* using log directory 'd:/Rcompile/CRANpkg/local/4.6/rbioacc.Rcheck' * using R Under development (unstable) (2025-08-02 r88493 ucrt) * using platform: x86_64-w64-mingw32 * R was compiled by gcc.exe (GCC) 14.2.0 GNU Fortran (GCC) 14.2.0 * running under: Windows Server 2022 x64 (build 20348) * using session charset: UTF-8 * checking for file 'rbioacc/DESCRIPTION' ... OK * this is package 'rbioacc' version '1.2.1' * package encoding: UTF-8 * checking package namespace information ... OK * checking package dependencies ... OK * checking if this is a source package ... OK * checking if there is a namespace ... OK * checking for hidden files and directories ... OK * checking for portable file names ... OK * checking whether package 'rbioacc' can be installed ... OK * used C++ compiler: 'g++.exe (GCC) 14.2.0' * checking C++ specification ... OK * checking installed package size ... OK * checking package directory ... OK * checking 'build' directory ... OK * checking DESCRIPTION meta-information ... OK * checking top-level files ... OK * checking for left-over files ... OK * checking index information ... OK * checking package subdirectories ... OK * checking code files for non-ASCII characters ... OK * checking R files for syntax errors ... OK * checking whether the package can be loaded ... [3s] OK * checking whether the package can be loaded with stated dependencies ... [3s] OK * checking whether the package can be unloaded cleanly ... [3s] OK * checking whether the namespace can be loaded with stated dependencies ... [3s] OK * checking whether the namespace can be unloaded cleanly ... [3s] OK * checking loading without being on the library search path ... [7s] OK * checking use of S3 registration ... OK * checking dependencies in R code ... OK * checking S3 generic/method consistency ... OK * checking replacement functions ... OK * checking foreign function calls ... OK * checking R code for possible problems ... [10s] OK * checking Rd files ... [1s] OK * checking Rd metadata ... OK * checking Rd cross-references ... OK * checking for missing documentation entries ... OK * checking for code/documentation mismatches ... OK * checking Rd \usage sections ... OK * checking Rd contents ... OK * checking for unstated dependencies in examples ... OK * checking contents of 'data' directory ... OK * checking data for non-ASCII characters ... [0s] OK * checking LazyData ... OK * checking data for ASCII and uncompressed saves ... OK * checking line endings in shell scripts ... OK * checking line endings in C/C++/Fortran sources/headers ... OK * checking line endings in Makefiles ... OK * checking compilation flags in Makevars ... OK * checking for GNU extensions in Makefiles ... INFO GNU make is a SystemRequirements. * checking for portable use of $(BLAS_LIBS) and $(LAPACK_LIBS) ... OK * checking use of PKG_*FLAGS in Makefiles ... OK * checking pragmas in C/C++ headers and code ... OK * checking compiled code ... OK * checking installed files from 'inst/doc' ... OK * checking files in 'vignettes' ... OK * checking examples ... [7s] OK * checking for unstated dependencies in 'tests' ... OK * checking tests ... [28s] ERROR Running 'testthat.R' [28s] Running the tests in 'tests/testthat.R' failed. Complete output: > library(testthat) > library(rbioacc) > > test_check("rbioacc") SAMPLING FOR MODEL 'TK' NOW (CHAIN 1). Chain 1: Chain 1: Gradient evaluation took 0.000187 seconds Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 1.87 seconds. Chain 1: Adjust your expectations accordingly! Chain 1: Chain 1: Chain 1: WARNING: No variance estimation is Chain 1: performed for num_warmup < 20 Chain 1: Chain 1: Iteration: 1 / 10 [ 10%] (Warmup) Chain 1: Iteration: 2 / 10 [ 20%] (Warmup) Chain 1: Iteration: 3 / 10 [ 30%] (Warmup) Chain 1: Iteration: 4 / 10 [ 40%] (Warmup) Chain 1: Iteration: 5 / 10 [ 50%] (Warmup) Chain 1: Iteration: 6 / 10 [ 60%] (Sampling) Chain 1: Iteration: 7 / 10 [ 70%] (Sampling) Chain 1: Iteration: 8 / 10 [ 80%] (Sampling) Chain 1: Iteration: 9 / 10 [ 90%] (Sampling) Chain 1: Iteration: 10 / 10 [100%] (Sampling) Chain 1: Chain 1: Elapsed Time: 0.009 seconds (Warm-up) Chain 1: 0.011 seconds (Sampling) Chain 1: 0.02 seconds (Total) Chain 1: SAMPLING FOR MODEL 'TK' NOW (CHAIN 2). Chain 2: Chain 2: Gradient evaluation took 1.9e-05 seconds Chain 2: 1000 transitions using 10 leapfrog steps per transition would take 0.19 seconds. Chain 2: Adjust your expectations accordingly! Chain 2: Chain 2: Chain 2: WARNING: No variance estimation is Chain 2: performed for num_warmup < 20 Chain 2: Chain 2: Iteration: 1 / 10 [ 10%] (Warmup) Chain 2: Iteration: 2 / 10 [ 20%] (Warmup) Chain 2: Iteration: 3 / 10 [ 30%] (Warmup) Chain 2: Iteration: 4 / 10 [ 40%] (Warmup) Chain 2: Iteration: 5 / 10 [ 50%] (Warmup) Chain 2: Iteration: 6 / 10 [ 60%] (Sampling) Chain 2: Iteration: 7 / 10 [ 70%] (Sampling) Chain 2: Iteration: 8 / 10 [ 80%] (Sampling) Chain 2: Iteration: 9 / 10 [ 90%] (Sampling) Chain 2: Iteration: 10 / 10 [100%] (Sampling) Chain 2: Chain 2: Elapsed Time: 0.007 seconds (Warm-up) Chain 2: 0.003 seconds (Sampling) Chain 2: 0.01 seconds (Total) Chain 2: SAMPLING FOR MODEL 'TK' NOW (CHAIN 1). Chain 1: Rejecting initial value: Chain 1: Log probability evaluates to log(0), i.e. negative infinity. Chain 1: Stan can't start sampling from this initial value. Chain 1: Chain 1: Gradient evaluation took 0.00014 seconds Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 1.4 seconds. Chain 1: Adjust your expectations accordingly! Chain 1: Chain 1: Chain 1: WARNING: No variance estimation is Chain 1: performed for num_warmup < 20 Chain 1: Chain 1: Iteration: 1 / 10 [ 10%] (Warmup) Chain 1: Iteration: 2 / 10 [ 20%] (Warmup) Chain 1: Iteration: 3 / 10 [ 30%] (Warmup) Chain 1: Iteration: 4 / 10 [ 40%] (Warmup) Chain 1: Iteration: 5 / 10 [ 50%] (Warmup) Chain 1: Iteration: 6 / 10 [ 60%] (Sampling) Chain 1: Iteration: 7 / 10 [ 70%] (Sampling) Chain 1: Iteration: 8 / 10 [ 80%] (Sampling) Chain 1: Iteration: 9 / 10 [ 90%] (Sampling) Chain 1: Iteration: 10 / 10 [100%] (Sampling) Chain 1: Chain 1: Elapsed Time: 0.008 seconds (Warm-up) Chain 1: 0.002 seconds (Sampling) Chain 1: 0.01 seconds (Total) Chain 1: SAMPLING FOR MODEL 'TK' NOW (CHAIN 2). Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Chain 2: Gradient evaluation took 0.000123 seconds Chain 2: 1000 transitions using 10 leapfrog steps per transition would take 1.23 seconds. Chain 2: Adjust your expectations accordingly! Chain 2: Chain 2: Chain 2: WARNING: No variance estimation is Chain 2: performed for num_warmup < 20 Chain 2: Chain 2: Iteration: 1 / 10 [ 10%] (Warmup) Chain 2: Iteration: 2 / 10 [ 20%] (Warmup) Chain 2: Iteration: 3 / 10 [ 30%] (Warmup) Chain 2: Iteration: 4 / 10 [ 40%] (Warmup) Chain 2: Iteration: 5 / 10 [ 50%] (Warmup) Chain 2: Iteration: 6 / 10 [ 60%] (Sampling) Chain 2: Iteration: 7 / 10 [ 70%] (Sampling) Chain 2: Iteration: 8 / 10 [ 80%] (Sampling) Chain 2: Iteration: 9 / 10 [ 90%] (Sampling) Chain 2: Iteration: 10 / 10 [100%] (Sampling) Chain 2: Chain 2: Elapsed Time: 0.009 seconds (Warm-up) Chain 2: 0.009 seconds (Sampling) Chain 2: 0.018 seconds (Total) Chain 2: SAMPLING FOR MODEL 'TK' NOW (CHAIN 1). Chain 1: Chain 1: Gradient evaluation took 6.7e-05 seconds Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.67 seconds. Chain 1: Adjust your expectations accordingly! Chain 1: Chain 1: Chain 1: WARNING: No variance estimation is Chain 1: performed for num_warmup < 20 Chain 1: Chain 1: Iteration: 1 / 10 [ 10%] (Warmup) Chain 1: Iteration: 2 / 10 [ 20%] (Warmup) Chain 1: Iteration: 3 / 10 [ 30%] (Warmup) Chain 1: Iteration: 4 / 10 [ 40%] (Warmup) Chain 1: Iteration: 5 / 10 [ 50%] (Warmup) Chain 1: Iteration: 6 / 10 [ 60%] (Sampling) Chain 1: Iteration: 7 / 10 [ 70%] (Sampling) Chain 1: Iteration: 8 / 10 [ 80%] (Sampling) Chain 1: Iteration: 9 / 10 [ 90%] (Sampling) Chain 1: Iteration: 10 / 10 [100%] (Sampling) Chain 1: Chain 1: Elapsed Time: 0.011 seconds (Warm-up) Chain 1: 0.013 seconds (Sampling) Chain 1: 0.024 seconds (Total) Chain 1: SAMPLING FOR MODEL 'TK' NOW (CHAIN 2). Chain 2: Chain 2: Gradient evaluation took 7.2e-05 seconds Chain 2: 1000 transitions using 10 leapfrog steps per transition would take 0.72 seconds. Chain 2: Adjust your expectations accordingly! Chain 2: Chain 2: Chain 2: WARNING: No variance estimation is Chain 2: performed for num_warmup < 20 Chain 2: Chain 2: Iteration: 1 / 10 [ 10%] (Warmup) Chain 2: Iteration: 2 / 10 [ 20%] (Warmup) Chain 2: Iteration: 3 / 10 [ 30%] (Warmup) Chain 2: Iteration: 4 / 10 [ 40%] (Warmup) Chain 2: Iteration: 5 / 10 [ 50%] (Warmup) Chain 2: Iteration: 6 / 10 [ 60%] (Sampling) Chain 2: Iteration: 7 / 10 [ 70%] (Sampling) Chain 2: Iteration: 8 / 10 [ 80%] (Sampling) Chain 2: Iteration: 9 / 10 [ 90%] (Sampling) Chain 2: Iteration: 10 / 10 [100%] (Sampling) Chain 2: Chain 2: Elapsed Time: 0.009 seconds (Warm-up) Chain 2: 0.002 seconds (Sampling) Chain 2: 0.011 seconds (Total) Chain 2: SAMPLING FOR MODEL 'TK' NOW (CHAIN 1). Chain 1: Chain 1: Gradient evaluation took 2.4e-05 seconds Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.24 seconds. Chain 1: Adjust your expectations accordingly! Chain 1: Chain 1: Chain 1: WARNING: No variance estimation is Chain 1: performed for num_warmup < 20 Chain 1: Chain 1: Iteration: 1 / 10 [ 10%] (Warmup) Chain 1: Iteration: 2 / 10 [ 20%] (Warmup) Chain 1: Iteration: 3 / 10 [ 30%] (Warmup) Chain 1: Iteration: 4 / 10 [ 40%] (Warmup) Chain 1: Iteration: 5 / 10 [ 50%] (Warmup) Chain 1: Iteration: 6 / 10 [ 60%] (Sampling) Chain 1: Iteration: 7 / 10 [ 70%] (Sampling) Chain 1: Iteration: 8 / 10 [ 80%] (Sampling) Chain 1: Iteration: 9 / 10 [ 90%] (Sampling) Chain 1: Iteration: 10 / 10 [100%] (Sampling) Chain 1: Chain 1: Elapsed Time: 0.007 seconds (Warm-up) Chain 1: 0.008 seconds (Sampling) Chain 1: 0.015 seconds (Total) Chain 1: SAMPLING FOR MODEL 'TK' NOW (CHAIN 2). Chain 2: Chain 2: Gradient evaluation took 1.8e-05 seconds Chain 2: 1000 transitions using 10 leapfrog steps per transition would take 0.18 seconds. Chain 2: Adjust your expectations accordingly! Chain 2: Chain 2: Chain 2: WARNING: No variance estimation is Chain 2: performed for num_warmup < 20 Chain 2: Chain 2: Iteration: 1 / 10 [ 10%] (Warmup) Chain 2: Iteration: 2 / 10 [ 20%] (Warmup) Chain 2: Iteration: 3 / 10 [ 30%] (Warmup) Chain 2: Iteration: 4 / 10 [ 40%] (Warmup) Chain 2: Iteration: 5 / 10 [ 50%] (Warmup) Chain 2: Iteration: 6 / 10 [ 60%] (Sampling) Chain 2: Iteration: 7 / 10 [ 70%] (Sampling) Chain 2: Iteration: 8 / 10 [ 80%] (Sampling) Chain 2: Iteration: 9 / 10 [ 90%] (Sampling) Chain 2: Iteration: 10 / 10 [100%] (Sampling) Chain 2: Chain 2: Elapsed Time: 0 seconds (Warm-up) Chain 2: 0.002 seconds (Sampling) Chain 2: 0.002 seconds (Total) Chain 2: SAMPLING FOR MODEL 'TK' NOW (CHAIN 1). Chain 1: Rejecting initial value: Chain 1: Log probability evaluates to log(0), i.e. negative infinity. Chain 1: Stan can't start sampling from this initial value. Chain 1: Rejecting initial value: Chain 1: Log probability evaluates to log(0), i.e. negative infinity. Chain 1: Stan can't start sampling from this initial value. Chain 1: Rejecting initial value: Chain 1: Log probability evaluates to log(0), i.e. negative