tests/testthat/test_old_methods-xcmsRaw.R
In anupbharade09/xcms_test: LC/MS and GC/MS Data Analysis
test_that("profMat,xcmsRaw works", {
fs <- system.file('cdf/KO/ko15.CDF', package = "faahKO")
## Create a new profile matrix:
xr <- deepCopy(faahko_xr_1)
expect_error(pm <- profMat(xr))
xr_2 <- xcmsRaw(fs, profstep = 2)
expect_equal(profMat(xr_2), profMat(xr, step = 2))
xr_3 <- xcmsRaw(fs, profstep = 2, profmethod = "binlinbase",
profparam = list(baselevel = 666666))
expect_equal(xr_3@env$profile, profMat(xr, step = 2, method = "binlinbase",
baselevel = 666666))
expect_equal(xr_3@env$profile, profMat(xr_3))
})
test_that("profStep<-,xcmsRaw works", {
## Profile matrix will be generated/replaced if the step parameter is > 0
## and differs from the one within the object.
## xr <- xcmsRaw(fs, profstep = 0)
xr <- deepCopy(faahko_xr_1)
xr_2 <- xr
expect_true(length(xr_2@env$profile) == 0)
profStep(xr_2) <- 2
expect_true(length(xr_2@env$profile) > 0)
expect_equal(profMat(xr_2), profMat(xr, step = 2))
expect_equal(profMat(xr_2, step = 2), xr_2@env$profile)
})
test_that("profMethod<-,xcmsRaw works", {
fs <- system.file('cdf/KO/ko15.CDF', package = "faahKO")
## Profile matrix will be generated/replaced if profMethod is changed.
xr <- deepCopy(faahko_xr_1)
xr_2 <- xr
expect_true(length(xr_2@env$profile) == 0)
## Just setting profMethod doesn't help here
profMethod(xr_2) <- "binlin"
expect_equal(profMethod(xr_2), "binlin")
expect_true(length(xr_2@env$profile) == 0)
profStep(xr_2) <- 2
xr_3 <- xcmsRaw(fs, profstep = 2, profmethod = "binlin")
expect_equal(profMat(xr_3), profMat(xr_2))
## binlinbase
xr_3@profparam <- list(baselevel = 666666)
profMethod(xr_3) <- "binlinbase"
expect_equal(xr_3@env$profile, profMat(xr_3, method = "binlinbase",
baselevel = 666666))
xr_4 <- xcmsRaw(fs, profstep = 2, profmethod = "binlinbase",
profparam = list(baselevel = 666666))
expect_equal(xr_4@env$profile, xr_3@env$profile)
})
test_that("findPeaks.centWave,xcmsRaw ordering works", {
file <- system.file('cdf/KO/ko15.CDF', package = "faahKO")
xr <- xcmsRaw(file, profstep = 0)
p1 <- findPeaks.centWave(xr, noise = 10000)
scan <- getScan(xr,1)
o <- order(scan[,"mz"], decreasing=TRUE)
xr@env$mz[1:length(o)] <- scan[o, "mz"]
xr@env$intensity[1:length(o)] <- scan[o, "intensity"]
p2 <- findPeaks.centWave(xr, noise = 10000)
expect_equal(p1, p2)
})
test_that("findPeaksCentWave,xcmsSet doesn't fail", {
file <- system.file('cdf/KO/ko15.CDF', package = "faahKO")
xraw <- xcmsRaw(file, profstep = 0)
p <- findPeaks.centWave(xraw, fitgauss = TRUE, verbose = TRUE, sleep = 0.00,
noise = 10000)
expect_equal(nrow(p), 272)
})
test_that("findPeaks.addPredictedIsotopeFeatures,xcmsRaw works", {
file <- system.file('cdf/KO/ko15.CDF', package = "faahKO")
xr <- xcmsRaw(file, profstep = 0)
p1 <- findPeaks.centWave(xr, verbose.columns = TRUE, noise = 10000)
p2 <- findPeaks.addPredictedIsotopeFeatures(
object = xr, xcmsPeaks = p1, noise = 10000)
expect_true(nrow(p1) < nrow(p2))
## Now the same with the new modified centWave:
options(originalCentWave = FALSE)
p1_2 <- findPeaks.centWave(xr, verbose.columns = TRUE, noise = 10000)
nrow(p1)
nrow(p1_2)
expect_equal(p1, p1_2)
p2_2 <- findPeaks.addPredictedIsotopeFeatures(
object = xr, xcmsPeaks = p1_2, noise = 10000)
options(originalCentWave = TRUE)
})
test_that("findPeaks,xcmsRaw massifquant works", {
file <- system.file('microtofq/MM14.mzdata', package = "msdata")
xraw <- xcmsRaw(file, profstep = 0)
p <- findPeaks(xraw, method = "massifquant")
expect_equal(nrow(p), 114)
})
