test_that("pagfl sim", { skip_on_cran() N <- 10 n_periods <- 10 p <- 2 K <- 3 q <- 3 sim <- sim_DGP(N = N, n_periods = n_periods, p = p, n_groups = K) check_pagfl_sim(sim = sim, N = N, n_periods = n_periods, p = p, K = K) sim_pgmm <- sim_DGP(N = N, n_periods = n_periods, p = p, n_groups = K, q = q, error_spec = "AR", dynamic = T) check_pagfl_sim(sim = sim_pgmm, N = N, n_periods = n_periods, p = p, K = K, q = q) alpha_0 <- matrix(rnorm(K * p), nc = p) sim_2 <- sim_DGP( N = N, n_periods = n_periods, p = p, n_groups = K, group_proportions = c(.6, .2, .2), error_spec = "GARCH", alpha_0 = alpha_0 ) check_pagfl_sim(sim = sim_2, N = N, n_periods = n_periods, p = p, K = K, alpha_0 = alpha_0) }) test_that("pagfl sim input", { skip_on_cran() N <- 10 n_periods <- 10 p <- 2 K <- 3 q <- 3 # Wrong K expect_error(sim_DGP(N = N, n_periods = n_periods, p = p, n_groups = N + 1)) # Wrong groups expect_error(sim_DGP(N = N, n_periods = n_periods, p = p, group_proportions = c(.6, .4, .1))) expect_error(sim_DGP(N = N, n_periods = n_periods, p = p, n_groups = 2, group_proportions = c(.6, .2, .2))) # Incorrect error spec expect_error(sim_DGP(N = N, n_periods = n_periods, p = p, error_spec = "a")) # wrong alpha alpha_0 <- matrix(rnorm(4), nc = 2) expect_error(sim_DGP(N = N, n_periods = n_periods, p = p, n_groups = 3, alpha_0 = alpha_0)) }) test_that("tv_pagfl sim", { skip_on_cran() N <- 10 n_periods <- 15 p <- 2 K <- 3 sim <- sim_tv_DGP(N = N, n_periods = n_periods, intercept = T, p = p, n_groups = K, group_proportions = c(.6, .2, .2)) check_tv_pagfl_sim(sim = sim, N = N, n_periods = n_periods, p = p, K = K) sim_2 <- sim_tv_DGP(N = N, n_periods = n_periods, intercept = F, p = p, n_groups = K, dynamic = T, sd_error = 2) check_tv_pagfl_sim(sim = sim_2, N = N, n_periods = n_periods, p = p, K = K) locations <- matrix(stats::runif(p * K, .3, .9), ncol = K) scales <- matrix(stats::runif(p * K, .01, .09), ncol = K) d <- 3 polynomial_coef <- array(stats::runif(p * d * K, -20, 20), dim = c(p, d, K)) polynomial_coef <- aperm(apply(polynomial_coef, c(1, 3), function(x) x - mean(x) + 1 / d), c(2, 1, 3)) sim_3 <- sim_tv_DGP(N = N, n_periods = n_periods, p = p, n_groups = K, d = d, locations = locations, scales = scales, polynomial_coef = polynomial_coef) check_tv_pagfl_sim(sim = sim_3, N = N, n_periods = n_periods, p = p, K = K) }) test_that("tv_pagfl sim input", { skip_on_cran() N <- 10 n_periods <- 10 p <- 2 K <- 3 # Wrong p expect_warning(sim_tv_DGP(N = N, n_periods = n_periods, intercept = TRUE, p = 1, dynamic = T)) # Wrong coefficients locations <- matrix(stats::runif(p * K, .3, .9), ncol = K - 1) scales <- matrix(stats::runif(p * K, .01, .09), ncol = K - 1) d <- 3 polynomial_coef <- array(stats::runif(p * d * K, -20, 20), dim = c(p, d, K)) polynomial_coef <- aperm(apply(polynomial_coef, c(1, 3), function(x) x - mean(x) + 1 / d), c(2, 1, 3)) expect_error(sim_tv_DGP(N = N, n_periods = n_periods, p = p, n_groups = K, d = 2, locations = locations, scales = scales, polynomial_coef = polynomial_coef)) })