testthat::context('linreg') testthat::test_that('All options in the linreg work (sunny)', { suppressWarnings(RNGversion("3.5.0")) set.seed(1337) data <- data.frame( `dep var` = rnorm(100), `cov 1` = rnorm(100), `cov 2` = rnorm(100), `facto r` = sample(LETTERS[1:3], 100, replace=TRUE), stringsAsFactors = TRUE, check.names = FALSE ) dep <- "dep var" covs <- c("cov 1", "cov 2") factors <- "facto r" blocks = list(list("cov 1", "cov 2", "facto r")) refLevels = list(list(var="facto r", ref="A")) r <- jmv::linReg( data, dep = !!dep, covs = !!covs, factors = !!factors, blocks = blocks, refLevels = refLevels, r2Adj = TRUE, aic = TRUE, bic = TRUE, rmse = TRUE, modelTest = TRUE, anova = TRUE, ci = TRUE, stdEst = TRUE, ciStdEst = TRUE, norm = TRUE, durbin = TRUE, collin = TRUE, cooks = TRUE, emMeans = ~ `cov 1` + `cov 2` + `facto r`, emmPlots = FALSE, emmTables = TRUE ) # Test model fit table modelFitTable <- r$modelFit$asDF testthat::expect_equal(1, modelFitTable[['model']], tolerance = 1e-3) testthat::expect_equal(0.158, modelFitTable[['r']], tolerance = 1e-3) testthat::expect_equal(0.025, modelFitTable[['r2']], tolerance = 1e-3) testthat::expect_equal(-0.016, modelFitTable[['r2Adj']], tolerance = 1e-3) testthat::expect_equal(304.925, modelFitTable[['aic']], tolerance = 1e-5) testthat::expect_equal(320.556, modelFitTable[['bic']], tolerance = 1e-5) testthat::expect_equal(1.047, modelFitTable[['rmse']], tolerance = 1e-3) testthat::expect_equal(0.609, modelFitTable[['f']], tolerance = 1e-3) testthat::expect_equal(4, modelFitTable[['df1']]) testthat::expect_equal(95, modelFitTable[['df2']]) testthat::expect_equal(0.657, modelFitTable[['p']], tolerance = 1e-3) # Test omnibus ANOVA test table anovaTable <- r$models[[1]]$anova$asDF testthat::expect_equal(c('cov 1', 'cov 2', 'facto r', 'Residuals'), anovaTable[['term']]) testthat::expect_equal(c(1.093, 0.183, 1.4, 109.567), anovaTable[['ss']], tolerance = 1e-3) testthat::expect_equal(c(1, 1, 2, 95), anovaTable[['df']]) testthat::expect_equal(c(1.093, 0.183, 0.7, 1.153), anovaTable[['ms']], tolerance = 1e-3) testthat::expect_equal(c(0.947, 0.159, 0.607, NA), anovaTable[['F']], tolerance = 1e-3) testthat::expect_equal(c(0.333, 0.691, 0.547, NA), anovaTable[['p']], tolerance = 1e-3) # Test model coefficients table coefTable <- r$models[[1]]$coef$asDF testthat::expect_equal( c('Intercept', 'cov 1', 'cov 2', 'facto r:', 'B – A', 'C – A'), coefTable[['term']] ) testthat::expect_equal( c(0.241, -0.105, -0.043, NA, 0.155, -0.137), coefTable[['est']], tolerance = 1e-3 ) testthat::expect_equal( c(0.2, 0.108, 0.107, NA, 0.286, 0.261), coefTable[['se']], tolerance = 1e-3 ) testthat::expect_equal( c(-0.155, -0.32, -0.255, NA, -0.412, -0.655), coefTable[['lower']], tolerance = 1e-3 ) testthat::expect_equal( c(0.638, 0.109, 0.17, NA, 0.723, 0.382), coefTable[['upper']], tolerance = 1e-3 ) testthat::expect_equal( c(1.208, -0.973, -0.398, NA, 0.543, -0.524), coefTable[['t']], tolerance = 1e-3 ) testthat::expect_equal( c(0.23, 0.333, 0.691, NA, 0.589, 0.601), coefTable[['p']], tolerance = 1e-3 ) testthat::expect_equal( c(NA, -0.099, -0.042, NA, 