#devtools::test("asremlPlus") context("prediction_alldiffs") cat("#### Test for allDifferences.data.frame sort.alldiffs on Oats with asreml42\n") test_that("allDifferences_asreml42", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) library(dae) data(Oats.dat) m1.asr <- asreml(Yield ~ Nitrogen*Variety, random=~Blocks/Wplots, data=Oats.dat) testthat::expect_equal(length(m1.asr$vparameters),3) current.asrt <- as.asrtests(m1.asr) wald.tab <- current.asrt$wald.tab den.df <- wald.tab[match("Variety", rownames(wald.tab)), "denDF"] #Test for as.alldiffs - only loads into alldiffs object Var.pred <- predict(m1.asr, classify="Nitrogen:Variety", sed=TRUE) Var.diffs <- as.alldiffs(predictions = Var.pred$pvals, sed = Var.pred$sed, classify = "Nitrogen:Variety", response = "Yield", tdf = den.df) testthat::expect_true(is.alldiffs(Var.diffs)) testthat::expect_equal(nrow(Var.diffs$predictions),12) testthat::expect_true(validAlldiffs(Var.diffs)) testthat::expect_true(is.null(attr(Var.diffs, which = "sortOrder"))) testthat::expect_true(setequal(names(Var.diffs$predictions), c("Nitrogen", "Variety", "predicted.value", "standard.error", "est.status"))) testthat::expect_true(attr(Var.diffs, which = "alpha") == 0.05) testthat::expect_true(all(!(c( "LSDtype", "LSDstatistic") %in% names(attributes(Var.diffs))))) testthat::expect_true(is.null(Var.diffs$LSD)) #Test for allDifferences without the sort Var.diffs <- allDifferences(predictions = Var.pred$pvals, sed = Var.pred$sed, classify = "Nitrogen:Variety", response = "Yield", tdf = den.df) testthat::expect_true(is.alldiffs(Var.diffs)) testthat::expect_equal(nrow(Var.diffs$predictions),12) testthat::expect_true(validAlldiffs(Var.diffs)) testthat::expect_true(is.null(attr(Var.diffs, which = "sortOrder"))) testthat::expect_true(setequal(names(Var.diffs$predictions), c("Nitrogen", "Variety", "predicted.value", "standard.error", "est.status"))) testthat::expect_true(attr(Var.diffs, which = "alpha") == 0.05) testthat::expect_true(all(c( "LSDtype", "LSDstatistic") %in% names(attributes(Var.diffs)))) testthat::expect_true(!is.null(Var.diffs$LSD)) #Test for allDifferences Var.sort.diffs <- allDifferences(predictions = Var.pred$pvals, classify = "Nitrogen:Variety", sed = Var.pred$sed, tdf = den.df, sortFactor = "Variety", decreasing = TRUE) testthat::expect_true(is.alldiffs(Var.sort.diffs)) testthat::expect_true(validAlldiffs(Var.sort.diffs)) testthat::expect_equal(length(attr(Var.sort.diffs$predictions, which = "heading")),1) testthat::expect_true("asreml.predict" %in% class(Var.sort.diffs$predictions)) testthat::expect_equal(length(attr(Var.sort.diffs, which = "sortOrder")),3) testthat::expect_true(as.character(Var.sort.diffs$predictions$Variety[1]) == "Marvellous" & as.character(Var.sort.diffs$predictions$Variety[2]) == "Golden Rain") testthat::expect_true(setequal(names(Var.sort.diffs$predictions), c("Nitrogen", "Variety", "predicted.value", "standard.error", "est.status"))) testthat::expect_true(all(c("alpha", "LSDtype", "LSDstatistic") %in% names(attributes(Var.sort.diffs)))) #Test for re-order factors with allDifferences Var.reord.diffs <- allDifferences(predictions = Var.pred$pvals, classify = "Variety:Nitrogen", sed = Var.pred$sed, tdf = den.df) testthat::expect_true(as.character(Var.reord.diffs$predictions$Variety[1]) == "Victory" & as.character(Var.reord.diffs$predictions$Variety[2]) == "Victory") #Test for re-order factors with renewClassify Var.reord.diffs <- renewClassify(Var.diffs, newclassify = "Variety:Nitrogen") testthat::expect_true(as.character(Var.reord.diffs$predictions$Variety[1]) == "Victory" & as.character(Var.reord.diffs$predictions$Variety[2]) == "Victory") testthat::expect_equal(length(attr(Var.reord.diffs$predictions, which = "heading")),1) testthat::expect_true("asreml.predict" %in% class(Var.reord.diffs$predictions)) #Test for re-order factors and sort Var.both.diffs <- allDifferences(predictions = Var.pred$pvals, classify = "Variety:Nitrogen", sed = Var.pred$sed, tdf = den.df, sortFactor = "Variety", decreasing = TRUE) testthat::expect_true(as.character(Var.both.diffs$predictions$Variety[1]) == "Marvellous" & as.character(Var.both.diffs$predictions$Variety[2]) == "Marvellous") Var.both.diffs <- renewClassify(Var.diffs, newclassify = "Variety:Nitrogen", sortFactor = "Variety", decreasing = TRUE) testthat::expect_true(as.character(Var.both.diffs$predictions$Variety[1]) == "Marvellous" & as.character(Var.both.diffs$predictions$Variety[2]) == "Marvellous") #Test a single factor prediction diffsN <- predictPlus(m1.asr, classify = "Nitrogen", tables = "none") testthat::expect_true(validAlldiffs(diffsN)) }) cat("#### Test for LSDs and halfLSIs on system data with asreml42\n") test_that("LSD_LSI_SystemData_asreml42", { skip_if_not_installed("asreml") skip_on_cran() library(asremlPlus) library(dae) load(system.file("extdata", "testDiffs.rda", package = "asremlPlus", mustWork = TRUE)) #Rectify diff.Clup diffs.new <- redoErrorIntervals(diffs.ClUp, error.intervals = "half", LSDtype = "factor", LSDby = attr(diffs.ClUp, which = "LSDby")) testthat::expect_true(all(names(diffs.new$predictions)[6:7] == c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(c("tdf", "alpha", "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.new)))) testthat::expect_true(attr(diffs.new, which = "LSDtype") == "factor.combinations") testthat::expect_true(all(attr(diffs.new, which = "LSDby") == attr(diffs.ClUp, which = "LSDby"))) testthat::expect_true(attr(diffs.new, which = "LSDstatistic") == "mean") testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic", "LSDvalues") %in% names(attributes(diffs.new$predictions)))) testthat::expect_true(length(attr(diffs.new$predictions, which = "LSDvalues")) == 20) testthat::expect_true(all(abs(attr(diffs.new$predictions, which = "LSDvalues")[1:3] - c(0.6946730,0.6969075,0.6965694)) < 1e-05)) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.new$backtransforms)))) testthat::expect_true(is.null(attr(diffs.new$backtransforms, which = "LSDvalues"))) #Change half-LSIs to CIs and LSD component from overall to factor.combinations diffs.CI <- redoErrorIntervals(diffs.ClUp, LSDtype = "factor", LSDby = attr(diffs.ClUp, which = "LSDby")) testthat::expect_true(all(names(diffs.CI$predictions)[6:7] == c("upper.Confidence.limit", "lower.Confidence.limit"))) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.CI)))) testthat::expect_true(!any(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.CI$predictions)))) testthat::expect_true(!any(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.CI$backtransforms)))) testthat::expect_true(attr(diffs.CI, which = "LSDtype") == "factor.combinations") testthat::expect_true(all(attr(diffs.CI, which = "LSDby") == attr(diffs.ClUp, which = "LSDby"))) testthat::expect_true(attr(diffs.CI, which = "LSDstatistic") == "mean") #Just recalc the LSDs component without updating the intervals diffs.LSD <- recalcLSD(diffs.ClUp, LSDtype = "factor", LSDby = attr(diffs.ClUp, which = "LSDby")) testthat::expect_true(all(names(diffs.LSD$predictions)[6:7] == c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.LSD)))) testthat::expect_true(!any(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.LSD$predictions)))) testthat::expect_true(!any(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.LSD$backtransforms)))) testthat::expect_true(all(attr(diffs.LSD, which = "LSDby") == attr(diffs.ClUp, which = "LSDby"))) testthat::expect_true(all(c( "transform.power", "offset", "scale") %in% names(attributes(diffs.LSD$backtransforms)))) testthat::expect_true(attr(diffs.LSD$backtransforms, which = "transform.power") == 0) #facRename diffs.LSD.rename <- facRename(diffs.new, factor.names = "Temperature", newnames = "Climate") testthat::expect_true(all(names(diffs.LSD.rename$predictions)[6:7] == c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.LSD.rename)))) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic", "LSDvalues") %in% names(attributes(diffs.LSD.rename$predictions)))) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.LSD.rename$backtransforms)))) testthat::expect_true(all(attr(diffs.LSD.rename, which = "LSDby") == c("Climate", "Genotype"))) testthat::expect_true(all(attr(diffs.LSD.rename$predictions, which = "LSDby") == c("Climate", "Genotype"))) testthat::expect_true(all(attr(diffs.LSD.rename$backtransforms, which = "LSDby") == c("Climate", "Genotype"))) testthat::expect_true(all(c( "transform.power", "offset", "scale") %in% names(attributes(diffs.LSD.rename$backtransforms)))) testthat::expect_true(attr(diffs.LSD.rename$backtransforms, which = "transform.power") == 0) #facRecast diffs.LSD.recast <- facRecast(diffs.LSD.rename, factor = "Climate", newlabels = c("Cool","Warm")) testthat::expect_true(all(names(diffs.LSD.recast$predictions)[6:7] == c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.LSD.recast)))) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic", "LSDvalues") %in% names(attributes(diffs.LSD.recast$predictions)))) testthat::expect_true(any(grepl("Warm", names(attr(diffs.LSD.recast$predictions, which = "LSDvalues"))))) testthat::expect_true(any(grepl("Warm", rownames(diffs.LSD.recast$LSD), fixed = TRUE))) testthat::expect_true(!any(grepl("Hot", rownames(diffs.LSD.recast$LSD), fixed = TRUE))) testthat::expect_true(any(grepl("Warm", names(attr(diffs.LSD.recast$predictions, which = "LSDvalues")), fixed = TRUE))) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.LSD.recast$backtransforms)))) testthat::expect_true(all(attr(diffs.LSD.recast, which = "LSDby") == c("Climate", "Genotype"))) testthat::expect_true(all(levels(diffs.LSD.recast$predictions$Climate) == c("Cool", "Warm"))) testthat::expect_true(all(attr(diffs.LSD.recast$predictions, which = "LSDby") == c("Climate", "Genotype"))) testthat::expect_true(all(attr(diffs.LSD.recast$backtransforms, which = "LSDby") == c("Climate", "Genotype"))) testthat::expect_true(all(c( "transform.power", "offset", "scale") %in% names(attributes(diffs.LSD.recast$backtransforms)))) testthat::expect_true(attr(diffs.LSD.recast$backtransforms, which = "transform.power") == 0) #facCombine #Combine factors in the LSDBY diffs.LSD.comb <- facCombine(diffs.new, factors = c("Temperature", "Genotype")) testthat::expect_true(all(names(diffs.LSD.comb$predictions)[c(1,5:6)] == c("Temperature_Genotype", "upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.LSD.comb)))) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic", "LSDvalues") %in% names(attributes(diffs.LSD.comb$predictions)))) testthat::expect_true(any(grepl("Cool_1", names(attr(diffs.LSD.comb$predictions, which = "LSDvalues"))))) testthat::expect_true(any(grepl("Cool_9", rownames(diffs.LSD.comb$LSD), fixed = TRUE))) testthat::expect_true(any(grepl("Hot_7", names(attr(diffs.LSD.comb$predictions, which = "LSDvalues")), fixed = TRUE))) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.LSD.comb$backtransforms)))) testthat::expect_true(all(attr(diffs.LSD.comb, which = "LSDby") == c("Temperature_Genotype"))) testthat::expect_true(all(attr(diffs.LSD.comb$predictions, which = "LSDby") == c("Temperature_Genotype"))) testthat::expect_true(all(attr(diffs.LSD.comb$backtransforms, which = "LSDby") == c("Temperature_Genotype"))) testthat::expect_true(all(c( "transform.power", "offset", "scale") %in% names(attributes(diffs.LSD.comb$backtransforms)))) testthat::expect_true(attr(diffs.LSD.comb$backtransforms, which = "transform.power") == 0) #Test combining a factor in and a factor outside the LSDby #Removes Temperature from the LSDby, leaving Genotype only, and results in avsed.tolerance being exceeded, revert to CIs diffs.LSD.comb <- facCombine(diffs.new, factors = c("Temperature", "Salinity")) testthat::expect_true(all(names(diffs.LSD.comb$predictions)[c(1)] == "Temperature_Salinity")) testthat::expect_true(all(names(diffs.LSD.comb$predictions)[c(5:6)] != c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.LSD.comb)))) testthat::expect_true(attr(diffs.LSD.comb, which = "LSDby") == "Genotype") testthat::expect_true(!any(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.LSD.comb$predictions)))) testthat::expect_true(!any(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.LSD.comb$backtransforms)))) testthat::expect_true(all(as.character(1:10) == rownames(diffs.LSD.comb$LSD))) #Test combining a factor in and a factor outside the LSDby, with avsed.tolerance set to NA testthat::expect_error(diffs.LSD.comb <- facCombine(diffs.new, factors = c("Temperature", "Salinity"), avsed.tolerance = NA)) diffs.LSD.force <- redoErrorIntervals(diffs.new, error.intervals = "half", LSDtype = "factor", LSDby = attr(diffs.ClUp, which = "LSDby"), avsed.tolerance = NA) diffs.LSD.comb <- facCombine(diffs.LSD.force, factors = c("Temperature", "Salinity")) testthat::expect_true(all(names(diffs.LSD.comb$predictions)[c(1,5:6)] == c("Temperature_Salinity", "upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.LSD.comb)))) testthat::expect_true(attr(diffs.LSD.comb, which = "LSDby") == "Genotype") testthat::expect_true(all(as.character(1:10) == rownames(diffs.LSD.comb$LSD))) testthat::expect_true(attr(diffs.LSD.comb, which = "LSDby") == "Genotype") testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.LSD.comb$predictions)))) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.LSD.comb$backtransforms)))) testthat::expect_true(all(as.character(1:10) == names(attr(diffs.LSD.comb$predictions, which = "LSDby")))) #Combine all factors, reducing the LSDby to NULL, reverts to CIs diffs.LSD.comb <- facCombine(diffs.new, factors = c("Temperature", "Salinity", "Genotype")) testthat::expect_true(all(names(diffs.LSD.comb$predictions)[c(1)] == "Temperature_Salinity_Genotype")) testthat::expect_true(all(names(diffs.LSD.comb$predictions)[c(5:6)] != c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(c( "LSDtype", "LSDstatistic") %in% names(attributes(diffs.LSD.comb)))) testthat::expect_true(is.null(attr(diffs.LSD.comb, which = "LSDby"))) testthat::expect_true(!any(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.LSD.comb$predictions)))) testthat::expect_true(!any(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.LSD.comb$backtransforms)))) testthat::expect_true(nrow(diffs.LSD.comb$LSD) == 1) #Combine all factors, reducing the LSDby to NULL, set avsed.tolerance to NA to avoid reversion to CIs diffs.LSD.comb <- facCombine(diffs.LSD.force, factors = c("Temperature", "Salinity", "Genotype")) testthat::expect_true(all(names(diffs.LSD.comb$predictions)[c(1,4:5)] == c("Temperature_Salinity_Genotype", "upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(c( "LSDtype", "LSDstatistic") %in% names(attributes(diffs.LSD.comb)))) testthat::expect_true(is.null(attr(diffs.LSD.comb, which = "LSDby"))) testthat::expect_true((attr(diffs.LSD.comb, which = "LSDtype") == "overall")) testthat::expect_true(all(c( "LSDtype", "LSDstatistic") %in% names(attributes(diffs.LSD.comb$predictions)))) testthat::expect_true(is.null(attr(diffs.LSD.comb$predictions, which = "LSDby"))) testthat::expect_true((attr(diffs.LSD.comb$predictions, which = "LSDtype") == "overall")) testthat::expect_true(all(c( "LSDtype", "LSDstatistic") %in% names(attributes(diffs.LSD.comb$backtransforms)))) testthat::expect_true(is.null(attr(diffs.LSD.comb$backtransforms, which = "LSDby"))) testthat::expect_true((attr(diffs.LSD.comb$backtransforms, which = "LSDtype") == "overall")) }) cat("#### Test for LSD on Oats with asreml42\n") test_that("LSD_asreml42", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) library(dae) data(Oats.dat) m1.asr <- asreml(Yield ~ Nitrogen*Variety, random=~Blocks/Wplots, data=Oats.dat, pworkspace = "1Gb") current.asrt <- as.asrtests(m1.asr) wald.tab <- current.asrt$wald.tab den.df <- wald.tab[match("Variety", rownames(wald.tab)), "denDF"] Var.pred <- predict(m1.asr, classify="Nitrogen:Variety", vcov=TRUE) Var.diffs <- allDifferences(predictions = Var.pred$pvals, classify = "Nitrogen:Variety", vcov = Var.pred$vcov, tdf = den.df) testthat::expect_true(all("LSDtype" %in% names(attributes(Var.diffs)))) testthat::expect_true(all(attr(Var.diffs, which = "LSDtype") == "overall")) testthat::expect_true(all(attr(Var.diffs, which = "LSDstatistic") == "mean")) #Test intercept-only linear.transform Int.diffs <- linTransform(Var.diffs, linear.transformation = ~ 1, tables = "none") testthat::expect_equal(names(Int.diffs$predictions), c("Nitrogen", "Variety", "predicted.value", "standard.error", "upper.Confidence.limit", "lower.Confidence.limit", "est.status")) testthat::expect_true(all(abs(Int.diffs$predictions$predicted.value - mean(Oats.dat$Yield)) < 1e-04)) testthat::expect_true(all(abs(Int.diffs$predictions$upper.Confidence.limit - 118.7685) < 1e-04)) Int.diffs <- linTransform(Var.diffs, linear.transformation = ~ 1, error.intervals = "half", LSDtype = "factor", LSDby = "Nitrogen", tables = "none") testthat::expect_equal(names(Int.diffs$predictions), c("Nitrogen", "Variety", "predicted.value", "standard.error", "upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit", "est.status")) testthat::expect_true(all(abs(Int.diffs$predictions$predicted.value - mean(Oats.dat$Yield)) < 1e-04)) testthat::expect_true(all(is.na(Int.diffs$predictions$upper.Confidence.limit))) #Test single factor linear.transform Var.diffs.one <- linTransform(Var.diffs, linear.transformation = ~Nitrogen, error.intervals = "half", tables = "none") testthat::expect_true(all("LSDtype" %in% names(attributes(Var.diffs.one)))) testthat::expect_true(all(abs(Var.diffs.one$LSD[c("minLSD", "meanLSD", "maxLSD", "assignedLSD")] - 9.883479) < 1e-06)) testthat::expect_true(all(abs(Var.diffs.one$LSD$assignedLSD - attr(Var.diffs.one$predictions, which = "LSDvalues")) < 1E-06)) testthat::expect_true(all(Var.diffs.one$LSD$falsePos == 0)) testthat::expect_true(all(Var.diffs.one$LSD$falseNeg == 0)) testthat::expect_true(all(c("tdf", "alpha", "LSDtype", "LSDstatistic", "LSDaccuracy") %in% names(attributes(Var.diffs.one)))) testthat::expect_true(all(c("LSDtype", "LSDstatistic", "LSDvalues", "LSDaccuracy", "avsed.tolerance", "accuracy.threshold") %in% names(attributes(Var.diffs.one$predictions)))) testthat::expect_true(all(abs(attr(Var.diffs.one$predictions, which = "LSDvalues") - 9.883479) < 1e-05)) #Test LSDstatistic = "min" Var.diffs.one.min <- redoErrorIntervals(Var.diffs.one, error.intervals = "half", LSDtype = "overall", LSDstatistic = "min") testthat::expect_true(all(c("LSDtype", "LSDstatistic", "LSDvalues", "LSDaccuracy", "avsed.tolerance", "accuracy.threshold") %in% names(attributes(Var.diffs.one.min$predictions)))) testthat::expect_true(attr(Var.diffs.one.min$predictions, which = "LSDstatistic") == "minimum") testthat::expect_true(attr(Var.diffs.one.min$predictions, which = "LSDvalues") == Var.diffs.one.min$LSD["minLSD"]) #Test LSDstatistic = "q90" Var.diffs.one.q90 <- allDifferences(predictions = Var.pred$pvals, classify = "Nitrogen:Variety", LSDstatistic = "q90", vcov = Var.pred$vcov, tdf = den.df) testthat::expect_true(all("LSDtype" %in% names(attributes(Var.diffs.one.q90)))) testthat::expect_true(all(attr(Var.diffs.one.q90, which = "LSDtype") == "overall")) testthat::expect_true(all(attr(Var.diffs.one.q90, which = "LSDstatistic") == "q90")) #Test LSDby not in linear.transformation testthat::expect_warning(Var.diffs.by <- linTransform(Var.diffs, linear.transformation = ~Nitrogen, error.intervals = "half", LSDtype = "factor", LSDby = "Variety", tables = "none")) testthat::expect_true(all(c("tdf", "alpha", "LSDtype", "LSDstatistic", "LSDaccuracy") %in% names(attributes(Var.diffs.by)))) testthat::expect_true(all(nrow(Var.diffs.by$LSD) == 3)) testthat::expect_true(all(c("LSDtype", "LSDstatistic", "LSDvalues") %in% names(attributes(Var.diffs.by$predictions)))) testthat::expect_true(all(c( "LSDtype", "LSDstatistic", "LSDaccuracy", "avsed.tolerance", "accuracy.threshold") %in% names(attributes(Var.diffs.by$predictions)))) testthat::expect_true(all(abs(Var.diffs.by$LSD["meanLSD"] - attr(Var.diffs.by$predictions, which = "LSDvalues")) < 1E-06)) testthat::expect_true(all(abs(attr(Var.diffs.one$predictions, which = "LSDvalues") - 9.883479) < 1e-05)) #Test linTransform with multinested - Nitrogen nested within Variety Oats.dat$Variety <- fac.recast(Oats.dat$Variety, newlevels = c("Victory", "GoldenRain", "Marvellous"), levels.order = c("Victory", "GoldenRain", "Marvellous")) Oats.dat <- cbind(Oats.dat, with(Oats.dat, fac.multinested(nesting.fac = Variety, nested.fac = Nitrogen, fac.prefix = "N"))) m2.asr <- do.call(asreml, list(fixed = Yield ~ Variety/(NVictory + NGoldenRain + NMarvellous), random = ~ Blocks/Wplots, data = Oats.dat)) m2.asrt <- as.asrtests(m2.asr, NULL, NULL) testthat::expect_true(all(m2.asrt$wald.tab$denDF == c(5,10,45,45,45))) testthat::expect_warning( diffs <- predictPlus(m2.asrt$asreml.obj, classify = "Variety:NVictory:NGoldenRain:NMarvellous", error.intervals = "half", LSDtype = "factor", LSDby = "Variety", wald.tab = m2.asrt$wald.tab, Vmatrix = TRUE, tables = "none")) diffs.chos <- linTransform(diffs, linear.transformation = ~ Variety/NGoldenRain, error.intervals = "half", LSDtype = "factor", LSDby = "Variety", Vmatrix = TRUE, tables = "none") testthat::expect_true(all(diffs.chos$predictions$fac.comb == c(1,17,33,49,65,69,73,77,129,130,131,132))) testthat::expect_equal(sum(is.na(diffs.chos$predictions$upper.halfLeastSignificant.limit)), 8) testthat::expect_true(all(abs(na.omit(diffs.chos$predictions$upper.halfLeastSignificant.limit) - c(87.6841,106.1841,122.3508,132.5174)) < 1e-03)) #Test for predictPlus with numeric in classify mx.asr <- asreml(Yield ~ xNitrogen*Variety, random=~Blocks/Wplots, data=Oats.dat) current.asrt <- as.asrtests(mx.asr) testthat::expect_equal(length(mx.asr$vparameters),3) diffs <- predictPlus(mx.asr, classify = "xNitrogen:Variety", x.num = "xNitrogen", x.pred.values = sort(unique(Oats.dat$xNitrogen)), wald.tab = current.asrt$wald.tab, error.intervals = "half", LSDtype = "factor", LSDby = "xNitrogen", tables = "none") testthat::expect_is(diffs, "alldiffs") testthat::expect_true(validAlldiffs(diffs)) testthat::expect_equal(nrow(diffs$predictions),12) testthat::expect_equal(ncol(diffs$predictions),7) testthat::expect_equal(length(attributes(diffs)),12) testthat::expect_true(all(nrow(diffs$LSD) == 4)) testthat::expect_true(all(abs(diffs$LSD["meanLSD"] - diffs$LSD["assignedLSD"]) < 1E-06)) testthat::expect_true(all(diffs$LSD["accuracyLSD"] < 1E-10)) #Test limits when assignedLSD is zero Var.diffs.fac <- linTransform(Var.diffs, linear.transformation = ~Nitrogen, LSDtype = "factor", LSDby = "Nitrogen", error.intervals = "half", tables = "none") testthat::expect_true(all(Var.diffs.fac$LSD$assignedLSD == 0)) testthat::expect_true(all(is.na(Var.diffs.fac$predictions$upper.halfLeastSignificant.limit))) }) cat("#### Test for sort.alldiffs on Smarthouse with asreml42\n") test_that("sort.alldiffs4", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) library(dae) data(Smarthouse.dat) #Set up without any sorting m1.asr <- asreml(y1 ~ Genotype*A*B, random=~Replicate/Mainplot/Subplot, data=Smarthouse.dat) testthat::expect_equal(length(m1.asr$vparameters),4) current.asrt <- as.asrtests(m1.asr) current.asrt <- rmboundary(current.asrt) m <- current.asrt$asreml.obj testthat::expect_equal(length(m$vparameters),3) diffs <- predictPlus(m, classify = "Genotype:A:B", wald.tab = current.asrt$wald.tab, error.intervals = "Stand", tables = "none") testthat::expect_true(is.alldiffs(diffs)) testthat::expect_true(validAlldiffs(diffs)) testthat::expect_equal(nrow(diffs$predictions),120) testthat::expect_equal(ncol(diffs$predictions),8) testthat::expect_equal(as.character(diffs$predictions$Genotype[1]),"Axe") testthat::expect_true(is.null(attr(diffs, which = "sortOrder"))) #Test reodering of the classify diffs.reord <- renewClassify(diffs, newclassify = "A:B:Genotype") testthat::expect_equal(as.character(diffs.reord$predictions$Genotype[1]),"Axe") testthat::expect_equal(as.character(diffs.reord$predictions$Genotype[2]),"Espada") testthat::expect_true(abs(diffs.reord$predictions$predicted.value[2] - -0.2265723017) < 1e-06) testthat::expect_true(all(names(diffs.reord$predictions)[6:7] == c("upper.StandardError.limit", "lower.StandardError.limit"))) testthat::expect_true(all(c("tdf", "alpha", "LSDtype", "LSDstatistic") %in% names(attributes(diffs.reord)))) testthat::expect_true(!("LSDby" %in% names(attributes(diffs.reord)))) testthat::expect_true(attr(diffs.reord, which = "LSDtype") == "overall") testthat::expect_true(attr(diffs.reord, which = "LSDstatistic") == "mean") testthat::expect_true(!any(c( "LSDtype", "LSDby", "LSDstatistic", "LSDvalues") %in% names(attributes(diffs.reord$predictions)))) testthat::expect_true(!any(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.reord$backtransforms)))) testthat::expect_silent(plotPredictions(data = diffs$predictions, classify = "Genotype:A:B", y = "predicted.value", error.intervals = "StandardError", y.title = attr(diffs, which = "response.title"))) #Test sort in plotPredictions testthat::expect_silent(plotPredictions(data = diffs$predictions, classify = "Genotype:A:B", y = "predicted.value", error.intervals = "StandardError", y.title = attr(diffs, which = "response.title"), sortFactor = "Genotype")) #Test sort.alldiffs and save order for use with other response variables diffs.sort <- sort(diffs, sortFactor = "Genotype") sort.order <- attr(diffs.sort, which = "sortOrder") testthat::expect_is(diffs.sort, "alldiffs") testthat::expect_true(validAlldiffs(diffs.sort)) testthat::expect_equal(nrow(diffs.sort$predictions),120) testthat::expect_equal(ncol(diffs.sort$predictions),8) testthat::expect_equal(as.character(diffs.sort$predictions$Genotype[1]),"Gladius") testthat::expect_equal(length(attributes(diffs.sort)),13) testthat::expect_equal(length(attr(diffs.sort, which = "sortOrder")),10) #Test sort.alldiffs with supplied sortOrder m2.asr <- asreml(y2 ~ Genotype*A*B, random=~Replicate/Mainplot/Subplot, data=Smarthouse.dat) testthat::expect_equal(length(m1.asr$vparameters),4) current.asrt <- as.asrtests(m2.asr) diffs2.sort <- predictPlus(m2.asr, classify = "Genotype:A:B", wald.tab = current.asrt$wald.tab, error.intervals = "Stand", tables = "none", sortFactor = "Genotype", sortOrder = sort.order) testthat::expect_equal(as.character(diffs.sort$predictions$Genotype[1]), as.character(diffs2.sort$predictions$Genotype[1])) testthat::expect_equal(attr(diffs.sort, which = "sortOrder"), attr(diffs2.sort, which = "sortOrder")) #Test sort.alldiffs with sortParallelToCombo and increasing order diffs1.sort <- sort(diffs, sortFactor = "Genotype", sortParallelToCombo = list(A = "N3", B = "D4"), decreasing = TRUE) testthat::expect_is(diffs1.sort, "alldiffs") testthat::expect_equal(as.character(attr(diffs1.sort, which = "sortOrder")[2]),"Wyalkatchem") testthat::expect_equal(length(attr(diffs1.sort, which = "sortOrder")), 10) #Check plot testthat::expect_silent(plotPredictions(data = diffs1.sort$predictions, classify = "Genotype:A:B", y = "predicted.value", error.intervals = "StandardError", y.title = attr(diffs, which = "response.title"), sortFactor = "Genotype")) }) cat("#### Test for LSD with sort.alldiffs on Smarthouse with asreml42\n") test_that("LSDsort.alldiffs4", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) library(dae) data(Smarthouse.dat) #Set up without any sorting m1.asr <- asreml(y1 ~ Genotype*A*B, random=~Replicate/Mainplot/Subplot, data=Smarthouse.dat) testthat::expect_equal(length(m1.asr$vparameters),4) current.asrt <- as.asrtests(m1.asr) current.asrt <- rmboundary(current.asrt) m <- current.asrt$asreml.obj testthat::expect_equal(length(m$vparameters),3) #Include LSIs diffs <- predictPlus(m, classify = "Genotype:A:B", wald.tab = current.asrt$wald.tab, error.intervals = "half", LSDtype = "factor", LSDby = c("Genotype", "A"), LSDstatistic = "max", tables = "none") testthat::expect_true(is.alldiffs(diffs)) testthat::expect_true(validAlldiffs(diffs)) testthat::expect_equal(nrow(diffs$predictions),120) testthat::expect_equal(ncol(diffs$predictions),8) testthat::expect_equal(as.character(diffs$predictions$Genotype[1]),"Axe") testthat::expect_true(is.null(attr(diffs, which = "sortOrder"))) testthat::expect_true(all(names(diffs$predictions)[6:7] == c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs)))) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic", "LSDvalues") %in% names(attributes(diffs$predictions)))) testthat::expect_true(any(grepl("Axe,N1", names(attr(diffs$predictions, which = "LSDvalues"))))) testthat::expect_true(any(grepl("Axe,N1", rownames(diffs$LSD), fixed = TRUE))) testthat::expect_true(any(grepl("Axe,N1", names(attr(diffs$predictions, which = "LSDvalues")), fixed = TRUE))) testthat::expect_true(is.null(diffs$backtransforms)) testthat::expect_true(all(attr(diffs, which = "LSDby") == c("Genotype", "A"))) testthat::expect_true(all(attr(diffs$predictions, which = "LSDby") == c("Genotype", "A"))) #Test re-odering of the classify - no reordering of the LSDs diffs.reord <- renewClassify(diffs, newclassify = "A:B:Genotype") testthat::expect_true(all(names(diffs.reord$predictions)[6:7] == c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(c("tdf", "alpha", "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.reord)))) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic", "LSDvalues") %in% names(attributes(diffs.reord$predictions)))) testthat::expect_true(any(grepl("Axe,N1", names(attr(diffs.reord$predictions, which = "LSDvalues"))))) testthat::expect_true(any(grepl("Axe,N1", rownames(diffs.reord$LSD), fixed = TRUE))) testthat::expect_true(all(abs(diffs.reord$LSD$maxLSD[1:2] - c(0.07689865, 0.08286324)) < 1e-05)) testthat::expect_true(any(grepl("Axe,N1", names(attr(diffs.reord$predictions, which = "LSDvalues")), fixed = TRUE))) testthat::expect_true(all(attr(diffs.reord, which = "LSDby") == c("Genotype", "A"))) testthat::expect_true(all(attr(diffs.reord$predictions, which = "LSDby") == c("Genotype", "A"))) diffs.reLSD <- recalcLSD(diffs.reord, LSDtype = "factor", LSDby = c("A", "Genotype"), LSDstatistic = "min") testthat::expect_true(any(grepl("N1,Axe", rownames(diffs.reLSD$LSD), fixed = TRUE))) testthat::expect_true(all(abs(diffs.reLSD$LSD$maxLSD[1:2] - c(0.07689865, 0.07689865)) < 1e-05)) testthat::expect_true(("LSDby" %in% names(attributes(diffs.reLSD)))) testthat::expect_true(attr(diffs.reLSD, which = "LSDtype") == "factor.combinations") testthat::expect_true(attr(diffs.reLSD, which = "LSDstatistic") == "minimum") testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic", "LSDvalues") %in% names(attributes(diffs.reLSD$predictions)))) #Test sort.alldiffs and save order for use with other response variables diffs.sort <- sort(diffs, sortFactor = "Genotype") testthat::expect_true(all(names(diffs.sort$predictions)[6:7] == c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(c("tdf", "alpha", "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.sort)))) testthat::expect_true(all(c( "LSDtype", "LSDby", "LSDstatistic", "LSDvalues") %in% names(attributes(diffs.sort$predictions)))) testthat::expect_true(any(grepl("Axe,N1", names(attr(diffs.sort$predictions, which = "LSDvalues"))))) testthat::expect_true(any(grepl("Axe,N1", rownames(diffs.sort$LSD), fixed = TRUE))) testthat::expect_true(all(abs(diffs.reord$LSD$maxLSD[1:2] - c(0.07689865, 0.08286324)) < 1e-05)) testthat::expect_true(any(grepl("Axe,N1", names(attr(diffs.sort$predictions, which = "LSDvalues")), fixed = TRUE))) testthat::expect_true(all(attr(diffs.sort, which = "LSDby") == c("Genotype", "A"))) testthat::expect_true(all(attr(diffs.sort$predictions, which = "LSDby") == c("Genotype", "A"))) }) cat("#### Test for LSDsupplied on Oats with asreml42\n") test_that("sort.alldiffs4", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) library(dae) data(Oats.dat) LSD.hdr <- c("c", "minLSD", "meanLSD", "maxLSD", "assignedLSD", "accuracyLSD") m1.asr <- asreml(Yield ~ Nitrogen*Variety, random=~Blocks/Wplots, data=Oats.dat) testthat::expect_equal(length(m1.asr$vparameters),3) current.asrt <- as.asrtests(m1.asr) #test supplying a median LSD value diffs <- predictPlus(m1.asr, classify = "Nitrogen:Variety", wald.tab = current.asrt$wald.tab, error.intervals = "half", tables = "none") testthat::expect_true(validAlldiffs(diffs)) testthat::expect_true(all(abs(c(66, 15.47426, 18.54066, 19.56707, 18.54066, 0.1653879, 2, 4) - diffs$LSD) < 1e-05)) LSD.dat <- diffs$LSD LSD.dat$assignedLSD <- qt(0.975, attr(diffs, which = "tdf"))*median(diffs$sed, na.rm = TRUE) diffs.reLSD <- redoErrorIntervals(diffs, error.intervals = "half", LSDtype = "supplied", LSDsupplied = LSD.dat["assignedLSD"]) testthat::expect_is(diffs.reLSD, "alldiffs") testthat::expect_true(validAlldiffs(diffs.reLSD)) testthat::expect_equal(nrow(diffs.reLSD$predictions),12) testthat::expect_equal(ncol(diffs.reLSD$predictions),7) testthat::expect_true(all(names(diffs.reLSD$predictions)[5:6] == c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(c("tdf", "alpha", "LSDtype", "LSDstatistic") %in% names(attributes(diffs.reLSD)))) testthat::expect_true(is.null(attr(diffs.reLSD, which = "LSDby"))) testthat::expect_true(all(c( "LSDtype", "LSDstatistic", "LSDvalues") %in% names(attributes(diffs.reLSD$predictions)))) testthat::expect_true(rownames(diffs.reLSD$LSD) == "overall") testthat::expect_true(all(LSD.hdr %in% names(diffs.reLSD$LSD))) testthat::expect_true(all(abs(c(66, 15.47426, 18.54066, 19.56707, 19.56707, 0.2091679, 0, 4) - diffs.reLSD$LSD) < 1e-05)) #Check limit difference equals the LSD$meanLSD testthat::expect_true(all(abs((diffs.reLSD$predictions$upper.halfLeastSignificant.limit - diffs.reLSD$predictions$lower.halfLeastSignificant.limit) - diffs.reLSD$LSD$assignedLSD) < 1e-05)) medianLSD <- LSD.dat[["meanLSD"]] names(medianLSD) <- "overall" diffs.med.reLSD <- redoErrorIntervals(diffs, error.intervals = "half", LSDtype = "supplied", LSDsupplied = medianLSD) testthat::expect_is(diffs.med.reLSD, "alldiffs") testthat::expect_true(validAlldiffs(diffs.med.reLSD)) testthat::expect_equal(nrow(diffs.med.reLSD$predictions),12) testthat::expect_equal(ncol(diffs.med.reLSD$predictions),7) testthat::expect_true(all(names(diffs.med.reLSD$predictions)[5:6] == c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(c("tdf", "alpha", "LSDtype", "LSDstatistic") %in% names(attributes(diffs.med.reLSD)))) testthat::expect_true(is.null(attr(diffs.med.reLSD, which = "LSDby"))) testthat::expect_true(all(c( "LSDtype", "LSDstatistic", "LSDvalues") %in% names(attributes(diffs.med.reLSD$predictions)))) testthat::expect_true(rownames(diffs.med.reLSD$LSD) == "overall") testthat::expect_true(all(LSD.hdr %in% names(diffs.med.reLSD$LSD))) testthat::expect_true(all(abs(c(66, 15.47426, 18.54066, 19.56707, 18.54066, 0.1653879,2,4) - diffs.med.reLSD$LSD) < 1e-05)) #Check limit difference equals the LSD$meanLSD testthat::expect_true(all(abs((diffs.med.reLSD$predictions$upper.halfLeastSignificant.limit - diffs.med.reLSD$predictions$lower.halfLeastSignificant.limit) - diffs.med.reLSD$LSD$assignedLSD) < 1e-05)) }) cat("#### Test for LSD on WaterRunoff with asreml42\n") test_that("LSDWater4", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) library(dae) data(WaterRunoff.dat) LSD.hdr <- c("c", "minLSD", "meanLSD", "maxLSD", "assignedLSD", "accuracyLSD", "falsePos", "falseNeg") #Analyse pH m1.asr <- asreml(fixed = pH ~ Benches + (Sources * (Type + Species)), random = ~ Benches:MainPlots, keep.order=TRUE, data= WaterRunoff.dat) current.asrt <- as.asrtests(m1.asr, NULL, NULL) testthat::expect_equal(length(m1.asr$vparameters),2) current.asrt <- as.asrtests(m1.asr) current.asrt <- rmboundary(current.asrt) m1.asr <- current.asrt$asreml.obj testthat::expect_equal(length(m1.asr$vparameters),1) diffs.full.LSD <- predictPlus.asreml(asreml.obj = m1.asr, classify = "Sources:Type:Species", wald.tab = current.asrt$wald.tab, present = c("Type","Species","Sources"), error.intervals = "halfLeast", LSDtype = "factor", LSDby = c("Type", "Species"), tables = "none", Vmatrix = TRUE) tdf <- attr(diffs.full.LSD, which = "tdf") t.val <- qt(0.975, tdf) testthat::expect_true(setequal(names(diffs.full.LSD$predictions), c("Sources", "Type", "Species", "predicted.value", "standard.error", "upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit", "est.status"))) testthat::expect_true(!("LSDwarning" %in% names(diffs.full.LSD$predictions))) testthat::expect_true(all(c("LSDtype", "LSDby", "LSDvalues", "avsed.tolerance", "accuracy.threshold") %in% names(attributes(diffs.full.LSD$predictions)))) testthat::expect_true((attr(diffs.full.LSD$predictions, which = "avsed.tolerance") == 0.25)) testthat::expect_true(is.na(attr(diffs.full.LSD$predictions, which = "accuracy.threshold"))) testthat::expect_true(all(abs(attr(diffs.full.LSD$predictions, which = "LSDvalues") - c(0.3052944, 0.3052944, 0.3099100, 0.3076127, 0.3076127, 0.3739078, 0.3739078, 0.3783488)) < 1e-05)) testthat::expect_true(all(diffs.full.LSD$LSD$falsePos == c(rep(0,7),1))) testthat::expect_true(all(diffs.full.LSD$LSD$falseNeg == c(rep(0,7),1))) medianLSD.dat <- data.frame(meanLSD = c(0.3052944, 0.3052944, 0.3121896, 0.3052944, 0.3052944, 0.3739078, 0.3739078, 0.3739078), row.names = c("Landscape,S. iqscjbogxah", "Landscape,S. oymwjrcnepv", "Landscape,S. ocphawvtlgi", "Medicinal,S. hbpgtylxqku", "Medicinal,S. orcxszbujml", "Culinary,S. xeqackngdrt", "Culinary,S. tkujbvipoyr", "Control,Non-planted")) levs <- strsplit(rownames(medianLSD.dat), ",", fixed = TRUE) medianLSDfacs.dat <- data.frame(Type = factor(unlist(lapply(levs, function(lev) lev[1])), levels = levels(WaterRunoff.dat$Type)), Species = factor(unlist(lapply(levs, function(lev) lev[2])), levels = levels(WaterRunoff.dat$Species)), assignedLSD = medianLSD.dat$meanLSD) #### Test different LSDaccuracy with overall #Test of LSDaccuracy = "maxAbs" diffs.over.Acc <- predictPlus.asreml(asreml.obj = m1.asr, classify = "Sources:Type:Species", wald.tab = current.asrt$wald.tab, present = c("Type","Species","Sources"), error.intervals = "halfLeast", avsed.tolerance = NA, accuracy.threshold = 0.10, tables = "none", Vmatrix = TRUE) testthat::expect_true(abs(diffs.over.Acc$LSD$accuracyLSD - 0.1860607) < 01e-05) testthat::expect_true(diffs.over.Acc$LSD$falsePos == 15) testthat::expect_true(diffs.over.Acc$LSD$falseNeg == 10) #Test of LSDaccuracy = "maxDev" diffs.over.Acc <- predictPlus.asreml(asreml.obj = m1.asr, classify = "Sources:Type:Species", wald.tab = current.asrt$wald.tab, present = c("Type","Species","Sources"), error.intervals = "halfLeast", LSDaccuracy = "maxDev", avsed.tolerance = NA, accuracy.threshold = 0.10, tables = "none", Vmatrix = TRUE) testthat::expect_true(abs(diffs.over.Acc$LSD$accuracyLSD - 0.1860607) < 01e-05) testthat::expect_true(diffs.over.Acc$LSD$falsePos == 15) testthat::expect_true(diffs.over.Acc$LSD$falseNeg == 10) #Test of LSDaccuracy = "q90Dev" diffs.over.Acc <- predictPlus.asreml(asreml.obj = m1.asr, classify = "Sources:Type:Species", wald.tab = current.asrt$wald.tab, present = c("Type","Species","Sources"), error.intervals = "halfLeast", LSDaccuracy = "q90Dev", avsed.tolerance = NA, accuracy.threshold = 0.10, tables = "none", Vmatrix = TRUE) testthat::expect_true(abs(diffs.over.Acc$LSD$accuracyLSD - 0.06892194) < 01e-05) testthat::expect_true(diffs.over.Acc$LSD$falsePos == 15) testthat::expect_true(diffs.over.Acc$LSD$falseNeg == 10) #Test of LSDaccuracy = "Root" diffs.over.Acc <- predictPlus.asreml(asreml.obj = m1.asr, classify = "Sources:Type:Species", wald.tab = current.asrt$wald.tab, present = c("Type","Species","Sources"), error.intervals = "halfLeast", LSDaccuracy = "Root", avsed.tolerance = NA, accuracy.threshold = 0.10, tables = "none", Vmatrix = TRUE) testthat::expect_true(abs(diffs.over.Acc$LSD$accuracyLSD - 0.06833254) < 01e-05) testthat::expect_true(diffs.over.Acc$LSD$falsePos == 15) testthat::expect_true(diffs.over.Acc$LSD$falseNeg == 10) #Test LSDstatistic = "q90" diffs.reLSD.q90 <- redoErrorIntervals(diffs.full.LSD, error.intervals = "half", LSDtype = "factor", LSDby = c("Type", "Species"), LSDtstatistic = "q90") testthat::expect_true(all(diffs.reLSD.q90$LSD$assignedLSD <= diffs.reLSD.q90$LSD$maxLSD)) testthat::expect_true(all(abs(diffs.reLSD.q90$LSD$assignedLSD - c(0.3052944,0.3052944,0.3099100,0.3076127, 0.3076127,0.3739078,0.3739078,0.3783488)) < 1e-05)) testthat::expect_true(all(diffs.reLSD.q90$LSD$falsePos == c(rep(0,7),1))) testthat::expect_true(all(diffs.reLSD.q90$LSD$falseNeg == c(rep(0,7),1))) #supplied is a data.frame with rownames and LSD supplied diffs.reLSD <- redoErrorIntervals(diffs.full.LSD, error.intervals = "half", LSDtype = "supplied", LSDby = c("Type", "Species"), LSDsupplied = medianLSD.dat) testthat::expect_is(diffs.reLSD, "alldiffs") testthat::expect_true(validAlldiffs(diffs.reLSD)) testthat::expect_equal(nrow(diffs.reLSD$predictions),40) testthat::expect_equal(ncol(diffs.reLSD$predictions),8) testthat::expect_true(all(names(diffs.reLSD$predictions)[6:7] == c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(c("tdf", "alpha", "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.reLSD)))) testthat::expect_true(all(c( "LSDtype", "LSDstatistic", "LSDby", "LSDvalues") %in% names(attributes(diffs.reLSD$predictions)))) testthat::expect_true(all(rownames(diffs.reLSD$LSD) == rownames(medianLSD.dat))) testthat::expect_true(all(LSD.hdr %in% names(diffs.reLSD$LSD))) testthat::expect_true(all(abs(medianLSD.dat$meanLSD - diffs.reLSD$LSD$assignedLSD) < 1e-05)) testthat::expect_true(all(diffs.reLSD$LSD$falsePos == c(rep(0,7),1))) testthat::expect_true(all(diffs.reLSD$LSD$falseNeg == rep(0,8))) #Check limit difference equals the median LSDs tmp <- merge(diffs.reLSD$predictions, medianLSDfacs.dat) testthat::expect_true(all(abs((tmp$upper.halfLeastSignificant.limit - tmp$lower.halfLeastSignificant.limit) - tmp$assignedLSD) < 1e-05)) #supplied is a data.frame with factors and LSDsupplied diffs.reLSD <- redoErrorIntervals(diffs.full.LSD, error.intervals = "half", LSDtype = "supplied", LSDby = c("Type", "Species"), LSDsupplied = medianLSDfacs.dat) testthat::expect_is(diffs.reLSD, "alldiffs") testthat::expect_true(validAlldiffs(diffs.reLSD)) testthat::expect_equal(nrow(diffs.reLSD$predictions),40) testthat::expect_equal(ncol(diffs.reLSD$predictions),8) testthat::expect_true(all(names(diffs.reLSD$predictions)[6:7] == c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(c("tdf", "alpha", "LSDtype", "LSDby", "LSDstatistic") %in% names(attributes(diffs.reLSD)))) testthat::expect_true(all(c( "LSDtype", "LSDstatistic", "LSDby", "LSDvalues") %in% names(attributes(diffs.reLSD$predictions)))) testthat::expect_true(all(rownames(diffs.reLSD$LSD) == rownames(medianLSD.dat))) testthat::expect_true(all(LSD.hdr %in% names(diffs.reLSD$LSD))) testthat::expect_true(all(abs(medianLSD.dat$meanLSD - diffs.reLSD$LSD$assignedLSD) < 1e-05)) #Check limit difference equals the median LSDs tmp <- merge(diffs.reLSD$predictions, medianLSDfacs.dat) testthat::expect_true(all(abs((tmp$upper.halfLeastSignificant.limit - tmp$lower.halfLeastSignificant.limit) - tmp$assignedLSD) < 1e-05)) ##### Test of new LSD component and accuracy.threshold diffs.full.Acc <- predictPlus.asreml(asreml.obj = m1.asr, classify = "Sources:Type:Species", wald.tab = current.asrt$wald.tab, present = c("Type","Species","Sources"), error.intervals = "halfLeast", LSDtype = "factor", LSDby = c("Type", "Species"), accuracy.threshold = 0.10, tables = "none", Vmatrix = TRUE) testthat::expect_true(setequal(c("names", "classify", "tdf", "alpha", "class", "LSDtype", "LSDby", "LSDstatistic", "response", "response.title", "term", "LSDaccuracy"), names(attributes(diffs.full.Acc)))) testthat::expect_true(all(names(diffs.full.Acc$LSD) == LSD.hdr)) testthat::expect_true(all(diffs.full.Acc$LSD$accuracyLSD < 0.03)) testthat::expect_true(all(diffs.full.Acc$LSD$meanLSD == diffs.full.Acc$LSD$assignedLSD)) testthat::expect_true(sum(diffs.full.Acc$predictions$LSDwarning) == 0) testthat::expect_true(setequal(c("names", "class", "row.names", "heading", "LSDtype", "LSDby", "LSDstatistic", "LSDaccuracy", "avsed.tolerance", "accuracy.threshold", "LSDvalues"), names(attributes(diffs.full.Acc$predictions)))) testthat::expect_true((attr(diffs.full.Acc$predictions, which = "LSDaccuracy") == "maxAbsDeviation")) testthat::expect_true(all(unlist(attributes(diffs.full.Acc)[c("LSDtype", "LSDby", "LSDstatistic", "LSDaccuracy")]) == unlist(attributes(diffs.full.Acc$predictions)[c("LSDtype", "LSDby", "LSDstatistic", "LSDaccuracy")]))) #Test of LSDaccuracy = "Root" diffs.full.Acc <- predictPlus.asreml(asreml.obj = m1.asr, classify = "Sources:Type:Species", wald.tab = current.asrt$wald.tab, present = c("Type","Species","Sources"), error.intervals = "halfLeast", LSDtype = "factor", LSDby = c("Type", "Species"), LSDaccuracy = "Root", accuracy.threshold = 0.10, tables = "none", Vmatrix = TRUE) testthat::expect_true(setequal(c("names", "classify", "tdf", "alpha", "class", "LSDtype", "LSDby", "LSDstatistic", "response", "response.title", "term", "LSDaccuracy"), names(attributes(diffs.full.Acc)))) testthat::expect_true(all(names(diffs.full.Acc$LSD) == LSD.hdr)) testthat::expect_true(all(diffs.full.Acc$LSD$accuracyLSD < 0.02)) testthat::expect_true(all(diffs.full.Acc$LSD$meanLSD == diffs.full.Acc$LSD$assignedLSD)) testthat::expect_true(sum(diffs.full.Acc$predictions$LSDwarning) == 0) testthat::expect_true(setequal(c("names", "class", "row.names", "heading", "LSDtype", "LSDby", "LSDstatistic", "LSDaccuracy", "avsed.tolerance", "accuracy.threshold", "LSDvalues"), names(attributes(diffs.full.Acc$predictions)))) testthat::expect_true((attr(diffs.full.Acc$predictions, which = "LSDaccuracy") == "RootMeanSqDeviation")) testthat::expect_true(all(unlist(attributes(diffs.full.Acc)[c("LSDtype", "LSDby", "LSDstatistic", "LSDaccuracy")]) == unlist(attributes(diffs.full.Acc$predictions)[c("LSDtype", "LSDby", "LSDstatistic", "LSDaccuracy")]))) #### Testing of different LSDby values with accuracy.threshold #Test of overall and accuracy.threshold diffs.full.all.Acc <- predictPlus.asreml(asreml.obj = m1.asr, classify = "Sources:Type:Species", wald.tab = current.asrt$wald.tab, present = c("Type","Species","Sources"), error.intervals = "halfLeast", LSDtype = "overall", avsed.tolerance = NA, accuracy.threshold = 0.10, tables = "none", Vmatrix = TRUE) testthat::expect_true(setequal(c("names", "classify", "tdf", "alpha", "class", "LSDtype", "LSDstatistic", "response", "response.title", "term", "LSDaccuracy"), names(attributes(diffs.full.all.Acc)))) testthat::expect_true(all(names(diffs.full.all.Acc$LSD) == LSD.hdr)) testthat::expect_true(all(diffs.full.all.Acc$LSD$accuracyLSD < 0.19)) testthat::expect_true(all(diffs.full.all.Acc$LSD$meanLSD == diffs.full.all.Acc$LSD$assignedLSD)) ksed <- na.omit(as.vector(diffs.full.all.Acc$sed)) testthat::expect_true(abs(diffs.full.all.Acc$LSD$accuracyLSD - max(abs(t.val *ksed - diffs.full.all.Acc$LSD$assignedLSD))/diffs.full.all.Acc$LSD$assignedLSD) < 1e-05) testthat::expect_true(sum(diffs.full.all.Acc$predictions$LSDwarning) == 14) testthat::expect_true(setequal(apply(diffs.full.all.Acc$sed, FUN = function(ksed, t.val, assLSD) (max(abs(t.val*ksed - assLSD), na.rm = TRUE) / assLSD > 0.10), t.val = t.val, assLSD = diffs.full.all.Acc$LSD$assignedLSD, MARGIN = 1), diffs.full.all.Acc$predictions$LSDwarning)) #check LSDwarning testthat::expect_true(setequal(c("names", "class", "row.names", "heading", "LSDtype", "LSDstatistic", "LSDaccuracy", "avsed.tolerance", "accuracy.threshold", "LSDvalues"), names(attributes(diffs.full.all.Acc$predictions)))) testthat::expect_true((attr(diffs.full.all.Acc$predictions, which = "LSDaccuracy") == "maxAbsDeviation")) testthat::expect_true(all(unlist(attributes(diffs.full.all.Acc)[c("LSDtype", "LSDstatistic", "LSDaccuracy")]) == unlist(attributes(diffs.full.all.Acc$predictions)[c("LSDtype", "LSDstatistic", "LSDaccuracy")]))) #Test of factor.comb and accuracy.threshold, when there are some single prediction combinations diffs.full.comb.Acc <- predictPlus.asreml(asreml.obj = m1.asr, classify = "Sources:Type:Species", wald.tab = current.asrt$wald.tab, present = c("Type","Species","Sources"), error.intervals = "halfLeast", LSDtype = "factor", LSDby = c("Type", "Sources"), accuracy.threshold = 0.10, tables = "none", Vmatrix = TRUE) testthat::expect_true(setequal(c("names", "classify", "tdf", "alpha", "class", "LSDtype", "LSDby", "LSDstatistic", "response", "response.title", "term", "LSDaccuracy"), names(attributes(diffs.full.comb.Acc)))) testthat::expect_true(all(names(diffs.full.comb.Acc$LSD) == LSD.hdr)) testthat::expect_true(all(is.na(diffs.full.comb.Acc$LSD$accuracyLSD) | diffs.full.comb.Acc$LSD$accuracyLSD) < 0.015) testthat::expect_true(all(diffs.full.comb.Acc$LSD$meanLSD == diffs.full.comb.Acc$LSD$assignedLSD)) testthat::expect_true(sum(diffs.full.comb.Acc$predictions$LSDwarning, na.rm = TRUE) == 0) assRL <- unlist(lapply(1:3, function(k, diffs, t.value) max(abs(t.value * diffs$sed[k,1:3] - diffs$LSD$assignedLSD[1]), na.rm = TRUE)/diffs$LSD$assignedLSD[1], diffs = diffs.full.comb.Acc, t.value = t.val)) testthat::expect_true(setequal(assRL > 0.10, diffs.full.comb.Acc$predictions$LSDwarning[1:3])) testthat::expect_true(setequal(c("names", "class", "row.names", "heading", "LSDtype", "LSDby", "LSDstatistic", "LSDaccuracy", "avsed.tolerance", "accuracy.threshold", "LSDvalues"), names(attributes(diffs.full.comb.Acc$predictions)))) testthat::expect_true((attr(diffs.full.comb.Acc$predictions, which = "LSDaccuracy") == "maxAbsDeviation")) testthat::expect_true(all(unlist(attributes(diffs.full.comb.Acc)[c("LSDtype", "LSDby", "LSDstatistic", "LSDaccuracy")]) == unlist(attributes(diffs.full.comb.Acc$predictions)[c("LSDtype", "LSDby", "LSDstatistic", "LSDaccuracy")]))) testthat::expect_true(all(grepl("Control", rownames(diffs.full.comb.Acc$LSD[15:20,]), fixed = TRUE))) testthat::expect_true(all(diffs.full.comb.Acc$LSD[15:20,"c"] == 0)) testthat::expect_true(all(is.na(diffs.full.comb.Acc$LSD[15:20,c("accuracyLSD", "falsePos", "falseNeg")]))) #Test of exploreLSD when there when there are some single prediction combinations lsd <- exploreLSDs(diffs.full.comb.Acc, LSDtype = "factor", LSDby = c("Type", "Sources"), plotHistogram = FALSE) testthat::expect_true(all(grepl("Control", rownames(lsd$accuracy[15:20,]), fixed = TRUE))) testthat::expect_true(all(lsd$falsepos[15:20,"c"] == 0)) testthat::expect_true(all(is.na(lsd$falseneg[15:20,-1]))) #Test of supplied and accuracy.threshold, when there are some single prediction combinations LSDsupp <- rep(0.3, 20) names(LSDsupp) <- levels(with(WaterRunoff.dat, fac.combine(list(Type, Sources), combine.levels = TRUE))) diffs.full.supp.Acc <- predictPlus.asreml(asreml.obj = m1.asr, classify = "Sources:Type:Species", wald.tab = current.asrt$wald.tab, present = c("Type","Species","Sources"), error.intervals = "halfLeast", LSDtype = "supplied", LSDsupplied = LSDsupp, LSDby = c("Type", "Sources"), accuracy.threshold = 0.10, tables = "none", Vmatrix = TRUE) testthat::expect_true(setequal(c("names", "classify", "tdf", "alpha", "class", "LSDtype", "LSDby", "LSDstatistic", "response", "response.title", "term", "LSDaccuracy"), names(attributes(diffs.full.supp.Acc)))) testthat::expect_true(all(names(diffs.full.supp.Acc$LSD) == LSD.hdr)) testthat::expect_true(all(is.na(diffs.full.supp.Acc$LSD$accuracyLSD) | diffs.full.supp.Acc$LSD$accuracyLSD < 0.25)) testthat::expect_true(all(diffs.full.supp.Acc$LSD$assignedLSD == 0.3)) testthat::expect_true(sum(diffs.full.supp.Acc$predictions$LSDwarning, na.rm = TRUE) == 4) assRL <- unlist(lapply(1:3, function(k, diffs, t.value) max(abs(t.value * diffs$sed[k,1:3] - diffs$LSD$assignedLSD[1]), na.rm = TRUE)/diffs$LSD$assignedLSD[1], diffs = diffs.full.supp.Acc, t.value = t.val)) testthat::expect_true(setequal(assRL > 0.10, diffs.full.supp.Acc$predictions$LSDwarning[1:3])) testthat::expect_true(setequal(c("names", "class", "row.names", "heading", "LSDtype", "LSDby", "LSDstatistic", "LSDaccuracy", "avsed.tolerance", "accuracy.threshold", "LSDvalues"), names(attributes(diffs.full.supp.Acc$predictions)))) testthat::expect_true((attr(diffs.full.supp.Acc$predictions, which = "LSDaccuracy") == "maxAbsDeviation")) testthat::expect_true(all(unlist(attributes(diffs.full.supp.Acc)[c("LSDtype", "LSDby", "LSDstatistic", "LSDaccuracy")]) == unlist(attributes(diffs.full.supp.Acc$predictions)[c("LSDtype", "LSDby", "LSDstatistic", "LSDaccuracy")]))) #Test of per.prediction and accuracy.threshold diffs.full.ppred.Acc <- predictPlus.asreml(asreml.obj = m1.asr, classify = "Sources:Type:Species", wald.tab = current.asrt$wald.tab, present = c("Type","Species","Sources"), error.intervals = "halfLeast", LSDtype = "per.pred", accuracy.threshold = 0.10, tables = "none", Vmatrix = TRUE) testthat::expect_true(setequal(c("names", "classify", "tdf", "alpha", "class", "LSDtype", "LSDstatistic", "response", "response.title", "term", "LSDaccuracy"), names(attributes(diffs.full.ppred.Acc)))) testthat::expect_true(all(names(diffs.full.ppred.Acc$LSD) == LSD.hdr)) testthat::expect_true(all(unlist(attributes(diffs.full.ppred.Acc)[c("LSDtype", "LSDby", "LSDstatistic", "LSDaccuracy")]) == unlist(attributes(diffs.full.ppred.Acc$predictions)[c("LSDtype", "LSDstatistic", "LSDaccuracy")]))) testthat::expect_equal(nrow(diffs.full.ppred.Acc$LSD),40) testthat::expect_true(abs(t.val*sqrt(mean(diffs.full.ppred.Acc$sed[1,]^2, na.rm = TRUE)) - diffs.full.ppred.Acc$LSD$assignedLSD[1]) < 1e-05) #check assigned LSD testthat::expect_true(abs(max(abs(t.val*diffs.full.ppred.Acc$sed[1,] - diffs.full.ppred.Acc$LSD$assignedLSD[1]), na.rm = TRUE) / diffs.full.ppred.Acc$LSD$assignedLSD[1] - diffs.full.ppred.Acc$LSD$accuracyLSD[1]) < 1e-05) #Test accuracyLSD testthat::expect_true(all(diffs.full.ppred.Acc$LSD$accuracyLSD < 0.15)) testthat::expect_equal(sum(diffs.full.ppred.Acc$predictions$LSDwarning), 39) }) cat("#### Test for exploreLSDs on WaterRunoff with asreml42\n") test_that("exploreLSDWater4", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) library(dae) data(WaterRunoff.dat) #Analyse pH m1.asr <- asreml(fixed = pH ~ Benches + (Sources * (Type + Species)), random = ~ Benches:MainPlots, keep.order=TRUE, data= WaterRunoff.dat) current.asrt <- as.asrtests(m1.asr, NULL, NULL) testthat::expect_equal(length(m1.asr$vparameters),2) current.asrt <- as.asrtests(m1.asr) current.asrt <- rmboundary(current.asrt) current.asr <- current.asrt$asreml.obj TS.diffs <- predictPlus(classify = "Sources:Type", asreml.obj = current.asr, wald.tab = current.asrt$wald.tab, present = c("Sources", "Type", "Species"), tables = "none") ##Explore the LSD values for predictions obtained using asreml or lmerTest LSDstat <- exploreLSDs(TS.diffs, LSDtype = "factor.combinations", LSDby = "Sources") testthat::expect_equal(names(LSDstat), c("frequencies", "distinct.vals", "statistics", "accuracy", "false.pos", "false.neg", "per.pred.accuracy", "LSD")) testthat::expect_true(all(lapply(c("frequencies", "statistics", "accuracy"), function(k, LSDstat) nrow(LSDstat[[k]]), LSDstat = LSDstat) == 6)) testthat::expect_true(all(unlist(lapply(c("frequencies", "statistics", "accuracy"), function(k, LSDstat, dat) all(rownames(LSDstat[[k]])== levels(WaterRunoff.dat$Sources)), LSDstat = LSDstat, dat = WaterRunoff.dat)))) testthat::expect_equal(names(LSDstat$frequencies), as.character(seq(0.17, 0.39, 0.02))) testthat::expect_equal(LSDstat$distinct.vals$`Rain+Basalt`, c(0.197,0.294,0.307)) testthat::expect_true(all(abs(LSDstat$statistics[1,] - c(3, 0.1982634,0.2175164, 0.246396, 0.2708314,0.2945287, 0.300556,0.3041724,0.3065833)) < 1e-05)) #Test multiple LSDstatistics TS.diffs.var <- recalcLSD(TS.diffs, LSDtype = "factor.combinations", LSDby = "Sources", LSDstatistic = c("q10","med","med","q75","q75", "med")) testthat::expect_true(all(TS.diffs.var$LSD$falsePos) == 0) testthat::expect_equal(sum(TS.diffs.var$LSD$falseNeg), 3) #Test false positive and negative values kLSD <- TS.diffs$sed[17:20,17:20] kLSD <- qt(0.975, attr(TS.diffs, which = "tdf")) * kLSD[upper.tri(kLSD)] kdif <- TS.diffs$differences[17:20,17:20] kdif <- abs(kdif[upper.tri(kdif)]) kLSD <- kdif >= kLSD minLSD <- kdif >= LSDstat$statistics$min[6] fpos <- sum(minLSD & !kLSD) fneg <- sum(!minLSD & kLSD) testthat::expect_true(fpos == LSDstat$false.pos$min[6]) testthat::expect_true(fneg == LSDstat$false.neg$min[6]) testthat::expect_true(all(abs(LSDstat$accuracy[1,] - c(3, 0.5463438,0.4094721, 0.2442706, 0.2679453,0.3268454,0.340344,0.3481875,0.3533133)) < 1e-05)) testthat::expect_true(all(lapply(c("per.pred.accuracy", "LSD"), function(k, LSDstat) nrow(LSDstat[[k]]), LSDstat = LSDstat) == 20)) testthat::expect_equal(rownames(LSDstat$per.pred.accuracy), as.character(fac.combine(as.list(TS.diffs$predictions[c("Sources","Type")]), combine.levels = TRUE))) testthat::expect_true(all(abs(LSDstat$per.pred.accuracy[1,] - c(0.4855427,0.3540527,0.1953468,0.2679453, 0.3268454,0.3403447,0.3481875,0.3533133)) < 1e-05)) #Check falsePos and falseNeg in LSD component TS.diffs.min <- predictPlus(classify = "Sources:Type", asreml.obj = current.asr, wald.tab = current.asrt$wald.tab, LSDtype = "factor.combinations", LSDby = "Sources", LSDstatistic = "min", present = c("Sources", "Type", "Species"), tables = "none") testthat::expect_true(fpos == TS.diffs.min$LSD$falsePos[6]) testthat::expect_true(fneg == TS.diffs.min$LSD$falseNeg[6]) #Test multiple values LSDstatistic <- c("min", "med", "mean", "q75","q75", "mean") TS.diffs.multi <- recalcLSD(TS.diffs.min, LSDtype = "factor.combinations", LSDby = "Sources", LSDstatistic = LSDstatistic) LSD <- exploreLSDs(TS.diffs.min, LSDtype = "factor.combinations", LSDby = "Sources") LSD <- LSD$statistics LSD <- c(LSD$min[1], LSD$median[2], LSD$mean[3], LSD$quant75[4:5], LSD$mean[6]) testthat::expect_true(all(abs(TS.diffs.multi$LSD$assignedLSD - LSD) < 1e-05)) LSDstat <- exploreLSDs(TS.diffs, LSDtype = "factor.combinations", LSDby = "Sources", LSDaccuracy = "maxDev") testthat::expect_equal(names(LSDstat), c("frequencies", "distinct.vals", "statistics", "accuracy", "false.pos", "false.neg", "per.pred.accuracy", "LSD")) testthat::expect_true(all(lapply(c("frequencies", "statistics", "accuracy"), function(k, LSDstat) nrow(LSDstat[[k]]), LSDstat = LSDstat) == 6)) testthat::expect_true(all(unlist(lapply(c("frequencies", "statistics", "accuracy"), function(k, LSDstat, dat) all(rownames(LSDstat[[k]])== levels(WaterRunoff.dat$Sources)), LSDstat = LSDstat, dat = WaterRunoff.dat)))) testthat::expect_equal(names(LSDstat$frequencies), as.character(seq(0.17, 0.39, 0.02))) testthat::expect_equal(LSDstat$distinct.vals$`Rain+Basalt`, c(0.197,0.294,0.307)) testthat::expect_true(all(abs(LSDstat$statistics[1,] - c(3,0.1982634,0.2175164,0.246396,0.2708314, 0.2945287,0.300556,0.3041724,0.3065833)) < 1e-05)) testthat::expect_true(all(abs(LSDstat$accuracy[1,] - c(3,0.5463438,0.4094721,0.2442706,0.1320083, 0.04092854,0.02005388,0.007926183,0)) < 1e-05)) testthat::expect_true(all(lapply(c("per.pred.accuracy", "LSD"), function(k, LSDstat) nrow(LSDstat[[k]]), LSDstat = LSDstat) == 20)) testthat::expect_equal(rownames(LSDstat$per.pred.accuracy), as.character(fac.combine(as.list(TS.diffs$predictions[c("Sources","Type")]), combine.levels = TRUE))) testthat::expect_true(all(abs(LSDstat$per.pred.accuracy[1,] - c(0.4855427,0.3540527,0.1953468,0.08749856, 0,-0.02005388,-0.03170473,-0.03931926) < 1e-05))) LSDs <- plotLSDs(TS.diffs, factors.per.grid = 1) testthat::expect_equal(nrow(LSDs$LSDs),400) testthat::expect_true(all(names(LSDs$LSD) == c("Rows","Columns","LSDs"))) testthat::expect_equal(levels(LSDs$LSDs$Rows),rownames(TS.diffs$sed)) testthat::expect_equal(length(unique(signif(LSDs$LSDs$LSDs, digits = 4))), 28) testthat::expect_equal(length(LSDs$plots),1) LSDerr <- plotLSDerrors(TS.diffs, factors.per.grid = 1) testthat::expect_equal(length(LSDerr),2) testthat::expect_equal(nrow(LSDerr$LSDresults),400) testthat::expect_true(all(names(LSDerr$LSDresults) == c("Rows","Columns","LSDresults"))) testthat::expect_equal(levels(LSDerr$LSDresults$Rows),rownames(TS.diffs$sed)) testthat::expect_true(all(LSDerr$LSDresults$LSDresults[1:4] == c("na","FN","Ok","Ok"))) testthat::expect_equal(length(LSDerr$plots),1) LSDerr <- plotLSDerrors(TS.diffs, sections = "Sources", axis.labels = TRUE) testthat::expect_equal(length(LSDerr),2) testthat::expect_equal(nrow(LSDerr$LSDresults),400) testthat::expect_true(all(names(LSDerr$LSDresults) == c("Rows","Columns","LSDresults","sections1","sections2"))) testthat::expect_equal(length(levels(LSDerr$LSDresults$Rows)),4) testthat::expect_equal(length(levels(LSDerr$LSDresults$sections1)),6) testthat::expect_true(all(LSDerr$LSDresults$LSDresults[1:4] == c("na","FN","Ok","Ok"))) testthat::expect_equal(length(LSDerr$plots),6) testthat::expect_silent(print(LSDerr$plots[[1]])) }) cat("#### Test for exploreLSDs on Oats with asreml42\n") test_that("exploreLSDOatsr4", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) library(dae) data(Oats.dat) m1.asr <- asreml(Yield ~ Nitrogen*Variety, random=~Blocks/Wplots, data=Oats.dat) current.asrt <- as.asrtests(m1.asr) wald.tab <- current.asrt$wald.tab den.df <- wald.tab[match("Variety", rownames(wald.tab)), "denDF"] #Test single factor linear.transform Var.pred <- predict(m1.asr, classify="Nitrogen:Variety", vcov=TRUE) Var.diffs <- allDifferences(predictions = Var.pred$pvals, classify = "Nitrogen:Variety", vcov = Var.pred$vcov, tdf = den.df) #Check false positives and negative for overall kLSD <- Var.diffs$sed kLSD <- qt(0.975, attr(Var.diffs, which = "tdf")) * kLSD[upper.tri(kLSD)] kdif <- Var.diffs$differences kdif <- abs(kdif[upper.tri(kdif)]) kLSD <- kdif >= kLSD minLSD <- kdif >= Var.diffs$LSD$assignedLSD fpos <- sum(minLSD & !kLSD) fneg <- sum(!minLSD & kLSD) testthat::expect_true(fpos == Var.diffs$LSD$falsePos) testthat::expect_true(fneg == Var.diffs$LSD$falseNeg) lsd <- exploreLSDs(Var.diffs) testthat::expect_equal(names(lsd), c("frequencies", "distinct.vals", "statistics", "accuracy", "false.pos", "false.neg","per.pred.accuracy", "LSD")) testthat::expect_true(all(lapply(c("statistics", "accuracy"), function(k, lsd) nrow(lsd[[k]]), lsd = lsd) == 1)) testthat::expect_equal(names(lsd$frequencies), as.character(seq(17.25, 21.75, 0.5))) testthat::expect_equal(lsd$distinct.vals, c(17.1, 21.6)) testthat::expect_true(all(abs(lsd$statistics[1,] - c(66,17.11869,17.11869,17.11869,20.51095, 21.64642,21.64642,21.64642,21.64642)) < 1e-05)) testthat::expect_true(all(abs(lsd$accuracy[1,] - c(66,0.2644909,0.2644909,0.2644909,0.1653879, 0.2091679,0.2091679,0.2091679,0.2091679)) < 1e-05)) testthat::expect_true(fpos == lsd$false.pos["mean"]) testthat::expect_true(fneg == lsd$false.neg["mean"]) testthat::expect_true(all(lsd$false.pos == c(66,3,3,3.0,0,0,0,0,0))) testthat::expect_true(all(lsd$false.neg == c(66,0,0,0,3,4,4,4,4))) testthat::expect_true(all(lapply(c("per.pred.accuracy", "LSD"), function(k, lsd) nrow(lsd[[k]]), lsd = lsd) == 12)) testthat::expect_equal(rownames(lsd$per.pred.accuracy), as.character(fac.combine(as.list(Var.diffs$predictions[c("Nitrogen","Variety")]), combine.levels = TRUE))) testthat::expect_true(all(abs(lsd$per.pred.accuracy[1,] - c(0.2644909,0.2644909,0.2644909,0.1653879, 0.2091679,0.2091679,0.2091679,0.2091679)) < 1e-05)) lsd <- exploreLSDs(Var.diffs, LSDtype = "fact", LSDby = "Nitrogen") testthat::expect_equal(names(lsd), c("frequencies", "distinct.vals", "statistics", "accuracy", "false.pos", "false.neg","per.pred.accuracy", "LSD")) testthat::expect_true(all(lapply(c("frequencies", "statistics", "accuracy"), function(k, lsd) nrow(lsd[[k]]), lsd = lsd) == 4)) testthat::expect_equal(names(lsd$frequencies), as.character(seq(17.25, 21.75, 0.5))) testthat::expect_true(all(unlist(lapply(lsd$distinct.vals, function(val) val == 21.6)))) testthat::expect_true(all(abs(lsd$statistics[1,-1] - 21.64642) < 1e-05)) testthat::expect_true(all(lsd$accuracy[1,-1] < 1e-08)) testthat::expect_true(all(lapply(c("per.pred.accuracy", "LSD"), function(k, lsd) nrow(lsd[[k]]), lsd = lsd) == 12)) testthat::expect_equal(rownames(lsd$per.pred.accuracy), as.character(fac.combine(as.list(Var.diffs$predictions[c("Nitrogen","Variety")]), combine.levels = TRUE))) testthat::expect_true(all(lsd$per.pred.accuracy[1,] < 1e-08)) LSDs <- plotLSDs((Var.diffs)) testthat::expect_equal(length(LSDs),2) testthat::expect_equal(nrow(LSDs$LSDs),144) testthat::expect_true(all(names(LSDs$LSD) == c("Rows","Columns","LSDs"))) testthat::expect_equal(levels(LSDs$LSDs$Rows),rownames(Var.diffs$sed)) testthat::expect_equal(length(LSDs$plots),1) testthat::expect_true(all(abs(na.omit(LSDs$LSDs$LSDs) - 21.64642) < 1e-05 | abs(na.omit(LSDs$LSDs$LSDs) - 17.11869) < 1e-05)) }) cat("#### Test for sort.alldiffs on WaterRunoff with asreml42\n") test_that("sort.alldiffsWater4", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) library(dae) data(WaterRunoff.dat) #Analyse pH m1.asr <- asreml(fixed = pH ~ Benches + (Sources * (Type + Species)), random = ~ Benches:MainPlots, keep.order=TRUE, data= WaterRunoff.dat) current.asrt <- as.asrtests(m1.asr, NULL, NULL) testthat::expect_equal(length(m1.asr$vparameters),2) current.asrt <- as.asrtests(m1.asr) current.asrt <- rmboundary(current.asrt) m1.asr <- current.asrt$asreml.obj testthat::expect_equal(length(m1.asr$vparameters),1) TS.diffs <- predictPlus.asreml(classify = "Sources:Type", asreml.obj = m1.asr, tables = "none", wald.tab = current.asrt$wald.tab, present = c("Type","Species","Sources")) testthat::expect_true(is.alldiffs(TS.diffs)) testthat::expect_true(validAlldiffs(TS.diffs)) testthat::expect_equal(nrow(TS.diffs$predictions),20) testthat::expect_equal(ncol(TS.diffs$predictions),7) testthat::expect_equal(as.character(TS.diffs$predictions$Type[1]),"Landscape") testthat::expect_true(is.null(attr(TS.diffs, which = "sortOrder"))) #Test reodering of the classify TS.diffs.reord <- renewClassify(TS.diffs, newclassify = "Type:Sources") testthat::expect_equal(as.character(TS.diffs.reord$predictions$Sources[1]),"Rainwater") testthat::expect_equal(as.character(TS.diffs.reord$predictions$Sources[2]),"Recycled water") testthat::expect_true(abs(TS.diffs.reord$predictions$predicted.value[2] - 7.646389) < 1e-06) #Test sort.alldiffs and save order for use with other response variables TS.diffs.sort <- sort(TS.diffs, sortFactor = "Sources", sortParallelToCombo = list(Type = "Control")) sort.order <- attr(TS.diffs.sort, which = "sortOrder") testthat::expect_is(TS.diffs.sort, "alldiffs") testthat::expect_true(validAlldiffs(TS.diffs.sort)) testthat::expect_equal(nrow(TS.diffs.sort$predictions),20) testthat::expect_equal(ncol(TS.diffs.sort$predictions),7) testthat::expect_equal(as.character(TS.diffs.sort$predictions$Sources[1]),"Recycled water") testthat::expect_equal(length(attributes(TS.diffs.sort)),13) testthat::expect_equal(length(attr(TS.diffs.sort, which = "sortOrder")),6) #Test sort.alldiffs with supplied sortOrder m2.asr <- asreml(fixed = Turbidity ~ Benches + (Sources * (Type + Species)), random = ~ Benches:MainPlots, keep.order=TRUE, data= WaterRunoff.dat) testthat::expect_equal(length(m2.asr$vparameters),2) current.asrt <- as.asrtests(m2.asr) diffs2.sort <- predictPlus(m2.asr, classify = "Sources:Type", pairwise = FALSE, Vmatrix = TRUE, error.intervals = "Stand", tables = "none", present = c("Type","Species","Sources"), sortFactor = "Sources", sortOrder = sort.order) testthat::expect_equal(as.character(TS.diffs.sort$predictions$Sources[1]), as.character(diffs2.sort$predictions$Sources[1])) testthat::expect_equal(attr(TS.diffs.sort, which = "sortOrder"), attr(diffs2.sort, which = "sortOrder")) #Test removing a multilevel classifying factor that is marginal to another factor using subset diffs.full <- predictPlus.asreml(asreml.obj = m1.asr, classify = "Sources:Type:Species", wald.tab = current.asrt$wald.tab, present = c("Type","Species","Sources"), tables = "none", Vmatrix = TRUE) testthat::expect_true(setequal(names(diffs.full$predictions), c("Sources", "Type", "Species", "predicted.value", "standard.error", "upper.Confidence.limit", "lower.Confidence.limit", "est.status"))) diffs.fit <- linTransform(diffs.full, classify = "Sources:Type:Species", linear.transformation = ~ Sources:Type, error.intervals="half", avsed.tolerance = NA, LSDtype="factor", LSDby="Type", tables = "none") testthat::expect_true(setequal(names(diffs.fit$predictions), c("Sources", "Type", "Species", "predicted.value", "standard.error", "upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit", "est.status"))) testthat::expect_true(all(c("LSDtype", "LSDby") %in% names(attributes(diffs.fit)))) testthat::expect_true(attr(diffs.fit, which = "LSDtype") == "factor.combinations") testthat::expect_true(attr(diffs.fit, which = "LSDby") == "Type") testthat::expect_true(all(c("LSDtype", "LSDby", "LSDvalues") %in% names(attributes(diffs.fit$predictions)))) testthat::expect_true(all(abs(attr(diffs.fit$predictions, which = "LSDvalues") - c(0.1771034, 0.2174418, 0.2643927, 0.3783488)) < 1e-05)) diffs.fit <- subset(diffs.fit, rmClassifyVars = "Type") testthat::expect_true(setequal(names(diffs.fit$predictions), c("Sources", "Species", "predicted.value", "standard.error", "upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit", "est.status"))) #Check that renewClassify also works when the full classify is not supplied diffs.red <- diffs.full diffs.red$predictions <- diffs.red$predictions[, -match("Type", names(diffs.red$predictions))] diffs.red <- renewClassify(diffs.red, newclassify = "Sources:Species") testthat::expect_true(setequal(names(diffs.red$predictions), c("Sources", "Species", "predicted.value", "standard.error", "upper.Confidence.limit", "lower.Confidence.limit", "est.status"))) #Check that renewClassify fails when newclassify does not uniquely index the predictions diffs.red <- diffs.full diffs.red$predictions <- diffs.red$predictions[, -match("Species", names(diffs.red$predictions))] testthat::expect_error(diffs.red <- renewClassify(diffs.red, newclassify = "Sources:Type")) }) cat("#### Test for sort.alldiffs on Oats with asreml42\n") test_that("sort.alldiffs4", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) library(dae) data(Oats.dat) m1.asr <- asreml(Yield ~ Nitrogen*Variety, random=~Blocks/Wplots, data=Oats.dat) testthat::expect_equal(length(m1.asr$vparameters),3) current.asrt <- as.asrtests(m1.asr) #Test for as.alldiffs Var.pred <- predict(m1.asr, classify="Nitrogen:Variety", sed=TRUE) wald.tab <- current.asrt$wald.tab den.df <- wald.tab[match("Variety", rownames(wald.tab)), "denDF"] Var.diffs <- as.alldiffs(predictions = Var.pred$pvals, sed = Var.pred$sed, tdf = den.df, classify = "Nitrogen:Variety") testthat::expect_true(validAlldiffs(Var.diffs)) testthat::expect_equal(length(attributes(Var.diffs)),5) testthat::expect_true(is.null(attr(Var.diffs, which = "sortOrder"))) #Test for predictPlus no sorting diffs <- predictPlus(m1.asr, classify = "Nitrogen:Variety", wald.tab = current.asrt$wald.tab, error.intervals = "Stand", tables = "none") testthat::expect_is(diffs, "alldiffs") testthat::expect_true(validAlldiffs(diffs)) testthat::expect_equal(nrow(diffs$predictions),12) testthat::expect_equal(ncol(diffs$predictions),7) testthat::expect_equal(as.character(diffs$predictions$Variety[1]),"Victory") testthat::expect_equal(length(attributes(diffs)),11) testthat::expect_true(is.null(attr(diffs, which = "sortOrder"))) testthat::expect_silent(plotPredictions(data = diffs$predictions, classify ="Nitrogen:Variety", y = "predicted.value", error.intervals = "StandardError", y.title = attr(diffs, which = "response.title"))) #TestPlot with sort testthat::expect_silent(plotPvalues(diffs, gridspacing = 3, sortFactor = "Variety", decreasing = TRUE)) #Test for sort.alldiffs diffs.sort <- sort(diffs, sortFactor = "Variety", decreasing = TRUE) testthat::expect_equal(as.character(diffs.sort$predictions$Variety[1]),"Marvellous") testthat::expect_silent(plotPvalues(diffs.sort, gridspacing = 3)) #Test for predictPresent mx.asr <- asreml(Yield ~ xNitrogen*Variety, random=~Blocks/Wplots, data=Oats.dat) testthat::expect_equal(length(mx.asr$vparameters),3) current.asrt <- as.asrtests(mx.asr) print(current.asrt) diffs <- predictPresent(mx.asr, terms = "xNitrogen:Variety", x.num = "xNitrogen", x.fac = "Nitrogen", x.pred.values = sort(unique(Oats.dat$xNitrogen)), wald.tab = current.asrt$wald.tab, error.intervals = "Stand", tables = "none", sortFactor = "Variety", decreasing = TRUE) testthat::expect_is(diffs[[1]], "alldiffs") testthat::expect_true(validAlldiffs(diffs$xNitrogen.Variety)) testthat::expect_equal(nrow(diffs$xNitrogen.Variety$predictions),12) testthat::expect_equal(ncol(diffs[[1]]$predictions),7) testthat::expect_equal(as.character(diffs[[1]]$predictions$Variety[[1]]),"Marvellous") testthat::expect_equal(length(attributes(diffs$xNitrogen.Variety)),13) testthat::expect_equal(length(attr(diffs[[1]], which = "sortOrder")),3) #Test for predictPlus with sortFactor