test_that("profEIC,xcmsRaw works", {
## file <- system.file('cdf/KO/ko15.CDF', package = "faahKO")
## Compare the results with manual calculations on the profile matrix.
step <- 1
## xraw <- xcmsRaw(file, profstep = 0)
xraw <- deepCopy(faahko_xr_1)
profmat <- profMat(xraw, step = step)
mzr <- c(200, 201)
rtr <- c(3000, 3500)
res_1 <- profEIC(xraw, mzrange = mzr, rtrange = rtr, step = step)
res_x <- getEIC(xraw, mzrange = mzr, rtrange = rtr, step = step)
## manual calculation:
scn_idx <- which(xraw@scantime >= rtr[1] & xraw@scantime <= rtr[2])
mass <- seq(floor(xraw@mzrange[1] / step) * step,
ceiling(xraw@mzrange[2] / step) * step, by = step)
mass_idx <- which(mass >= mzr[1] & mass <= mzr[2])
max_mass <- apply(profmat[mass_idx, scn_idx], MARGIN = 2, max)
rts <- xraw@scantime[scn_idx]
expect_equal(res_1@eic[[1]][[1]][, 1], rts)
expect_equal(res_1@eic[[1]][[1]][, 2], max_mass)
expect_equal(res_1, res_x)
## OK, now with binlinbase
profMethod(xraw) <- "binlinbase"
xraw@profparam <- list(baselevel = 666666)
profmat <- profMat(xraw, step = 1)
res_2 <- profEIC(xraw, mzrange = mzr, rtrange = rtr, step = step)
res_x <- getEIC(xraw, mzrange = mzr, rtrange = rtr, step = step)
max_mass <- apply(profmat[mass_idx, scn_idx], MARGIN = 2, max)
expect_equal(res_2@eic[[1]][[1]][, 1], rts)
expect_equal(res_2@eic[[1]][[1]][, 2], max_mass)
expect_true(sum(res_2@eic[[1]][[1]][, 2] == 666666) > 0)
expect_equal(res_2, res_x)
## Results should be different to previous ones.
expect_true(any(res_2@eic[[1]][[1]][, 2] != res_1@eic[[1]][[1]][, 2]))
expect_true(all(res_2@eic[[1]][[1]][, 1] == res_1@eic[[1]][[1]][, 1]))
## Without pre-calculated profile matrix:
profmat <- profMat(xraw, step = 0.2)
res_3 <- profEIC(xraw, mzrange = mzr, rtrange = rtr, step = 0.2)
res_x <- getEIC(xraw, mzrange = mzr, rtrange = rtr, step = 0.2)
max_mass <- apply(profmat[mass_idx, scn_idx], MARGIN = 2, max)
expect_equal(res_3@eic[[1]][[1]][, 1], rts)
expect_equal(res_3@eic[[1]][[1]][, 2], max_mass)
expect_equal(res_3, res_x)
## Results should be different to previous ones.
expect_true(any(res_3@eic[[1]][[1]][, 2] != res_2@eic[[1]][[1]][, 2]))
expect_true(all(res_3@eic[[1]][[1]][, 1] == res_2@eic[[1]][[1]][, 1]))
## Now with intlin
profMethod(xraw) <- "intlin"
profmat <- profMat(xraw, step = 1)
res_3 <- profEIC(xraw, mzrange = mzr, rtrange = rtr, step = step)
res_x <- getEIC(xraw, mzrange = mzr, rtrange = rtr, step = step)
max_mass <- apply(profmat[mass_idx, scn_idx], MARGIN = 2, max)
expect_equal(res_3@eic[[1]][[1]][, 1], rts)
expect_equal(res_3@eic[[1]][[1]][, 2], max_mass)
expect_equal(res_3, res_x)
## Now test with multiple mz ranges
mzrm <- rbind(c(300, 302), mzr, c(205, 207), c(500, 507))
profMethod(xraw) <- "bin"
profmat <- profMat(xraw, step = 1)
max_mass <- apply(profmat[mass_idx, scn_idx], MARGIN = 2, max)
res_1 <- profEIC(xraw, mzrange = mzrm, rtrange = rtr, step = step)
res_x <- getEIC(xraw, mzrange = mzrm, rtrange = rtr, step = step)
expect_equal(res_1@eic[[1]][[2]][, 2], max_mass)
## 4th range:
mass_idx_2 <- which(mass >= 500 & mass <= 507)
max_mass <- apply(profmat[mass_idx_2, scn_idx], MARGIN = 2, max)
expect_equal(res_1@eic[[1]][[4]][, 2], max_mass)
expect_equal(res_1, res_x)
## Different step:
step <- 0.2
res_1 <- profEIC(xraw, mzrange = mzrm, rtrange = rtr, step = step)
res_x <- getEIC(xraw, mzrange = mzrm, rtrange = rtr, step = step)
mass <- seq(floor(xraw@mzrange[1] / step) * step,
ceiling(xraw@mzrange[2] / step) * step, by = step)
mass_idx <- which(mass >= mzr[1] & mass <= mzr[2])
scn_idx <- which(xraw@scantime >= rtr[1] & xraw@scantime <= rtr[2])
profmat <- profMat(xraw, step = step)
max_mass <- apply(profmat[mass_idx, scn_idx], MARGIN = 2, max)
expect_equal(res_1@eic[[1]][[2]][, 2], max_mass)
expect_equal(res_1, res_x)
## 4th range:
mass_idx_2 <- which(mass >= 500 & mass <= 507)
max_mass <- apply(profmat[mass_idx_2, scn_idx], MARGIN = 2, max)
expect_equal(res_1@eic[[1]][[4]][, 2], max_mass)