0.146, -0.128), coefTable[['stdEst']], tolerance = 1e-3 ) testthat::expect_equal( c(NA, -0.302, -0.252, NA, -0.387, -0.615), coefTable[['stdEstLower']], tolerance = 1e-3 ) testthat::expect_equal( c(NA, 0.103, 0.168, NA, 0.679, 0.358), coefTable[['stdEstUpper']], tolerance = 1e-3 ) # Test cook's distance summary table cooksTable <- r$models[[1]]$dataSummary$cooks$asDF testthat::expect_equal(0.01, cooksTable[['mean']], tolerance = 1e-3) testthat::expect_equal(0.005, cooksTable[['median']], tolerance = 1e-3) testthat::expect_equal(0.014, cooksTable[['sd']], tolerance = 1e-3) testthat::expect_equal(0, cooksTable[['min']], tolerance = 1e-3) testthat::expect_equal(0.107, cooksTable[['max']], tolerance = 1e-3) # Test Durbin-Watson autocorrelation test table durbinTable <- r$models[[1]]$assump$durbin$asDF testthat::expect_equal(-0.103, durbinTable[['autoCor']], tolerance = 1e-3) testthat::expect_equal(2.194, durbinTable[['dw']], tolerance = 1e-3) testthat::expect_equal(0.326, durbinTable[['p']], tolerance = 1e-3) # Test collinearity statistics table collinTable <- r$models[[1]]$assump$collin$asDF testthat::expect_equal(c('cov 1', 'cov 2', 'facto r'), collinTable[['term']]) testthat::expect_equal(c(1.008, 1.044, 1.022), collinTable[['vif']], tolerance = 1e-3) testthat::expect_equal(c(0.992, 0.958, 0.978), collinTable[['tol']], tolerance = 1e-3) # Test normality test table normTable <- r$models[[1]]$assump$norm$asDF testthat::expect_equal(0.994, normTable[['s[sw]']], tolerance = 1e-3) testthat::expect_equal(0.941, normTable[['p[sw]']], tolerance = 1e-3) # Test estimated marginal means emmeansCov1Table <- r$models[[1]]$emm[[1]]$emmTable$asDF testthat::expect_equal(c(-0.965, 0.041, 1.048), emmeansCov1Table[['cov 1']], tolerance = 1e-3) testthat::expect_equal(c(0.356, 0.25, 0.144), emmeansCov1Table[['emmean']], tolerance = 1e-3) testthat::expect_equal(c(0.153, 0.108, 0.154), emmeansCov1Table[['se']], tolerance = 1e-3) testthat::expect_equal(c(0.053, 0.035, -0.162), emmeansCov1Table[['lower']], tolerance = 1e-3) testthat::expect_equal(c(0.659, 0.465, 0.45), emmeansCov1Table[['upper']], tolerance = 1e-3) emmeansCov2Table <- r$models[[1]]$emm[[2]]$emmTable$asDF testthat::expect_equal(c(-1.213, -0.159, 0.896), emmeansCov2Table[['cov 2']], tolerance = 1e-3) testthat::expect_equal(c(0.295, 0.25, 0.205), emmeansCov2Table[['emmean']], tolerance = 1e-3) testthat::expect_equal(c(0.157, 0.108, 0.155), emmeansCov2Table[['se']], tolerance = 1e-3) testthat::expect_equal(c(-0.017, 0.035, -0.104), emmeansCov2Table[['lower']], tolerance = 1e-3) testthat::expect_equal(c(0.606, 0.465, 0.514), emmeansCov2Table[['upper']], tolerance = 1e-3) emmeansFactorTable <- r$models[[1]]$emm[[3]]$emmTable$asDF testthat::expect_equal(c('A', 'B', 'C'), emmeansFactorTable[['facto r']]) testthat::expect_equal(c(0.244, 0.399, 0.107), emmeansFactorTable[['emmean']], tolerance = 1e-3) testthat::expect_equal(c(0.196, 0.201, 0.172), emmeansFactorTable[['se']], tolerance = 1e-3) testthat::expect_equal(c(-0.146, 0, -0.235), emmeansFactorTable[['lower']], tolerance = 1e-3) testthat::expect_equal(c(0.634, 0.798, 