infinity. Chain 1: Stan can't start sampling from this initial value. Chain 1: Rejecting initial value: Chain 1: Log probability evaluates to log(0), i.e. negative infinity. Chain 1: Stan can't start sampling from this initial value. Chain 1: Rejecting initial value: Chain 1: Log probability evaluates to log(0), i.e. negative infinity. Chain 1: Stan can't start sampling from this initial value. Chain 1: Chain 1: Gradient evaluation took 0.000161 seconds Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 1.61 seconds. Chain 1: Adjust your expectations accordingly! Chain 1: Chain 1: Chain 1: WARNING: No variance estimation is Chain 1: performed for num_warmup < 20 Chain 1: Chain 1: Iteration: 1 / 10 [ 10%] (Warmup) Chain 1: Iteration: 2 / 10 [ 20%] (Warmup) Chain 1: Iteration: 3 / 10 [ 30%] (Warmup) Chain 1: Iteration: 4 / 10 [ 40%] (Warmup) Chain 1: Iteration: 5 / 10 [ 50%] (Warmup) Chain 1: Iteration: 6 / 10 [ 60%] (Sampling) Chain 1: Iteration: 7 / 10 [ 70%] (Sampling) Chain 1: Iteration: 8 / 10 [ 80%] (Sampling) Chain 1: Iteration: 9 / 10 [ 90%] (Sampling) Chain 1: Iteration: 10 / 10 [100%] (Sampling) Chain 1: Chain 1: Elapsed Time: 0.011 seconds (Warm-up) Chain 1: 0.012 seconds (Sampling) Chain 1: 0.023 seconds (Total) Chain 1: SAMPLING FOR MODEL 'TK' NOW (CHAIN 2). Chain 2: Chain 2: Gradient evaluation took 0.000147 seconds Chain 2: 1000 transitions using 10 leapfrog steps per transition would take 1.47 seconds. Chain 2: Adjust your expectations accordingly! Chain 2: Chain 2: Chain 2: WARNING: No variance estimation is Chain 2: performed for num_warmup < 20 Chain 2: Chain 2: Iteration: 1 / 10 [ 10%] (Warmup) Chain 2: Iteration: 2 / 10 [ 20%] (Warmup) Chain 2: Iteration: 3 / 10 [ 30%] (Warmup) Chain 2: Iteration: 4 / 10 [ 40%] (Warmup) Chain 2: Iteration: 5 / 10 [ 50%] (Warmup) Chain 2: Iteration: 6 / 10 [ 60%] (Sampling) Chain 2: Iteration: 7 / 10 [ 70%] (Sampling) Chain 2: Iteration: 8 / 10 [ 80%] (Sampling) Chain 2: Iteration: 9 / 10 [ 90%] (Sampling) Chain 2: Iteration: 10 / 10 [100%] (Sampling) Chain 2: Chain 2: Elapsed Time: 0.011 seconds (Warm-up) Chain 2: 0.002 seconds (Sampling) Chain 2: 0.013 seconds (Total) Chain 2: Loading required namespace: coda Failed with error: 'there is no package called 'coda'' Scale for fill is already present. Adding another scale for fill, which will replace the existing scale. Loading required namespace: coda Failed with error: 'there is no package called 'coda'' Scale for fill is already present. Adding another scale for fill, which will replace the existing scale. Loading required namespace: coda Failed with error: 'there is no package called 'coda'' Loading required namespace: coda Failed with error: 'there is no package called 'coda'' Loading required namespace: coda Failed with error: 'there is no package called 'coda'' Loading required namespace: coda Failed with error: 'there is no package called 'coda'' Loading required namespace: coda Failed with error: 'there is no package called 'coda'' SAMPLING FOR MODEL 'TK' NOW (CHAIN 1). Chain 1: Chain 1: Gradient evaluation took 2.8e-05 seconds Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.28 seconds. Chain 1: Adjust your expectations accordingly! Chain 1: Chain 1: Chain 1: WARNING: No variance estimation is Chain 1: performed for num_warmup < 20 Chain 1: Chain 1: Iteration: 1 / 10 [ 10%] (Warmup) Chain 1: Iteration: 2 / 10 [ 20%] (Warmup) Chain 1: Iteration: 3 / 10 [ 30%] (Warmup) Chain 1: Iteration: 4 / 10 [ 40%] (Warmup) Chain 1: Iteration: 5 / 10 [ 50%] (Warmup) Chain 1: Iteration: 6 / 10 [ 60%] (Sampling) Chain 1: Iteration: 7 / 10 [ 70%] (Sampling) Chain 1: Iteration: 8 / 10 [ 80%] (Sampling) Chain 1: Iteration: 9 / 10 [ 90%] (Sampling) Chain 1: Iteration: 10 / 10 [100%] (Sampling) Chain 1: Chain 1: Elapsed Time: 0.017 seconds (Warm-up) Chain 1: 0.004 seconds (Sampling) Chain 1: 0.021 seconds (Total) Chain 1: SAMPLING FOR MODEL 'TK' NOW (CHAIN 2). Chain 2: Chain 2: Gradient evaluation took 2.7e-05 seconds Chain 2: 1000 transitions using 10 leapfrog steps per transition would take 0.27 seconds. Chain 2: Adjust your expectations accordingly! Chain 2: Chain 2: Chain 2: WARNING: No variance estimation is Chain 2: performed for num_warmup < 20 Chain 2: Chain 2: Iteration: 1 / 10 [ 10%] (Warmup) Chain 2: Iteration: 2 / 10 [ 20%] (Warmup) Chain 2: Iteration: 3 / 10 [ 30%] (Warmup) Chain 2: Iteration: 4 / 10 [ 40%] (Warmup) Chain 2: Iteration: 5 / 10 [ 50%] (Warmup) Chain 2: Iteration: 6 / 10 [ 60%] (Sampling) Chain 2: Iteration: 7 / 10 [ 70%] (Sampling) Chain 2: Iteration: 8 / 10 [ 80%] (Sampling) Chain 2: Iteration: 9 / 10 [ 90%] (Sampling) Chain 2: Iteration: 10 / 10 [100%] (Sampling) Chain 2: Chain 2: Elapsed Time: 0.01 seconds (Warm-up) Chain 2: 0.001 seconds (Sampling) Chain 2: 0.011 seconds (Total) Chain 2: SAMPLING FOR MODEL 'TK' NOW (CHAIN 1). Chain 1: Rejecting initial value: Chain 1: Log probability evaluates to log(0), i.e. negative infinity. Chain 1: Stan can't start sampling from this initial value. Chain 1: Rejecting initial value: Chain 1: Log probability evaluates to log(0), i.e. negative infinity. Chain 1: Stan can't start sampling from this initial value. Chain 1: Chain 1: Gradient evaluation took 0.000155 seconds Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 1.55 seconds. Chain 1: Adjust your expectations accordingly! Chain 1: Chain 1: Chain 1: WARNING: No variance estimation is Chain 1: performed for num_warmup < 20 Chain 1: Chain 1: Iteration: 1 / 10 [ 10%] (Warmup) Chain 1: Iteration: 2 / 10 [ 20%] (Warmup) Chain 1: Iteration: 3 / 10 [ 30%] (Warmup) Chain 1: Iteration: 4 / 10 [ 40%] (Warmup) Chain 1: Iteration: 5 / 10 [ 50%] (Warmup) Chain 1: Iteration: 6 / 10 [ 60%] (Sampling) Chain 1: Iteration: 7 / 10 [ 70%] (Sampling) Chain 1: Iteration: 8 / 10 [ 80%] (Sampling) Chain 1: Iteration: 9 / 10 [ 90%] (Sampling) Chain 1: Iteration: 10 / 10 [100%] (Sampling) Chain 1: Chain 1: Elapsed Time: 0.009 seconds (Warm-up) Chain 1: 0.012 seconds (Sampling) Chain 1: 0.021 seconds (Total) Chain 1: SAMPLING FOR MODEL 'TK' NOW (CHAIN 2). Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Chain 2: Gradient evaluation took 0.00015 seconds Chain 2: 1000 transitions using 10 leapfrog steps per transition would take 1.5 seconds. Chain 2: Adjust your expectations accordingly! Chain 2: Chain 2: Chain 2: WARNING: No variance estimation is Chain 2: performed for num_warmup < 20 Chain 2: Chain 2: Iteration: 1 / 10 [ 10%] (Warmup) Chain 2: Iteration: 2 / 10 [ 20%] (Warmup) Chain 2: Iteration: 3 / 10 [ 30%] (Warmup) Chain 2: Iteration: 4 / 10 [ 40%] (Warmup) Chain 2: Iteration: 5 / 10 [ 50%] (Warmup) Chain 2: Iteration: 6 / 10 [ 60%] (Sampling) Chain 2: Iteration: 7 / 10 [ 70%] (Sampling) Chain 2: Iteration: 8 / 10 [ 80%] (Sampling) Chain 2: Iteration: 9 / 10 [ 90%] (Sampling) Chain 2: Iteration: 10 / 10 [100%] (Sampling) Chain 2: Chain 2: Elapsed Time: 0.01 seconds (Warm-up) Chain 2: 0.013 seconds (Sampling) Chain 2: 0.023 seconds (Total) Chain 2: Loading required namespace: coda Failed with error: 'there is no package called 'coda'' Scale for colour is already present. Adding another scale for colour, which will replace the existing scale. Loading required namespace: coda Failed with error: 'there is no package called 'coda'' Scale for colour is already present. Adding another scale for colour, which will replace the existing scale. Loading required namespace: coda Failed with error: 'there is no package called 'coda'' Scale for colour is already present. Adding another scale for colour, which will replace the existing scale. Loading required namespace: coda Failed with error: 'there is no package called 'coda'' Scale for colour is already present. Adding another scale for colour, which will replace the existing scale. Loading required namespace: coda Failed with error: 'there is no package called 'coda'' Scale for colour is already present. Adding another scale for colour, which will replace the existing scale. Loading required namespace: coda Failed with error: 'there is no package called 'coda'' Scale for colour is already present. Adding another scale for colour, which will replace the existing scale. SAMPLING FOR MODEL 'TK' NOW (CHAIN 1). Chain 1: Chain 1: Gradient evaluation took 2.9e-05 seconds Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.29 seconds. Chain 1: Adjust your expectations accordingly! Chain 1: Chain 1: Chain 1: WARNING: No variance estimation is Chain 1: performed for num_warmup < 20 Chain 1: Chain 1: Iteration: 1 / 10 [ 10%] (Warmup) Chain 1: Iteration: 2 / 10 [ 20%] (Warmup) Chain 1: Iteration: 3 / 10 [ 30%] (Warmup) Chain 1: Iteration: 4 / 10 [ 40%] (Warmup) Chain 1: Iteration: 5 / 10 [ 50%] (Warmup) Chain 1: Iteration: 6 / 10 [ 60%] (Sampling) Chain 1: Iteration: 7 / 10 [ 70%] (Sampling) Chain 1: Iteration: 8 / 10 [ 80%] (Sampling) Chain 1: Iteration: 9 / 10 [ 90%] (Sampling) Chain 1: Iteration: 10 / 10 [100%] (Sampling) Chain 1: Chain 1: Elapsed Time: 0.009 seconds (Warm-up) Chain 1: 0.001 seconds (Sampling) Chain 1: 0.01 seconds (Total) Chain 1: SAMPLING FOR MODEL 'TK' NOW (CHAIN 2). Chain 2: Chain 2: Gradient evaluation took 2.4e-05 seconds Chain 2: 1000 transitions using 10 leapfrog steps per transition would take 0.24 seconds. Chain 2: Adjust your expectations accordingly! Chain 2: Chain 2: Chain 2: WARNING: No variance estimation is Chain 2: performed for num_warmup < 20 Chain 2: Chain 2: Iteration: 1 / 10 [ 10%] (Warmup) Chain 2: Iteration: 2 / 10 [ 20%] (Warmup) Chain 2: Iteration: 3 / 10 [ 30%] (Warmup) Chain 2: Iteration: 4 / 10 [ 40%] (Warmup) Chain 2: Iteration: 5 / 10 [ 50%] (Warmup) Chain 2: Iteration: 6 / 10 [ 60%] (Sampling) Chain 2: Iteration: 7 / 10 [ 70%] (Sampling) Chain 2: Iteration: 8 / 10 [ 80%] (Sampling) Chain 2: Iteration: 9 / 10 [ 90%] (Sampling) Chain 2: Iteration: 10 / 10 [100%] (Sampling) Chain 2: Chain 2: Elapsed Time: 0.001 seconds (Warm-up) Chain 2: 0.001 seconds (Sampling) Chain 2: 0.002 seconds (Total) Chain 2: SAMPLING FOR MODEL 'TK' NOW (CHAIN 3). Chain 3: Chain 3: Gradient evaluation took 2.1e-05 seconds Chain 3: 1000 transitions using 10 leapfrog steps per transition would take 0.21 seconds. Chain 3: Adjust your expectations accordingly! Chain 3: Chain 3: Chain 3: WARNING: No variance estimation is Chain 3: performed for num_warmup < 20 Chain 3: Chain 3: Iteration: 1 / 10 [ 10%] (Warmup) Chain 3: Iteration: 2 / 10 [ 20%] (Warmup) Chain 3: Iteration: 3 / 10 [ 30%] (Warmup) Chain 3: Iteration: 4 / 10 [ 40%] (Warmup) Chain 3: Iteration: 5 / 10 [ 50%] (Warmup) Chain 3: Iteration: 6 / 10 [ 60%] (Sampling) Chain 3: Iteration: 7 / 10 [ 70%] (Sampling) Chain 3: Iteration: 8 / 10 [ 80%] (Sampling) Chain 3: Iteration: 9 / 10 [ 90%] (Sampling) Chain 3: Iteration: 10 / 10 [100%] (Sampling) Chain 3: Chain 3: Elapsed Time: 0.008 seconds (Warm-up) Chain 3: 0.006 seconds (Sampling) Chain 3: 0.014 seconds (Total) Chain 3: SAMPLING FOR MODEL 'TK' NOW (CHAIN 4). Chain 4: Chain 4: Gradient evaluation took 2.3e-05 seconds Chain 4: 1000 transitions using 10 leapfrog steps per transition would take 0.23 seconds. Chain 4: Adjust your expectations accordingly! Chain 4: Chain 4: Chain 4: WARNING: No variance estimation is Chain 4: performed for