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Type 'q()' to quit R. > # This file is part of the standard setup for testthat. > # It is recommended that you do not modify it. > # > # Where should you do additional test configuration? > # Learn more about the roles of various files in: > # * https://r-pkgs.org/testing-design.html#sec-tests-files-overview > # * https://testthat.r-lib.org/articles/special-files.html > > library(testthat) > library(GrowthCurveME) > > test_check("GrowthCurveME") The number of subjects is small, increasing the number of chains to 5 to improve convergence The number of subjects is small, increasing the number of chains to 5 to improve convergence The number of subjects is small, increasing the number of chains to 10 to improve convergence The number of subjects is small, increasing the number of chains to 10 to improve convergence Error in solve.default(FO) : system is computationally singular: reciprocal condition number = 1.6041e-18 The number of subjects is small, increasing the number of chains to 5 to improve convergence Number of clusters: 10 Number of unique time points: 24 Number of observations: 240 The number of subjects is small, increasing the number of chains to 5 to improve convergence The number of subjects is small, increasing the number of chains to 5 to improve convergence Number of clusters: 10 Number of unique time points: 11 Number of observations: 110 The number of subjects is small, increasing the number of chains to 5 to improve convergence The number of subjects is small, increasing the number of chains to 2 to improve convergence Number of clusters: 25 Number of unique time points: 32 Number of observations: 800 The number of subjects is small, increasing the number of chains to 2 to improve convergence The number of subjects is small, increasing the number of chains to 10 to improve convergence Number of clusters: 5 Number of unique time points: 42 Number of observations: 210 The number of subjects is small, increasing the number of chains to 10 to improve convergence Number of clusters: 10 Number of unique time points: 24 Number of observations: 240 The number of subjects is small, increasing the number of chains to 5 to improve convergence Simulating data using nsim = 1000 simulated datasets Computing WRES and npde . Number of clusters: 10 Number of unique time points: 24 Number of observations: 240 The number of subjects is small, increasing the number of chains to 5 to improve convergence Simulating data using nsim = 1000 simulated datasets Computing WRES and npde . Number of clusters: 10 Number of unique time points: 24 Number of observations: 240 The number of subjects is small, increasing the number of chains to 5 to improve convergence Simulating data using nsim = 1000 simulated datasets Computing WRES and npde . Number of clusters: 10 Number of unique time points: 24 Number of observations: 240 The number of subjects is small, increasing the number of chains to 5 to improve convergence Simulating data using nsim = 1000 simulated datasets Computing WRES and npde . Number of clusters: 10 Number of unique time points: 24 Number of observations: 240 The number of subjects is small, increasing the number of chains to 5 to improve convergence Simulating data using nsim = 1000 simulated datasets Computing WRES and npde . Number of unique time points: 24 Number of observations: 240 Number of unique time points: 24 Number of observations: 240 Number of clusters: 10 Number of unique time points: 24 Number of observations: 240 The number of subjects is small, increasing the number of chains to 5 to improve convergence Simulating data using nsim = 1000 simulated datasets Computing WRES and npde . Number of unique time points: 24 Number of observations: 240 Number of clusters: 10 Number of unique time points: 24 Number of observations: 240 The number of subjects is small, increasing the number of chains to 5 to improve convergence Simulating data using nsim = 1000 simulated datasets Computing WRES and npde . Number of clusters: 10 Number of unique time points: 24 Number of observations: 240 The number of subjects is small, increasing the number of chains to 5 to improve convergence Simulating data using nsim = 1000 simulated datasets Computing WRES and npde . Number of clusters: 10 Number of unique time points: 24 Number of observations: 240 The number of subjects is small, increasing the number of chains to 5 to improve convergence Simulating data using nsim = 1000 simulated datasets Computing WRES and npde . Number of clusters: 10 Number of unique time points: 24 Number of observations: 240 The number of subjects is small, increasing the number of chains to 5 to improve convergence Simulating data using nsim = 1000 simulated datasets Computing WRES and npde . Number of unique time points: 24 Number of observations: 240 Number of unique time points: 24 Number of observations: 240 Number of unique time points: 24 Number of observations: 240 Number of unique time points: 24 Number of observations: 240 The number of subjects is small, increasing the number of chains to 5 to improve convergence The number of subjects is small, increasing the number of chains to 5 to improve convergence The number of subjects is small, increasing the number of chains to 2 to improve convergence The number of subjects is small, increasing the number of chains to 2 to improve convergence Error in solve.default(FO) : system is computationally singular: reciprocal condition number = 1.29391e-17 Number of clusters: 10 Number of unique time points: 24 Number of observations: 240 The number of subjects is small, increasing the number of chains to 5 to improve convergence Simulating data using nsim = 1000 simulated datasets Computing WRES and npde . Number of clusters: 10 Number of unique time points: 24 Number of observations: 240 The number of subjects is small, increasing the number of chains to 5 to improve convergence Simulating data using nsim = 1000 simulated datasets Computing WRES and npde . Simulating data using nsim = 1000 simulated datasets Computing WRES and npde . Number of unique time points: 24 Number of observations: 240 Number of unique time points: 24 Number of observations: 240 Number of clusters: 10 Number of unique time points: 24 Number of observations: 240 The number of subjects is small, increasing the number of chains to 5 to improve convergence Simulating data using nsim = 1000 simulated datasets Computing WRES and npde . [ FAIL 0 | WARN 0 | SKIP 0 | PASS 43 ] > > proc.time() user system elapsed 173.67 19.56 193.17