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tests/testthat/test_getTargetFeatureStatistic.R
In peakPantheR: Peak Picking and Annotation of High Resolution Experiments
context('getTargetFeatureStatistic()')
skip_if(getRversion() >= "3.6")
skip_if_not_installed('faahKO', minimum_version = '1.18.0')
library(faahKO)
## Input and expected data
# use ko15.CDf file from the pkg faahKO
# fitted curves
cFit1 <- list(amplitude=162404.8057918259, center=3341.888, sigma=0.078786133031045896, gamma=0.0018336101984172684, fitStatus=2, curveModel="skewedGaussian")
class(cFit1) <- 'peakPantheR_curveFit'
cFit2 <- list(amplitude=199249.10572753669, center=3382.577, sigma=0.074904415304607966, gamma=0.0011471899372353885, fitStatus=2, curveModel="skewedGaussian")
class(cFit2) <- 'peakPantheR_curveFit'
cFit3 <- list(amplitude=31645.961277502651, center=3451.435, sigma=0.064803553287811053, gamma=2.8557893789555022, fitStatus=2, curveModel="skewedGaussian")
class(cFit3) <- 'peakPantheR_curveFit'
cFit4 <- list(amplitude=59193.591103772116, center=3698.697, sigma=0.082789238806238355, gamma=0.0026044299691057823, fitStatus=2, curveModel="skewedGaussian")
class(cFit4) <- 'peakPantheR_curveFit'
input_fitCurves <- list(cFit1, cFit2, cFit3, cFit4)
# ROI
input_ROI <- data.frame(matrix(vector(), 4, 8, dimnames=list(c(), c("cpdID", "cpdName", "rtMin", "rt", "rtMax", "mzMin", "mz", "mzMax"))),stringsAsFactors=F)
input_ROI[1,] <- c("ID-1", "testCpd 1", 3310., 3344.888, 3390., 522.194778, 522.2, 522.205222)
input_ROI[2,] <- c("ID-2", "testCpd 2", 3280., 3385.577, 3440., 496.195038, 496.2, 496.204962)
input_ROI[3,] <- c("ID-3", "testCpd 3", 3420., 3454.435, 3495., 464.195358, 464.2, 464.204642)
input_ROI[4,] <- c("ID-4", "testCpd 4", 3670., 3701.697, 3745., 536.194638, 536.2, 536.205362)
input_ROI[,3:8] <- sapply(input_ROI[,3:8], as.numeric)
# foundPeakTable
input_foundPeakTable <- data.frame(matrix(vector(), 4, 10, dimnames=list(c(), c("found", "rtMin", "rt", "rtMax", "mzMin", "mz", "mzMax", "peakArea", "maxIntMeasured", "maxIntPredicted"))),stringsAsFactors=F)
input_foundPeakTable[1,] <- c(TRUE, 3309.7589296586070, 3346.8277590361445, 3385.4098874628098, 522.194778, 522.20001220703125, 522.205222, 26133726.6811244078, 889280, 901015.80529226747)
input_foundPeakTable[2,] <- c(TRUE, 3345.3766648628907, 3386.5288072289159, 3428.2788374983961, 496.20001220703125, 496.20001220703125, 496.20001220703125, 35472141.3330242932, 1128960, 1113576.69008227298)
input_foundPeakTable[3,] <- c(TRUE, 3451.2075903614455, 3451.5072891566265, 3501.6697504924518, 464.195358, 464.20001220703125, 464.204642, 7498427.1583901159, 380736, 389632.13549519412)
input_foundPeakTable[4,] <- c(TRUE, 3670.9201232710743, 3704.1427831325304, 3740.0172511251831, 536.20001220703125, 536.20001220703125, 536.20001220703125, 8626279.9788195733, 330176, 326763.87246511364)
input_foundPeakTable[,1] <- sapply(input_foundPeakTable[,c(1)], as.logical)
# peakStatistics
peakStatistics <- input_foundPeakTable
peakStatistics$ppm_error <- c(0.023376160866574614, 0.024601030353423384, 0.026296922148575364, 0.022765817240815486)
peakStatistics$rt_dev_sec <- c(1.93975903614455092, 0.95180722891564074, 2.92771084337346110, 2.44578313253032320)
