbl$distribution,
type="aligned",
lane=pattern, row.names=NULL),
perCycle=list(
baseCall=perCycleBaseCall,
quality=perCycleQuality),
perTile=list(
readCounts=data.frame(
count=integer(0), type=character(0),
tile=integer(0), lane=character(0)),
medianReadQualityScore=data.frame(
score=integer(), type=character(), tile=integer(),
lane=integer()))
)
}
.qa_MAQMap <-
function(dirPath, pattern, type, ..., verbose=FALSE)
{
fls <- .file_names(dirPath, pattern)
lst <- bplapply(basename(fls), .qa_MAQMap_lane, dirPath=dirPath,
type=type, ..., verbose=verbose)
lst <-
list(readCounts=.bind(lst, "readCounts"),
baseCalls=.bind(lst, "baseCalls"),
readQualityScore=.bind(lst, "readQualityScore"),
baseQuality=.bind(lst, "baseQuality"),
alignQuality=.bind(lst, "alignQuality"),
frequentSequences=.bind(lst, "frequentSequences"),
sequenceDistribution=.bind(lst, "sequenceDistribution"),
perCycle=local({
lst <- subListExtract(lst, "perCycle")
list(baseCall=.bind(lst, "baseCall"),
quality=.bind(lst, "quality"))
}),
perTile=local({
lst <- subListExtract(lst, "perTile")
list(readCounts=.bind(lst, "readCounts"),
medianReadQualityScore=.bind(
lst, "medianReadQualityScore"))
}))
.MAQMapQA(lst)
}
setMethod(report_html, "MAQMapQA",
function(x, dest, type, ...)
{
qa <- .qa_sampleKey(x)
dir.create(dest, recursive=TRUE)
fls <- c("0000-Header.html", "1000-Overview.html",
"2000-RunSummary.html", "3000-ReadDistribution.html",
"4000-CycleSpecific.html",
"6000-Alignment.html",
"9999-Footer.html")
sections <- system.file("template", fls, package="ShortRead")
perCycle <- qa[["perCycle"]]
values <-
list(SAMPLE_KEY=hwrite(qa[["keyValue"]], border=0),
PPN_COUNT=.html_img(
dest, "readCount", .plotReadCount(qa)),
PPN_COUNT_TBL=hwrite(
.ppnCount(qa[["readCounts"]]),
border=0),
BASE_CALL_COUNT=.html_img(
dest, "baseCalls", .plotNucleotideCount(qa)),
READ_QUALITY_FIGURE=.htmlReadQuality(
dest, "readQuality", qa, "aligned"),
READ_OCCURRENCES_FIGURE=.htmlReadOccur(
dest, "readOccurences", qa, "aligned"),
FREQUENT_SEQUENCES_READ=hwrite(
.freqSequences(qa, "read"),
border=0),
FREQUENT_SEQUENCES_FILTERED=hwrite(
.freqSequences(qa, "filtered"),
border=0),
FREQUENT_SEQUENCES_ALIGNED=hwrite(
.freqSequences(qa, "aligned"),
border=0),
CYCLE_BASE_CALL_FIGURE=.html_img(
dest, "perCycleBaseCall",
.plotCycleBaseCall(perCycle$baseCall)),
CYCLE_QUALITY_FIGURE=.html_img(
dest, "perCycleQuality",
.plotCycleQuality(perCycle$quality)),
ALIGN_QUALITY_FIGURE=.html_img(
dest, "alignmentQuality",
.plotAlignQuality(qa[["alignQuality"]]))
)
.report_html_do(dest, sections, values, ...)
})
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