Started by an SCM change
Obtained jenkins_tests/clubb_G_unit_reverse_dir_grid_test/Jenkinsfile from git https://github.com/larson-group/clubb.git
[Pipeline] Start of Pipeline
[Pipeline] node
Still waiting to schedule task
Waiting for next available executor
Running on nelson in /home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test
[Pipeline] {
[Pipeline] stage
[Pipeline] { (Declarative: Checkout SCM)
[Pipeline] checkout
The recommended git tool is: git
No credentials specified
Cloning the remote Git repository
Cloning repository https://github.com/larson-group/clubb.git
 > git init /home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test # timeout=10
Fetching upstream changes from https://github.com/larson-group/clubb.git
 > git --version # timeout=10
 > git --version # 'git version 2.34.1'
 > git fetch --tags --force --progress -- https://github.com/larson-group/clubb.git +refs/heads/*:refs/remotes/origin/* # timeout=10
Avoid second fetch
Checking out Revision adfc58ffc5ad4d9bef00fc5e766b6d5a52079d8e (refs/remotes/origin/master)
 > git config remote.origin.url https://github.com/larson-group/clubb.git # timeout=10
 > git config --add remote.origin.fetch +refs/heads/*:refs/remotes/origin/* # timeout=10
 > git rev-parse refs/remotes/origin/master^{commit} # timeout=10
 > git config core.sparsecheckout # timeout=10
 > git checkout -f adfc58ffc5ad4d9bef00fc5e766b6d5a52079d8e # timeout=10
Commit message: "Autoupdated clubb's morrison using sam's morrison"
 > git rev-list --no-walk b2e170923249df969fc5b3c0057edce4c1138e7d # timeout=10
[Pipeline] }
[Pipeline] // stage
[Pipeline] withEnv
[Pipeline] {
[Pipeline] stage
[Pipeline] { (Turn Off All Other Units Tests)
[Pipeline] sh
+ sed -i s:true:false:g input_misc/G_unit_tests.in
[Pipeline] }
[Pipeline] // stage
[Pipeline] stage
[Pipeline] { (Enable the Reverse Direction Grid Test)
[Pipeline] sh
+ sed -i 's:l_rev_direction_grid_test.*:l_rev_direction_grid_test = .true.:g' input_misc/G_unit_tests.in
[Pipeline] }
[Pipeline] // stage
[Pipeline] stage
[Pipeline] { (Compile)
[Pipeline] sh
+ source /etc/profile.d/larson-group.sh
++ export GIT_EDITOR=vi
++ GIT_EDITOR=vi
++ export SVN_EDITOR=vi
++ SVN_EDITOR=vi
++ export OMP_STACKSIZE=1048579
++ OMP_STACKSIZE=1048579
++ export LMOD_ROOT=/opt/lmod/
++ LMOD_ROOT=/opt/lmod/
++ source /opt/lmod//lmod/lmod/init/bash
+++ '[' -z '' ']'
+++ case "$-" in
+++ __lmod_vx=x
+++ '[' -n x ']'
+++ set +x
Shell debugging temporarily silenced: export LMOD_SH_DBG_ON=1 for this output (/usr/local/spack/opt/spack/linux-pop22-skylake_avx512/gcc-12.2.0/lmod-8.7.37-qorv6nkkjzyzntx6wbjupmoxrot26t6r/lmod/lmod/init/bash)
Shell debugging restarted
+++ unset __lmod_vx
+++ find /usr/local/spack/share/spack/lmod/linux-pop22-x86_64/Core -print -quit
++ export MODULEPATH=/usr/local/spack/share/spack/lmod/linux-pop22-x86_64/Core
++ MODULEPATH=/usr/local/spack/share/spack/lmod/linux-pop22-x86_64/Core
+ module load gcc netcdf-fortran
+ '[' -z '' ']'
+ case "$-" in
+ __lmod_sh_dbg=x
+ '[' -n x ']'
+ set +x
Shell debugging temporarily silenced: export LMOD_SH_DBG_ON=1 for Lmod's output
Lmod Warning:
-------------------------------------------------------------------------------
The following dependent module(s) are not currently loaded:
gcc-runtime/13.1.0-wiuv7wc (required by: mpich/4.2.1, hdf5/1.14.3-cb5lzz7,
netcdf-c/4.9.2, netcdf-fortran/4.5.3), glibc/2.35-tdr5czg (required by:
mpich/4.2.1, hdf5/1.14.3-cb5lzz7, netcdf-c/4.9.2, netcdf-fortran/4.5.3)
-------------------------------------------------------------------------------