peakStatistics$tailingFactor <- c(1.0153573486330891, 1.0053782620427065, 207.6939219686769036, 1.0305289730128095)
peakStatistics$asymmetryFactor <- c(1.0268238825675249, 1.0093180792278085, 380.5019028782010082, 1.0536948855480386)
test_that('no verbose', {
# expected foundPeaks
expected_featureStatistic <- peakStatistics
# results (output, warnings and messages)
result_featureStatistic <- evaluate_promise(getTargetFeatureStatistic(input_fitCurves, input_ROI, input_foundPeakTable, verbose=FALSE))
# Check result table
expect_equal(result_featureStatistic$result, expected_featureStatistic)
# Check no result messages
expect_equal(length(result_featureStatistic$messages), 0)
})
test_that('verbose', {
# expected foundPeaks
expected_featureStatistic <- peakStatistics
# results (output, warnings and messages)
result_featureStatistic <- evaluate_promise(getTargetFeatureStatistic(input_fitCurves, input_ROI, input_foundPeakTable, verbose=TRUE))
# Check result table
expect_equal(result_featureStatistic$result, expected_featureStatistic)
# Check messages (cannot match timing)
expect_equal(length(result_featureStatistic$messages), 1)
})
test_that('no rtMin (#1), no rtMax (#2), no fittedCurve (#3), no apexRT (#4)', {
# foundPeakTable
tmp_foundPeakTable <- input_foundPeakTable
tmp_foundPeakTable[1, 'rtMin'] <- NA
tmp_foundPeakTable[2, 'rtMax'] <- NA
tmp_foundPeakTable[4, 'rt'] <- NA
# curveFit
tmp_fitCurves <- input_fitCurves
tmp_fitCurves[[3]] <- NA
# expected foundPeaks
expected_featureStatistic <- peakStatistics
expected_featureStatistic$rtMin[1] <- as.numeric(NA)
expected_featureStatistic$rtMax[2] <- as.numeric(NA)
expected_featureStatistic$rt[4] <- as.numeric(NA)
expected_featureStatistic$tailingFactor <- as.numeric(NA)
expected_featureStatistic$asymmetryFactor <- as.numeric(NA)
expected_featureStatistic$rt_dev_sec[4] <- as.numeric(NA)
# results (output, warnings and messages)
result_featureStatistic <- evaluate_promise(getTargetFeatureStatistic(tmp_fitCurves, input_ROI, tmp_foundPeakTable, verbose=TRUE))
# Check result table
expect_equal(result_featureStatistic$result, expected_featureStatistic)
# Check messages (cannot match timing)
expect_equal(length(result_featureStatistic$messages), 1)
})
test_that('no rt (#2), no mz (#3)', {
# foundPeakTable
tmp_ROI <- input_ROI
tmp_ROI[2, 'rt'] <- NA
tmp_ROI[3, 'mz'] <- NA
# expected foundPeaks
expected_featureStatistic <- peakStatistics
expected_featureStatistic$rt_dev_sec[2] <- as.numeric(NA)
expected_featureStatistic$ppm_error[3] <- as.numeric(NA)
# results (output, warnings and messages)
result_featureStatistic <- evaluate_promise(getTargetFeatureStatistic(input_fitCurves, tmp_ROI, input_foundPeakTable, verbose=TRUE))
# Check result table
expect_equal(result_featureStatistic$result, expected_featureStatistic)
# Check messages (cannot match timing)
expect_equal(length(result_featureStatistic$messages), 1)
})
test_that('wrong rtMin (#2), wrong rtMax (#3)', {
# if rtMin > 5/10% and rtMax > 5/10% maxInt, cannot calculate statistic. (Shouldn't happen as rtMin rtMax are at 0.5% maxInt)
# foundPeakTable
tmp_foundPeakTable <- input_foundPeakTable
tmp_foundPeakTable[2, 'rtMin'] <- 3380.
tmp_foundPeakTable[3, 'rtMax'] <- 3460.