## Test with the whole mzrange.
step <- 0.5
profMethod(xraw) <- "bin"
profmat <- profMat(xraw, step = step)
res_1 <- profEIC(xraw, rtrange = rtr, step = step)
res_x <- getEIC(xraw, rtrange = rtr, step = step)
scn_idx <- which(xraw@scantime >= rtr[1] & xraw@scantime <= rtr[2])
max_mass <- apply(profmat[, scn_idx], MARGIN = 2, max)
expect_equal(res_1@eic[[1]][[1]][, 2], max_mass) ## Compare max per rt
expect_equal(res_1@eic[[1]][[1]][, 1], xraw@scantime[scn_idx])
expect_equal(res_1, res_x)
## Whole rtrange:
res_1 <- profEIC(xraw, mzrange = mzr, step = step)
res_x <- getEIC(xraw, mzrange = mzr, step = step)
mass <- seq(floor(xraw@mzrange[1] / step) * step,
ceiling(xraw@mzrange[2] / step) * step, by = step)
mass_idx <- which(mass >= mzr[1] & mass <= mzr[2])
max_mass <- apply(profmat[mass_idx, ], MARGIN = 2, max)
expect_equal(res_1@eic[[1]][[1]][, 2], max_mass)
expect_equal(res_1@eic[[1]][[1]][, 1], xraw@scantime)
expect_equal(res_1, res_x)
## Everything.
res_1 <- profEIC(xraw, step = step)
res_x <- getEIC(xraw, step = step)
max_mass <- apply(profmat, MARGIN = 2, max)
expect_equal(res_1@eic[[1]][[1]][, 2], max_mass)
expect_equal(res_1, res_x)
## Error checking:
## mz range outside
mzr <- c(0, 14)
expect_error(profEIC(xraw, mzrange = mzr))
expect_error(getEIC(xraw, mzrange = mzr))
## rt range outside
expect_error(profEIC(xraw, rtrange = c(6000, 6060)))
expect_error(getEIC(xraw, rtrange = c(6000, 6060)))
## mzrange with more than 2 columns
expect_error(profEIC(xraw, mzrange = c(1, 3, 5)))
expect_error(getEIC(xraw, mzrange = c(1, 3, 5)))
## rtrange with more than 2 columns
expect_error(profEIC(xraw, rtrange = c(2, 4, 6)))
expect_error(getEIC(xraw, rtrange = c(2, 4, 6)))
})
test_that("plotEIC,xcmsRaw works", {
## file <- system.file('cdf/KO/ko15.CDF', package = "faahKO")
## xraw <- xcmsRaw(file)
xraw <- deepCopy(faahko_xr_1)
e <- getEIC(xraw, rtrange=cbind(3000,3500), mzrange=cbind(200,201))
plot(e)
})
test_that("findPeaks.centWave,xcmsRaw works with scanrange", {
## Without sub-setting!
xraw <- deepCopy(faahko_xr_1)
res_1 <- findPeaks.centWave(xraw, noise = 10000)
## res_2 <- xcms:::.findPeaks.centWave_orig(xraw, noise = 10000)
## checkIdentical(res_1, res_2)
scnr <- c(90, 345)
res_1 <- findPeaks.centWave(xraw, scanrange = scnr, noise = 5000)
## res_2 <- xcms:::.findPeaks.centWave_orig(xraw, scanrange = scnr,
## noise = 5000)
## checkIdentical(res_1, res_2)
## Compare with do_
xsub <- xraw[90:345]
res_3 <- do_findChromPeaks_centWave(mz = xsub@env$mz,
int = xsub@env$intensity,
scantime = xsub@scantime,
noise = 5000,
valsPerSpect = diff(c(xsub@scanindex,
length(xsub@env$mz))))
expect_identical(res_3, res_1@.Data)
scnr <- c(1, 400)
res_1 <- findPeaks.centWave(xraw, scanrange = scnr, noise = 5000)
## res_2 <- xcms:::.findPeaks.centWave_orig(xraw, scanrange = scnr,
## noise = 5000)
## checkIdentical(res_1, res_2)
})
test_that("findPeaks.matchedFilter,xcmsRaw works with scanrange", {
scnr <- c(90, 50000)
xraw <- deepCopy(faahko_xr_1)
res_1 <- findPeaks.matchedFilter(xraw, scanrange = scnr)
## suppressWarnings(
## res_2 <- xcms:::findPeaks.matchedFilter_orig(xraw, scanrange = scnr)
## )
expect_warning(xsub <- xraw[90:50000])
res_3 <- findPeaks.matchedFilter(xsub)
## checkIdentical(res_1, res_2)
expect_identical(res_1, res_3)
})