num_warmup < 20 Chain 4: Chain 4: Iteration: 1 / 10 [ 10%] (Warmup) Chain 4: Iteration: 2 / 10 [ 20%] (Warmup) Chain 4: Iteration: 3 / 10 [ 30%] (Warmup) Chain 4: Iteration: 4 / 10 [ 40%] (Warmup) Chain 4: Iteration: 5 / 10 [ 50%] (Warmup) Chain 4: Iteration: 6 / 10 [ 60%] (Sampling) Chain 4: Iteration: 7 / 10 [ 70%] (Sampling) Chain 4: Iteration: 8 / 10 [ 80%] (Sampling) Chain 4: Iteration: 9 / 10 [ 90%] (Sampling) Chain 4: Iteration: 10 / 10 [100%] (Sampling) Chain 4: Chain 4: Elapsed Time: 0.013 seconds (Warm-up) Chain 4: 0.006 seconds (Sampling) Chain 4: 0.019 seconds (Total) Chain 4: SAMPLING FOR MODEL 'TK' NOW (CHAIN 1). Chain 1: Rejecting initial value: Chain 1: Log probability evaluates to log(0), i.e. negative infinity. Chain 1: Stan can't start sampling from this initial value. Chain 1: Rejecting initial value: Chain 1: Log probability evaluates to log(0), i.e. negative infinity. Chain 1: Stan can't start sampling from this initial value. Chain 1: Chain 1: Gradient evaluation took 0.000105 seconds Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 1.05 seconds. Chain 1: Adjust your expectations accordingly! Chain 1: Chain 1: Chain 1: WARNING: No variance estimation is Chain 1: performed for num_warmup < 20 Chain 1: Chain 1: Iteration: 1 / 10 [ 10%] (Warmup) Chain 1: Iteration: 2 / 10 [ 20%] (Warmup) Chain 1: Iteration: 3 / 10 [ 30%] (Warmup) Chain 1: Iteration: 4 / 10 [ 40%] (Warmup) Chain 1: Iteration: 5 / 10 [ 50%] (Warmup) Chain 1: Iteration: 6 / 10 [ 60%] (Sampling) Chain 1: Iteration: 7 / 10 [ 70%] (Sampling) Chain 1: Iteration: 8 / 10 [ 80%] (Sampling) Chain 1: Iteration: 9 / 10 [ 90%] (Sampling) Chain 1: Iteration: 10 / 10 [100%] (Sampling) Chain 1: Chain 1: Elapsed Time: 0.011 seconds (Warm-up) Chain 1: 0.013 seconds (Sampling) Chain 1: 0.024 seconds (Total) Chain 1: SAMPLING FOR MODEL 'TK' NOW (CHAIN 2). Chain 2: Chain 2: Gradient evaluation took 0.000147 seconds Chain 2: 1000 transitions using 10 leapfrog steps per transition would take 1.47 seconds. Chain 2: Adjust your expectations accordingly! Chain 2: Chain 2: Chain 2: WARNING: No variance estimation is Chain 2: performed for num_warmup < 20 Chain 2: Chain 2: Iteration: 1 / 10 [ 10%] (Warmup) Chain 2: Iteration: 2 / 10 [ 20%] (Warmup) Chain 2: Iteration: 3 / 10 [ 30%] (Warmup) Chain 2: Iteration: 4 / 10 [ 40%] (Warmup) Chain 2: Iteration: 5 / 10 [ 50%] (Warmup) Chain 2: Iteration: 6 / 10 [ 60%] (Sampling) Chain 2: Iteration: 7 / 10 [ 70%] (Sampling) Chain 2: Iteration: 8 / 10 [ 80%] (Sampling) Chain 2: Iteration: 9 / 10 [ 90%] (Sampling) Chain 2: Iteration: 10 / 10 [100%] (Sampling) Chain 2: Chain 2: Elapsed Time: 0.011 seconds (Warm-up) Chain 2: 0.007 seconds (Sampling) Chain 2: 0.018 seconds (Total) Chain 2: SAMPLING FOR MODEL 'TK' NOW (CHAIN 3). Chain 3: Rejecting initial value: Chain 3: Log probability evaluates to log(0), i.e. negative infinity. Chain 3: Stan can't start sampling from this initial value. Chain 3: Rejecting initial value: Chain 3: Log probability evaluates to log(0), i.e. negative infinity. Chain 3: Stan can't start sampling from this initial value. Chain 3: Chain 3: Gradient evaluation took 0.000102 seconds Chain 3: 1000 transitions using 10 leapfrog steps per transition would take 1.02 seconds. Chain 3: Adjust your expectations accordingly! Chain 3: Chain 3: Chain 3: WARNING: No variance estimation is Chain 3: performed for num_warmup < 20 Chain 3: Chain 3: Iteration: 1 / 10 [ 10%] (Warmup) Chain 3: Iteration: 2 / 10 [ 20%] (Warmup) Chain 3: Iteration: 3 / 10 [ 30%] (Warmup) Chain 3: Iteration: 4 / 10 [ 40%] (Warmup) Chain 3: Iteration: 5 / 10 [ 50%] (Warmup) Chain 3: Iteration: 6 / 10 [ 60%] (Sampling) Chain 3: Iteration: 7 / 10 [ 70%] (Sampling) Chain 3: Iteration: 8 / 10 [ 80%] (Sampling) Chain 3: Iteration: 9 / 10 [ 90%] (Sampling) Chain 3: Iteration: 10 / 10 [100%] (Sampling) Chain 3: Chain 3: Elapsed Time: 0.01 seconds (Warm-up) Chain 3: 0.012 seconds (Sampling) Chain 3: 0.022 seconds (Total) Chain 3: SAMPLING FOR MODEL 'TK' NOW (CHAIN 4). Chain 4: Chain 4: Gradient evaluation took 0.000149 seconds Chain 4: 1000 transitions using 10 leapfrog steps per transition would take 1.49 seconds. Chain 4: Adjust your expectations accordingly! Chain 4: Chain 4: Chain 4: WARNING: No variance estimation is Chain 4: performed for num_warmup < 20 Chain 4: Chain 4: Iteration: 1 / 10 [ 10%] (Warmup) Chain 4: Iteration: 2 / 10 [ 20%] (Warmup) Chain 4: Iteration: 3 / 10 [ 30%] (Warmup) Chain 4: Iteration: 4 / 10 [ 40%] (Warmup) Chain 4: Iteration: 5 / 10 [ 50%] (Warmup) Chain 4: Iteration: 6 / 10 [ 60%] (Sampling) Chain 4: Iteration: 7 / 10 [ 70%] (Sampling) Chain 4: Iteration: 8 / 10 [ 80%] (Sampling) Chain 4: Iteration: 9 / 10 [ 90%] (Sampling) Chain 4: Iteration: 10 / 10 [100%] (Sampling) Chain 4: Chain 4: Elapsed Time: 0.009 seconds (Warm-up) Chain 4: 0.013 seconds (Sampling) Chain 4: 0.022 seconds (Total) Chain 4: SAMPLING FOR MODEL 'TK' NOW (CHAIN 1). Chain 1: Chain 1: Gradient evaluation took 6.8e-05 seconds Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.68 seconds. Chain 1: Adjust your expectations accordingly! Chain 1: Chain 1: Chain 1: WARNING: No variance estimation is Chain 1: performed for num_warmup < 20 Chain 1: Chain 1: Iteration: 1 / 10 [ 10%] (Warmup) Chain 1: Iteration: 2 / 10 [ 20%] (Warmup) Chain 1: Iteration: 3 / 10 [ 30%] (Warmup) Chain 1: Iteration: 4 / 10 [ 40%] (Warmup) Chain 1: Iteration: 5 / 10 [ 50%] (Warmup) Chain 1: Iteration: 6 / 10 [ 60%] (Sampling) Chain 1: Iteration: 7 / 10 [ 70%] (Sampling) Chain 1: Iteration: 8 / 10 [ 80%] (Sampling) Chain 1: Iteration: 9 / 10 [ 90%] (Sampling) Chain 