# expected foundPeaks
expected_featureStatistic <- peakStatistics
expected_featureStatistic$rtMin[2] <- 3380.
expected_featureStatistic$rtMax[3] <- 3460.
expected_featureStatistic$tailingFactor[2] <- as.numeric(NA)
expected_featureStatistic$asymmetryFactor[2] <- as.numeric(NA)
expected_featureStatistic$tailingFactor[3] <- as.numeric(NA)
expected_featureStatistic$asymmetryFactor[3] <- as.numeric(NA)
# results (output, warnings and messages)
result_featureStatistic <- evaluate_promise(getTargetFeatureStatistic(input_fitCurves, input_ROI, tmp_foundPeakTable, verbose=TRUE))
# Check result table
expect_equal(result_featureStatistic$result, expected_featureStatistic)
# Check messages (cannot match timing)
expect_equal(length(result_featureStatistic$messages), 1)
})
test_that('raise errors', {
# targetFeatTable and foundPeakTable dimension mismatch
expect_error(getTargetFeatureStatistic(input_fitCurves, input_ROI[1:3,], input_foundPeakTable, verbose=TRUE), 'Number of features in "targetFeatTable" (3) and "foundPeakTable" (4) do not match!', fixed=TRUE)
# Number of fittedCurve and foundPeakTable mismatch
expect_error(getTargetFeatureStatistic(input_fitCurves[1:3], input_ROI, input_foundPeakTable, verbose=TRUE), 'Number of fitted curves in "fittedCurves" (3) and number of features in "foundPeakTable" (4) do not match!', fixed=TRUE)
})
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peakPantheR documentation built on May 1, 2019, 10:53 p.m.
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context('getTargetFeatureStatistic()')
skip_if(getRversion() >= "3.6")
skip_if_not_installed('faahKO', minimum_version = '1.18.0')
library(faahKO)
## Input and expected data
# use ko15.CDf file from the pkg faahKO
# fitted curves
cFit1 <- list(amplitude=162404.8057918259, center=3341.888, sigma=0.078786133031045896, gamma=0.0018336101984172684, fitStatus=2, curveModel="skewedGaussian")
class(cFit1) <- 'peakPantheR_curveFit'
cFit2 <- list(amplitude=199249.10572753669, center=3382.577, sigma=0.074904415304607966, gamma=0.0011471899372353885, fitStatus=2, curveModel="skewedGaussian")
class(cFit2) <- 'peakPantheR_curveFit'
cFit3 <- list(amplitude=31645.961277502651, center=3451.435, sigma=0.064803553287811053, gamma=2.8557893789555022, fitStatus=2, curveModel="skewedGaussian")
class(cFit3) <- 'peakPantheR_curveFit'
cFit4 <- list(amplitude=59193.591103772116, center=3698.697, sigma=0.082789238806238355, gamma=0.0026044299691057823, fitStatus=2, curveModel="skewedGaussian")
class(cFit4) <- 'peakPantheR_curveFit'
input_fitCurves <- list(cFit1, cFit2, cFit3, cFit4)
# ROI
input_ROI <- data.frame(matrix(vector(), 4, 8, dimnames=list(c(), c("cpdID", "cpdName", "rtMin", "rt", "rtMax", "mzMin", "mz", "mzMax"))),stringsAsFactors=F)
input_ROI[1,] <- c("ID-1", "testCpd 1", 3310., 3344.888, 3390., 522.194778, 522.2, 522.205222)
input_ROI[2,] <- c("ID-2", "testCpd 2", 3280., 3385.577, 3440., 496.195038, 496.2, 496.204962)
input_ROI[3,] <- c("ID-3", "testCpd 3", 3420., 3454.435, 3495., 464.195358, 464.2, 464.204642)