test_that("findPeaks.massifquant,xcmsRaw works with scanrange", {
## Compare passing the scanrange with performing the search on a
## pre-subsetted object.
xraw <- deepCopy(faahko_xr_1)
scnr <- c(90, 150)
res_1 <- findPeaks.massifquant(xraw, scanrange = scnr)
xsub <- xraw[scnr[1]:scnr[2]]
res_2 <- findPeaks.massifquant(xsub)
expect_identical(res_1, res_2)
## Same with "withWave"
scnr <- c(90, 200)
res_1 <- findPeaks.massifquant(xraw, scanrange = scnr, withWave = 1)
xsub <- xraw[scnr[1]:scnr[2]]
res_2 <- findPeaks.massifquant(xsub, withWave = 1)
expect_identical(res_1, res_2)
})
test_that("[,xcmsRaw works", {
file <- system.file('cdf/KO/ko15.CDF', package = "faahKO")
xraw <- xcmsRaw(file, profstep = 0)
## Get scans 1:10
xsub <- xraw[1:10]
expect_identical(xraw@scantime[1:10], xsub@scantime)
expect_identical(xraw@scanindex[1:10], xsub@scanindex[1:10])
expect_identical(xraw@env$mz[1:xraw@scanindex[11]], xsub@env$mz)
expect_identical(xraw@env$intensity[1:xraw@scanindex[11]], xsub@env$intensity)
## Check if mz is sorted:
## Check using logical
bm <- rep(FALSE, length(xraw@scanindex))
bm[1:10] <- TRUE
xsub_2 <- xraw[bm]
expect_equal(xsub, xsub_2)
## Get none.
xempty <- xraw[rep(FALSE, length(xraw@scanindex))]
expect_true(length(xempty@scanindex) == 0)
## Get the full one:
xsub <- xraw[1:length(xraw@scanindex)]
expect_equal(xsub@env$mz, xraw@env$mz)
expect_equal(xsub@env$intensity, xraw@env$intensity)
## Get some scans in the middle somewhere
i <- c(5, 99, 317)
xsub <- xraw[i]
expect_identical(xsub@scantime, xraw@scantime[i])
## scanindex:
vps <- diff(c(xraw@scanindex, length(xraw@env$mz)))
scnidx <- xcms:::valueCount2ScanIndex(vps[i])
expect_equal(scnidx, xsub@scanindex)
whichIdx <- c(((xraw@scanindex[5] + 1):xraw@scanindex[6]),
((xraw@scanindex[99] + 1):xraw@scanindex[100]),
((xraw@scanindex[317] + 1):xraw@scanindex[318]))
expect_identical(xsub@env$mz, xraw@env$mz[whichIdx])
expect_identical(xsub@env$intensity, xraw@env$intensity[whichIdx])
## Finally check that we get the same object by calling getXcmsRaw from an
## xcmsSet and by subsetting or using xcmsRaw with scanrange:
xraw <- xcmsRaw(file, profstep = 20)
xraw_sub <- xraw[5:100]
expect_warning(xset <- xcmsSet(file, scanrange = c(5, 100), step = 20))
xraw_xset <- getXcmsRaw(xset)
expect_equal(scanrange(xraw_sub), scanrange(xraw_xset))
## Load the object using xcmsRaw and scanrange
xraw_2 <- xcmsRaw(file, scanrange = c(5, 100), profstep = 20)
expect_equal(scanrange(xraw_sub), scanrange(xraw_2))
## Compare objects
expect_equal(xraw_sub, xraw_xset)
expect_equal(xraw_sub, xraw_2)
expect_equal(xraw_xset, xraw_2)
})
test_that("deepCopy,xcmsRaw works", {
file <- system.file('cdf/KO/ko15.CDF', package = "faahKO")
xraw <- xcmsRaw(file, profstep = 0)
xrawCopy <- deepCopy(xraw)
expect_true(all(xraw@env$mz == xrawCopy@env$mz))
xrawCopy@env$mz <- xrawCopy@env$mz+1
expect_true(all(xraw@env$mz != xrawCopy@env$mz))
})
anupbharade09/xcms_test documentation built on May 14, 2019, 4:07 a.m.
