inst/unitTests/test_pwiz.R
In sneumann/mzR: parser for netCDF, mzXML and mzML and mzIdentML files (mass spectrometry data)
test_mzXML <- function() {
file <- system.file("threonine", "threonine_i2_e35_pH_tree.mzXML", package = "msdata")
mzxml <- openMSfile(file, backend="pwiz")
checkTrue(class(mzxml)=="mzRpwiz")
show(mzxml)
length(mzxml)
runInfo(mzxml)
instrumentInfo(mzxml)
checkTrue(is.list(peaks(mzxml)))
checkTrue(is.matrix(peaks(mzxml,1)))
pks <- peaks(mzxml, 2:3)
checkTrue(length(pks) == 2)
checkEquals(colnames(pks[[1L]]), c("mz", "intensity"))
peaksCount(mzxml)
hdr <- header(mzxml)
checkTrue(any(colnames(hdr) == "spectrumId"))
checkTrue(all(hdr$centroided))
checkTrue(any(colnames(hdr) == "scanWindowLowerLimit"))
checkTrue(any(colnames(hdr) == "scanWindowUpperLimit"))
checkTrue(all(!is.na(hdr$scanWindowLowerLimit)))
checkTrue(all(!is.na(hdr$scanWindowUpperLimit)))
hdr <- header(mzxml,1)
checkTrue(is.list(hdr))
hdr <- header(mzxml, 2:3)
checkTrue(is.data.frame(hdr))
checkTrue(nrow(hdr) == 2)
fileName(mzxml)
close(mzxml)
}
test_mzML <- function() {
file <- system.file("microtofq", "MM14.mzML", package = "msdata")
mzml <- openMSfile(file, backend="pwiz")
checkTrue(class(mzml)=="mzRpwiz")
show(mzml)
length(mzml)
runInfo(mzml)
instrumentInfo(mzml)
pks <- peaks(mzml)
pks <- peaks(mzml,1)
pks <- peaks(mzml,2:3)
checkEquals(colnames(pks[[1L]]), c("mz", "intensity"))
peaksCount(mzml)
hdr <- header(mzml)
checkTrue(any(colnames(hdr) == "spectrumId"))
checkTrue(all(hdr$centroided))
checkEquals(hdr$spectrumId, paste0("spectrum=", hdr$acquisitionNum))
checkTrue(any(colnames(hdr) == "scanWindowLowerLimit"))
checkTrue(any(colnames(hdr) == "scanWindowUpperLimit"))
checkTrue(all(!is.na(hdr$scanWindowLowerLimit)))
checkTrue(all(!is.na(hdr$scanWindowUpperLimit)))
hdr <- header(mzml,1)
checkTrue(is.list(hdr))
hdr <- header(mzml, 2:3)
checkTrue(is.data.frame(hdr))
checkTrue(nrow(hdr) == 2)
checkTrue(ncol(header(mzml))>4)
checkTrue(length(header(mzml,1))>4)
checkTrue(ncol(header(mzml,2:3))>4)
## Check polarity reporting
checkTrue(all(header(mzml)$polarity==1))
fileName(mzml)
close(mzml)
file <- system.file("proteomics", "TMT_Erwinia_1uLSike_Top10HCD_isol2_45stepped_60min_01.mzML.gz",
package = "msdata")
mzml <- openMSfile(file, backend="pwiz")
checkTrue(class(mzml)=="mzRpwiz")
hdr <- header(mzml)
checkTrue(hdr$centroided[2])
checkTrue(!hdr$centroided[1])
close(mzml)
}
## Test the new implementation of the getScanHeaderInfo
test_getScanHeaderInfo <- function() {
## Compare the data returned from the new function with the one returned
## by the Ramp backend.
file <- system.file("microtofq", "MM14.mzML", package = "msdata")
mzml <- openMSfile(file, backend = "pwiz")
## Read single scan header.
scan_3 <- header(mzml, scans = 3)
cn <- names(scan_3)
cn <- cn[!(cn %in% c("spectrumId", "scanWindowLowerLimit",
"scanWindowUpperLimit", "centroided"))]
scan_3 <- scan_3[cn]
