Nothing
tests/testthat/test-IO-internal.R
In flowCore: flowCore: Basic structures for flow cytometry data
#the FCS files are not included in package due to the size , thus only for internal testing
context("Functional Tests Related to Loading/Saving flowFrames from FCS ")
dataPath <- "~/rglab/workspace/flowCore/misc/"
skip_if_not(dir.exists(dataPath))
expectRes <- readRDS("~/rglab/workspace/flowCore/tests/testthat/expectResults.rds")
refs <- readRDS("~/rglab/workspace/flowCore/tests/testthat/ref_flowframes.rds")
# saveRDS(refs, "~/rglab/workspace/flowCore/misc/test_reference/flowframes.rds")
expectRes.new <- readRDS("~/rglab/workspace/flowCore/tests/testthat/expectRes.new.rds")
# saveRDS(expectRes.new, file = "~/rglab/workspace/flowCore/tests/testthat/expectRes.new.rds")
test_that("trailing double delimiter", {
expect_silent(fr <- read.FCS(file.path(dataPath, "trailingdoubledelimiter.fcs")))
expect_equal(length(keyword(fr)), 38)
expect_equal(keyword(fr)[["keyword1234"]], "")#check the last keyword is parsed correctly
#disable empty value
expect_silent(fr <- read.FCS(file.path(dataPath, "trailingdoubledelimiter.fcs"), emptyValue = F))
expect_equal(length(keyword(fr)), 37)
expect_equal(keyword(fr)[["SAMPLE ID"]], "Default Patient ID")#check the second last keyword is parsed correctly
expect_null(keyword(fr)[["keyword1234"]])#check the last keyword is dropped correctly
})
test_that("trailing space", {
expect_silent(fr <- read.FCS(file.path(dataPath, "trailing_space.fcs")))
expect_equal(length(keyword(fr)), 37)
expect_equal(keyword(fr)[["SAMPLE ID"]], "Default Patient ID")#check the last keyword is parsed correctly
})
# expectRes.new <- list()
test_that("big file", {
#too slow to run
# fr <- read.FCS(file.path(dataPath, "gigantic_file.fcs"), column.pattern = "FSC*")
fr <- read.FCS(file.path(dataPath, "gigantic_file.fcs")
, which.lines = c(1,1e9)
, column.pattern = "FSC*")
expect_equal(nrow(fr), 1)
fr <- read.FCS(file.path(dataPath, "gigantic_file.fcs"), which.lines = 1:1e3)
expect_equal(nrow(fr), 1e3)
fr <- read.FCS(file.path(dataPath, "gigantic_file.fcs"), which.lines = (1e3+1):2e3)
expect_equal(nrow(fr), 1e3)
})
test_that("DATATYPE:'D'", {
expect_warning(fr <- read.FCS(file.path(dataPath, "double_precision/wishbone_myleoid_monocyte.fcs")), "Missing the required")
expect_is(fr, "flowFrame")
filename <- "wishbone_thymus_panel1_rep1.fcs"
expect_warning(fr <- read.FCS(file.path(dataPath, "double_precision", filename)), "Missing the required")
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
expect_equal(nrow(fr), 250170)
})
test_that("multi data segment", {
expect_warning(fr <- read.FCS(file.path(dataPath, "multi-datasegment.fcs")), "39 additional data")
expect_is(fr, "flowFrame")
expect_equal(nrow(fr), 1244)
filename <- "multi-datasegment.fcs"
fr <- read.FCS(file.path(dataPath, filename), dataset = 1)
expect_equal(nrow(fr), 1244)
fr <- read.FCS(file.path(dataPath, filename), dataset = 10)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
expect_equal(nrow(fr), 955)
})
test_that("FCS with both SPILL and $SPILLOVER present", {
filename <- "example-spill-spillover.fcs"
fr <- read.FCS(file.path(dataPath, filename))
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
expect_equal(keyword(fr)[["SPILL"]], keyword(fr)[["$SPILLOVER"]])
tmp <- spillover(fr)
expect_equal(tmp[["SPILL"]], tmp[["$SPILLOVER"]])
tmp <- tempfile()
write.FCS(fr, filename = tmp)
fr <- read.FCS(tmp)
expect_equal(keyword(fr)[["SPILL"]], keyword(fr)[["$SPILLOVER"]])
})
test_that("test uint_64 + diverse bitwidths + missing $NEXTDATA: '*' ", {