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test_that("profMat,xcmsRaw works", {
fs <- system.file('cdf/KO/ko15.CDF', package = "faahKO")
## Create a new profile matrix:
xr <- deepCopy(faahko_xr_1)
expect_error(pm <- profMat(xr))
xr_2 <- xcmsRaw(fs, profstep = 2)
expect_equal(profMat(xr_2), profMat(xr, step = 2))
xr_3 <- xcmsRaw(fs, profstep = 2, profmethod = "binlinbase",
profparam = list(baselevel = 666666))
expect_equal(xr_3@env$profile, profMat(xr, step = 2, method = "binlinbase",
baselevel = 666666))
expect_equal(xr_3@env$profile, profMat(xr_3))
})
test_that("profStep<-,xcmsRaw works", {
## Profile matrix will be generated/replaced if the step parameter is > 0
## and differs from the one within the object.
## xr <- xcmsRaw(fs, profstep = 0)
xr <- deepCopy(faahko_xr_1)
xr_2 <- xr
expect_true(length(xr_2@env$profile) == 0)
profStep(xr_2) <- 2
expect_true(length(xr_2@env$profile) > 0)
expect_equal(profMat(xr_2), profMat(xr, step = 2))
expect_equal(profMat(xr_2, step = 2), xr_2@env$profile)
})
test_that("profMethod<-,xcmsRaw works", {
fs <- system.file('cdf/KO/ko15.CDF', package = "faahKO")
## Profile matrix will be generated/replaced if profMethod is changed.
xr <- deepCopy(faahko_xr_1)
xr_2 <- xr
expect_true(length(xr_2@env$profile) == 0)
## Just setting profMethod doesn't help here
profMethod(xr_2) <- "binlin"
expect_equal(profMethod(xr_2), "binlin")
expect_true(length(xr_2@env$profile) == 0)
profStep(xr_2) <- 2
xr_3 <- xcmsRaw(fs, profstep = 2, profmethod = "binlin")
expect_equal(profMat(xr_3), profMat(xr_2))
## binlinbase
xr_3@profparam <- list(baselevel = 666666)
profMethod(xr_3) <- "binlinbase"
expect_equal(xr_3@env$profile, profMat(xr_3, method = "binlinbase",
baselevel = 666666))
xr_4 <- xcmsRaw(fs, profstep = 2, profmethod = "binlinbase",
profparam = list(baselevel = 666666))
expect_equal(xr_4@env$profile, xr_3@env$profile)
})
test_that("findPeaks.centWave,xcmsRaw ordering works", {
file <- system.file('cdf/KO/ko15.CDF', package = "faahKO")
xr <- xcmsRaw(file, profstep = 0)
p1 <- findPeaks.centWave(xr, noise = 10000)
scan <- getScan(xr,1)
o <- order(scan[,"mz"], decreasing=TRUE)
xr@env$mz[1:length(o)] <- scan[o, "mz"]
xr@env$intensity[1:length(o)] <- scan[o, "intensity"]
p2 <- findPeaks.centWave(xr, noise = 10000)
expect_equal(p1, p2)
})
test_that("findPeaksCentWave,xcmsSet doesn't fail", {
file <- system.file('cdf/KO/ko15.CDF', package = "faahKO")
xraw <- xcmsRaw(file, profstep = 0)
p <- findPeaks.centWave(xraw, fitgauss = TRUE, verbose = TRUE, sleep = 0.00,
noise = 10000)
expect_equal(nrow(p), 272)
})
test_that("findPeaks.addPredictedIsotopeFeatures,xcmsRaw works", {
file <- system.file('cdf/KO/ko15.CDF', package = "faahKO")
xr <- xcmsRaw(file, profstep = 0)
p1 <- findPeaks.centWave(xr, verbose.columns = TRUE, noise = 10000)
p2 <- findPeaks.addPredictedIsotopeFeatures(
object = xr, xcmsPeaks = p1, noise = 10000)
expect_true(nrow(p1) < nrow(p2))
## Now the same with the new modified centWave:
options(originalCentWave = FALSE)
p1_2 <- findPeaks.centWave(xr, verbose.columns = TRUE, noise = 10000)
nrow(p1)
nrow(p1_2)
expect_equal(p1, p1_2)
p2_2 <- findPeaks.addPredictedIsotopeFeatures(
object = xr, xcmsPeaks = p1_2, noise = 10000)
options(originalCentWave = TRUE)
})
test_that("findPeaks,xcmsRaw massifquant works", {
file <- system.file('microtofq/MM14.mzdata', package = "msdata")
xraw <- xcmsRaw(file, profstep = 0)
p <- findPeaks(xraw, method = "massifquant")
expect_equal(nrow(p), 114)
})