## Special case for columns that have an NA reported: they might have a
## 0 or NA in Ramp.
nas <- is.na(scan_3)
## Ramp does not read polarity
scan_3$polarity <- 0
## Read all scan header
all_scans <- header(mzml)
all_scans <- all_scans[, cn]
all_scans$polarity <- 0
nas <- vapply(all_scans, function(z) all(is.na(z)), logical(1))
## passing the index of all scan headers should return the same
all_scans <- header(mzml, scans = 1:nrow(all_scans))
all_scans <- all_scans[, cn]
all_scans$polarity <- 0
nas <- vapply(all_scans, function(z) all(is.na(z)), logical(1))
## Some selected scans
all_scans <- header(mzml, scans = c(3, 1, 14))
all_scans <- all_scans[, cn]
all_scans$polarity <- 0
nas <- vapply(all_scans, function(z) all(is.na(z)), logical(1))
close(mzml)
## The same for an mzXML file:
file <- system.file("threonine", "threonine_i2_e35_pH_tree.mzXML",
package = "msdata")
mzml <- openMSfile(file, backend = "pwiz")
## Read single scan header.
scan_3 <- header(mzml, scans = 3)
scan_3 <- scan_3[cn]
nas <- vapply(scan_3, function(z) all(is.na(z)), logical(1))
## Read all scan header
all_scans <- header(mzml)
all_scans <- all_scans[, cn]
## Ramp unable to read precursorScanNum from an mzXML file.
all_scans$precursorScanNum <- 0
## Replace all NA in all_scans with 0
all_scans <- data.frame(lapply(all_scans, function(z) {
z[is.na(z)] <- 0
z
}))
## passing the index of all scan headers should return the same
all_scans <- header(mzml, scans = 1:nrow(all_scans))
all_scans$precursorScanNum <- 0
all_scans <- all_scans[, cn]
## Replace all NA in all_scans with 0
all_scans <- data.frame(lapply(all_scans, function(z) {
z[is.na(z)] <- 0
z
}))
## Some selected scans
all_scans <- header(mzml, scans = c(3, 1, 14))
all_scans$precursorScanNum <- 0
all_scans <- all_scans[, cn]
## Replace all NA in all_scans with 0
all_scans <- data.frame(lapply(all_scans, function(z) {
z[is.na(z)] <- 0
z
}))
close(mzml)
## Again for an MSn mzml file.
file <- msdata::proteomics(full.names = TRUE,
pattern = "TMT_Erwinia_1uLSike_Top10HCD_isol2_45stepped_60min_01.mzML.gz")
mzml <- openMSfile(file, backend = "pwiz")
## Read single scan header.
scan_3 <- header(mzml, scans = 3)
## Ramp does not read polarity, injectionTime or filterString
cn <- names(scan_3)
cn <- cn[!(cn %in% c("spectrumId", "scanWindowLowerLimit",
"scanWindowUpperLimit", "centroided",
"polarity", "filterString",
"isolationWindowTargetMZ",
"isolationWindowLowerOffset",
"isolationWindowUpperOffset",
"injectionTime"))]
scan_3 <- scan_3[cn]
scan_3[is.na(scan_3)] <- 0
## Read all scan header
all_scans <- header(mzml)[, cn]
## Replace all NA in all_scans with 0
all_scans <- data.frame(lapply(all_scans, function(z) {
z[is.na(z)] <- 0
z
}))
## passing the index of all scan headers should return the same
all_scans_2 <- header(mzml, scans = 1:nrow(all_scans))[, cn]
## Replace all NA in all_scans with 0
all_scans_2 <- data.frame(lapply(all_scans_2, function(z) {
z[is.na(z)] <- 0
z
}))
checkEquals(all_scans, all_scans_2)
## Some selected scans
all_scans <- header(mzml, scans = c(3, 1, 14))[, cn]
## Replace all NA in all_scans with 0
all_scans <- data.frame(lapply(all_scans, function(z) {
z[is.na(z)] <- 0
z
}))
close(mzml)
}
test_get3Dmap <- function() {
ms <- openMSfile(system.file("microtofq", "MM14.mzML", package = "msdata"))
td <- get3Dmap(ms, scans = 1:100, lowMz = 100, highMz = 1000, resMz = 1)
checkTrue(any(td > 0))
}
sneumann/mzR documentation built on March 21, 2024, 7:05 a.m.