diffs <- predictPlus(mx.asr, classify = "xNitrogen:Variety", x.num = "xNitrogen", x.fac = "Nitrogen", x.pred.values = sort(unique(Oats.dat$xNitrogen)), wald.tab = current.asrt$wald.tab, error.intervals = "Stand", tables = "none", sortFactor = "Variety", decreasing = TRUE) testthat::expect_is(diffs, "alldiffs") testthat::expect_true(validAlldiffs(diffs)) testthat::expect_equal(nrow(diffs$predictions),12) testthat::expect_equal(ncol(diffs$predictions),7) testthat::expect_equal(as.character(diffs$predictions$Variety[1]),"Marvellous") testthat::expect_equal(length(attributes(diffs)),13) testthat::expect_true(all(attr(diffs, which = "sortOrder") == levels(diffs$predictions$Variety))) testthat::expect_true(all(attr(diffs, which = "sortOrder") == c("Marvellous","Golden Rain", "Victory"))) testthat::expect_silent(plotPredictions(data = diffs$predictions, classify ="xNitrogen:Variety", x.num = "xNitrogen", x.fac = "Nitrogen", y = "predicted.value", error.intervals = "StandardError", y.title = attr(diffs, which = "response.title"))) testthat::expect_silent(plotPvalues(diffs, gridspacing = 3)) }) cat("#### Test for subset.alldiffs on Smarthouse with asreml42\n") test_that("subset.alldiffs4", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) library(dae) data(Smarthouse.dat) #Run analysis and produce diffs object m1.asr <- asreml(y1 ~ Genotype*A*B, random=~Replicate/Mainplot/Subplot, data=Smarthouse.dat) testthat::expect_equal(length(m1.asr$vparameters),4) current.asrt <- as.asrtests(m1.asr) current.asrt <- rmboundary(current.asrt) m <- current.asrt$asreml.obj testthat::expect_equal(length(m$vparameters),3) diffs <- predictPlus(m, classify = "Genotype:A:B", wald.tab = current.asrt$wald.tab, error.intervals = "Stand", tables = "none") testthat::expect_is(diffs, "alldiffs") testthat::expect_true(validAlldiffs(diffs)) testthat::expect_equal(nrow(diffs$predictions),120) testthat::expect_equal(ncol(diffs$predictions),8) testthat::expect_equal(as.character(diffs$predictions$Genotype[1]),"Axe") testthat::expect_equal(length(attributes(diffs)),11) testthat::expect_true(is.null(attr(diffs, which = "sortOrder"))) #Form subset diffs.subs <- subset(diffs, subset = !grepl("E",Genotype, fixed = TRUE) & B %in% c("D1","D2")) testthat::expect_is(diffs.subs, "alldiffs") testthat::expect_true(validAlldiffs(diffs.subs)) testthat::expect_equal(nrow(diffs.subs$predictions),48) testthat::expect_equal(ncol(diffs.subs$predictions),8) testthat::expect_false(any(diffs.subs$predictions$Genotype %in% c("Excalibur","Espada"))) testthat::expect_false(any(diffs.subs$predictions$B %in% c("D3","D4"))) testthat::expect_equal(length(attributes(diffs.subs)),11) #Test subset with removal of vars diffs.subs <- subset(diffs, subset = A == "N1" & B == "D2", rmClassifyVars = c("A","B")) testthat::expect_is(diffs.subs, "alldiffs") testthat::expect_true(validAlldiffs(diffs.subs)) testthat::expect_equal(nrow(diffs.subs$predictions),10) testthat::expect_equal(ncol(diffs.subs$predictions),6) testthat::expect_false(any(c("A","B") %in% names(diffs.subs$predictions))) data(WaterRunoff.dat) #Run analysis and produce alldiffs object asreml.options(keep.order = TRUE) #required for asreml4 only current.asr <- asreml(fixed = pH ~ Benches + (Sources * (Type + Species)), random = ~ Benches:MainPlots, data= WaterRunoff.dat) current.asrt <- as.asrtests(current.asr, NULL, NULL) diffs <- predictPlus.asreml(classify = "Sources:Type", asreml.obj = current.asr, tables = "none", wald.tab = current.asrt$wald.tab, present = c("Type","Species","Sources")) #Use subset.alldiffs to select a subset of the alldiffs object diffs.subs <- subset(diffs, subset = grepl("R", Sources, fixed = TRUE) & Type %in% c("Control","Medicinal")) testthat::expect_is(diffs.subs, "alldiffs") testthat::expect_true(validAlldiffs(diffs.subs)) testthat::expect_equal(nrow(diffs.subs$predictions),10) testthat::expect_equal(ncol(diffs.subs$predictions),7) testthat::expect_false(any(diffs.subs$predictions$Sources == "Tap water")) testthat::expect_false(any(diffs.subs$predictions$B %in% c("Landscape","Culinary"))) testthat::expect_equal(length(attributes(diffs.subs)),11) }) cat("#### Test for facCombine.alldiffs on Ladybird with asreml42\n") test_that("facCombine.alldiffs4", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) library(dae) data("Ladybird.dat") #Mixed model analysis of logits m1.asr <- asreml(logitP ~ Host*Cadavers*Ladybird, random = ~ Run, data = Ladybird.dat) testthat::expect_equal(length(m1.asr$vparameters),2) current.asrt <- as.asrtests(m1.asr) testthat::expect_true(validAsrtests(current.asrt)) HCL.pred <- asreml::predict.asreml(m1.asr, classify="Host:Cadavers:Ladybird", sed=TRUE) if (getASRemlVersionLoaded(nchar = 1) == "3") HCL.pred <- HCL.pred$predictions HCL.preds <- HCL.pred$pvals HCL.sed <- HCL.pred$sed HCL.vcov <- NULL wald.tab <- current.asrt$wald.tab den.df <- wald.tab[match("Host:Cadavers:Ladybird", rownames(wald.tab)), "denDF"] testthat::expect_equal(den.df,60) ## Use lme4 and emmmeans to get predictions and associated statistics if (requireNamespace("lmerTest", quietly = TRUE) & requireNamespace("emmeans", quietly = TRUE)) { m1.lmer <- lmerTest::lmer(logitP ~ Host*Cadavers*Ladybird + (1|Run), data=Ladybird.dat) HCL.emm <- emmeans::emmeans(m1.lmer, specs = ~ Host:Cadavers:Ladybird) HCL.preds <- summary(HCL.emm) den.df <- min(HCL.preds$df) ## Modify HCL.preds to be compatible with a predictions.frame names(HCL.preds)[match(c("emmean", "SE", "lower.CL", "upper.CL"), names(HCL.preds))] <- c("predicted.value", "standard.error", "lower.Confidence.limit", "upper.Confidence.limit") HCL.preds$est.status <- "Estimable" HCL.preds$est.status[is.na(HCL.preds$predicted.value)] <- "Aliased" HCL.vcov <- vcov(HCL.emm) HCL.sed <- NULL } ## Form an all.diffs object with predictions obtained with either asreml or lmerTest HCL.diffs <- allDifferences(predictions = HCL.preds, classify = "Host:Cadavers:Ladybird", sed = HCL.sed, vcov = HCL.vcov, tdf = den.df) ## check the class and validity of the alldiffs object is.alldiffs(HCL.diffs) validAlldiffs(HCL.diffs) testthat::expect_equal(nrow(HCL.diffs$predictions),12) testthat::expect_equal(ncol(HCL.diffs$predictions),9) testthat::expect_true(all(c("LSDtype", "LSDstatistic") %in% names(attributes(HCL.diffs)))) testthat::expect_equal(attr(HCL.diffs, which = "LSDtype"), "overall") testthat::expect_equal(attr(HCL.diffs, which = "LSDstatistic"), "mean") testthat::expect_true(!is.null(HCL.diffs$LSD)) testthat::expect_equal(nrow(HCL.diffs$LSD), 1) testthat::expect_true(all(abs(HCL.diffs$LSD[c("minLSD", "meanLSD", "maxLSD", "assignedLSD")] - 0.5534673) < 1e-05)) testthat::expect_true(!any(c("LSDtype", "LSDstatistic", "LSDvalues") %in% names(attributes(HCL.diffs$predictions)))) ## Combine Cadavers and Ladybird Comb.diffs <- facCombine(HCL.diffs, factors = c("Cadavers","Ladybird")) testthat::expect_true(all(c("LSDtype", "LSDstatistic") %in% names(attributes(Comb.diffs)))) testthat::expect_equal(attr(Comb.diffs, which = "LSDtype"), "overall") testthat::expect_equal(attr(Comb.diffs, which = "LSDstatistic"), "mean") testthat::expect_true(!is.null(Comb.diffs$LSD)) testthat::expect_equal(nrow(Comb.diffs$LSD), 1) testthat::expect_true(all(abs(Comb.diffs$LSD[c("minLSD", "meanLSD", "maxLSD", "assignedLSD")] - 0.5534673) < 1e-05)) ## check the validity of Comb.diffs validAlldiffs(Comb.diffs) testthat::expect_equal(nrow(Comb.diffs$predictions),12) testthat::expect_equal(ncol(Comb.diffs$predictions),8) testthat::expect_true(all(c("Host", "Cadavers_Ladybird", "predicted.value") %in% names(Comb.diffs$predictions))) ## Rename Cadavers HCL.rename.diffs <- facRename(HCL.diffs, factor.names = "Cadavers", newnames = "Cadaver.nos") testthat::expect_true(validAlldiffs(HCL.rename.diffs)) testthat::expect_true("Cadaver.nos" %in% names(HCL.rename.diffs$predictions)) testthat::expect_true(all(c("LSDtype", "LSDstatistic") %in% names(attributes(HCL.rename.diffs)))) testthat::expect_equal(attr(HCL.rename.diffs, which = "LSDtype"), "overall") testthat::expect_equal(attr(HCL.rename.diffs, which = "LSDstatistic"), "mean") testthat::expect_true(!is.null(HCL.rename.diffs$LSD)) testthat::expect_equal(nrow(HCL.rename.diffs$LSD), 1) testthat::expect_true(all(abs(HCL.rename.diffs$LSD[c("minLSD", "meanLSD", "maxLSD", "assignedLSD")] - 0.5534673) < 1e-05)) #Change to half-LSI intervals HCL.diffs.LSI <- redoErrorIntervals(HCL.diffs, error.intervals = "half") testthat::expect_true(is.alldiffs(HCL.diffs.LSI)) testthat::expect_true(validAlldiffs(HCL.diffs.LSI)) testthat::expect_equal(nrow(HCL.diffs.LSI$predictions),12) testthat::expect_equal(ncol(HCL.diffs.LSI$predictions),9) testthat::expect_true(all(c("LSDtype", "LSDstatistic") %in% names(attributes(HCL.diffs.LSI)))) testthat::expect_equal(attr(HCL.diffs.LSI, which = "LSDtype"), "overall") testthat::expect_equal(attr(HCL.diffs.LSI, which = "LSDstatistic"), "mean") testthat::expect_true(!is.null(HCL.diffs.LSI$LSD)) testthat::expect_equal(nrow(HCL.diffs.LSI$LSD), 1) testthat::expect_true(all(abs(HCL.diffs.LSI$LSD[c("minLSD", "meanLSD", "maxLSD", "assignedLSD")] - 0.5534673) < 1e-05)) testthat::expect_true(all(c("LSDtype", "LSDstatistic", "LSDvalues") %in% names(attributes(HCL.diffs.LSI$predictions)))) testthat::expect_equal(attr(HCL.diffs.LSI$predictions, which = "LSDtype"), "overall") testthat::expect_equal(attr(HCL.diffs.LSI$predictions, which = "LSDstatistic"), "mean") testthat::expect_true(all(abs(attr(HCL.diffs.LSI$predictions, which = "LSDvalues") - 0.5534673) < 1e-05)) ## Combine Cadavers and Ladybird Comb.diffs.LSI <- facCombine(HCL.diffs.LSI, factors = c("Cadavers","Ladybird")) testthat::expect_true(validAlldiffs(Comb.diffs.LSI)) testthat::expect_equal(nrow(Comb.diffs.LSI$predictions),12) testthat::expect_equal(ncol(Comb.diffs.LSI$predictions),8) testthat::expect_true(all(c("LSDtype", "LSDstatistic") %in% names(attributes(Comb.diffs.LSI)))) testthat::expect_equal(attr(Comb.diffs.LSI, which = "LSDtype"), "overall") testthat::expect_equal(attr(Comb.diffs.LSI, which = "LSDstatistic"), "mean") testthat::expect_true(!is.null(Comb.diffs.LSI$LSD)) testthat::expect_equal(nrow(Comb.diffs.LSI$LSD), 1) testthat::expect_true(all(abs(Comb.diffs.LSI$LSD[c("minLSD", "meanLSD", "maxLSD", "assignedLSD")] - 0.5534673) < 1e-05)) testthat::expect_true(all(c("Host", "Cadavers_Ladybird", "predicted.value") %in% names(Comb.diffs.LSI$predictions))) testthat::expect_true(all(c("LSDtype", "LSDstatistic", "LSDvalues") %in% names(attributes(HCL.diffs.LSI$predictions)))) testthat::expect_equal(attr(Comb.diffs.LSI$predictions, which = "LSDtype"), "overall") testthat::expect_equal(attr(Comb.diffs.LSI$predictions, which = "LSDstatistic"), "mean") testthat::expect_true(all(abs(attr(Comb.diffs.LSI$predictions, which = "LSDvalues") - 0.5534673) < 1e-05)) ## Rename Cadavers HCL.rename.diffs.LSI <- facRename(HCL.diffs.LSI, factor.names = "Cadavers", newnames = "Cadaver.nos") testthat::expect_true(validAlldiffs(HCL.rename.diffs.LSI)) testthat::expect_true("Cadaver.nos" %in% names(HCL.rename.diffs.LSI$predictions)) testthat::expect_true(all(c("LSDtype", "LSDstatistic") %in% names(attributes(HCL.rename.diffs.LSI)))) testthat::expect_equal(attr(HCL.rename.diffs.LSI, which = "LSDtype"), "overall") testthat::expect_equal(attr(HCL.rename.diffs.LSI, which = "LSDstatistic"), "mean") testthat::expect_true(!is.null(HCL.rename.diffs.LSI$LSD)) testthat::expect_equal(nrow(HCL.rename.diffs.LSI$LSD), 1) testthat::expect_true(all(abs(HCL.rename.diffs.LSI$LSD[c("minLSD", "meanLSD", "maxLSD", "assignedLSD")] - 0.5534673) < 1e-05)) }) cat("#### Test for facRecast.alldiffs on Ladybird with asreml42\n") test_that("facRecast.alldiffs4", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) library(dae) data("Ladybird.dat") #Mixed model analysis of logs Ladybird.dat$log.P <- log(Ladybird.dat$Prop*100 + 1) m1.asr <- do.call(asreml, args = list(fixed = log.P ~ Host*Cadavers*Ladybird, random = ~ Run, data = Ladybird.dat)) testthat::expect_equal(length(m1.asr$vparameters),2) current.asrt <- as.asrtests(m1.asr) testthat::expect_true(validAsrtests(current.asrt)) HCL.diffs <- predictPlus(m1.asr, classify = "Host:Cadavers:Ladybird", tables = "none", wald.tab = current.asrt$wald.tab, transform.power = 0, offset = 1) ## Recast Ladybird HCL.recast.diffs <- facRecast(HCL.diffs, factor = "Ladybird", newlabels = c("none", "present")) testthat::expect_true(validAlldiffs(HCL.recast.diffs)) testthat::expect_true(all(levels(HCL.recast.diffs$predictions$Ladybird) == c("none", "present"))) testthat::expect_true(all(levels(HCL.recast.diffs$backtransforms$Ladybird) == c("none", "present"))) testthat::expect_true(all(abs((exp(HCL.recast.diffs$predictions$predicted.value) - 1) - HCL.recast.diffs$backtransforms$backtransformed.predictions) < 1e-05)) testthat::expect_true(all(rownames(HCL.recast.diffs$differences)[1:2] == c("bean,5,none", "bean,5,present"))) HCL.recast.diffs <- facRecast.alldiffs(HCL.recast.diffs, factor = "Host", levels.order = c("trefoil", "bean")) testthat::expect_true(validAlldiffs(HCL.recast.diffs)) testthat::expect_true(all(levels(HCL.recast.diffs$predictions$Host) == c("trefoil", "bean"))) testthat::expect_true(all(levels(HCL.recast.diffs$backtransforms$Host) == c("trefoil", "bean"))) testthat::expect_true(all(rownames(HCL.recast.diffs$differences)[1:2] == c("trefoil,5,none", "trefoil,5,present"))) testthat::expect_true(all(abs((exp(HCL.recast.diffs$predictions$predicted.value) - 1) - HCL.recast.diffs$backtransforms$backtransformed.predictions) < 1e-05)) HCL.recast.diffs <- facRecast(HCL.recast.diffs, factor = "Ladybird", levels.order = c("present", "none"), newlabels = c("yes","no")) testthat::expect_true(validAlldiffs(HCL.recast.diffs)) testthat::expect_true(all(levels(HCL.recast.diffs$predictions$Ladybird) == c("yes", "no"))) testthat::expect_true(all(levels(HCL.recast.diffs$backtransforms$Ladybird) == c("yes", "no"))) testthat::expect_true(all(rownames(HCL.recast.diffs$differences)[1:2] == c("trefoil,5,yes", "trefoil,5,no"))) testthat::expect_true(all(abs((exp(HCL.recast.diffs$predictions$predicted.value) - 1) - HCL.recast.diffs$backtransforms$backtransformed.predictions) < 1e-05)) }) cat("#### Test for linear.transformation on Oats with asreml42\n") test_that("linear.transform_Oats_asreml42", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) library(dae) data(Oats.dat) m1.asr <- asreml(Yield ~ Nitrogen*Variety, random=~Blocks/Wplots, data=Oats.dat) testthat::expect_equal(length(m1.asr$vparameters),3) current.asrt <- as.asrtests(m1.asr) #Test store of vcov by predictPlus diffs <- predictPlus(m1.asr, classify = "Nitrogen:Variety", Vmatrix = TRUE, wald.tab = current.asrt$wald.tab, error.intervals = "Stand", tables = "none") testthat::expect_is(diffs, "alldiffs") testthat::expect_equal(length(attr(diffs$predictions, which = "heading")),1) testthat::expect_true("asreml.predict" %in% class(diffs$predictions)) testthat::expect_equal(nrow(diffs$vcov),12) testthat::expect_true(all(colnames(diffs$vcov)[1:2] %in% c("0,Victory", "0,Golden Rain"))) testthat::expect_true(all(abs((diffs$vcov[1,1:2] - c(82.93704, 35.74618))) < 1e-4)) #Test linear transformation that compares with other N levels nv <- length(levels(diffs$predictions$Variety)) L <- cbind(kronecker(matrix(rep(1, 3), nrow = 3), diag(1, nrow=nv)), diag(-1, nrow=3*nv)) rownames(L) <- colnames(diffs$vcov)[4:12] diffs.L <- predictPlus(m1.asr, classify = "Nitrogen:Variety", linear.transformation = L, Vmatrix = TRUE, wald.tab = current.asrt$wald.tab, error.intervals = "Conf", tables = "none") testthat::expect_is(diffs.L, "alldiffs") testthat::expect_equal(length(attr(diffs.L$predictions, which = "heading")),2) testthat::expect_true("asreml.predict" %in% class(diffs.L$predictions)) testthat::expect_true(abs((diffs$vcov[1,1] - diffs$vcov[4,1]) + (diffs$vcov[4,4] - diffs$vcov[1,4]) - diffs.L$vcov[1,1]) < 1e-04) testthat::expect_equal(as.character(diffs.L$predictions$Combination[1]), "0.2,Victory") testthat::expect_true(abs((diffs.L$predictions$predicted.value[1] - qt(0.975,attr(diffs.L, which = "tdf")) * diffs.L$predictions$standard.error[1]) - diffs.L$predictions$lower.Confidence.limit[1]) < 1e-04) #Test model for linear transformation diffs.mod <- predictPlus(m1.asr, classify = "Nitrogen:Variety", linear.transformation = ~ Variety + Nitrogen, wald.tab = current.asrt$wald.tab, error.intervals = "half", LSDtype = "factor.comb", LSDby = "Nitrogen", tables = "none") testthat::expect_is(diffs.mod, "alldiffs") testthat::expect_equal(length(attr(diffs.mod$predictions, which = "heading")),2) testthat::expect_true("asreml.predict" %in% class(diffs.mod$predictions)) testthat::expect_true(is.null(diffs.mod$vcov)) m2.asr <- asreml(Yield ~ Nitrogen+Variety, random=~Blocks/Wplots, data=Oats.dat) preds <- predict(m2.asr, classify = "Nitrogen:Variety")$pvals testthat::expect_true(all(abs(diffs.mod$predictions$predicted.value - preds$predicted.value) < 1e-04)) testthat::expect_true(abs(diffs.mod$predictions$standard.error[1] - preds$std.error[1]) > 0.01) }) cat("#### Test for linear.transformation on dat699 with asreml42\n") test_that("linear.transform_dat699_asreml42", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) library(dae) #This example requires the EGLS approach so that the test for the one-degree-of-freedom AMF effect #and the estimates of the effect are consistent data(dat699) # Fit model asr <- asreml(fixed = Soil_Carbon ~ Block + Soil * AMF, residual = ~ idh(Soil):AMF:Block, data = dat, maxiter=50) # Load into asrtests object and print variance summary and wald.tab asrt <- as.asrtests(asr, label = "Heterogeneous Soil variances") print(asrt) # Get predictions diffs <- predictPlus(asreml.obj = asr, classify = "Soil:AMF", Vmatrix = TRUE, error.intervals = "halfLeast", avsed.tolerance = NA, wald.tab = asrt$wald.tab, tables = "none") testthat::expect_false(isCompoundSymmetric(diffs$vcov)) # Get predictions under the additive model using a model formula diffs.gls <- linTransform(diffs, linear.transformation = ~ Soil + AMF, error.intervals = "halfLeast", avsed.tolerance = NA, wald.tab = asrt$wald.tab, tables = "none") t.gls <- diffs.gls$differences/diffs.gls$sed t.AMF <- t.gls[1,2] df <- asrt$wald.tab$denDF[4:5] pvals<- c(asrt$wald.tab[rownames(asrt$wald.tab)=="AMF", ]$Pr, pt(t.AMF, df[1],lower.tail = FALSE)*2, diffs.gls$p.differences[1,2], pt(t.AMF, df[2],lower.tail = FALSE)*2) names(pvals) <- c("Wald", "t_14.9", "gls", "t_20.7") #p-value for AMF-vs+ computed for diffs.gls$differences and diffs.gls$sed match Wald p when the t-value with the AMF denDF are used testthat::expect_true(abs(pvals["Wald"] - pvals["t_14.9"]) < 1e-05) # diffs.gls$p.differences differs from Wald p because it used the interaction denDF testthat::expect_true(abs(pvals["gls"] - pvals["t_20.7"]) < 1e-05) #Check the AMF effect is the same for all Soils testthat::expect_true(all(abs(c(diffs.gls$differences[1,2], diffs.gls$differences[3,4], diffs.gls$differences[5,6]) - 0.01488561) < 1e-05)) # Get predictions under the additive model using a matrix V <- diffs$vcov W <- mat.ginv(V) X.all <- model.matrix(~Soil + AMF-1, data = diffs$predictions) Q.gls <- X.all %*% mat.ginv(t(X.all) %*% W %*% X.all) %*% (t(X.all) %*% W) diffs.gls <- predictPlus(asreml.obj = asr, classify = "Soil:AMF", linear.transformation = Q.gls, error.intervals = "none", Vmatrix = TRUE, wald.tab = asrt$wald.tab, tables = "none") t.gls <- diffs.gls$differences/diffs.gls$sed t.AMF <- t.gls[1,2] df <- asrt$wald.tab$denDF[4:5] #'## Show that diffs.gls p is not the same as the Wald p is because the interaction df are used, not the AMF df pvals<- c(asrt$wald.tab[rownames(asrt$wald.tab)=="AMF", ]$Pr, pt(t.AMF, df[1],lower.tail = FALSE)*2, diffs.gls$p.differences[1,2], pt(t.AMF, df[2],lower.tail = FALSE)*2) names(pvals) <- c("Wald", "t_14.9", "gls", "t_20.7") # p-value for AMF-vs+ computed for diffs.gls$differences and diffs.gls$sed match Wald p when the t-value with the AMF denDF are used testthat::expect_true(abs(pvals["Wald"] - pvals["t_14.9"]) < 1e-05) # diffs.gls$p.differences differs from Wald p because it used the interaction denDF testthat::expect_true(abs(pvals["gls"] - pvals["t_20.7"]) < 1e-05) #Check the AMF effect is the same for all Soils testthat::expect_true(all(abs(c(diffs.gls$differences[1,2], diffs.gls$differences[3,4], diffs.gls$differences[5,6]) - 0.01488561) < 1e-05)) }) cat("#### Test for linear.transformation on WaterRunoff with asreml42\n") test_that("linear.transform_WaterRunoff_asreml42", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) library(dae) #Test example in manual data(WaterRunoff.dat) #Run analysis and produce alldiffs object asreml.options(keep.order = TRUE) #required for asreml4 only current.asr <- asreml(fixed = pH ~ Benches + (Sources * (Type + Species)), random = ~ Benches:MainPlots, data= WaterRunoff.dat) current.asrt <- as.asrtests(current.asr, NULL, NULL) diffs <- predictPlus(classify = "Sources:Species", Vmatrix = TRUE, asreml.obj = current.asr, tables = "none", wald.tab = current.asrt$wald.tab, present = c("Type","Species","Sources")) #Obtain predictions additive for Source and Species diffs.sub <- linTransform(diffs, classify = "Sources:Species", Vmatrix = TRUE, linear.transformation = ~ Sources + Species, tables = "none") testthat::expect_equal(diffs.sub$predictions$predicted.value[1] - diffs.sub$predictions$predicted.value[6], diffs.sub$predictions$predicted.value[7] - diffs.sub$predictions$predicted.value[12]) #Form contrast matrix for the contrasts of Species 1:5 with Species 6 for all sources L <- kronecker(diag(1, nrow = 4), cbind(diag(1, nrow = 5), matrix(rep(-1, 5), ncol = 1))) L <- mat.dirsum(list(L, kronecker(diag(1, nrow = 2), cbind(diag(1, nrow = 7), matrix(rep(-1, 7), ncol = 1))))) #Will get NaNs because differences between every 6th contrast are zero #because the predictions are additive - has been fixed in 4.3-24 testthat::expect_silent(diffs.L.EGLS <- linTransform(diffs.sub, classify = "Sources:Species", linear.transformation = L, tables = "none")) testthat::expect_silent(diffs.L <- linTransform(diffs.sub, classify = "Sources:Species", linear.transformation = L, EGLS.linTransform = FALSE, tables = "none")) testthat::expect_false(isCompoundSymmetric(diffs.sub$vcov)) #check for zero seds and their removal ksed <- diffs.L$sed ksed <- na.omit(ksed[upper.tri(ksed)]) ksed <- ksed[!(ksed < 1e-08)] testthat::expect_true(length(ksed) == diffs.L$LSD["c"] && diffs.L$LSD["c"] == 484) testthat::expect_true(all(abs(diffs.L$predictions$predicted.value[c(1,6,11,16,21,28)] - (diffs.sub$predictions$predicted.value[1] - diffs.sub$predictions$predicted.value[6])) < 1e-06)) #More efficient version for manual data(WaterRunoff.dat) asreml.options(keep.order = TRUE) #required for asreml4 only current.asr <- asreml(fixed = pH ~ Benches + (Sources * (Type + Species)), random = ~ Benches:MainPlots, data= WaterRunoff.dat) current.asrt <- as.asrtests(current.asr, NULL, NULL) #Get additive predictions directly using predictPlus diffs.sub <- predictPlus.asreml(classify = "Sources:Species", Vmatrix = TRUE, linear.transformation = ~ Sources + Species, asreml.obj = current.asr, tables = "none", wald.tab = current.asrt$wald.tab, present = c("Type","Species","Sources")) #Contrast matrix for differences between each species and non-planted for the last source L <- cbind(matrix(rep(0,7*32), nrow = 7, ncol = 32), diag(1, nrow = 7), matrix(rep(-1, 7), ncol = 1)) rownames(L) <- as.character(diffs.sub$predictions$Species[33:39]) diffs.L <- linTransform(diffs.sub, classify = "Sources:Species", linear.transformation = L, tables = "predictions") testthat::expect_true(abs(diffs.L$predictions$predicted.value[1] + 0.04270763) < 1e-04) testthat::expect_true(diffs.L$predictions$Combination[1] == "S. iqscjbogxah") #Test a single contrast L1 <- matrix(L[1,1:40], nrow = 1) diffs.L1 <- linTransform(diffs.sub, classify = "Sources:Species", linear.transformation = L1, tables = "predictions") #Test for unbalanced two-way factorial #- demonstrates will not make predictions for missing cells because NA in two-way table twoway <- data.frame(A = factor(rep(1:2, c(4,5))), B = factor(rep(c(1:3,1:3), c(2,1,1,2,1,2))), y = c(6,4,3,3,3,5,5,5,7)) twoway <- twoway[-4,] mod <- do.call("asreml", list(y ~ A*B, data = twoway)) pred.full <- predict(mod, classify = "A:B") testthat::expect_true(any(is.na(pred.full$pvals$predicted.value))) #Make predictions additive diffs.sub <- predictPlus.asreml(asreml.obj = mod, classify = "A:B", linear.transformation = ~ A + B, tables = "predictions", error.intervals = "Stand") testthat::expect_equal(nrow(diffs.sub$predictions), 5) #Fit additive mode mod.add <- asreml(y ~ A+B, data = twoway) pred.add <- predict(mod.add, classify = "A:B") testthat::expect_true(!any(is.na(pred.add$pvals$predicted.value))) #Compare projected and fitted additive predictions testthat::expect_true(abs(diffs.sub$predictions$predicted.value[1] - pred.add$pvals$predicted.value[1]) < 1e-04) #Test backtransforms data(cart.dat) suffices <- list("32_42","42_50","50_59") responses.RGR <- paste("RGR_sm", suffices, sep = "_") responses.lRGR <- gsub("RGR", "lRGR", responses.RGR, fixed = TRUE) lRGR <- as.data.frame(lapply(responses.RGR, function(resp, dat) { x <- log(dat[[resp]]) }, dat = cart.dat)) names(lRGR) <- responses.lRGR cart.dat <- cbind(cart.dat, lRGR) nresp <- length(responses.lRGR) save <- vector(mode = "list", length = nresp) names(save) <- responses.lRGR nresp <- 1 asreml.options(keep.order = TRUE, ai.sing = TRUE, extra = 5) #required for asreml4 only for (k in 1:nresp) { fix <- paste(responses.lRGR[k], " ~ Smarthouse/(xMainPosn + xLane) + Genotype.ID*Treatment.1", sep= "") HEB25.asr <- do.call("asreml", args = list(fixed = as.formula(fix), random = ~ Smarthouse:Zones:Mainplots, # residual = ~ idh(Treat.Smarthouse):Zones:Mainplots, data = cart.dat, workspace="1gb", na.action=na.method(y="include", x="include"), maxit=50)) summary(HEB25.asr)$varcomp current.asrt <- as.asrtests(HEB25.asr) current.asrt <- rmboundary(current.asrt) current.asr <- current.asrt$asreml.obj wald.tab <- recalcWaldTab(asrtests.obj=current.asrt, dDF.na="residual") HEB25.diffs <- predictPlus(current.asr, classify="Treatment.1:Genotype.ID", wald.tab = wald.tab, Vmatrix = TRUE, transform.power = 0, tables= "none", pworkspace=32E+06) #deal with missing value for HEB-20-125,W genos <- HEB25.diffs$predictions$Genotype.ID[HEB25.diffs$predictions$Treatment.1=="D"] genos <- as.character(genos) ng <- length(genos) L <- diag(1, nrow=(ng)) rownames(L) <- colnames(L) <- genos L <- L[-match("HEB-20-125", genos),] #remove row L[,match("HEB-20-125", genos)] <- 0 #zero column L <- cbind(L, diag(-1, nrow=(ng-1))) testthat::expect_true(is.na(match("HEB-20-125", rownames(L)))) save[[responses.lRGR[k]]] <- linTransform(HEB25.diffs, classify = "Treatment.1:Genotype.ID", linear.transformation = L, error.intervals = "Conf", tables = "none") } testthat::expect_equal(sum(unlist(lapply(save$lRGR_sm_32_42, is.null))),1) testthat::expect_equal(dim(save$lRGR_sm_32_42$predictions), c(446,6)) testthat::expect_equal(as.character(save$lRGR_sm_32_42$predictions$Combination[1]), "Barke") testthat::expect_true(all(abs(save$lRGR_sm_32_42$predictions[1, 2:5] - c(-0.4020173, 0.04745505, -0.3075751, -0.4964595)) < 1e-03)) testthat::expect_true(all(is.na(save$lRGR_sm_32_42$backtransforms[, "standard.error"]))) testthat::expect_true(all(abs(exp(save$lRGR_sm_32_42$predictions[1, c(2,4:5)]) - save$lRGR_sm_32_42$backtransforms[1, c(2,4:5)]) < 1e-04)) }) cat("#### Test for addBacktransforms on WaterRunoff with asreml42\n") test_that("addBacktransforms_WaterRunoff_asreml42", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) library(dae) data(WaterRunoff.dat) ##Use asreml to get predictions and associated statistics asreml.options(keep.order = TRUE) #required for asreml-R4 only current.asr <- asreml(fixed = log.Turbidity ~ Benches + (Sources * (Type + Species)), random = ~ Benches:MainPlots, keep.order=TRUE, data= WaterRunoff.dat) current.asrt <- as.asrtests(current.asr, NULL, NULL) TS.diffs <- predictPlus(classify = "Sources:Type", asreml.obj = current.asr, wald.tab = current.asrt$wald.tab, present = c("Sources", "Type", "Species")) ## Plot p-values for predictions obtained using asreml4 if (exists("TS.diffs")) { ##Add the backtransforms component for predictions obtained using asreml or lmerTest TS.diffs <- addBacktransforms.alldiffs(TS.diffs, transform.power = 0) testthat::expect_false(is.null(TS.diffs$backtransforms)) testthat::expect_true(all(abs(exp(TS.diffs$predictions$predicted.value)- TS.diffs$backtransforms$backtransformed.predictions) < 1e-06)) testthat::expect_true(all(abs(exp(TS.diffs$predictions$upper.Confidence.limit)- TS.diffs$backtransforms$upper.Confidence.limit) < 1e-06)) TS.diffs.LSD <- redoErrorIntervals(TS.diffs, error.intervals = "half", LSDtype = "factor", LSDby = "Type") testthat::expect_true(all(c("tdf", "alpha", "LSDtype", "LSDstatistic") %in% names(attributes(TS.diffs.LSD)))) testthat::expect_true(all(attr(TS.diffs.LSD, which = "LSDtype") == "factor.combinations")) testthat::expect_true(all(attr(TS.diffs.LSD, which = "LSDstatistic") == "mean")) testthat::expect_true(all(c("LSDtype", "LSDstatistic", "LSDvalues") %in% names(attributes(TS.diffs.LSD$predictions)))) testthat::expect_true(all(c("LSDtype", "LSDstatistic") %in% names(attributes(TS.diffs.LSD$backtransforms)))) testthat::expect_true(is.null(attr(TS.diffs.LSD$backtransforms, which = "LSDvalues"))) } }) cat("#### Test for ratioTansforms on system data with asreml42\n") test_that("ratioTransforms_SystemData_asreml42", { skip_if_not_installed("asreml") skip_on_cran() library(asremlPlus) library(dae) load(system.file("extdata", "testDiffs.rda", package = "asremlPlus", mustWork = TRUE)) Preds.ratio.RGR <- ratioTransform.alldiffs(alldiffs.obj = diffs.RGR, ratio.factor = "Salinity", numerator.levels = "Salt", denominator.levels = "Control") testthat::expect_true(all(abs(Preds.ratio.RGR$`Salt,Control`$predicted.value[1:3] - c(0.7330241,0.9098487,0.9513331)) < 1e-05)) testthat::expect_true(all(Preds.ratio.RGR$`Salt,Control`$Temperature[1:3] == "Cool")) testthat::expect_true(all(Preds.ratio.RGR$`Salt,Control`$Genotype[1:3] == as.character(1:3))) testthat::expect_true(all(names(Preds.ratio.RGR$`Salt,Control`)[5:6] == c("upper.Confidence.limit", "lower.Confidence.limit"))) #Because diffs.ClUp was built using asremplus v4.2-xx, it needs to be renewed for the new attributes #For testing see diffs.new <- redoErrorIntervals(diffs.ClUp, error.intervals = "half", LSDtype = "factor", LSDby = c("Temperature", "Genotype")) Preds.ratio.ClUp <- pairdiffsTransform(diffs.new, pairs.factor = "Temperature", first.levels = "Hot", second.levels = "Cool", error.intervals = "halfLeast", LSDtype = "factor", LSDby = "Genotype", tables = "backtrans") testthat::expect_true(all(abs(Preds.ratio.ClUp$`Hot,Cool`$predictions$predicted.value[1:3] - c(-0.05752483,0.12987766,0.06916038)) < 1e-05)) testthat::expect_true(all(Preds.ratio.ClUp$`Hot,Cool`$predictions$Salinity[1:3] == "Control")) testthat::expect_true(all(Preds.ratio.ClUp$`Hot,Cool`$predictions$Genotype[1:3] == as.character(1:3))) testthat::expect_true(all(names(Preds.ratio.ClUp$`Hot,Cool`$predictions)[5:6] == c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(c("tdf", "alpha", "LSDtype", "LSDstatistic") %in% names(attributes(Preds.ratio.ClUp$`Hot,Cool`)))) testthat::expect_true(all(attr(Preds.ratio.ClUp$`Hot,Cool`, which = "LSDtype") == "factor.combinations")) testthat::expect_true(all(attr(Preds.ratio.ClUp$`Hot,Cool`, which = "LSDstatistic") == "mean")) testthat::expect_true(all(c("LSDtype", "LSDstatistic", "LSDvalues") %in% names(attributes(Preds.ratio.ClUp$`Hot,Cool`$predictions)))) testthat::expect_true(all(c("LSDtype", "LSDstatistic") %in% names(attributes(Preds.ratio.ClUp$`Hot,Cool`$backtransforms)))) testthat::expect_true(is.null(attr(Preds.ratio.ClUp$`Hot,Cool`$backtransforms, which = "LSDvalues"))) #Reorder the classify and test diffs.new <- renewClassify(diffs.new, newclassify = c("Salinity:Temperature:Genotype")) Preds.ratio.ClUp <- pairdiffsTransform(diffs.new, pairs.factor = "Temperature", first.levels = "Hot", second.levels = "Cool", error.intervals = "halfLeast", LSDtype = "factor", LSDby = "Genotype", tables = "backtrans") testthat::expect_true(all(abs(Preds.ratio.ClUp$`Hot,Cool`$predictions$predicted.value[1:3] - c(-0.05752483,0.12987766,0.06916038)) < 1e-05)) testthat::expect_true(all(Preds.ratio.ClUp$`Hot,Cool`$predictions$Salinity == rep(c("Control","Salt"), each = 10))) testthat::expect_true(all(Preds.ratio.ClUp$`Hot,Cool`$predictions$Genotype == rep(as.character(1:10, times = 2)))) testthat::expect_true(all(names(Preds.ratio.ClUp$`Hot,Cool`$predictions)[5:6] == c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(c("tdf", "alpha", "LSDtype", "LSDstatistic") %in% names(attributes(Preds.ratio.ClUp$`Hot,Cool`)))) testthat::expect_true(all(attr(Preds.ratio.ClUp$`Hot,Cool`, which = "LSDtype") == "factor.combinations")) testthat::expect_true(all(attr(Preds.ratio.ClUp$`Hot,Cool`, which = "LSDstatistic") == "mean")) testthat::expect_true(all(c("LSDtype", "LSDstatistic", "LSDvalues") %in% names(attributes(Preds.ratio.ClUp$`Hot,Cool`$predictions)))) testthat::expect_true(all(c("LSDtype", "LSDstatistic") %in% names(attributes(Preds.ratio.ClUp$`Hot,Cool`$backtransforms)))) testthat::expect_true(is.null(attr(Preds.ratio.ClUp$`Hot,Cool`$backtransforms, which = "LSDvalues"))) }) cat("#### Test for ratioTansforms on the Oats data with asreml42\n") test_that("ratioTransforms_SystemData_asreml42", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) data("Oats.dat") m1.asr <- asreml(Yield ~ Nitrogen*Variety, random=~Blocks/Wplots, data=Oats.dat) current.asrt <- as.asrtests(m1.asr) wald.tab <- current.asrt$wald.tab Var.diffs <- predictPlus(m1.asr, classify="Nitrogen:Variety", pairwise = TRUE, Vmatrix = TRUE, error.intervals = "halfLeast", LSDtype = "factor", LSDby = "Variety", wald.tab = wald.tab) #Test ratioTransform Preds.ratio.OatsN <- ratioTransform(alldiffs.obj = Var.diffs, ratio.factor = "Nitrogen", numerator.levels = "0.6", denominator.levels = "0.2") testthat::expect_true(names(Preds.ratio.OatsN) == "0.6,0.2") testthat::expect_true(all(abs(Preds.ratio.OatsN$`0.6,0.2`$predicted.value - c(1.321561,1.267343,1.168971)) < 1e-05)) testthat::expect_true(all(Preds.ratio.OatsN$`0.6,0.2`$Variety == c("Victory", "Golden Rain","Marvellous"))) testthat::expect_true(all(names(Preds.ratio.OatsN$`0.2,0`)[4:5] == c("upper.Confidence.limit", "lower.Confidence.limit"))) #Test for ordering of the ratioTransforms diffs.sort <- sort(Var.diffs, sortFactor = "Variety", decreasing = TRUE) testthat::expect_equal(as.character(diffs.sort$predictions$Variety[1]),"Marvellous") testthat::expect_equal(rownames(diffs.sort$differences)[1],"0,Marvellous") testthat::expect_equal(colnames(diffs.sort$p.differences)[1],"0,Marvellous") testthat::expect_silent(plotPvalues(diffs.sort, gridspacing = 3)) Preds.ratio.sort.OatsN <- ratioTransform(alldiffs.obj = diffs.sort, ratio.factor = "Nitrogen", numerator.levels = "0.6", denominator.levels = "0.2") testthat::expect_true(names(Preds.ratio.sort.OatsN) == "0.6,0.2") testthat::expect_true(all(abs(Preds.ratio.sort.OatsN$`0.6,0.2`$predicted.value - c(1.168971,1.267343,1.321561)) < 1e-05)) testthat::expect_true(all(Preds.ratio.sort.OatsN$`0.6,0.2`$Variety == c("Marvellous", "Golden Rain","Victory"))) testthat::expect_true(all(names(Preds.ratio.sort.OatsN$`0.6,0.2`)[4:5] == c("upper.Confidence.limit", "lower.Confidence.limit"))) #Test pairdiffsTransform Preds.diffs.OatsN <- pairdiffsTransform(alldiffs.obj = Var.diffs, pairs.factor = "Nitrogen", first.levels = "0.6", second.levels = "0.2", error.intervals = "halfLeast", tables = "none") testthat::expect_true(names(Preds.diffs.OatsN) == "0.6,0.2") testthat::expect_true(all(abs(Preds.diffs.OatsN$`0.6,0.2`$predictions$predicted.value - (Var.diffs$predictions$predicted.value[10:12] - Var.diffs$predictions$predicted.value[4:6])) < 1e-05)) testthat::expect_true(all(Preds.diffs.OatsN$`0.6,0.2`$predictions$Variety == c("Victory", "Golden Rain","Marvellous"))) testthat::expect_true(all(names(Preds.diffs.OatsN$`0.6,0.2`$predictions)[4:5] == c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) #Reverse classify so that the ratio factor is the second factor Var.rev.diffs <- renewClassify(Var.diffs, newclassify = "Variety:Nitrogen") Preds.diffs.OatsN <- pairdiffsTransform(alldiffs.obj = Var.diffs, pairs.factor = "Nitrogen", first.levels = "0.6", second.levels = "0.2", error.intervals = "halfLeast", tables = "none") testthat::expect_true(names(Preds.diffs.OatsN) == "0.6,0.2") testthat::expect_true(all(abs(Preds.diffs.OatsN$`0.6,0.2`$predictions$predicted.value - (Var.diffs$predictions$predicted.value[10:12] - Var.diffs$predictions$predicted.value[4:6])) < 1e-05)) testthat::expect_true(all(Preds.diffs.OatsN$`0.6,0.2`$predictions$Variety == c("Victory", "Golden Rain","Marvellous"))) testthat::expect_true(all(names(Preds.diffs.OatsN$`0.6,0.2`$predictions)[4:5] == c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) #Remove the Victory, 0.2 combination to test what happens when not all numerator combinations are present Var.red.diffs <- subset(Var.diffs, subset = !(Variety == "Victory" & Nitrogen == "0.2")) testthat::expect_equal(nrow(Var.red.diffs$predictions), 11) Preds.red.ratio.OatsN <- ratioTransform(alldiffs.obj = Var.red.diffs, ratio.factor = "Nitrogen", numerator.levels = c("0.2","0.4","0.6"), denominator.levels = "0") testthat::expect_true(all(names(Preds.red.ratio.OatsN) == c("0.2,0", "0.4,0", "0.6,0"))) testthat::expect_true(is.na(Preds.red.ratio.OatsN$`0.2,0`$predicted.value[1])) testthat::expect_true(all(abs(Preds.red.ratio.OatsN$`0.2,0`$predicted.value[2:3] - c(1.231250,1.251923)) < 1e-05)) testthat::expect_true(all(Preds.red.ratio.OatsN$`0.2,0`$Variety == c("Victory", "Golden Rain","Marvellous"))) testthat::expect_true(all(names(Preds.red.ratio.OatsN$`0.2,0`)[4:5] == c("upper.Confidence.limit", "lower.Confidence.limit"))) Preds.red.diffs.OatsN <- pairdiffsTransform(alldiffs.obj = Var.red.diffs, pairs.factor = "Nitrogen", first.levels = c("0.2","0.4","0.6"), second.levels = "0", error.intervals = "halfLeast", tables = "none") testthat::expect_true(all(names(Preds.red.diffs.OatsN) == c("0.2,0", "0.4,0", "0.6,0"))) testthat::expect_true(all(abs(Preds.red.diffs.OatsN$`0.2,0`$predictions$predicted.value - c(18.50000, 21.83333)) < 1e-05)) testthat::expect_true(all(Preds.red.diffs.OatsN$`0.2,0`$predictions$Variety == c("Golden Rain","Marvellous"))) testthat::expect_true(all(names(Preds.red.diffs.OatsN$`0.2,0`$predictions)[4:5] == c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) testthat::expect_true(all(abs(Preds.red.diffs.OatsN$`0.4,0`$predictions$predicted.value - c(39.33333,34.66667,30.50000)) < 1e-05)) testthat::expect_true(all(Preds.red.diffs.OatsN$`0.4,0`$predictions$Variety == c("Victory","Golden Rain","Marvellous"))) #Remove the Victory, 0.4 combination to test what happens when not all denominator combinations are present Var.red.diffs <- subset(Var.diffs, subset = !(Variety == "Victory" & Nitrogen == "0")) testthat::expect_equal(nrow(Var.red.diffs$predictions), 11) Preds.red.ratio.OatsN <- ratioTransform(alldiffs.obj = Var.red.diffs, ratio.factor = "Nitrogen", numerator.levels = c("0.2","0.4","0.6"), denominator.levels = "0") testthat::expect_true(all(names(Preds.red.ratio.OatsN) == c("0.2,0", "0.4,0", "0.6,0"))) testthat::expect_true(all(unlist(lapply(Preds.red.ratio.OatsN, function(pd) is.na(pd$predicted.value[1]))))) testthat::expect_true(all(abs(Preds.red.ratio.OatsN$`0.2,0`$predicted.value[2:3] - (Var.red.diffs$predictions$predicted.value[4:5]/ Var.red.diffs$predictions$predicted.value[1:2])) < 1e-05)) testthat::expect_true(all(Preds.red.ratio.OatsN$`0.2,0`$Variety == c("Victory", "Golden Rain","Marvellous"))) testthat::expect_true(all(names(Preds.red.ratio.OatsN$`0.2,0`)[4:5] == c("upper.Confidence.limit", "lower.Confidence.limit"))) Preds.red.diffs.OatsN <- pairdiffsTransform(alldiffs.obj = Var.red.diffs, pairs.factor = "Nitrogen", first.levels = c("0.2","0.4","0.6"), second.levels = "0", error.intervals = "halfLeast", tables = "none") testthat::expect_true(all(names(Preds.red.diffs.OatsN) == c("0.2,0", "0.4,0", "0.6,0"))) testthat::expect_true(all(abs(Preds.red.diffs.OatsN$`0.2,0`$predictions$predicted.value - c(18.50000, 21.83333)) < 1e-05)) testthat::expect_true(all(Preds.red.diffs.OatsN$`0.2,0`$predictions$Variety == c("Golden Rain","Marvellous"))) testthat::expect_true(all(names(Preds.red.diffs.OatsN$`0.2,0`$predictions)[4:5] == c("upper.halfLeastSignificant.limit", "lower.halfLeastSignificant.limit"))) #Test ratioTransform when a a level occurs in both numerator.levels and denominator.levels Preds.ratio.OatsN <- ratioTransform(alldiffs.obj = Var.diffs, ratio.factor = "Nitrogen", numerator.levels = c("0.2","0.6"), denominator.levels = c("0.2","0.6")) testthat::expect_true(all(names(Preds.ratio.OatsN) == c("0.2,0.2","0.6,0.2","0.2,0.6","0.6,0.6"))) testthat::expect_true(all(unlist(lapply(Preds.ratio.OatsN, is.null)) == c(TRUE,FALSE,FALSE,TRUE))) testthat::expect_true(all(abs(Preds.ratio.OatsN$`0.6,0.2`$predicted.value - c(1.321561,1.267343,1.168971)) < 1e-05)) testthat::expect_true(all(Preds.ratio.OatsN$`0.6,0.2`$Variety == c("Victory", "Golden Rain","Marvellous"))) testthat::expect_true(all(names(Preds.ratio.OatsN$`0.2,0`)[4:5] == c("upper.Confidence.limit", "lower.Confidence.limit"))) }) cat("#### Test for alldiffs with GLM on budworm using asreml42\n") test_that("GLMdiffs_budworm_asreml42", { skip_if_not_installed("asreml") skip_on_cran() library(asreml) library(asremlPlus) devtools::load_all(".") #Needed to prevent a stack overflow error. ## 1. the data - the MASS budworm data from function dose.p ## in 'grouped' binomial format df <- data.frame(ldose = rep(0:5, 2), numdead = c(1, 4, 9, 13, 18, 20, 0, 2, 6, 10, 12, 16), sex = factor(rep(c("M", "F"), c(6, 6))), N=rep(20,12)) df$numalive <- df$N-df$numdead df$p <- df$numdead/df$N as1 <- do.call(asreml, list(fixed = p ~ ldose + sex, data=df, family=asr_binomial(total=N))) testthat::expect_warning( diffs <- predictPlus(as1, classify = "sex:ldose", levels = list(ldose = 0:5), transform.function = "logit", tables = "none"), regexp = "Denominator degrees of freedom obtained using dDF.na method residual") testthat::expect_equal(length(diffs), 7) testthat::expect_true(!any(c("transformed.value", "approx.se") %in% names(diffs$predictions))) testthat::expect_true(abs(diffs$predictions$predicted.value[1] - -3.473155) < 1e-05) testthat::expect_true(abs(diffs$predictions$standard.error[1] - 0.4685204) < 1e-05) testthat::expect_equal(nrow(diffs$backtransforms), 12) testthat::expect_true(!any(c("transformed.value", "approx.se") %in% names(diffs$backtransforms))) testthat::expect_true(abs(diffs$backtransforms$backtransformed.predictions[1] - 0.03008577) < 1e-05) testthat::expect_true(abs(diffs$backtransforms$standard.error[1] - 0.01103991) < 1e-05) testthat::expect_warning( diffs <- predictPlus(as1, classify = "sex:ldose", levels = list(ldose = 0:5), tables = "none"), regexp = "Denominator degrees of freedom obtained using dDF.na method residual") testthat::expect_true(is.null(diffs$backtransforms)) testthat::expect_true(all(c("transformed.value", "approx.se") %in% names(diffs$predictions))) testthat::expect_true(abs(diffs$predictions$predicted.value[1] - -3.473155) < 1e-05) testthat::expect_true(abs(diffs$predictions$standard.error[1] - 0.4685204) < 1e-05) testthat::expect_true(abs(diffs$predictions$transformed.value[1] - 0.03008577) < 1e-05) testthat::expect_true(abs(diffs$predictions$approx.se[1] - 0.01103991) < 1e-05) })