library(testthat) get_test_plate <- function() { names <- c("B", "S", "S", "S", "S", "S", "S", "S", "S", "S", "S", "TEST") locations <- c( "A1", "A2", "A3", "A4", "A5", "A6", "B1", "B2", "B3", "B4", "B5", "B6" ) types <- ifelse(names == "B", "BLANK", "STANDARD CURVE") types[names == "TEST"] <- "TEST" values <- c(19, 11713, 8387, 5711, 3238.5, 2044, 1078, 571, 262, 138, 81, 4000) dilutions <- c(NA, "1/50", "1/100", "1/200", "1/400", "1/800", "1/1600", "1/3200", "1/6400", "1/12800", "1/25600", "1/102400", NA) dilution_values <- convert_dilutions_to_numeric(dilutions) Plate$new( plate_name = "plate", sample_names = names, sample_types = types, sample_locations = locations, analyte_names = c("Spike_6P_IPP"), dilutions = dilutions, dilution_values = dilution_values, data = list(Median = data.frame(Spike_6P_IPP = values)) ) } test_that("Test plotting the standard curve samples from a plate object", { plate <- get_test_plate() expect_no_error(plot_standard_curve_analyte(plate, "Spike_6P_IPP")) }) test_that("Test creating analyte model from a plate object", { plate <- get_test_plate() expect_no_error(create_standard_curve_model_analyte(plate, "Spike_6P_IPP")) }) test_that("Test plotting the full plot", { plate <- get_test_plate() model <- create_standard_curve_model_analyte(plate, "Spike_6P_IPP") expect_no_error(plot_standard_curve_analyte_with_model(plate, model)) })