filename <- "uint_64.lxb"
expect_warning(fr <- read.FCS(file.path(dataPath, filename)))
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
})
#TODO: investigate why the results is no longer consistent with the archived summary
test_that("mixed endian", {
filename <- "mixedEndian.fcs"
fr <- read.FCS(file.path(dataPath, filename))
expect_is(fr, "flowFrame")
# expect_equal(summary(fr), expectRes[["read.FCS"]][["mixedEndian"]])
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
})
# 'FILENAME' keyword may change when file path is changed
# so we hard code it to make the comparsion consistent in case the file is moved
test_that("test special delimiter character: '*' ", {
filename <- "multi_data_segment.LMD"
expect_warning(fr <- read.FCS(file.path(dataPath, filename)), "1 additional data")
expect_equal(summary(fr), expectRes[["read.FCS"]][["multi_data_segment"]], tolerance = 0.08)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
})
test_that("test special delimiter character: '*' ", {
filename <- "specialDelimiter.fcs"
fr <- read.FCS(file.path(dataPath, filename))
expect_equal(summary(fr), expectRes[["read.FCS"]][["specialDelimiter"]], tolerance = 0.001)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
})
test_that("test flowJo exported data with missing some of PnR keywords ", {
expect_warning(expect_error(fr <- read.FCS(file.path(dataPath, "missing_PnR_flowJoExport.fcs"))
, "not contained")
, "Missing the required \\$BEGINDATA keyword")
})
test_that("test in consistent datastart between header and TEXT", {
expect_output(expect_error(fr <- read.FCS(file.path(dataPath, "Accuri-C6", "Accuri - C6 - A02 Spherotech 8 Peak Beads.fcs"), emptyValue = FALSE)
, "HEADER and the TEXT")
, "uneven number of tokens")
filename <- "Accuri - C6 - A02 Spherotech 8 Peak Beads.fcs"
expect_output(expect_warning(fr <- read.FCS(file.path(dataPath, "Accuri-C6", filename), emptyValue = FALSE, ignore.text.offset = TRUE)
, "HEADER and the TEXT")
, "uneven number of tokens")
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
expect_equal(nrow(fr), 60661)
expect_equal(summary(fr), expectRes[["read.FCS"]][["Accuri-C6"]], tolerance = 0.001)
expect_output(expect_warning(fs <- read.flowSet(file.path(dataPath, "Accuri-C6", filename), emptyValue = FALSE, ignore.text.offset = TRUE)
, "HEADER and the TEXT"), "uneven number of tokens")
expect_equal(nrow(fs[[1]]), 60661)
})
test_that("test odd-bitwidth FCS", {
filename <- "Sample 2.fcs"
set.seed(1)
fr <- read.FCS(file.path(dataPath, filename), which.lines = 100)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["Sample2"]], fr)
filename <- "11ColorSmall.fcs"
fr <- read.FCS(file.path(dataPath, "oddbitwith", filename))
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(expectRes[["read.FCS"]][["11ColorSmall"]], summary(fr))
#too slow to test
# fr <- read.FCS(file.path(dataPath, "oddbitwith/11ColorForOthers.fcs"))
# keyword(fr)[["FILENAME"]] <- "setToDummy"
# expect_equal(expectRes[["read.FCS"]][["11ColorForOthers"]], digest(fr))
# fr <- read.FCS("file.path(dataPath, "oddbitwith/11ColorFull.fcs"))
# keyword(fr)[["FILENAME"]] <- "setToDummy"
# expect_equal(expectRes[["read.FCS"]][["11ColorFull"]], digest(fr))
})
test_that("test other FCS", {
filename <- "20110125240_F06_I025.fcs"
set.seed(1)
fr <- read.FCS(file.path(dataPath, filename), which.lines = 100)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["ITN029ST"]], fr)
set.seed(1)
fr <- read.FCS(list.files(system.file("extdata", package="flowCore"),full=T)[1], which.lines = 100)