test_that("profEIC,xcmsRaw works", {
## file <- system.file('cdf/KO/ko15.CDF', package = "faahKO")
## Compare the results with manual calculations on the profile matrix.
step <- 1
## xraw <- xcmsRaw(file, profstep = 0)
xraw <- deepCopy(faahko_xr_1)
profmat <- profMat(xraw, step = step)
mzr <- c(200, 201)
rtr <- c(3000, 3500)
res_1 <- profEIC(xraw, mzrange = mzr, rtrange = rtr, step = step)
res_x <- getEIC(xraw, mzrange = mzr, rtrange = rtr, step = step)
## manual calculation:
scn_idx <- which(xraw@scantime >= rtr[1] & xraw@scantime <= rtr[2])
mass <- seq(floor(xraw@mzrange[1] / step) * step,
ceiling(xraw@mzrange[2] / step) * step, by = step)
mass_idx <- which(mass >= mzr[1] & mass <= mzr[2])
max_mass <- apply(profmat[mass_idx, scn_idx], MARGIN = 2, max)
rts <- xraw@scantime[scn_idx]
expect_equal(res_1@eic[[1]][[1]][, 1], rts)
expect_equal(res_1@eic[[1]][[1]][, 2], max_mass)
expect_equal(res_1, res_x)
## OK, now with binlinbase
profMethod(xraw) <- "binlinbase"
xraw@profparam <- list(baselevel = 666666)
profmat <- profMat(xraw, step = 1)
res_2 <- profEIC(xraw, mzrange = mzr, rtrange = rtr, step = step)
res_x <- getEIC(xraw, mzrange = mzr, rtrange = rtr, step = step)
max_mass <- apply(profmat[mass_idx, scn_idx], MARGIN = 2, max)
expect_equal(res_2@eic[[1]][[1]][, 1], rts)
expect_equal(res_2@eic[[1]][[1]][, 2], max_mass)
expect_true(sum(res_2@eic[[1]][[1]][, 2] == 666666) > 0)
expect_equal(res_2, res_x)
## Results should be different to previous ones.
expect_true(any(res_2@eic[[1]][[1]][, 2] != res_1@eic[[1]][[1]][, 2]))
expect_true(all(res_2@eic[[1]][[1]][, 1] == res_1@eic[[1]][[1]][, 1]))
## Without pre-calculated profile matrix:
profmat <- profMat(xraw, step = 0.2)
res_3 <- profEIC(xraw, mzrange = mzr, rtrange = rtr, step = 0.2)
res_x <- getEIC(xraw, mzrange = mzr, rtrange = rtr, step = 0.2)
max_mass <- apply(profmat[mass_idx, scn_idx], MARGIN = 2, max)
expect_equal(res_3@eic[[1]][[1]][, 1], rts)
expect_equal(res_3@eic[[1]][[1]][, 2], max_mass)
expect_equal(res_3, res_x)
## Results should be different to previous ones.
expect_true(any(res_3@eic[[1]][[1]][, 2] != res_2@eic[[1]][[1]][, 2]))
expect_true(all(res_3@eic[[1]][[1]][, 1] == res_2@eic[[1]][[1]][, 1]))
## Now with intlin
profMethod(xraw) <- "intlin"
profmat <- profMat(xraw, step = 1)
res_3 <- profEIC(xraw, mzrange = mzr, rtrange = rtr, step = step)
res_x <- getEIC(xraw, mzrange = mzr, rtrange = rtr, step = step)
max_mass <- apply(profmat[mass_idx, scn_idx], MARGIN = 2, max)
expect_equal(res_3@eic[[1]][[1]][, 1], rts)
expect_equal(res_3@eic[[1]][[1]][, 2], max_mass)
expect_equal(res_3, res_x)
## Now test with multiple mz ranges
mzrm <- rbind(c(300, 302), mzr, c(205, 207), c(500, 507))
profMethod(xraw) <- "bin"
profmat <- profMat(xraw, step = 1)
max_mass <- apply(profmat[mass_idx, scn_idx], MARGIN = 2, max)
res_1 <- profEIC(xraw, mzrange = mzrm, rtrange = rtr, step = step)
res_x <- getEIC(xraw, mzrange = mzrm, rtrange = rtr, step = step)
expect_equal(res_1@eic[[1]][[2]][, 2], max_mass)
## 4th range:
mass_idx_2 <- which(mass >= 500 & mass <= 507)
max_mass <- apply(profmat[mass_idx_2, scn_idx], MARGIN = 2, max)
expect_equal(res_1@eic[[1]][[4]][, 2], max_mass)
expect_equal(res_1, res_x)
## Different step:
step <- 0.2
res_1 <- profEIC(xraw, mzrange = mzrm, rtrange = rtr, step = step)
res_x <- getEIC(xraw, mzrange = mzrm, rtrange = rtr, step = step)
mass <- seq(floor(xraw@mzrange[1] / step) * step,
ceiling(xraw@mzrange[2] / step) * step, by = step)
mass_idx <- which(mass >= mzr[1] & mass <= mzr[2])
scn_idx <- which(xraw@scantime >= rtr[1] & xraw@scantime <= rtr[2])
profmat <- profMat(xraw, step = step)
max_mass <- apply(profmat[mass_idx, scn_idx], MARGIN = 2, max)
expect_equal(res_1@eic[[1]][[2]][, 2], max_mass)
expect_equal(res_1, res_x)
## 4th range:
mass_idx_2 <- which(mass >= 500 & mass <= 507)
max_mass <- apply(profmat[mass_idx_2, scn_idx], MARGIN = 2, max)
expect_equal(res_1@eic[[1]][[4]][, 2], max_mass)