input_ROI[4,] <- c("ID-4", "testCpd 4", 3670., 3701.697, 3745., 536.194638, 536.2, 536.205362)
input_ROI[,3:8] <- sapply(input_ROI[,3:8], as.numeric)
# foundPeakTable
input_foundPeakTable <- data.frame(matrix(vector(), 4, 10, dimnames=list(c(), c("found", "rtMin", "rt", "rtMax", "mzMin", "mz", "mzMax", "peakArea", "maxIntMeasured", "maxIntPredicted"))),stringsAsFactors=F)
input_foundPeakTable[1,] <- c(TRUE, 3309.7589296586070, 3346.8277590361445, 3385.4098874628098, 522.194778, 522.20001220703125, 522.205222, 26133726.6811244078, 889280, 901015.80529226747)
input_foundPeakTable[2,] <- c(TRUE, 3345.3766648628907, 3386.5288072289159, 3428.2788374983961, 496.20001220703125, 496.20001220703125, 496.20001220703125, 35472141.3330242932, 1128960, 1113576.69008227298)
input_foundPeakTable[3,] <- c(TRUE, 3451.2075903614455, 3451.5072891566265, 3501.6697504924518, 464.195358, 464.20001220703125, 464.204642, 7498427.1583901159, 380736, 389632.13549519412)
input_foundPeakTable[4,] <- c(TRUE, 3670.9201232710743, 3704.1427831325304, 3740.0172511251831, 536.20001220703125, 536.20001220703125, 536.20001220703125, 8626279.9788195733, 330176, 326763.87246511364)
input_foundPeakTable[,1] <- sapply(input_foundPeakTable[,c(1)], as.logical)
# peakStatistics
peakStatistics <- input_foundPeakTable
peakStatistics$ppm_error <- c(0.023376160866574614, 0.024601030353423384, 0.026296922148575364, 0.022765817240815486)
peakStatistics$rt_dev_sec <- c(1.93975903614455092, 0.95180722891564074, 2.92771084337346110, 2.44578313253032320)
peakStatistics$tailingFactor <- c(1.0153573486330891, 1.0053782620427065, 207.6939219686769036, 1.0305289730128095)
peakStatistics$asymmetryFactor <- c(1.0268238825675249, 1.0093180792278085, 380.5019028782010082, 1.0536948855480386)
test_that('no verbose', {
# expected foundPeaks
expected_featureStatistic <- peakStatistics
# results (output, warnings and messages)
result_featureStatistic <- evaluate_promise(getTargetFeatureStatistic(input_fitCurves, input_ROI, input_foundPeakTable, verbose=FALSE))
# Check result table
expect_equal(result_featureStatistic$result, expected_featureStatistic)
# Check no result messages
expect_equal(length(result_featureStatistic$messages), 0)
})
test_that('verbose', {
# expected foundPeaks
expected_featureStatistic <- peakStatistics
# results (output, warnings and messages)
result_featureStatistic <- evaluate_promise(getTargetFeatureStatistic(input_fitCurves, input_ROI, input_foundPeakTable, verbose=TRUE))
# Check result table
expect_equal(result_featureStatistic$result, expected_featureStatistic)
# Check messages (cannot match timing)
expect_equal(length(result_featureStatistic$messages), 1)
})
test_that('no rtMin (#1), no rtMax (#2), no fittedCurve (#3), no apexRT (#4)', {
# foundPeakTable
tmp_foundPeakTable <- input_foundPeakTable
tmp_foundPeakTable[1, 'rtMin'] <- NA
tmp_foundPeakTable[2, 'rtMax'] <- NA
tmp_foundPeakTable[4, 'rt'] <- NA
# curveFit
tmp_fitCurves <- input_fitCurves
tmp_fitCurves[[3]] <- NA
# expected foundPeaks
expected_featureStatistic <- peakStatistics
expected_featureStatistic$rtMin[1] <- as.numeric(NA)