0.449), emmeansFactorTable[['upper']], tolerance = 1e-3) }) testthat::test_that('Test that basic linear regression works', { suppressWarnings(RNGversion("3.5.0")) set.seed(100) intercept <- rnorm(100) + 1 a <- rnorm(100) * 2.5 b <- rnorm(100) * .5 c <- rnorm(100) * .1 y <- intercept + a + b + c data <- list() data[["dep"]] <- y data[["var1"]] <- a data[["var 2"]] <- b data[["var3"]] <- c attr(data, 'row.names') <- seq_len(length(data[[1]])) attr(data, 'class') <- 'data.frame' dep <- "dep" covs <- c("var1", "var 2", "var3") blocks = list(list("var1", "var 2", "var3")) linreg <- jmv::linReg(data, dep=!!dep, covs=!!covs, blocks=blocks, stdEst = TRUE) modelFit <- linreg$modelFit$asDF coef <- linreg$models[[1]]$coef$asDF # Test model fit table testthat::expect_equal(0.875, modelFit$r[1], tolerance = 1e-3) testthat::expect_equal(0.766, modelFit$r2[1], tolerance = 1e-3) # Test coefficients table testthat::expect_equal(1.008, coef$est[1], tolerance = 1e-3) testthat::expect_equal(0.958, coef$se[4], tolerance = 1e-3) testthat::expect_true(is.na(coef$stdEst[1])) }) testthat::test_that('Test that basic linear regression with blocks works', { suppressWarnings(RNGversion("3.5.0")) set.seed(100) intercept <- rnorm(100) + 1 a <- rnorm(100) * 2.5 b <- rnorm(100) * .5 c <- rnorm(100) * .1 y <- intercept + a + b + c data <- list() data[["dep"]] <- y data[["var1"]] <- a data[["var 2"]] <- b data[["var3"]] <- c attr(data, 'row.names') <- seq_len(length(data[[1]])) attr(data, 'class') <- 'data.frame' dep <- "dep" covs <- c("var1", "var 2", "var3") blocks = list(list("var1", "var 2", "var3", c("var1", "var 2"))) linreg <- jmv::linReg( data, dep=!!dep, covs=!!covs, blocks=blocks, stdEst = TRUE, ciStdEst = TRUE ) coef <- linreg$models[[1]]$coef$asDF # Test coefficients table testthat::expect_equal(0.903, coef$stdEst[2], tolerance = 1e-3) testthat::expect_equal(0.189, coef$stdEstLower[3], tolerance = 1e-3) testthat::expect_equal(0.394, coef$stdEstUpper[3], tolerance = 1e-3) }) testthat::test_that('Test different intercept codings', { data('ToothGrowth', package='datasets') data <- ToothGrowth data$dose <- factor(data$dose) dep <- "len" factors <- c("dose", "supp") blocks = list(list("dose", "supp")) refLevels = list( list(var="supp", ref="OJ"), list(var="dose", ref="0.5") ) linreg <- jmv::linReg( data, dep=!!dep, factors=!!factors, blocks=blocks, refLevels=refLevels, emMeans=~ supp, emmTables=TRUE, emmPlots=FALSE ) coef <- linreg$models[[1]]$coef$asDF testthat::expect_equal(12.455, coef$est[1], tolerance = 1e-3) emmeans <- linreg$models[[1]]$emm[[1]]$emmTable$asDF testthat::expect_equal(20.663, emmeans$emmean[1], tolerance = 1e-3) }) testthat::test_that('Test that grand mean intercept works', { data('ToothGrowth', package='datasets') data <- ToothGrowth data$dose <- factor(data$dose) dep <- "len" factors <- c("dose", "supp") blocks = list(list("dose", "supp")) refLevels = list( list(var="supp", ref="OJ"), list(var="dose", ref="0.5") ) linreg <- jmv::linReg( data, dep=!!dep, factors=!!factors, blocks=blocks, refLevels=refLevels, intercept='grandMean' ) coef <- linreg$models[[1]]$coef