1: Iteration: 10 / 10 [100%] (Sampling) Chain 1: Chain 1: Elapsed Time: 0.006 seconds (Warm-up) Chain 1: 0.008 seconds (Sampling) Chain 1: 0.014 seconds (Total) Chain 1: SAMPLING FOR MODEL 'TK' NOW (CHAIN 2). Chain 2: Chain 2: Gradient evaluation took 5.7e-05 seconds Chain 2: 1000 transitions using 10 leapfrog steps per transition would take 0.57 seconds. Chain 2: Adjust your expectations accordingly! Chain 2: Chain 2: Chain 2: WARNING: No variance estimation is Chain 2: performed for num_warmup < 20 Chain 2: Chain 2: Iteration: 1 / 10 [ 10%] (Warmup) Chain 2: Iteration: 2 / 10 [ 20%] (Warmup) Chain 2: Iteration: 3 / 10 [ 30%] (Warmup) Chain 2: Iteration: 4 / 10 [ 40%] (Warmup) Chain 2: Iteration: 5 / 10 [ 50%] (Warmup) Chain 2: Iteration: 6 / 10 [ 60%] (Sampling) Chain 2: Iteration: 7 / 10 [ 70%] (Sampling) Chain 2: Iteration: 8 / 10 [ 80%] (Sampling) Chain 2: Iteration: 9 / 10 [ 90%] (Sampling) Chain 2: Iteration: 10 / 10 [100%] (Sampling) Chain 2: Chain 2: Elapsed Time: 0.006 seconds (Warm-up) Chain 2: 0.008 seconds (Sampling) Chain 2: 0.014 seconds (Total) Chain 2: SAMPLING FOR MODEL 'TK' NOW (CHAIN 3). Chain 3: Chain 3: Gradient evaluation took 5.4e-05 seconds Chain 3: 1000 transitions using 10 leapfrog steps per transition would take 0.54 seconds. Chain 3: Adjust your expectations accordingly! Chain 3: Chain 3: Chain 3: WARNING: No variance estimation is Chain 3: performed for num_warmup < 20 Chain 3: Chain 3: Iteration: 1 / 10 [ 10%] (Warmup) Chain 3: Iteration: 2 / 10 [ 20%] (Warmup) Chain 3: Iteration: 3 / 10 [ 30%] (Warmup) Chain 3: Iteration: 4 / 10 [ 40%] (Warmup) Chain 3: Iteration: 5 / 10 [ 50%] (Warmup) Chain 3: Iteration: 6 / 10 [ 60%] (Sampling) Chain 3: Iteration: 7 / 10 [ 70%] (Sampling) Chain 3: Iteration: 8 / 10 [ 80%] (Sampling) Chain 3: Iteration: 9 / 10 [ 90%] (Sampling) Chain 3: Iteration: 10 / 10 [100%] (Sampling) Chain 3: Chain 3: Elapsed Time: 0.01 seconds (Warm-up) Chain 3: 0.002 seconds (Sampling) Chain 3: 0.012 seconds (Total) Chain 3: SAMPLING FOR MODEL 'TK' NOW (CHAIN 4). Chain 4: Chain 4: Gradient evaluation took 7.6e-05 seconds Chain 4: 1000 transitions using 10 leapfrog steps per transition would take 0.76 seconds. Chain 4: Adjust your expectations accordingly! Chain 4: Chain 4: Chain 4: WARNING: No variance estimation is Chain 4: performed for num_warmup < 20 Chain 4: Chain 4: Iteration: 1 / 10 [ 10%] (Warmup) Chain 4: Iteration: 2 / 10 [ 20%] (Warmup) Chain 4: Iteration: 3 / 10 [ 30%] (Warmup) Chain 4: Iteration: 4 / 10 [ 40%] (Warmup) Chain 4: Iteration: 5 / 10 [ 50%] (Warmup) Chain 4: Iteration: 6 / 10 [ 60%] (Sampling) Chain 4: Iteration: 7 / 10 [ 70%] (Sampling) Chain 4: Iteration: 8 / 10 [ 80%] (Sampling) Chain 4: Iteration: 9 / 10 [ 90%] (Sampling) Chain 4: Iteration: 10 / 10 [100%] (Sampling) Chain 4: Chain 4: Elapsed Time: 0.008 seconds (Warm-up) Chain 4: 0.002 seconds (Sampling) Chain 4: 0.01 seconds (Total) Chain 4: SAMPLING FOR MODEL 'TK' NOW (CHAIN 1). Chain 1: Chain 1: Gradient evaluation took 1.9e-05 seconds Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.19 seconds. Chain 1: Adjust your expectations accordingly! Chain 1: Chain 1: Chain 1: WARNING: No variance estimation is Chain 1: performed for num_warmup < 20 Chain 1: Chain 1: Iteration: 1 / 10 [ 10%] (Warmup) Chain 1: Iteration: 2 / 10 [ 20%] (Warmup) Chain 1: Iteration: 3 / 10 [ 30%] (Warmup) Chain 1: Iteration: 4 / 10 [ 40%] (Warmup) Chain 1: Iteration: 5 / 10 [ 50%] (Warmup) Chain 1: Iteration: 6 / 10 [ 60%] (Sampling) Chain 1: Iteration: 7 / 10 [ 70%] (Sampling) Chain 1: Iteration: 8 / 10 [ 80%] (Sampling) Chain 1: Iteration: 9 / 10 [ 90%] (Sampling) Chain 1: Iteration: 10 / 10 [100%] (Sampling) Chain 1: Chain 1: Elapsed Time: 0.009 seconds (Warm-up) Chain 1: 0.001 seconds (Sampling) Chain 1: 0.01 seconds (Total) Chain 1: SAMPLING FOR MODEL 'TK' NOW (CHAIN 2). Chain 2: Chain 2: Gradient evaluation took 2.4e-05 seconds Chain 2: 1000 transitions using 10 leapfrog steps per transition would take 0.24 seconds. Chain 2: Adjust your expectations accordingly! Chain 2: Chain 2: Chain 2: WARNING: No variance estimation is Chain 2: performed for num_warmup < 20 Chain 2: Chain 2: Iteration: 1 / 10 [ 10%] (Warmup) Chain 2: Iteration: 2 / 10 [ 20%] (Warmup) Chain 2: Iteration: 3 / 10 [ 30%] (Warmup) Chain 2: Iteration: 4 / 10 [ 40%] (Warmup) Chain 2: Iteration: 5 / 10 [ 50%] (Warmup) Chain 2: Iteration: 6 / 10 [ 60%] (Sampling) Chain 2: Iteration: 7 / 10 [ 70%] (Sampling) Chain 2: Iteration: 8 / 10 [ 80%] (Sampling) Chain 2: Iteration: 9 / 10 [ 90%] (Sampling) Chain 2: Iteration: 10 / 10 [100%] (Sampling) Chain 2: Chain 2: Elapsed Time: 0.001 seconds (Warm-up) Chain 2: 0.001 seconds (Sampling) Chain 2: 0.002 seconds (Total) Chain 2: SAMPLING FOR MODEL 'TK' NOW (CHAIN 1). Chain 1: Rejecting initial value: Chain 1: Log probability evaluates to log(0), i.e. negative infinity. Chain 1: Stan can't start sampling from this initial value. Chain 1: Chain 1: Gradient evaluation took 0.000146 seconds Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 1.46 seconds. Chain 1: Adjust your expectations accordingly! Chain 1: Chain 1: Chain 1: WARNING: No variance estimation is Chain 1: performed for num_warmup < 20 Chain 1: Chain 1: Iteration: 1 / 10 [ 10%] (Warmup) Chain 1: Iteration: 2 / 10 [ 20%] (Warmup) Chain 1: Iteration: 3 / 10 [ 30%] (Warmup) Chain 1: Iteration: 4 / 10 [ 40%] (Warmup) Chain 1: Iteration: 5 / 10 [ 50%] (Warmup) Chain 1: Iteration: 6 / 10 [ 60%] (Sampling) Chain 1: Iteration: 7 / 10 [ 70%] (Sampling) Chain 1: Iteration: 8 / 10 [ 80%] (Sampling) Chain 1: Iteration: 9 / 10 [ 90%] (Sampling) Chain 1: Iteration: 10 / 10 [100%] (Sampling) Chain 1: Chain 1: Elapsed Time: 0.01 seconds (Warm-up) Chain 1: 0.012 seconds (Sampling) Chain 1: 0.022 seconds (Total) Chain 1: SAMPLING FOR MODEL 'TK' NOW (CHAIN 2). Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Chain 2: Gradient evaluation took 0.000142 seconds Chain 2: 1000 transitions using 10 leapfrog steps per transition would take 1.42 seconds. Chain 2: Adjust your expectations accordingly! Chain 2: Chain 2: Chain 2: WARNING: No variance estimation is Chain 2: performed for num_warmup < 20 Chain 2: Chain 2: Iteration: 1 / 10 [ 10%] (Warmup) Chain 2: Iteration: 2 / 10 [ 20%] (Warmup) Chain 2: Iteration: 3 / 10 [ 30%] (Warmup) Chain 2: Iteration: 4 / 10 [ 40%] (Warmup) Chain 2: Iteration: 5 / 10 [ 50%] (Warmup) Chain 2: Iteration: 6 / 10 [ 60%] (Sampling) Chain 2: Iteration: 7 / 10 [ 70%] (Sampling) Chain 2: Iteration: 8 / 10 [ 80%] (Sampling) Chain 2: Iteration: 9 / 10 [ 90%] (Sampling) Chain 2: Iteration: 10 / 10 [100%] (Sampling) Chain 2: Chain 2: Elapsed Time: 0.008 seconds (Warm-up) Chain 2: 0.012 seconds (Sampling) Chain 2: 0.02 seconds (Total) Chain 2: SAMPLING FOR MODEL 'TK' NOW (CHAIN 1). Chain 1: Chain 1: Gradient evaluation took 2.6e-05 seconds Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.26 seconds. Chain 1: Adjust your expectations accordingly! Chain 1: Chain 1: Chain 1: WARNING: No variance estimation is Chain 1: performed for num_warmup < 20 Chain 1: Chain 1: Iteration: 1 / 10 [ 10%] (Warmup) Chain 1: Iteration: 2 / 10 [ 20%] (Warmup) Chain 1: Iteration: 3 / 10 [ 30%] (Warmup) Chain 1: Iteration: 4 / 10 [ 40%] (Warmup) Chain 1: Iteration: 5 / 10 [ 50%] (Warmup) Chain 1: Iteration: 6 / 10 [ 60%] (Sampling) Chain 1: Iteration: 7 / 10 [ 70%] (Sampling) Chain 1: Iteration: 8 / 10 [ 80%] (Sampling) Chain 1: Iteration: 9 / 10 [ 90%] (Sampling) Chain 1: Iteration: 10 / 10 [100%] (Sampling) Chain 1: Chain 1: Elapsed Time: 0.002 seconds (Warm-up) Chain 1: 0.005 seconds (Sampling) Chain 1: 0.007 seconds (Total) Chain 1: SAMPLING FOR MODEL 'TK' NOW (CHAIN 2). Chain 2: Chain 2: Gradient evaluation took 1.5e-05 seconds Chain 2: 1000 transitions using 10 leapfrog steps per transition would take 0.15 seconds. Chain 2: Adjust your expectations accordingly! Chain 2: Chain 2: Chain 2: WARNING: No variance estimation is Chain 2: performed for num_warmup < 20 Chain 2: Chain 2: Iteration: 1 / 10 [ 10%] (Warmup) Chain 2: Iteration: 2 / 10 [ 20%] (Warmup) Chain 2: Iteration: 3 / 10 [ 30%] (Warmup) Chain 2: Iteration: 4 / 10 [ 40%] (Warmup) Chain 2: Iteration: 5 / 10 [ 50%] (Warmup) Chain 2: Iteration: 6 / 10 [ 60%] (Sampling) Chain 2: Iteration: 7 / 10 [ 70%] (Sampling) Chain 2: Iteration: 8 / 10 [ 80%] (Sampling) Chain 2: Iteration: 9 / 10 [ 90%] (Sampling) Chain 2: Iteration: 10 / 10 [100%] (Sampling) Chain 2: Chain 2: Elapsed Time: 0.005 seconds (Warm-up) Chain 2: 0 seconds (Sampling) Chain 2: 0.005 seconds (Total) Chain 2: SAMPLING FOR MODEL 'TK' NOW (CHAIN 1). Chain 1: Rejecting initial value: Chain 1: Log probability evaluates to log(0), i.e. negative infinity. Chain 1: Stan can't start sampling from this initial value. Chain 1: Rejecting initial value: Chain 1: Log probability evaluates to log(0), i.e. negative infinity. Chain 1: Stan can't start sampling from this initial value. Chain 1: Chain 1: Gradient evaluation took 0.000148 seconds Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 1.48 seconds. Chain 1: Adjust your expectations accordingly! Chain 1: Chain 1: Chain 1: WARNING: No variance estimation is Chain 1: performed for num_warmup < 20 Chain 1: Chain 1: Iteration: 1 / 10 [ 10%] (Warmup) Chain 1: Iteration: 2 / 10 [ 20%] (Warmup) Chain 1: Iteration: 3 / 10 [ 30%] (Warmup) Chain 1: Iteration: 4 / 10 [ 40%] (Warmup) Chain 1: Iteration: 5 / 10 [ 50%] (Warmup) Chain 1: Iteration: 6 / 10 [ 60%] (Sampling) Chain 1: Iteration: 7 / 10 [ 70%] (Sampling) Chain 1: Iteration: 8 / 10 [ 80%] (Sampling) Chain 1: Iteration: 9 / 10 [ 90%] (Sampling) Chain 1: Iteration: 10 / 10 [100%] (Sampling) Chain 1: Chain 1: Elapsed Time: 0.011 seconds (Warm-up) Chain 1: 0.018 seconds (Sampling) Chain 1: 0.029 seconds (Total) Chain 1: SAMPLING FOR MODEL 'TK' NOW (CHAIN 2). Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Chain 2: Gradient evaluation took 0.000155 seconds Chain 2: 1000 transitions using 10 leapfrog steps per transition would take 1.55 seconds. Chain 2: Adjust your expectations accordingly! Chain 2: Chain 2: Chain 2: WARNING: No variance estimation is Chain 2: performed for num_warmup < 20 Chain 2: Chain 2: Iteration: 1 / 10 [ 10%] (Warmup) Chain 2: Iteration: 2 / 10 [ 20%] (Warmup) Chain 2: Iteration: 3 / 10 [ 30%] (Warmup) Chain 2: Iteration: 4 / 10 [ 40%] (Warmup) Chain 2: Iteration: 5 / 10 [ 50%] (Warmup) Chain 2: Iteration: 6 / 10 [ 60%] (Sampling) Chain 2: Iteration: 7 / 10 [ 70%] (Sampling) Chain 2: Iteration: 8 / 10 [ 80%] (Sampling) Chain 2: Iteration: 9 / 10 [ 90%] (Sampling) Chain 2: Iteration: 10 / 10 [100%] (Sampling) Chain 2: Chain 2: Elapsed Time: 0.013 seconds (Warm-up) Chain 2: 0.002 seconds (Sampling) Chain 2: 0.015 seconds (Total) Chain 2: SAMPLING FOR MODEL 'TK' NOW (CHAIN 1). Chain 1: Chain 1: Gradient evaluation took 2.6e-05 seconds Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 0.26 seconds. Chain 1: Adjust your expectations accordingly! Chain 1: Chain 1: Chain 1: WARNING: No variance estimation is Chain 1: performed for num_warmup < 20 Chain 1: Chain 1: Iteration: 1 / 10 [ 10%] (Warmup) Chain 1: Iteration: 2 / 10 [ 20%] (Warmup) Chain 1: Iteration: 3 / 10 [ 30%] (Warmup) Chain 1: Iteration: 4 / 10 [ 