expected_featureStatistic$rtMax[2] <- as.numeric(NA)
expected_featureStatistic$rt[4] <- as.numeric(NA)
expected_featureStatistic$tailingFactor <- as.numeric(NA)
expected_featureStatistic$asymmetryFactor <- as.numeric(NA)
expected_featureStatistic$rt_dev_sec[4] <- as.numeric(NA)
# results (output, warnings and messages)
result_featureStatistic <- evaluate_promise(getTargetFeatureStatistic(tmp_fitCurves, input_ROI, tmp_foundPeakTable, verbose=TRUE))
# Check result table
expect_equal(result_featureStatistic$result, expected_featureStatistic)
# Check messages (cannot match timing)
expect_equal(length(result_featureStatistic$messages), 1)
})
test_that('no rt (#2), no mz (#3)', {
# foundPeakTable
tmp_ROI <- input_ROI
tmp_ROI[2, 'rt'] <- NA
tmp_ROI[3, 'mz'] <- NA
# expected foundPeaks
expected_featureStatistic <- peakStatistics
expected_featureStatistic$rt_dev_sec[2] <- as.numeric(NA)
expected_featureStatistic$ppm_error[3] <- as.numeric(NA)
# results (output, warnings and messages)
result_featureStatistic <- evaluate_promise(getTargetFeatureStatistic(input_fitCurves, tmp_ROI, input_foundPeakTable, verbose=TRUE))
# Check result table
expect_equal(result_featureStatistic$result, expected_featureStatistic)
# Check messages (cannot match timing)
expect_equal(length(result_featureStatistic$messages), 1)
})
test_that('wrong rtMin (#2), wrong rtMax (#3)', {
# if rtMin > 5/10% and rtMax > 5/10% maxInt, cannot calculate statistic. (Shouldn't happen as rtMin rtMax are at 0.5% maxInt)
# foundPeakTable
tmp_foundPeakTable <- input_foundPeakTable
tmp_foundPeakTable[2, 'rtMin'] <- 3380.
tmp_foundPeakTable[3, 'rtMax'] <- 3460.
# expected foundPeaks
expected_featureStatistic <- peakStatistics
expected_featureStatistic$rtMin[2] <- 3380.
expected_featureStatistic$rtMax[3] <- 3460.
expected_featureStatistic$tailingFactor[2] <- as.numeric(NA)
expected_featureStatistic$asymmetryFactor[2] <- as.numeric(NA)
expected_featureStatistic$tailingFactor[3] <- as.numeric(NA)
expected_featureStatistic$asymmetryFactor[3] <- as.numeric(NA)
# results (output, warnings and messages)
result_featureStatistic <- evaluate_promise(getTargetFeatureStatistic(input_fitCurves, input_ROI, tmp_foundPeakTable, verbose=TRUE))
# Check result table
expect_equal(result_featureStatistic$result, expected_featureStatistic)
# Check messages (cannot match timing)
expect_equal(length(result_featureStatistic$messages), 1)
})
test_that('raise errors', {
# targetFeatTable and foundPeakTable dimension mismatch
expect_error(getTargetFeatureStatistic(input_fitCurves, input_ROI[1:3,], input_foundPeakTable, verbose=TRUE), 'Number of features in "targetFeatTable" (3) and "foundPeakTable" (4) do not match!', fixed=TRUE)
# Number of fittedCurve and foundPeakTable mismatch
expect_error(getTargetFeatureStatistic(input_fitCurves[1:3], input_ROI, input_foundPeakTable, verbose=TRUE), 'Number of fitted curves in "fittedCurves" (3) and number of features in "foundPeakTable" (4) do not match!', fixed=TRUE)
})
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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