test_that("S3 pagfl", { skip_on_cran() sim <- readRDS(test_path("fixtures", "pagfl_pls_sim.rds")) y <- sim$y X <- sim$X colnames(X) <- c("a", "b") data = data.frame(y = y, X) estim <- pagfl(y ~ a + b, data = data, n_periods = 150, lambda = 5) # coef coef_res <- coef(estim) expect_equal(dim(coef_res), c(20, 2)) expect_equal(colnames(coef_res), colnames(X)) # resid resid_res <- resid(estim) expect_equal(dim(resid_res), c(length(y), 3)) # fitted fitted_res <- fitted(estim) expect_equal(dim(fitted_res), c(length(y), 3)) # summary summary_estim <- summary(estim) expect_snapshot_output(summary_estim, cran = FALSE) expect_snapshot(estim, cran = FALSE) # formula formula_estim <- formula(estim) expect_type(formula_estim, "language") expect_equal(all.vars(formula_estim), c("y", colnames(X))) # df.residual expect_equal(df.residual(estim), length(y) - length(y) / 150 - ncol(X) * estim$groups$n_groups) }) test_that("S3 tv_pagfl", { skip_on_cran() sim <- readRDS(test_path("fixtures", "tv_pagfl_sim_2.rds")) y <- sim$y X <- sim$X data <- data.frame(y = y, X1 = X) estim <- tv_pagfl(y ~ X1, data = data, n_periods = 100, lambda = 7) # coef coef_res <- coef(estim) expect_equal(dim(coef_res), c(100, 2, 10)) expect_equal(colnames(coef_res)[-1], "X1") # resid resid_res <- resid(estim) expect_equal(dim(resid_res), c(length(y), 3)) # fitted fitted_res <- fitted(estim) expect_equal(dim(fitted_res), c(length(y), 3)) # summary summary_estim <- summary(estim) expect_snapshot_output(summary_estim, cran = FALSE) expect_snapshot(estim, cran = FALSE) # formula formula_estim <- formula(estim) expect_type(formula_estim, "language") expect_equal(all.vars(formula_estim), c("y", "X1")) # df.residual expect_equal(df.residual(estim), length(y) - length(y) / 100 - 2 * (estim$args$M + estim$args$d + 1) * estim$groups$n_groups) }) test_that("S3 tv_pagfl const coef unbalanced", { skip_on_cran() sim <- readRDS(test_path("fixtures", "tv_pagfl_sim_2.rds")) y <- sim$y X <- sim$X df <- data.frame(y = y, X) df$a <- rnorm(length(y)) df$i_index <- rep(1:(length(y) / 100), each = 100) df$t_index <- rep(1:100, length(y) / 100) rm_index <- as.logical(rbinom(n = length(y), prob = 0.7, size = 1)) df <- df[rm_index, ] estim <- tv_pagfl(y ~ X + a, const_coef = "a", data = df, index = c("i_index", "t_index"), lambda = 25) # coef coef_res <- coef(estim) expect_equal(dim(coef_res), c(100, 3, 10)) expect_equal(colnames(coef_res), c("(Intercept)", "X", "a")) # resid resid_res <- resid(estim) expect_equal(dim(resid_res), c(nrow(df), 3)) # fitted fitted_res <- fitted(estim) expect_equal(dim(fitted_res), c(nrow(df), 3)) # summary summary_estim <- summary(estim) expect_snapshot_output(summary_estim, cran = FALSE) expect_snapshot(estim, cran = FALSE) # formula formula_estim <- formula(estim) expect_type(formula_estim, "language") expect_equal(all.vars(formula_estim), c("y", "X", "a")) # df.residual expect_equal(df.residual(estim), nrow(df) - max(df$i_index) - (1 + 2 * (estim$args$M + estim$args$d + 1)) * estim$groups$n_groups) })