# File tests/testthat/test-mple-cov.R in package ergm, part of the # Statnet suite of packages for network analysis, https://statnet.org . # # This software is distributed under the GPL-3 license. It is free, # open source, and has the attribution requirements (GPL Section 7) at # https://statnet.org/attribution . # # Copyright 2003-2023 Statnet Commons ################################################################################ set.seed(14392) N <- 50 y <- matrix(rbinom(N^2, 1, 0.005), N, N) diag(y) <- 0 y <- as.network.matrix(y, directed = FALSE) init.sim <- simulate(y ~ edges + triangles, nsim = 1, coef = c(-log(N) + 4, -0.2)) test_that("Godambe covariance method for MPLE", { set.seed(111) m1 <- ergm(init.sim ~ edges + triangles, estimate = "MPLE", control=control.ergm(MPLE.covariance.method = "Godambe")) StdErr1 <- sqrt(diag(vcov(m1))) expect_equal(StdErr1, c(0.255, 0.059), ignore_attr = TRUE, tolerance=.01) }) test_that("Inverse Hessian from logistic regression model", { set.seed(222) # However, this method is not stochastic m2 <- ergm(init.sim ~ edges+triangles, estimate = "MPLE", control=control.ergm(MPLE.covariance.method = "invHess")) StdErr2 <- sqrt(diag(vcov(m2))) expect_equal(StdErr2, c(0.155, 0.034), ignore_attr = TRUE, tolerance=.01) }) test_that("Bootstrap covariance method for MPLE", { set.seed(333) m3 <- ergm(init.sim ~ edges + triangles, estimate = "MPLE", control=control.ergm(MPLE.covariance.method = "bootstrap")) StdErr3 <- sqrt(diag(vcov(m3))) expect_equal(StdErr3, c(0.257, 0.060), ignore_attr = TRUE, tolerance=.01) }) test_that("Bootstrap covariance method for MPLE with offsets", { set.seed(445) m4 <- ergm(init.sim ~ edges + triangles + offset(triangles), offset.coef=1, estimate = "MPLE", control=control.ergm(MPLE.covariance.method = "InvHess")) StdErr4 <- sqrt(diag(vcov(m4))) expect_equal(StdErr4, c(0.155, 0.034, 0), ignore_attr = TRUE, tolerance=.01) })