## Test with the whole mzrange.
step <- 0.5
profMethod(xraw) <- "bin"
profmat <- profMat(xraw, step = step)
res_1 <- profEIC(xraw, rtrange = rtr, step = step)
res_x <- getEIC(xraw, rtrange = rtr, step = step)
scn_idx <- which(xraw@scantime >= rtr[1] & xraw@scantime <= rtr[2])
max_mass <- apply(profmat[, scn_idx], MARGIN = 2, max)
expect_equal(res_1@eic[[1]][[1]][, 2], max_mass) ## Compare max per rt
expect_equal(res_1@eic[[1]][[1]][, 1], xraw@scantime[scn_idx])
expect_equal(res_1, res_x)
## Whole rtrange:
res_1 <- profEIC(xraw, mzrange = mzr, step = step)
res_x <- getEIC(xraw, mzrange = mzr, step = step)
mass <- seq(floor(xraw@mzrange[1] / step) * step,
ceiling(xraw@mzrange[2] / step) * step, by = step)
mass_idx <- which(mass >= mzr[1] & mass <= mzr[2])
max_mass <- apply(profmat[mass_idx, ], MARGIN = 2, max)
expect_equal(res_1@eic[[1]][[1]][, 2], max_mass)
expect_equal(res_1@eic[[1]][[1]][, 1], xraw@scantime)
expect_equal(res_1, res_x)
## Everything.
res_1 <- profEIC(xraw, step = step)
res_x <- getEIC(xraw, step = step)
max_mass <- apply(profmat, MARGIN = 2, max)
expect_equal(res_1@eic[[1]][[1]][, 2], max_mass)
expect_equal(res_1, res_x)
## Error checking:
## mz range outside
mzr <- c(0, 14)
expect_error(profEIC(xraw, mzrange = mzr))
expect_error(getEIC(xraw, mzrange = mzr))
## rt range outside
expect_error(profEIC(xraw, rtrange = c(6000, 6060)))
expect_error(getEIC(xraw, rtrange = c(6000, 6060)))
## mzrange with more than 2 columns
expect_error(profEIC(xraw, mzrange = c(1, 3, 5)))
expect_error(getEIC(xraw, mzrange = c(1, 3, 5)))
## rtrange with more than 2 columns
expect_error(profEIC(xraw, rtrange = c(2, 4, 6)))
expect_error(getEIC(xraw, rtrange = c(2, 4, 6)))
})
test_that("plotEIC,xcmsRaw works", {
## file <- system.file('cdf/KO/ko15.CDF', package = "faahKO")
## xraw <- xcmsRaw(file)
xraw <- deepCopy(faahko_xr_1)
e <- getEIC(xraw, rtrange=cbind(3000,3500), mzrange=cbind(200,201))
plot(e)
})
test_that("findPeaks.centWave,xcmsRaw works with scanrange", {
## Without sub-setting!
xraw <- deepCopy(faahko_xr_1)
res_1 <- findPeaks.centWave(xraw, noise = 10000)
## res_2 <- xcms:::.findPeaks.centWave_orig(xraw, noise = 10000)
## checkIdentical(res_1, res_2)
scnr <- c(90, 345)
res_1 <- findPeaks.centWave(xraw, scanrange = scnr, noise = 5000)
## res_2 <- xcms:::.findPeaks.centWave_orig(xraw, scanrange = scnr,
## noise = 5000)
## checkIdentical(res_1, res_2)
## Compare with do_
xsub <- xraw[90:345]
res_3 <- do_findChromPeaks_centWave(mz = xsub@env$mz,
int = xsub@env$intensity,
scantime = xsub@scantime,
noise = 5000,
valsPerSpect = diff(c(xsub@scanindex,
length(xsub@env$mz))))
expect_identical(res_3, res_1@.Data)
scnr <- c(1, 400)
res_1 <- findPeaks.centWave(xraw, scanrange = scnr, noise = 5000)
## res_2 <- xcms:::.findPeaks.centWave_orig(xraw, scanrange = scnr,
## noise = 5000)
## checkIdentical(res_1, res_2)
})
test_that("findPeaks.matchedFilter,xcmsRaw works with scanrange", {
scnr <- c(90, 50000)
xraw <- deepCopy(faahko_xr_1)
res_1 <- findPeaks.matchedFilter(xraw, scanrange = scnr)
## suppressWarnings(
## res_2 <- xcms:::findPeaks.matchedFilter_orig(xraw, scanrange = scnr)
## )
expect_warning(xsub <- xraw[90:50000])
res_3 <- findPeaks.matchedFilter(xsub)
## checkIdentical(res_1, res_2)
expect_identical(res_1, res_3)
})