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["flowCore"]], fr)
filename <- "Blank.FCS"
fr <- read.FCS(file.path(dataPath, filename))
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(expectRes[["read.FCS"]][["Blank"]], summary(fr))
filename <- "Bendall et al Cell Sample A_basal.fcs"
set.seed(1)
expect_output(fr <- read.FCS(file.path(dataPath, filename), which.lines = 100)
, "dropped")
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["Bendall"]], fr)
})
test_that("test delimiter issue", {
filename <- "GFP_2Kfold_011911_noKan_QA-1.fcs"
expect_error(read.FCS(file.path(dataPath, filename))
, "Empty keyword name detected")
fr <- read.FCS(file.path(dataPath, filename), emptyValue = F)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(expectRes[["read.FCS"]][["GFP2Kfold"]], summary(fr))
expect_match(keyword(fr)[["GTI$WORKLIST"]], "C:/Document")
filename <- "RAINBOW_OK.fcs"
set.seed(1)
fr <- read.FCS(file.path(dataPath, filename), which.lines = 100)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["RAINBOW"]], fr)
fr <- read.FCS(file.path(dataPath, filename), emptyValue = F, which.lines = 100)
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["RAINBOWEmptyValue"]], fr)
#\ as delimiter with empty value
filename <- "sample_1071.001"
set.seed(1)
fr <- read.FCS(file.path(dataPath, filename), which.lines = 100)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["sample1071"]], fr)
fr <-read.FCS(file.path(dataPath, filename),emptyValue=F, which.lines = 100)
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["sample1071.double"]], fr)
})
# latest R no longer permit overflowed coersion by as.integer
test_that("test Beckman_Coulter_XDP issue", {
set.seed(1)
frList <- lapply(list.files(file.path(dataPath, "Beckman_Coulter/Beckman_Coulter_XDP/"),full=T)
, function(thisFile){
fr <- read.FCS(thisFile, which.lines = 100)
keyword(fr)[["FILENAME"]] <- "setToDummy"
fr
})
expect_equal(refs[["BeckmanCoulterXDP"]], frList)
})
test_that("test Beckman_Coulter $SPILLOVER keyword", {
set.seed(1)
frList <- lapply(list.files(file.path(dataPath, "Beckman_Coulter"),full=T, pattern = ".fcs")
, function(thisFile){
fr <- read.FCS(thisFile, which.lines = 100)
keyword(fr)[["FILENAME"]] <- "setToDummy"
fr
})
expect_equal(refs[["BeckmanCoulterSPILLOVER"]], frList)
})
test_that("test U mode", {
expect_error(read.FCS(file.path(dataPath, "PartecPAI/A0006980.FCS"))
, "MODE U")
})
test_that("test pre-gated data", {
filename <- "HC002_Col1_P3.fcs"
set.seed(1)
fr <- read.FCS(file.path(dataPath, filename), which.lines = 100)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["HC002_Col1_P3"]], fr)
filename <- "HC002_Col1.fcs"
set.seed(1)
fr <- read.FCS(file.path(dataPath, filename), which.lines = 100)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["HC002_Col1"]], fr)
})
test_that("test flowJo exported data with offset = 99999999 and missing the $BEGINDATA and $ENDDATA keywords ", {
filename <- "badFlowJoExport.fcs"
set.seed(1)
fr <- read.FCS(file.path(dataPath, filename), which.lines = 100)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["badFlowJoExport"]], fr)
})
test_that("test integer overflow issue", {
filename <- "intOverFlow.fcs"
set.seed(1)
fr <- read.FCS(file.path(dataPath, filename), which.lines = 100)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["intOverFlow"]], fr)
filename <- "MoFlo Astrios EQ 9C bis all.fcs"
set.seed(1)
fr <- read.FCS(file.path(dataPath,"/Beckman_Coulter", filename), which.lines = 100)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["MoFlo EQ 9C"]], fr)
