# Create temp dir for testthat tmp <- file.path(tempdir(), "OpenSpecy-testthat") dir.create(tmp, showWarnings = F) data("test_lib") tiny_map <- read_extdata("CA_tiny_map.zip") |> read_any() |> conform_spec(range = test_lib$wavenumber, res = NULL) |> process_spec(smooth_intens = T, make_rel = T) unknown <- read_extdata("ftir_ldpe_soil.asp") |> read_any() preproc <- conform_spec(unknown, range = test_lib$wavenumber, res = spec_res(test_lib)) |> process_spec(smooth_intens = T, make_rel = T) test_that("ai_classify() handles input errors correctly", { ai_classify(1:1000) |> expect_error() }) test_that("match_spec() returns correct structure with AI", { skip_on_cran() skip_if_offline(host = "api.osf.io") get_lib("model", path = tmp) lib <- load_lib(type = "model", path = tmp) check_OpenSpecy(lib) |> expect_error() |> expect_warning() |> expect_warning() |> expect_warning() |> expect_warning() |> expect_warning() set.seed(47) rn <- runif(n = length(unique(lib$variables_in))) fill <- as_OpenSpecy(as.numeric(unique(lib$variables_in)), spectra = data.frame(rn)) matches <- match_spec(x = preproc, library = lib, na.rm = T, fill = fill) |> expect_silent() nrow(matches) |> expect_equal(1) names(matches) |> expect_contains(c("x", "y", "z", "value", "name")) round(matches$value, 2) |> expect_equal(0.52) grepl("polyamide", matches$name) |> expect_true() }) test_that("match_spec() handles input errors correctly", { match_spec(1:1000) |> expect_error() }) test_that("match_spec() handles attribute issues correctly", { preproc_wa <- as_OpenSpecy(preproc$wavenumber, preproc$spectra, preproc$metadata[,-c("x", "y")], attributes = list(intensity_unit = "absorbance", derivative_order = 1, baseline = "nobaseline", spectra_type = "ftir")) test_lib_wa <- as_OpenSpecy(test_lib$wavenumber, test_lib$spectra, test_lib$metadata[,-c("x", "y")], attributes = list(intensity_unit = "absorbance", derivative_order = 1, baseline = "nobaseline", spectra_type = "ftir")) match_spec(x = preproc_wa, library = test_lib_wa, na.rm = T, top_n = 5, add_library_metadata = "sample_name", add_object_metadata = "col_id") |> expect_silent() test_lib_wa2 <- as_OpenSpecy(test_lib$wavenumber, test_lib$spectra, test_lib$metadata[,-c("x", "y")], attributes = list(intensity_unit = "transmittance", derivative_order = 1, baseline = "nobaseline", spectra_type = "ftir")) match_spec(x = preproc_wa, library = test_lib_wa2, na.rm = T, top_n = 5, add_library_metadata = "sample_name", add_object_metadata = "col_id") |> expect_warning() test_lib_wa3 <- as_OpenSpecy(test_lib$wavenumber, test_lib$spectra, test_lib$metadata[,-c("x", "y")], attributes = list(intensity_unit = "absorbance", derivative_order = 2, baseline = "nobaseline", spectra_type = "ftir")) match_spec(x = preproc_wa, library = test_lib_wa3, na.rm = T, top_n = 5, add_library_metadata = "sample_name", add_object_metadata = "col_id") |> expect_warning() test_lib_wa4 <- as_OpenSpecy(test_lib$wavenumber, test_lib$spectra, test_lib$metadata[,-c("x", "y")], attributes = list(intensity_unit = "absorbance", derivative_order = 1, baseline = "raw", spectra_type = "ftir")) match_spec(x = preproc_wa, library = test_lib_wa4, na.rm = T, top_n = 5, add_library_metadata = "sample_name", add_object_metadata = "col_id") |> expect_warning() test_lib_wa5 <- as_OpenSpecy(test_lib$wavenumber, test_lib$spectra, test_lib$metadata[,-c("x", "y")], attributes = list(intensity_unit = "absorbance", derivative_order = 1, baseline = "nobaseline", spectra_type = "raman")) match_spec(x = preproc_wa, library = test_lib_wa5, na.rm = T, top_n = 5, add_library_metadata = "sample_name", add_object_metadata = "col_id") |> expect_warning() }) test_that("match_spec() returns correct structure", { matches <- match_spec(x = preproc, library = test_lib, na.rm = T, top_n = 5, add_library_metadata = "sample_name", add_object_metadata = "col_id") |> expect_silent() order <- match_spec(x = preproc, library = test_lib, na.rm = T, top_n = 5, order = unknown, add_library_metadata = "sample_name", add_object_metadata = "col_id") |> expect_silent() nrow(matches) |> expect_equal(5) names(matches) |> expect_contains(c("object_id", "library_id", "match_val")) round(matches$match_val, 2) |> expect_equal(c(0.57, 0.67, 0.55, 0.43, 0.50)) tolower(matches$polymer) |> expect_equal( c("polystyrene", "poly(ethylene)", "poly(vinyl chloride)", NA, "poly(dimethylsiloxane) (pdms)") ) expect_equal(matches, order) }) test_that("cor_spec() handles input errors correctly", { cor_spec(1:1000) |> expect_error() restrict_range(raman_hdpe, 300, 310) |> cor_spec(test_lib) |> expect_error() }) # Write the tests for cor_spec function test_that("cor_spec() returns a data.table with correct columns", { skip_on_cran() matches <- cor_spec(preproc, library = test_lib) |> expect_silent() preproc2 <- preproc preproc2$wavenumber[1:3] <- preproc2$wavenumber[1:3] + 1 cor_spec(preproc2, library = test_lib) |> expect_warning() inherits(matches, "matrix") |> expect_true() expect_identical(dim(matches), c(ncol(test_lib$spectra), ncol(preproc$spectra))) top_matches <- max_cor_named(cor_matrix = matches, na.rm = T) |> expect_silent() expect_length(top_matches, 1) ncol(filter_spec(test_lib, logic = names(top_matches))$spectra) |> expect_equal(1) test_lib$metadata$test <- NA test_metadata <- get_metadata(test_lib, logic = names(top_matches), rm_empty = T) |> expect_silent() expect_equal(nrow(test_metadata), 1) full_test <- ident_spec(matches, preproc, library = test_lib, top_n = 5, add_library_metadata = "sample_name") |> expect_silent() nrow(full_test) |> expect_equal(5) names(full_test) |> expect_contains(c("object_id", "library_id", "match_val")) round(full_test$match_val, 2) |> expect_equal(c(0.57, 0.67, 0.55, 0.43, 0.50)) tolower(full_test$polymer) |> expect_equal( c("polystyrene", "poly(ethylene)", "poly(vinyl chloride)", NA, "poly(dimethylsiloxane) (pdms)") ) }) test_that("filter_spec() handles input errors correctly", { filter_spec(1:1000) |> expect_error() }) test_that("Test that raman hdpe accurately identified", { proc_rhdpe <- process_spec(raman_hdpe,conform_spec = T, conform_spec_args = list(range = test_lib$wavenumber, res = NULL, type = "interp")) check <- match_spec(proc_rhdpe, test_lib, top_n = 1, add_library_metadata = "sample_name") expect_identical(round(check$match_val, 3), 0.974) expect_identical(check$polymer_class, "Polyolefins (POLYALKENES)") }) # Write the tests for filter_spec function test_that("filter_spec() does not allow for OpenSpecy object without spectra", { os_filtered <- filter_spec(test_lib, logic = rep(F, ncol(test_lib$spectra))) |> expect_error() }) # Write the tests for filter_spec function test_that("filter_spec() returns OpenSpecy object with filtered spectra", { logic <- rep(F,ncol(test_lib$spectra)) logic[1] <- TRUE os_filtered <- filter_spec(test_lib, logic = logic) |> expect_silent() expect_true(check_OpenSpecy(os_filtered)) expect_equal(ncol(os_filtered$spectra), 1) expect_equal(nrow(os_filtered$metadata), 1) }) test_that("get_metadata() handles input errors correctly", { get_metadata(1:1000) |> expect_error() }) test_that("cor_spec() routine and match_spec() return same values", { cors <- cor_spec(tiny_map, test_lib) max_correlations <- max_cor_named(cors) names <- max_correlations |> sort(decreasing = T) |> names() top_matches <- match_spec(x = tiny_map, library = test_lib, top_n = 1) expect_identical(names, top_matches$library_id) top_matches_2 <- match_spec(x = tiny_map, library = test_lib, top_n = 2)[, head(.SD, 1), by = "object_id"] expect_identical(names, top_matches$library_id) }) test_that("cor_spec() routine with preprocessing returns same values as setting conform = T", { tiny_map2 <- read_extdata("CA_tiny_map.zip") |> read_any() |> process_spec(smooth_intens = T, conform_spec = F, make_rel = T) tiny_map3 <- tiny_map2 |> conform_spec(range = test_lib$wavenumber, res = NULL, type = "roll") cors <- cor_spec(tiny_map3, test_lib) cors2 <- cor_spec(tiny_map2, test_lib, conform = T, type = "roll") expect_identical(cors, cors2) }) # Tidy up unlink(tmp, recursive = T)