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test_mzXML <- function() {
file <- system.file("threonine", "threonine_i2_e35_pH_tree.mzXML", package = "msdata")
mzxml <- openMSfile(file, backend="pwiz")
checkTrue(class(mzxml)=="mzRpwiz")
show(mzxml)
length(mzxml)
runInfo(mzxml)
instrumentInfo(mzxml)
checkTrue(is.list(peaks(mzxml)))
checkTrue(is.matrix(peaks(mzxml,1)))
pks <- peaks(mzxml, 2:3)
checkTrue(length(pks) == 2)
checkEquals(colnames(pks[[1L]]), c("mz", "intensity"))
peaksCount(mzxml)
hdr <- header(mzxml)
checkTrue(any(colnames(hdr) == "spectrumId"))
checkTrue(all(hdr$centroided))
checkTrue(any(colnames(hdr) == "scanWindowLowerLimit"))
checkTrue(any(colnames(hdr) == "scanWindowUpperLimit"))
checkTrue(all(!is.na(hdr$scanWindowLowerLimit)))
checkTrue(all(!is.na(hdr$scanWindowUpperLimit)))
hdr <- header(mzxml,1)
checkTrue(is.list(hdr))
hdr <- header(mzxml, 2:3)
checkTrue(is.data.frame(hdr))
checkTrue(nrow(hdr) == 2)
fileName(mzxml)
close(mzxml)
}
test_mzML <- function() {
file <- system.file("microtofq", "MM14.mzML", package = "msdata")
mzml <- openMSfile(file, backend="pwiz")
checkTrue(class(mzml)=="mzRpwiz")
show(mzml)
length(mzml)
runInfo(mzml)
instrumentInfo(mzml)
pks <- peaks(mzml)
pks <- peaks(mzml,1)
pks <- peaks(mzml,2:3)
checkEquals(colnames(pks[[1L]]), c("mz", "intensity"))
peaksCount(mzml)
hdr <- header(mzml)
checkTrue(any(colnames(hdr) == "spectrumId"))
checkTrue(all(hdr$centroided))
checkEquals(hdr$spectrumId, paste0("spectrum=", hdr$acquisitionNum))
checkTrue(any(colnames(hdr) == "scanWindowLowerLimit"))
checkTrue(any(colnames(hdr) == "scanWindowUpperLimit"))
checkTrue(all(!is.na(hdr$scanWindowLowerLimit)))
checkTrue(all(!is.na(hdr$scanWindowUpperLimit)))
hdr <- header(mzml,1)
checkTrue(is.list(hdr))
hdr <- header(mzml, 2:3)
checkTrue(is.data.frame(hdr))
checkTrue(nrow(hdr) == 2)
checkTrue(ncol(header(mzml))>4)
checkTrue(length(header(mzml,1))>4)
checkTrue(ncol(header(mzml,2:3))>4)
## Check polarity reporting
checkTrue(all(header(mzml)$polarity==1))
fileName(mzml)
close(mzml)
file <- system.file("proteomics", "TMT_Erwinia_1uLSike_Top10HCD_isol2_45stepped_60min_01.mzML.gz",
package = "msdata")
mzml <- openMSfile(file, backend="pwiz")
checkTrue(class(mzml)=="mzRpwiz")
hdr <- header(mzml)
checkTrue(hdr$centroided[2])
checkTrue(!hdr$centroided[1])
close(mzml)
}
## Test the new implementation of the getScanHeaderInfo
test_getScanHeaderInfo <- function() {
## Compare the data returned from the new function with the one returned
## by the Ramp backend.
file <- system.file("microtofq", "MM14.mzML", package = "msdata")
mzml <- openMSfile(file, backend = "pwiz")
## Read single scan header.
scan_3 <- header(mzml, scans = 3)
cn <- names(scan_3)
cn <- cn[!(cn %in% c("spectrumId", "scanWindowLowerLimit",
"scanWindowUpperLimit", "centroided"))]
scan_3 <- scan_3[cn]