})
test_that("test diverse Bitwidths", {
filename <- "diverseBitwidths.fcs"
fr <- read.FCS(file.path(dataPath, filename))
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["diverseBitwidths"]], fr)
})
test_that("handle > 2^32-1 bytes", {
skip("skip big flowFrame test")
fr <- flowFrame(matrix(data = rnorm(3e8), nrow = 1e8, ncol =3, dimnames = list(NULL, c("A", "B", "C"))))
expect_gt(object.size(exprs(fr)), 2^31-1)
tmp <- tempfile()
write.FCS(fr, tmp, what = "double")
set.seed(1)
lines <- sort(sample(1:1e8, 1e3))
fr1 <- read.FCS(tmp, which.lines = lines)
expect_equivalent(exprs(fr)[lines,], exprs(fr1))
})
test_that("whitespace in spillover matrix", {
fr <- read.FCS(file.path(dataPath, "spillover_spaces.fcs"))
expect_equal(spillover(fr), expectRes[["read.FCS"]][["spillover_spaces"]])
# Simple checks to make sure it continued parsing fine
expect_equal(nrow(fr), 10)
expect_equal(ncol(fr), 27)
})
test_that("Alternate decimal separator in spillover matrix", {
fr <- read.FCS(file.path(dataPath, "spillover_comma_decimal.fcs"))
refMat <- diag(8)
# This example FCS just uses the N values for the column names of this
# dummy spillover matrix
colnames(refMat) <- c(3,4,5,6,9,10,11,12)
expect_equal(spillover(fr)$`$SPILLOVER`, refMat)
# Simple checks to make sure it continued parsing fine
expect_equal(nrow(fr), 26053)
expect_equal(ncol(fr), 14)
# This one should error out, but more gracefully with a message as opposed
# to a C++ memory allocation failure
expect_error(fr <- read.FCS(file.path(dataPath, "spillover_wrong_number.fcs")),
class = "std::domain_error",
regexp="SPILLOVER size discrepancy could not be resolved")
})
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#the FCS files are not included in package due to the size , thus only for internal testing
context("Functional Tests Related to Loading/Saving flowFrames from FCS ")
dataPath <- "~/rglab/workspace/flowCore/misc/"
skip_if_not(dir.exists(dataPath))
expectRes <- readRDS("~/rglab/workspace/flowCore/tests/testthat/expectResults.rds")
refs <- readRDS("~/rglab/workspace/flowCore/tests/testthat/ref_flowframes.rds")
# saveRDS(refs, "~/rglab/workspace/flowCore/misc/test_reference/flowframes.rds")
expectRes.new <- readRDS("~/rglab/workspace/flowCore/tests/testthat/expectRes.new.rds")
# saveRDS(expectRes.new, file = "~/rglab/workspace/flowCore/tests/testthat/expectRes.new.rds")
test_that("trailing double delimiter", {
expect_silent(fr <- read.FCS(file.path(dataPath, "trailingdoubledelimiter.fcs")))
expect_equal(length(keyword(fr)), 38)
expect_equal(keyword(fr)[["keyword1234"]], "")#check the last keyword is parsed correctly
#disable empty value
expect_silent(fr <- read.FCS(file.path(dataPath, "trailingdoubledelimiter.fcs"), emptyValue = F))
expect_equal(length(keyword(fr)), 37)
expect_equal(keyword(fr)[["SAMPLE ID"]], "Default Patient ID")#check the second last keyword is parsed correctly
expect_null(keyword(fr)[["keyword1234"]])#check the last keyword is dropped correctly
})
test_that("trailing space", {
expect_silent(fr <- read.FCS(file.path(dataPath, "trailing_space.fcs")))
expect_equal(length(keyword(fr)), 37)
expect_equal(keyword(fr)[["SAMPLE ID"]], "Default Patient ID")#check the last keyword is parsed correctly
})
# expectRes.new <- list()
test_that("big file", {
#too slow to run
# fr <- read.FCS(file.path(dataPath, "gigantic_file.fcs"), column.pattern = "FSC*")
fr <- read.FCS(file.path(dataPath, "gigantic_file.fcs")
, which.lines = c(1,1e9)
, column.pattern = "FSC*")
expect_equal(nrow(fr), 1)