test_that("findPeaks.massifquant,xcmsRaw works with scanrange", {
## Compare passing the scanrange with performing the search on a
## pre-subsetted object.
xraw <- deepCopy(faahko_xr_1)
scnr <- c(90, 150)
res_1 <- findPeaks.massifquant(xraw, scanrange = scnr)
xsub <- xraw[scnr[1]:scnr[2]]
res_2 <- findPeaks.massifquant(xsub)
expect_identical(res_1, res_2)
## Same with "withWave"
scnr <- c(90, 200)
res_1 <- findPeaks.massifquant(xraw, scanrange = scnr, withWave = 1)
xsub <- xraw[scnr[1]:scnr[2]]
res_2 <- findPeaks.massifquant(xsub, withWave = 1)
expect_identical(res_1, res_2)
})
test_that("[,xcmsRaw works", {
file <- system.file('cdf/KO/ko15.CDF', package = "faahKO")
xraw <- xcmsRaw(file, profstep = 0)
## Get scans 1:10
xsub <- xraw[1:10]
expect_identical(xraw@scantime[1:10], xsub@scantime)
expect_identical(xraw@scanindex[1:10], xsub@scanindex[1:10])
expect_identical(xraw@env$mz[1:xraw@scanindex[11]], xsub@env$mz)
expect_identical(xraw@env$intensity[1:xraw@scanindex[11]], xsub@env$intensity)
## Check if mz is sorted:
## Check using logical
bm <- rep(FALSE, length(xraw@scanindex))
bm[1:10] <- TRUE
xsub_2 <- xraw[bm]
expect_equal(xsub, xsub_2)
## Get none.
xempty <- xraw[rep(FALSE, length(xraw@scanindex))]
expect_true(length(xempty@scanindex) == 0)
## Get the full one:
xsub <- xraw[1:length(xraw@scanindex)]
expect_equal(xsub@env$mz, xraw@env$mz)
expect_equal(xsub@env$intensity, xraw@env$intensity)
## Get some scans in the middle somewhere
i <- c(5, 99, 317)
xsub <- xraw[i]
expect_identical(xsub@scantime, xraw@scantime[i])
## scanindex:
vps <- diff(c(xraw@scanindex, length(xraw@env$mz)))
scnidx <- xcms:::valueCount2ScanIndex(vps[i])
expect_equal(scnidx, xsub@scanindex)
whichIdx <- c(((xraw@scanindex[5] + 1):xraw@scanindex[6]),
((xraw@scanindex[99] + 1):xraw@scanindex[100]),
((xraw@scanindex[317] + 1):xraw@scanindex[318]))
expect_identical(xsub@env$mz, xraw@env$mz[whichIdx])
expect_identical(xsub@env$intensity, xraw@env$intensity[whichIdx])
## Finally check that we get the same object by calling getXcmsRaw from an
## xcmsSet and by subsetting or using xcmsRaw with scanrange:
xraw <- xcmsRaw(file, profstep = 20)
xraw_sub <- xraw[5:100]
expect_warning(xset <- xcmsSet(file, scanrange = c(5, 100), step = 20))
xraw_xset <- getXcmsRaw(xset)
expect_equal(scanrange(xraw_sub), scanrange(xraw_xset))
## Load the object using xcmsRaw and scanrange
xraw_2 <- xcmsRaw(file, scanrange = c(5, 100), profstep = 20)
expect_equal(scanrange(xraw_sub), scanrange(xraw_2))
## Compare objects
expect_equal(xraw_sub, xraw_xset)
expect_equal(xraw_sub, xraw_2)
expect_equal(xraw_xset, xraw_2)
})
test_that("deepCopy,xcmsRaw works", {
file <- system.file('cdf/KO/ko15.CDF', package = "faahKO")
xraw <- xcmsRaw(file, profstep = 0)
xrawCopy <- deepCopy(xraw)
expect_true(all(xraw@env$mz == xrawCopy@env$mz))
xrawCopy@env$mz <- xrawCopy@env$mz+1
expect_true(all(xraw@env$mz != xrawCopy@env$mz))
})
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