test_that("blank test", { expect_null(NULL) }) test_local <- FALSE # FALSE for CRAN if (test_local) { set.seed(1) # SPMODEL PACKAGE NEEDS TO BE INSTALLED VIA DEVTOOLS::INSTALL() BEFORE RUNNING TESTS IF THOSE TESTS HAVE PARALLELIZATION load(file = system.file("extdata", "exdata.rda", package = "spmodel")) load(file = system.file("extdata", "exdata_M.rda", package = "spmodel")) load(file = system.file("extdata", "exdata_poly.rda", package = "spmodel")) # add variables n <- NROW(exdata) exdata$bern <- rbinom(n, size = 1, prob = 0.5) exdata$bernfac <- factor(ifelse(exdata$bern == 0, "a", "b")) exdata$size <- 5 exdata$bin <- rbinom(n, size = exdata$size, prob = 0.5) exdata$prop <- runif(n) exdata$count <- rpois(n, lambda = 5) exdata$cont <- rgamma(n, shape = 1, rate = 1) exdata$offset <- 1.2 test_that("the model runs for binomial data", { spgmod <- spglm(bern ~ x, family = binomial, data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "exponential", estmethod = "reml") expect_s3_class(spgmod, "spglm") expect_vector(AUROC(spgmod)) spgmod <- spglm(bernfac ~ x, family = binomial, data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "exponential", estmethod = "reml") expect_s3_class(spgmod, "spglm") expect_vector(AUROC(spgmod)) expect_error(spglm(bernfac ~ x, family = binomial, data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "exponential", estmethod = "reml"), NA) spgmod <- spglm(cbind(bin, size) ~ x, family = "binomial", data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "spherical", estmethod = "ml") expect_s3_class(spgmod, "spglm") expect_error(AUROC(spgmod)) spgmod <- spglm(y > 0 ~ x, family = binomial, data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "exponential", estmethod = "reml") expect_s3_class(spgmod, "spglm") expect_vector(AUROC(spgmod)) # complicated models expect_error(spglm(bern ~ x + offset(offset), family = binomial, data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "exponential", estmethod = "reml", random = ~group, anisotropy = TRUE, local = TRUE), NA) # check when data have an unequal number of local observations expect_error(spglm(bern ~ x + offset(offset), family = binomial, data = exdata[-1, , drop = FALSE], xcoord = xcoord, ycoord = ycoord, spcov_type = "exponential", estmethod = "reml", random = ~group, anisotropy = TRUE, local = TRUE), NA) expect_error(spglm(bernfac ~ x, family = binomial, data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "exponential", estmethod = "reml", random = ~group, anisotropy = TRUE, local = TRUE), NA) expect_error(spglm(cbind(bin, size) ~ x, family = "binomial", data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "spherical", estmethod = "ml", partition_factor = ~group), NA) }) test_that("the model runs for proportion data", { expect_error(spglm(prop ~ x, family = "beta", data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "exponential", estmethod = "reml"), NA) expect_error(spglm(prop ~ x, family = beta, data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "none", estmethod = "reml"), NA) # complicated models expect_error(spglm(prop ~ x, family = "beta", data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "exponential", estmethod = "reml", anisotropy = TRUE), NA) expect_error(spglm(prop ~ x + offset(offset), family = beta, data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "none", estmethod = "reml", local = list(method = "kmeans") ), NA) }) test_that("the model runs for count data", { spgmod <- spglm(count ~ x, family = poisson, data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "spherical", estmethod = "reml") expect_s3_class(spgmod, "spglm") expect_error(AUROC(spgmod)) expect_error(spglm(count ~ x, family = "nbinomial", data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "exponential", estmethod = "ml"), NA) # complicated models expect_error(spglm(count ~ x + offset(offset), family = poisson, data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "spherical", estmethod = "reml", partition_factor = ~group, local = TRUE ), NA) expect_error(spglm(count ~ x, family = "nbinomial", data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "exponential", estmethod = "ml", random = ~group), NA) }) test_that("the model runs for continuous data", { expect_error(spglm(cont ~ x, family = "Gamma", data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "spherical", estmethod = "reml"), NA) expect_error(spglm(cont ~ x, family = inverse.gaussian, data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "exponential", estmethod = "ml"), NA) # SHOULD BE AN ERROR AS GAUSSIAN FAMILY REMOVED expect_error(spglm(cont ~ x, family = gaussian, data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "none", estmethod = "reml")) # complicated models expect_error(spglm(cont ~ x + offset(offset), family = "Gamma", data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "spherical", estmethod = "reml", random = ~ group + subgroup, local = TRUE ), NA) expect_error(spglm(cont ~ x, family = inverse.gaussian, data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "exponential", estmethod = "ml", partition_factor = ~subgroup, anisotropy = TRUE), NA) ## SHOULD BE AN ERROR AS GAUSSIAN FAMILY REMOVED expect_error(spglm(cont ~ x, family = gaussian, data = exdata, xcoord = xcoord, ycoord = ycoord, spcov_type = "none", estmethod = "reml", random = ~group )) }) test_that("the model runs on other data sets", { expect_error(spglm(abs(y) ~ x, family = "Gamma", data = exdata_M, xcoord = xcoord, ycoord = ycoord, spcov_type = "exponential", estmethod = "reml"), NA) expect_error(spglm(abs(y) ~ x, family = Gamma, data = exdata_poly, xcoord = xcoord, ycoord = ycoord, spcov_type = "matern", estmethod = "reml"), NA) # complicated models expect_error(spglm(abs(y) ~ x, family = "Gamma", data = exdata_M, xcoord = xcoord, ycoord = ycoord, spcov_type = "exponential", estmethod = "reml", random = ~group, partition_factor = ~group, anisotropy = TRUE, local = TRUE), NA) expect_error(spglm(abs(y) ~ x, family = Gamma, data = exdata_poly, xcoord = xcoord, ycoord = ycoord, spcov_type = "matern", estmethod = "reml", random = ~group, partition_factor = ~subgroup ), NA) }) }