testthat::expect_equal(coef$footnotes, "Represents grand mean") coefDf <- coef$asDF testthat::expect_equal(18.813, coefDf$est[1], tolerance = 1e-3) }) testthat::test_that('Cooks summary in linreg works', { suppressWarnings(RNGversion("3.5.0")) set.seed(100) intercept <- rnorm(100) + 1 a <- rnorm(100) * 2.5 b <- rnorm(100) * .5 c <- rnorm(100) * .1 y <- intercept + a + b + c data <- list() data[["dep"]] <- y data[["var1"]] <- a data[["var 2"]] <- b data[["var3"]] <- c attr(data, 'row.names') <- seq_len(length(data[[1]])) attr(data, 'class') <- 'data.frame' dep <- "dep" covs <- c("var1", "var 2", "var3") blocks = list(list("var1", "var 2", "var3")) linreg <- jmv::linReg( data, dep=!!dep, covs=!!covs, blocks=blocks, cooks=TRUE ) cooksTable <- linreg$models[[1]]$dataSummary$cooks$asDF testthat::expect_equal(0.0109, cooksTable$mean, tolerance = 1e-4) testthat::expect_equal(0.0031, cooksTable$median, tolerance = 1e-4) testthat::expect_equal(0.0188, cooksTable$sd, tolerance = 1e-4) testthat::expect_equal(0.0000, cooksTable$min, tolerance = 1e-4) testthat::expect_equal(0.0966, cooksTable$max, tolerance = 1e-4) }) testthat::test_that('emmeans table in linreg works with covariate with only two unique values', { suppressWarnings(RNGversion("3.5.0")) set.seed(100) data <- data.frame( dep = rnorm(100), var1 = rnorm(100), var2 = sample(0:1, 100, replace = TRUE) ) dep <- "dep" covs <- c("var1", "var2") blocks = list(list("var1", "var2")) linreg <- jmv::linReg( data, dep=!!dep, covs=!!covs, blocks=blocks, emMeans = ~var1:var2, emmTables = TRUE ) emmeansTable <- linreg$models[[1]]$emm[[1]]$emmTable$asDF testthat::expect_equal(0.0077, emmeansTable$emmean[1], tolerance = 1e-4) testthat::expect_equal(0.1441, emmeansTable$se[2], tolerance = 1e-4) testthat::expect_equal(-0.1564, emmeansTable$lower[4], tolerance = 1e-4) testthat::expect_equal(0.1623, emmeansTable$upper[6], tolerance = 1e-4) testthat::expect_equal(0.2515, emmeansTable$emmean[7], tolerance = 1e-4) testthat::expect_equal(0.1821, emmeansTable$se[9], tolerance = 1e-4) }) testthat::test_that("Analysis shows warning note on singular fit", { suppressWarnings(RNGversion("3.5.0")) set.seed(1337) N <- 20 data <- data.frame( x1 = sample(letters[1:4], N, replace = TRUE), x2 = sample(letters[1:4], N, replace = TRUE), y = rnorm(N) ) dep <- "y" factors <- c("x1", "x2") blocks = list(list("x1", "x2", c("x1", "x2"))) refLevels = list(list(var="x1", ref="a"), list(var="x2", ref="a")) r <- jmv::linReg( data, dep=!!dep, factors=!!factors, blocks=blocks, refLevels=refLevels, anova = TRUE, collin = TRUE ) noteAnova <- r$models[[1]]$anova$notes$alias$note noteCoef <- r$models[[1]]$coef$notes$alias$note noteVIF <- r$models[[1]]$assump$collin$notes$alias$note testthat::expect_equal(noteAnova, "Linear model contains aliased coefficients (singular fit)") testthat::expect_equal(noteCoef, "Linear model contains aliased coefficients (singular fit)") testthat::expect_equal(noteVIF, "Linear model contains aliased coefficients (singular fit)") }) testthat::test_that("Analysis works for covariate with one unique value", { suppressWarnings(RNGversion("3.5.0")) set.seed(1337) df <- data.frame( x = rep(1, 100), y = rnorm(100) ) r <- jmv::linReg( df, dep="y", covs="x", blocks=list(list("x")), ) coef <- r$models[[1]]$coef$asDF testthat::expect_equal(0.237, coef[1, "est"], tolerance = 1e-4) testthat::expect_equal(NaN, coef[2, "est"]) }) testthat::test_that("Analysis throws error for factor with one level", { suppressWarnings(RNGversion("3.5.0")) set.seed(1337) df <- data.frame( x = factor(rep(1, 100)), y = rnorm(100) ) testthat::expect_error( { jmv::linReg( df, dep="y", factors="x", blocks=list(list("x")), refLevels = list(list(var="x", ref="1")) ) }, regexp = "needs to have at least 2 levels" ) }) testthat::test_that("Analysis works with global weights", { suppressWarnings(RNGversion("3.5.0")) set.seed(1337) weights <- abs(rnorm(100)) df <- data.frame( dep = rnorm(100), cov = rnorm(100), factor = factor(sample(LETTERS[1:3], 100, replace=TRUE)) ) attr(df, "jmv-weights") <- weights refLevels = list(list(var="factor", ref="A")) r <- jmv::linReg( df, dep="dep", covs="cov", factors="factor", blocks=list(list("cov", "factor")), refLevels=refLevels, ) coef <- r$models[[1]]$coef$asDF testthat::expect_equal(coef$est[1], -0.100, tolerance = 1e-3) testthat::expect_equal(coef$se[2], 0.089, tolerance = 1e-3) testthat::expect_equal(coef$t[4], 1.004, tolerance = 1e-3) testthat::expect_equal(coef$p[5], 0.247, tolerance = 1e-3) }) testthat::test_that("Analysis works with legacy weights", { suppressWarnings(RNGversion("3.5.0")) set.seed(1337) df <- data.frame( weights = abs(rnorm(100)), dep = rnorm(100), cov = rnorm(100), factor = factor(sample(LETTERS[1:3], 100, replace=TRUE)) ) refLevels = list(list(var="factor", ref="A")) r <- jmv::linReg( df, dep="dep", covs="cov", factors="factor", weights="weights", blocks=list(list("cov", "factor")), refLevels=refLevels, ) coef <- r$models[[1]]$coef coefDf <- coef$asDF testthat::expect_equal("Weighted by 'weights'", coef$notes$weights$note) testthat::expect_equal(coefDf$est[1], -0.100, tolerance = 1e-3) testthat::expect_equal(coefDf$se[2], 0.089, tolerance = 1e-3) testthat::expect_equal(coefDf$t[4], 1.004, tolerance = 1e-3) testthat::expect_equal(coefDf$p[5], 0.247, tolerance = 1e-3) }) testthat::test_that("Analysis throws error with negative weights", { suppressWarnings(RNGversion("3.5.0")) set.seed(1337) df <- data.frame( weights = rnorm(100), dep = rnorm(100), cov = rnorm(100) ) testthat::expect_error( { jmv::linReg( df, dep="dep", covs="cov", weights="weights", blocks=list(list("cov")), ) }, regexp = "Negative weights are not permitted" ) }) testthat::test_that('Emmeans work with nuisance parameters (no interactions)', { #' Test that nuisance factors are handled correctly in the estimated marginal means #' See: https://cran.r-project.org/web/packages/emmeans/vignettes/messy-data.html suppressWarnings(RNGversion("3.5.0")) set.seed(1337) df <- data.frame( dep = rnorm(100), cov1 = rnorm(100), cov2 = rnorm(100), factor1 = sample(letters[1:3], 100, replace=TRUE), factor2 = sample(LETTERS[1:2], 100, replace=TRUE), stringsAsFactors = TRUE ) dep <- "dep" covs <- paste0("cov", 1:2) factors <- paste0("factor", 