fr <- read.FCS(file.path(dataPath, "gigantic_file.fcs"), which.lines = 1:1e3)
expect_equal(nrow(fr), 1e3)
fr <- read.FCS(file.path(dataPath, "gigantic_file.fcs"), which.lines = (1e3+1):2e3)
expect_equal(nrow(fr), 1e3)
})
test_that("DATATYPE:'D'", {
expect_warning(fr <- read.FCS(file.path(dataPath, "double_precision/wishbone_myleoid_monocyte.fcs")), "Missing the required")
expect_is(fr, "flowFrame")
filename <- "wishbone_thymus_panel1_rep1.fcs"
expect_warning(fr <- read.FCS(file.path(dataPath, "double_precision", filename)), "Missing the required")
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
expect_equal(nrow(fr), 250170)
})
test_that("multi data segment", {
expect_warning(fr <- read.FCS(file.path(dataPath, "multi-datasegment.fcs")), "39 additional data")
expect_is(fr, "flowFrame")
expect_equal(nrow(fr), 1244)
filename <- "multi-datasegment.fcs"
fr <- read.FCS(file.path(dataPath, filename), dataset = 1)
expect_equal(nrow(fr), 1244)
fr <- read.FCS(file.path(dataPath, filename), dataset = 10)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
expect_equal(nrow(fr), 955)
})
test_that("FCS with both SPILL and $SPILLOVER present", {
filename <- "example-spill-spillover.fcs"
fr <- read.FCS(file.path(dataPath, filename))
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
expect_equal(keyword(fr)[["SPILL"]], keyword(fr)[["$SPILLOVER"]])
tmp <- spillover(fr)
expect_equal(tmp[["SPILL"]], tmp[["$SPILLOVER"]])
tmp <- tempfile()
write.FCS(fr, filename = tmp)
fr <- read.FCS(tmp)
expect_equal(keyword(fr)[["SPILL"]], keyword(fr)[["$SPILLOVER"]])
})
test_that("test uint_64 + diverse bitwidths + missing $NEXTDATA: '*' ", {
filename <- "uint_64.lxb"
expect_warning(fr <- read.FCS(file.path(dataPath, filename)))
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
})
#TODO: investigate why the results is no longer consistent with the archived summary
test_that("mixed endian", {
filename <- "mixedEndian.fcs"
fr <- read.FCS(file.path(dataPath, filename))
expect_is(fr, "flowFrame")
# expect_equal(summary(fr), expectRes[["read.FCS"]][["mixedEndian"]])
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
})
# 'FILENAME' keyword may change when file path is changed
# so we hard code it to make the comparsion consistent in case the file is moved
test_that("test special delimiter character: '*' ", {
filename <- "multi_data_segment.LMD"
expect_warning(fr <- read.FCS(file.path(dataPath, filename)), "1 additional data")
expect_equal(summary(fr), expectRes[["read.FCS"]][["multi_data_segment"]], tolerance = 0.08)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
})
test_that("test special delimiter character: '*' ", {
filename <- "specialDelimiter.fcs"
fr <- read.FCS(file.path(dataPath, filename))
expect_equal(summary(fr), expectRes[["read.FCS"]][["specialDelimiter"]], tolerance = 0.001)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
})
test_that("test flowJo exported data with missing some of PnR keywords ", {
expect_warning(expect_error(fr <- read.FCS(file.path(dataPath, "missing_PnR_flowJoExport.fcs"))
, "not contained")
, "Missing the required \\$BEGINDATA keyword")
})
test_that("test in consistent datastart between header and TEXT", {
expect_output(expect_error(fr <- read.FCS(file.path(dataPath, "Accuri-C6", "Accuri - C6 - A02 Spherotech 8 Peak Beads.fcs"), emptyValue = FALSE)
, "HEADER and the TEXT")
, "uneven number of tokens")
filename <- "Accuri - C6 - A02 Spherotech 8 Peak Beads.fcs"
expect_output(expect_warning(fr <- read.FCS(file.path(dataPath, "Accuri-C6", filename), emptyValue = FALSE, ignore.text.offset = TRUE)