40%] (Warmup) Chain 1: Iteration: 5 / 10 [ 50%] (Warmup) Chain 1: Iteration: 6 / 10 [ 60%] (Sampling) Chain 1: Iteration: 7 / 10 [ 70%] (Sampling) Chain 1: Iteration: 8 / 10 [ 80%] (Sampling) Chain 1: Iteration: 9 / 10 [ 90%] (Sampling) Chain 1: Iteration: 10 / 10 [100%] (Sampling) Chain 1: Chain 1: Elapsed Time: 0.009 seconds (Warm-up) Chain 1: 0.009 seconds (Sampling) Chain 1: 0.018 seconds (Total) Chain 1: SAMPLING FOR MODEL 'TK' NOW (CHAIN 2). Chain 2: Chain 2: Gradient evaluation took 2.6e-05 seconds Chain 2: 1000 transitions using 10 leapfrog steps per transition would take 0.26 seconds. Chain 2: Adjust your expectations accordingly! Chain 2: Chain 2: Chain 2: WARNING: No variance estimation is Chain 2: performed for num_warmup < 20 Chain 2: Chain 2: Iteration: 1 / 10 [ 10%] (Warmup) Chain 2: Iteration: 2 / 10 [ 20%] (Warmup) Chain 2: Iteration: 3 / 10 [ 30%] (Warmup) Chain 2: Iteration: 4 / 10 [ 40%] (Warmup) Chain 2: Iteration: 5 / 10 [ 50%] (Warmup) Chain 2: Iteration: 6 / 10 [ 60%] (Sampling) Chain 2: Iteration: 7 / 10 [ 70%] (Sampling) Chain 2: Iteration: 8 / 10 [ 80%] (Sampling) Chain 2: Iteration: 9 / 10 [ 90%] (Sampling) Chain 2: Iteration: 10 / 10 [100%] (Sampling) Chain 2: Chain 2: Elapsed Time: 0.017 seconds (Warm-up) Chain 2: 0.008 seconds (Sampling) Chain 2: 0.025 seconds (Total) Chain 2: SAMPLING FOR MODEL 'TK' NOW (CHAIN 1). Chain 1: Rejecting initial value: Chain 1: Log probability evaluates to log(0), i.e. negative infinity. Chain 1: Stan can't start sampling from this initial value. Chain 1: Rejecting initial value: Chain 1: Log probability evaluates to log(0), i.e. negative infinity. Chain 1: Stan can't start sampling from this initial value. Chain 1: Rejecting initial value: Chain 1: Log probability evaluates to log(0), i.e. negative infinity. Chain 1: Stan can't start sampling from this initial value. Chain 1: Rejecting initial value: Chain 1: Log probability evaluates to log(0), i.e. negative infinity. Chain 1: Stan can't start sampling from this initial value. Chain 1: Chain 1: Gradient evaluation took 0.000183 seconds Chain 1: 1000 transitions using 10 leapfrog steps per transition would take 1.83 seconds. Chain 1: Adjust your expectations accordingly! Chain 1: Chain 1: Chain 1: WARNING: No variance estimation is Chain 1: performed for num_warmup < 20 Chain 1: Chain 1: Iteration: 1 / 10 [ 10%] (Warmup) Chain 1: Iteration: 2 / 10 [ 20%] (Warmup) Chain 1: Iteration: 3 / 10 [ 30%] (Warmup) Chain 1: Iteration: 4 / 10 [ 40%] (Warmup) Chain 1: Iteration: 5 / 10 [ 50%] (Warmup) Chain 1: Iteration: 6 / 10 [ 60%] (Sampling) Chain 1: Iteration: 7 / 10 [ 70%] (Sampling) Chain 1: Iteration: 8 / 10 [ 80%] (Sampling) Chain 1: Iteration: 9 / 10 [ 90%] (Sampling) Chain 1: Iteration: 10 / 10 [100%] (Sampling) Chain 1: Chain 1: Elapsed Time: 0.005 seconds (Warm-up) Chain 1: 0.007 seconds (Sampling) Chain 1: 0.012 seconds (Total) Chain 1: SAMPLING FOR MODEL 'TK' NOW (CHAIN 2). Chain 2: Rejecting initial value: Chain 2: Log probability evaluates to log(0), i.e. negative infinity. Chain 2: Stan can't start sampling from this initial value. Chain 2: Chain 2: Gradient evaluation took 0.000137 seconds Chain 2: 1000 transitions using 10 leapfrog steps per transition would take 1.37 seconds. Chain 2: Adjust your expectations accordingly! Chain 2: Chain 2: Chain 2: WARNING: No variance estimation is Chain 2: performed for num_warmup < 20 Chain 2: Chain 2: Iteration: 1 / 10 [ 10%] (Warmup) Chain 2: Iteration: 2 / 10 [ 20%] (Warmup) Chain 2: Iteration: 3 / 10 [ 30%] (Warmup) Chain 2: Iteration: 4 / 10 [ 40%] (Warmup) Chain 2: Iteration: 5 / 10 [ 50%] (Warmup) Chain 2: Iteration: 6 / 10 [ 60%] (Sampling) Chain 2: Iteration: 7 / 10 [ 70%] (Sampling) Chain 2: Iteration: 8 / 10 [ 80%] (Sampling) Chain 2: Iteration: 9 / 10 [ 90%] (Sampling) Chain 2: Iteration: 10 / 10 [100%] (Sampling) Chain 2: Chain 2: Elapsed Time: 0.007 seconds (Warm-up) Chain 2: 0.002 seconds (Sampling) Chain 2: 0.009 seconds (Total) Chain 2: [ FAIL 5 | WARN 87 | SKIP 9 | PASS 75 ] ══ Skipped tests (9) ═══════════════════════════════════════════════════════════ • On CRAN (6): 'test-elim.R:3:3', 'test-fit.R:3:3', 'test-fitODE.R:3:3', 'test-predict.R:3:3', 'test-predict.R:61:3', 'test-predict_manual.R:3:3' • empty test (3): 'test-PP.R:1:1', 'test-correlation.R:1:1', 'test-ppc.R:1:1' ══ Failed tests ════════════════════════════════════════════════════════════════ ── Failure ('test-correlation.R:28:5'): corrPlot ─────────────────────────────── all(class(plt_MGS) == c("gg", "ggmatrix")) is not TRUE `actual`: FALSE `expected`: TRUE ── Failure ('test-correlation.R:29:5'): corrPlot ─────────────────────────────── all(class(plt_MGS_det) == c("gg", "ggmatrix")) is not TRUE `actual`: FALSE `expected`: TRUE ── Failure ('test-correlation.R:30:5'): corrPlot ─────────────────────────────── all(class(plt_MGSG) == c("gg", "ggmatrix")) is not TRUE `actual`: FALSE `expected`: TRUE ── Failure ('test-correlation.R:31:5'): corrPlot ─────────────────────────────── all(class(plt_MGSG_det) == c("gg", "ggmatrix")) is not TRUE `actual`: FALSE `expected`: TRUE ── Failure ('test-correlation.R:32:5'): corrPlot ─────────────────────────────── all(class(plt_MGSG_sto) == c("gg", "ggmatrix")) is not TRUE `actual`: FALSE `expected`: TRUE [ FAIL 5 | WARN 87 | SKIP 9 | PASS 75 ] Error: Test failures Execution halted * checking for unstated dependencies in vignettes ... OK * checking package vignettes ... OK * checking re-building of vignette outputs ... [42s] OK * checking PDF version of manual ... [21s] OK * checking HTML version of manual ... [6s] OK * DONE Status: 1 ERROR