1:2) blocks = list(as.list(c(covs, factors))) refLevels = list( list(var=factors[1], ref="a"), list(var=factors[2], ref="A") ) r <- jmv::linReg( df, dep = !!dep, covs = !!covs, factors = !!factors, blocks = blocks, refLevels = refLevels, emMeans = ~ cov1:cov2, emmPlots = FALSE, emmTables = TRUE ) # Test estimated marginal means emmeansTable <- r$models[[1]]$emm[[1]]$emmTable$asDF testthat::expect_equal( c(-1.213, -1.213, -1.213, -0.159, -0.159, -0.159, 0.896, 0.896, 0.896), emmeansTable[['cov2']], tolerance = 1e-3 ) testthat::expect_equal( c(-0.965, 0.041, 1.048, -0.965, 0.041, 1.048, -0.965, 0.041, 1.048), emmeansTable[['cov1']], tolerance = 1e-3 ) testthat::expect_equal( c(0.389, 0.292, 0.196, 0.341, 0.245, 0.148, 0.293, 0.197, 0.101), emmeansTable[['emmean']], tolerance = 1e-3 ) testthat::expect_equal( c(0.185, 0.157, 0.197, 0.153, 0.108, 0.154, 0.195, 0.156, 0.185), emmeansTable[['se']], tolerance = 1e-3 ) testthat::expect_equal( c(0.022, -0.019, -0.195, 0.037, 0.03, -0.158, -0.095, -0.112, -0.266), emmeansTable[['lower']], tolerance = 1e-3 ) testthat::expect_equal( c(0.756, 0.604, 0.588, 0.645, 0.46, 0.455, 0.681, 0.506, 0.467), emmeansTable[['upper']], tolerance = 1e-3 ) }) testthat::test_that('Emmeans work with nuisance parameters (with interactions)', { #' Test that nuisance factors are handled correctly in the estimated marginal means #' When a nuisance factor is included in an interaction it should still be included #' in the reference grid. #' See: https://cran.r-project.org/web/packages/emmeans/vignettes/messy-data.html suppressWarnings(RNGversion("3.5.0")) set.seed(1337) df <- data.frame( dep = rnorm(100), cov1 = rnorm(100), cov2 = rnorm(100), factor1 = sample(letters[1:3], 100, replace=TRUE), factor2 = sample(LETTERS[1:2], 100, replace=TRUE), stringsAsFactors = TRUE ) dep <- "dep" covs <- c("cov1", "cov2") factors <- c("factor1", "factor2") blocks = list(list("cov1", "cov2", "factor1", "factor2", c("cov1", "factor1"))) refLevels = list( list(var=factors[1], ref="a"), list(var=factors[2], ref="A") ) r <- jmv::linReg( df, dep = !!dep, covs = !!covs, factors = !!factors, blocks = blocks, refLevels = refLevels, emMeans = ~ cov1:cov2, emmPlots = FALSE, emmTables = TRUE ) # Test estimated marginal means emmeansTable <- r$models[[1]]$emm[[1]]$emmTable$asDF testthat::expect_equal( c(-1.213, -1.213, -1.213, -0.159, -0.159, -0.159, 0.896, 0.896, 0.896), emmeansTable[['cov2']], tolerance = 1e-3 ) testthat::expect_equal( c(-0.965, 0.041, 1.048, -0.965, 0.041, 1.048, -0.965, 0.041, 1.048), emmeansTable[['cov1']], tolerance = 1e-3 ) testthat::expect_equal( c(0.403, 0.29, 0.177, 0.35, 0.237, 0.124, 0.297, 0.184, 0.071), emmeansTable[['emmean']], tolerance = 1e-3 ) testthat::expect_equal( c(0.193, 0.159, 0.2, 0.156, 0.109, 0.16, 0.197, 0.161, 0.198), emmeansTable[['se']], tolerance = 1e-3 ) testthat::expect_equal( c(0.02, -0.027, -0.22, 0.041, 0.02, -0.195, -0.094, -0.135, -0.321), emmeansTable[['lower']], tolerance = 1e-3 ) testthat::expect_equal( c(0.786, 0.607, 0.573, 0.66, 0.454, 0.443, 0.688, 0.504, 0.464), emmeansTable[['upper']], tolerance = 1e-3 ) })