, "HEADER and the TEXT")
, "uneven number of tokens")
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
expect_equal(nrow(fr), 60661)
expect_equal(summary(fr), expectRes[["read.FCS"]][["Accuri-C6"]], tolerance = 0.001)
expect_output(expect_warning(fs <- read.flowSet(file.path(dataPath, "Accuri-C6", filename), emptyValue = FALSE, ignore.text.offset = TRUE)
, "HEADER and the TEXT"), "uneven number of tokens")
expect_equal(nrow(fs[[1]]), 60661)
})
test_that("test odd-bitwidth FCS", {
filename <- "Sample 2.fcs"
set.seed(1)
fr <- read.FCS(file.path(dataPath, filename), which.lines = 100)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["Sample2"]], fr)
filename <- "11ColorSmall.fcs"
fr <- read.FCS(file.path(dataPath, "oddbitwith", filename))
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(expectRes[["read.FCS"]][["11ColorSmall"]], summary(fr))
#too slow to test
# fr <- read.FCS(file.path(dataPath, "oddbitwith/11ColorForOthers.fcs"))
# keyword(fr)[["FILENAME"]] <- "setToDummy"
# expect_equal(expectRes[["read.FCS"]][["11ColorForOthers"]], digest(fr))
# fr <- read.FCS("file.path(dataPath, "oddbitwith/11ColorFull.fcs"))
# keyword(fr)[["FILENAME"]] <- "setToDummy"
# expect_equal(expectRes[["read.FCS"]][["11ColorFull"]], digest(fr))
})
test_that("test other FCS", {
filename <- "20110125240_F06_I025.fcs"
set.seed(1)
fr <- read.FCS(file.path(dataPath, filename), which.lines = 100)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["ITN029ST"]], fr)
set.seed(1)
fr <- read.FCS(list.files(system.file("extdata", package="flowCore"),full=T)[1], which.lines = 100)
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["flowCore"]], fr)
filename <- "Blank.FCS"
fr <- read.FCS(file.path(dataPath, filename))
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(expectRes[["read.FCS"]][["Blank"]], summary(fr))
filename <- "Bendall et al Cell Sample A_basal.fcs"
set.seed(1)
expect_output(fr <- read.FCS(file.path(dataPath, filename), which.lines = 100)
, "dropped")
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["Bendall"]], fr)
})
test_that("test delimiter issue", {
filename <- "GFP_2Kfold_011911_noKan_QA-1.fcs"
expect_error(read.FCS(file.path(dataPath, filename))
, "Empty keyword name detected")
fr <- read.FCS(file.path(dataPath, filename), emptyValue = F)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(expectRes[["read.FCS"]][["GFP2Kfold"]], summary(fr))
expect_match(keyword(fr)[["GTI$WORKLIST"]], "C:/Document")
filename <- "RAINBOW_OK.fcs"
set.seed(1)
fr <- read.FCS(file.path(dataPath, filename), which.lines = 100)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["RAINBOW"]], fr)
fr <- read.FCS(file.path(dataPath, filename), emptyValue = F, which.lines = 100)
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["RAINBOWEmptyValue"]], fr)
#\ as delimiter with empty value
filename <- "sample_1071.001"
set.seed(1)
fr <- read.FCS(file.path(dataPath, filename), which.lines = 100)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["sample1071"]], fr)
fr <-read.FCS(file.path(dataPath, filename),emptyValue=F, which.lines = 100)
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["sample1071.double"]], fr)
})
# latest R no longer permit overflowed coersion by as.integer
test_that("test Beckman_Coulter_XDP issue", {
set.seed(1)
frList <- lapply(list.files(file.path(dataPath, "Beckman_Coulter/Beckman_Coulter_XDP/"),full=T)
, function(thisFile){
fr <- read.FCS(thisFile, which.lines = 100)
keyword(fr)[["FILENAME"]] <- "setToDummy"
fr
})