## Special case for columns that have an NA reported: they might have a
## 0 or NA in Ramp.
nas <- is.na(scan_3)
## Ramp does not read polarity
scan_3$polarity <- 0
## Read all scan header
all_scans <- header(mzml)
all_scans <- all_scans[, cn]
all_scans$polarity <- 0
nas <- vapply(all_scans, function(z) all(is.na(z)), logical(1))
## passing the index of all scan headers should return the same
all_scans <- header(mzml, scans = 1:nrow(all_scans))
all_scans <- all_scans[, cn]
all_scans$polarity <- 0
nas <- vapply(all_scans, function(z) all(is.na(z)), logical(1))
## Some selected scans
all_scans <- header(mzml, scans = c(3, 1, 14))
all_scans <- all_scans[, cn]
all_scans$polarity <- 0
nas <- vapply(all_scans, function(z) all(is.na(z)), logical(1))
close(mzml)
## The same for an mzXML file:
file <- system.file("threonine", "threonine_i2_e35_pH_tree.mzXML",
package = "msdata")
mzml <- openMSfile(file, backend = "pwiz")
## Read single scan header.
scan_3 <- header(mzml, scans = 3)
scan_3 <- scan_3[cn]
nas <- vapply(scan_3, function(z) all(is.na(z)), logical(1))
## Read all scan header
all_scans <- header(mzml)
all_scans <- all_scans[, cn]
## Ramp unable to read precursorScanNum from an mzXML file.
all_scans$precursorScanNum <- 0
## Replace all NA in all_scans with 0
all_scans <- data.frame(lapply(all_scans, function(z) {
z[is.na(z)] <- 0
z
}))
## passing the index of all scan headers should return the same
all_scans <- header(mzml, scans = 1:nrow(all_scans))
all_scans$precursorScanNum <- 0
all_scans <- all_scans[, cn]
## Replace all NA in all_scans with 0
all_scans <- data.frame(lapply(all_scans, function(z) {
z[is.na(z)] <- 0
z
}))
## Some selected scans
all_scans <- header(mzml, scans = c(3, 1, 14))
all_scans$precursorScanNum <- 0
all_scans <- all_scans[, cn]
## Replace all NA in all_scans with 0
all_scans <- data.frame(lapply(all_scans, function(z) {
z[is.na(z)] <- 0
z
}))
close(mzml)
## Again for an MSn mzml file.
file <- msdata::proteomics(full.names = TRUE,
pattern = "TMT_Erwinia_1uLSike_Top10HCD_isol2_45stepped_60min_01.mzML.gz")
mzml <- openMSfile(file, backend = "pwiz")
## Read single scan header.
scan_3 <- header(mzml, scans = 3)
## Ramp does not read polarity, injectionTime or filterString
cn <- names(scan_3)
cn <- cn[!(cn %in% c("spectrumId", "scanWindowLowerLimit",
"scanWindowUpperLimit", "centroided",
"polarity", "filterString",
"isolationWindowTargetMZ",
"isolationWindowLowerOffset",
"isolationWindowUpperOffset",
"injectionTime"))]
scan_3 <- scan_3[cn]
scan_3[is.na(scan_3)] <- 0
## Read all scan header
all_scans <- header(mzml)[, cn]
## Replace all NA in all_scans with 0
all_scans <- data.frame(lapply(all_scans, function(z) {
z[is.na(z)] <- 0
z
}))
## passing the index of all scan headers should return the same
all_scans_2 <- header(mzml, scans = 1:nrow(all_scans))[, cn]
## Replace all NA in all_scans with 0
all_scans_2 <- data.frame(lapply(all_scans_2, function(z) {
z[is.na(z)] <- 0
z
}))
checkEquals(all_scans, all_scans_2)
## Some selected scans
all_scans <- header(mzml, scans = c(3, 1, 14))[, cn]
## Replace all NA in all_scans with 0
all_scans <- data.frame(lapply(all_scans, function(z) {
z[is.na(z)] <- 0
z
}))
close(mzml)
}
test_get3Dmap <- function() {
ms <- openMSfile(system.file("microtofq", "MM14.mzML", package = "msdata"))
td <- get3Dmap(ms, scans = 1:100, lowMz = 100, highMz = 1000, resMz = 1)
checkTrue(any(td > 0))
}
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