expect_equal(refs[["BeckmanCoulterXDP"]], frList)
})
test_that("test Beckman_Coulter $SPILLOVER keyword", {
set.seed(1)
frList <- lapply(list.files(file.path(dataPath, "Beckman_Coulter"),full=T, pattern = ".fcs")
, function(thisFile){
fr <- read.FCS(thisFile, which.lines = 100)
keyword(fr)[["FILENAME"]] <- "setToDummy"
fr
})
expect_equal(refs[["BeckmanCoulterSPILLOVER"]], frList)
})
test_that("test U mode", {
expect_error(read.FCS(file.path(dataPath, "PartecPAI/A0006980.FCS"))
, "MODE U")
})
test_that("test pre-gated data", {
filename <- "HC002_Col1_P3.fcs"
set.seed(1)
fr <- read.FCS(file.path(dataPath, filename), which.lines = 100)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["HC002_Col1_P3"]], fr)
filename <- "HC002_Col1.fcs"
set.seed(1)
fr <- read.FCS(file.path(dataPath, filename), which.lines = 100)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["HC002_Col1"]], fr)
})
test_that("test flowJo exported data with offset = 99999999 and missing the $BEGINDATA and $ENDDATA keywords ", {
filename <- "badFlowJoExport.fcs"
set.seed(1)
fr <- read.FCS(file.path(dataPath, filename), which.lines = 100)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["badFlowJoExport"]], fr)
})
test_that("test integer overflow issue", {
filename <- "intOverFlow.fcs"
set.seed(1)
fr <- read.FCS(file.path(dataPath, filename), which.lines = 100)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["intOverFlow"]], fr)
filename <- "MoFlo Astrios EQ 9C bis all.fcs"
set.seed(1)
fr <- read.FCS(file.path(dataPath,"/Beckman_Coulter", filename), which.lines = 100)
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["MoFlo EQ 9C"]], fr)
})
test_that("test diverse Bitwidths", {
filename <- "diverseBitwidths.fcs"
fr <- read.FCS(file.path(dataPath, filename))
#expectRes.new[[filename]] <<- list(ncol = ncol(fr), nrow = nrow(fr), chnl = colnames(fr), marker = markernames(fr), range = range(fr), range_data= range(fr, "data"), colmean = colMeans(exprs(fr)))
keyword(fr)[["FILENAME"]] <- "setToDummy"
expect_equal(refs[["diverseBitwidths"]], fr)
})
test_that("handle > 2^32-1 bytes", {
skip("skip big flowFrame test")
fr <- flowFrame(matrix(data = rnorm(3e8), nrow = 1e8, ncol =3, dimnames = list(NULL, c("A", "B", "C"))))
expect_gt(object.size(exprs(fr)), 2^31-1)
tmp <- tempfile()
write.FCS(fr, tmp, what = "double")
set.seed(1)
lines <- sort(sample(1:1e8, 1e3))
fr1 <- read.FCS(tmp, which.lines = lines)
expect_equivalent(exprs(fr)[lines,], exprs(fr1))
})
test_that("whitespace in spillover matrix", {
fr <- read.FCS(file.path(dataPath, "spillover_spaces.fcs"))
expect_equal(spillover(fr), expectRes[["read.FCS"]][["spillover_spaces"]])
# Simple checks to make sure it continued parsing fine
expect_equal(nrow(fr), 10)
expect_equal(ncol(fr), 27)
})
test_that("Alternate decimal separator in spillover matrix", {
fr <- read.FCS(file.path(dataPath, "spillover_comma_decimal.fcs"))
refMat <- diag(8)
# This example FCS just uses the N values for the column names of this
# dummy spillover matrix
colnames(refMat) <- c(3,4,5,6,9,10,11,12)
expect_equal(spillover(fr)$`$SPILLOVER`, refMat)
# Simple checks to make sure it continued parsing fine
expect_equal(nrow(fr), 26053)
expect_equal(ncol(fr), 14)
# This one should error out, but more gracefully with a message as opposed
# to a C++ memory allocation failure
expect_error(fr <- read.FCS(file.path(dataPath, "spillover_wrong_number.fcs")),
class = "std::domain_error",
regexp="SPILLOVER size discrepancy could not be resolved")
})
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