Shell debugging restarted
+ unset __lmod_sh_dbg
+ return 0
+ ./compile.py -debug
-- The Fortran compiler identification is GNU 13.1.0
-- The C compiler identification is GNU 13.1.0
-- The CXX compiler identification is GNU 13.1.0
-- Detecting Fortran compiler ABI info
-- Detecting Fortran compiler ABI info - done
-- Check for working Fortran compiler: /usr/local/spack/opt/spack/linux-pop22-skylake_avx512/gcc-12.2.0/gcc-13.1.0-ly4g5v5mnoe2su6clyt6sk674bfvfow2/bin/gfortran - skipped
-- Detecting C compiler ABI info
-- Detecting C compiler ABI info - done
-- Check for working C compiler: /usr/local/spack/opt/spack/linux-pop22-skylake_avx512/gcc-12.2.0/gcc-13.1.0-ly4g5v5mnoe2su6clyt6sk674bfvfow2/bin/gcc - skipped
-- Detecting C compile features
-- Detecting C compile features - done
-- Detecting CXX compiler ABI info
-- Detecting CXX compiler ABI info - done
-- Check for working CXX compiler: /usr/local/spack/opt/spack/linux-pop22-skylake_avx512/gcc-12.2.0/gcc-13.1.0-ly4g5v5mnoe2su6clyt6sk674bfvfow2/bin/g++ - skipped
-- Detecting CXX compile features
-- Detecting CXX compile features - done
-- Compiling with double precision
-- Found PkgConfig: /usr/local/spack/opt/spack/linux-pop22-skylake_avx512/gcc-12.2.0/pkgconf-2.2.0-m7jt4djj7ycrz7g6yadslcm2qmulsagd/bin/pkg-config (found version "2.2.0") 
-- Checking for module 'netcdf-fortran'
--   Found netcdf-fortran, version 4.5.3
-- netcdf-fortran found via pkg-config
-- Include dirs: /usr/local/spack/opt/spack/linux-pop22-skylake_avx512/gcc-13.1.0/netcdf-fortran-4.5.3-zcsi7k5jxdw7dz5ufpdkyk6ovim7ebwe/include;/usr/local/spack/opt/spack/linux-pop22-skylake_avx512/gcc-13.1.0/netcdf-c-4.9.2-xml2oscem46fvlpwmjl32gwen2vtlpuu/include
-- Libraries:    netcdff
-- Derived NetCDFFortran_ROOT = /usr/local/spack/opt/spack/linux-pop22-skylake_avx512/gcc-13.1.0/netcdf-fortran-4.5.3-zcsi7k5jxdw7dz5ufpdkyk6ovim7ebwe
-- Configuring done
-- Generating done
-- Build files have been written to: /home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/build/gcc_DEBUG_PRECdouble
Using inferred toolchain file: /home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/cmake/toolchains/linux_x86_64_gcc.cmake
Setting CLUBB installation dir: /home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/build/gcc_DEBUG_PRECdouble
Setting CLUBB installation dir: /home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/install/gcc_DEBUG_PRECdouble
about to cmnake /home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/build/gcc_DEBUG_PRECdouble
Running CMake configure...
Scanning dependencies of target scm_activation_lib
Scanning dependencies of target clubb_lapack_single
[  0%] Building Fortran object src/Microphys/SCM_Activation/CMakeFiles/scm_activation_lib.dir/aer_ccn_act_k.F90.o
Scanning dependencies of target clubb_lapack_shared
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[  0%] Building Fortran object src/Lapack/Lapack_shared/CMakeFiles/clubb_lapack_shared.dir/lsame.f.o
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[  6%] Linking Fortran static library libscm_activation_lib.a
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[ 72%] Linking Fortran static library libcoamps_lib.a
[ 72%] Building Fortran object src/Microphys/KK_microphys/CMakeFiles/KK_microphys_lib.dir/KK_upscaled_covariances.F90.o
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[ 73%] Built target KK_microphys_lib
Scanning dependencies of target silhs_lib
[ 74%] Building Fortran object src/SILHS/CMakeFiles/silhs_lib.dir/est_kessler_microphys_module.F90.o
[ 74%] Building Fortran object src/SILHS/CMakeFiles/silhs_lib.dir/latin_hypercube_arrays.F90.o
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[ 75%] Building Fortran object src/SILHS/CMakeFiles/silhs_lib.dir/transform_to_pdf_module.F90.o
[ 75%] Building Fortran object src/Radiation/BUGSrad/CMakeFiles/bugsrad_lib.dir/bugs_lwr.F.o
[ 75%] Building Fortran object src/Radiation/BUGSrad/CMakeFiles/bugsrad_lib.dir/bugs_swr.F.o
[ 75%] Building Fortran object src/SILHS/CMakeFiles/silhs_lib.dir/generate_uniform_sample_module.F90.o
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[ 75%] Linking Fortran static library libbugsrad_lib.a
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[ 76%] Built target bugsrad_lib
/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/SILHS/silhs_importance_sample_module.F90:638:62:

  633 |       do category=1, num_importance_categories
      |                                              2                
......
  638 |                rand_vect(sample) <  category_cumulative_probs(category+1) ) then
      |                                                              1
Warning: Array reference at (1) out of bounds (9 > 8) in loop beginning at (2) [-Wdo-subscript]
[ 76%] Building Fortran object src/SILHS/CMakeFiles/silhs_lib.dir/latin_hypercube_driver_module.F90.o
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[ 76%] Linking Fortran static library libsilhs_lib.a
[ 76%] Built target silhs_lib
Scanning dependencies of target radiation_lib
Scanning dependencies of target numerical_recipes_lib
[ 76%] Building Fortran object src/Radiation/CMakeFiles/radiation_lib.dir/cos_solar_zen_module.F90.o
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/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/Numerical_recipes/ran_state.f90:8:59:

    8 |   INTEGER(K4B), PARAMETER :: hg=huge(1_K4B), hgm=-hg, hgng=hgm-1
      |                                                           1
Warning: Integer outside symmetric range implied by Standard Fortran at (1)
[ 80%] Building Fortran object src/Radiation/CMakeFiles/radiation_lib.dir/radiation_module.F90.o
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[ 81%] Built target radiation_lib
Scanning dependencies of target input_fields_lib
[ 81%] Building Fortran object src/Input_fields/CMakeFiles/input_fields_lib.dir/extrapolation.F90.o
[ 81%] Building Fortran object src/Input_fields/CMakeFiles/input_fields_lib.dir/stat_file_module.F90.o
[ 82%] Building Fortran object src/Input_fields/CMakeFiles/input_fields_lib.dir/input_names.F90.o
[ 83%] Building Fortran object src/Input_fields/CMakeFiles/input_fields_lib.dir/hydrostatic_module.F90.o
[ 83%] Building Fortran object src/Input_fields/CMakeFiles/input_fields_lib.dir/input_reader.F90.o
[ 83%] Building Fortran object src/Input_fields/CMakeFiles/input_fields_lib.dir/input_grads.F90.o
[ 83%] Building Fortran object src/Input_fields/CMakeFiles/input_fields_lib.dir/input_netcdf.F90.o
/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/Input_fields/input_reader.F90:498:28:

  491 |     do i=1, dim_grid
      |                    2        
......
  498 |         if ( grid(i) < grid(i-1) ) then
      |                            1
Warning: Array reference at (1) out of bounds (0 < 1) in loop beginning at (2) [-Wdo-subscript]
[ 83%] Building Fortran object src/Input_fields/CMakeFiles/input_fields_lib.dir/stat_file_utils.F90.o
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[ 84%] Building Fortran object src/Input_fields/CMakeFiles/input_fields_lib.dir/corr_varnce_input_reader.F90.o
[ 84%] Building Fortran object src/Input_fields/CMakeFiles/input_fields_lib.dir/input_fields.F90.o
[ 84%] Building Fortran object src/Input_fields/CMakeFiles/input_fields_lib.dir/sounding.F90.o
/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/Input_fields/sounding.F90:156:13:

  156 |       p_in_Pa, & ! Pressure                               [Pa]
      |             1
Warning: Array 'p_in_pa' at (1) is larger than limit set by '-fmax-stack-var-size=', moved from stack to static storage. This makes the procedure unsafe when called recursively, or concurrently from multiple threads. Consider increasing the '-fmax-stack-var-size=' limit (or use '-frecursive', which implies unlimited '-fmax-stack-var-size') - or change the code to use an ALLOCATABLE array. If the variable is never accessed concurrently, this warning can be ignored, and the variable could also be declared with the SAVE attribute. [-Wsurprising]
/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/Input_fields/sounding.F90:151:8:

  151 |       rt,      & ! Total water mixing ratio sounding      [kg/kg]
      |        1
Warning: Array 'rt' at (1) is larger than limit set by '-fmax-stack-var-size=', moved from stack to static storage. This makes the procedure unsafe when called recursively, or concurrently from multiple threads. Consider increasing the '-fmax-stack-var-size=' limit (or use '-frecursive', which implies unlimited '-fmax-stack-var-size') - or change the code to use an ALLOCATABLE array. If the variable is never accessed concurrently, this warning can be ignored, and the variable could also be declared with the SAVE attribute. [-Wsurprising]
/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/Input_fields/sounding.F90:157:10:

  157 |       subs       ! Vertical velocity sounding             [m/s or Pa/s]
      |          1
Warning: Array 'subs' at (1) is larger than limit set by '-fmax-stack-var-size=', moved from stack to static storage. This makes the procedure unsafe when called recursively, or concurrently from multiple threads. Consider increasing the '-fmax-stack-var-size=' limit (or use '-frecursive', which implies unlimited '-fmax-stack-var-size') - or change the code to use an ALLOCATABLE array. If the variable is never accessed concurrently, this warning can be ignored, and the variable could also be declared with the SAVE attribute. [-Wsurprising]
/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/Input_fields/sounding.F90:150:11:

  150 |       theta,   & ! Liquid potential temperature sounding  [K]
      |           1
Warning: Array 'theta' at (1) is larger than limit set by '-fmax-stack-var-size=', moved from stack to static storage. This makes the procedure unsafe when called recursively, or concurrently from multiple threads. Consider increasing the '-fmax-stack-var-size=' limit (or use '-frecursive', which implies unlimited '-fmax-stack-var-size') - or change the code to use an ALLOCATABLE array. If the variable is never accessed concurrently, this warning can be ignored, and the variable could also be declared with the SAVE attribute. [-Wsurprising]
/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/Input_fields/sounding.F90:152:7:

  152 |       u,       & ! u wind sounding                        [m/s]
      |       1
Warning: Array 'u' at (1) is larger than limit set by '-fmax-stack-var-size=', moved from stack to static storage. This makes the procedure unsafe when called recursively, or concurrently from multiple threads. Consider increasing the '-fmax-stack-var-size=' limit (or use '-frecursive', which implies unlimited '-fmax-stack-var-size') - or change the code to use an ALLOCATABLE array. If the variable is never accessed concurrently, this warning can be ignored, and the variable could also be declared with the SAVE attribute. [-Wsurprising]
/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/Input_fields/sounding.F90:154:8:

  154 |       ug,      & ! u geostrophic wind sounding            [m/s]
      |        1
Warning: Array 'ug' at (1) is larger than limit set by '-fmax-stack-var-size=', moved from stack to static storage. This makes the procedure unsafe when called recursively, or concurrently from multiple threads. Consider increasing the '-fmax-stack-var-size=' limit (or use '-frecursive', which implies unlimited '-fmax-stack-var-size') - or change the code to use an ALLOCATABLE array. If the variable is never accessed concurrently, this warning can be ignored, and the variable could also be declared with the SAVE attribute. [-Wsurprising]
/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/Input_fields/sounding.F90:153:7:

  153 |       v,       & ! v wind sounding                        [m/s]
      |       1
Warning: Array 'v' at (1) is larger than limit set by '-fmax-stack-var-size=', moved from stack to static storage. This makes the procedure unsafe when called recursively, or concurrently from multiple threads. Consider increasing the '-fmax-stack-var-size=' limit (or use '-frecursive', which implies unlimited '-fmax-stack-var-size') - or change the code to use an ALLOCATABLE array. If the variable is never accessed concurrently, this warning can be ignored, and the variable could also be declared with the SAVE attribute. [-Wsurprising]
/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/Input_fields/sounding.F90:155:8:

  155 |       vg,      & ! v geostrophic wind sounding            [m/s]
      |        1
Warning: Array 'vg' at (1) is larger than limit set by '-fmax-stack-var-size=', moved from stack to static storage. This makes the procedure unsafe when called recursively, or concurrently from multiple threads. Consider increasing the '-fmax-stack-var-size=' limit (or use '-frecursive', which implies unlimited '-fmax-stack-var-size') - or change the code to use an ALLOCATABLE array. If the variable is never accessed concurrently, this warning can be ignored, and the variable could also be declared with the SAVE attribute. [-Wsurprising]
/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/Input_fields/sounding.F90:149:7:

  149 |       z,       & ! Altitude                               [m]
      |       1
Warning: Array 'z' at (1) is larger than limit set by '-fmax-stack-var-size=', moved from stack to static storage. This makes the procedure unsafe when called recursively, or concurrently from multiple threads. Consider increasing the '-fmax-stack-var-size=' limit (or use '-frecursive', which implies unlimited '-fmax-stack-var-size') - or change the code to use an ALLOCATABLE array. If the variable is never accessed concurrently, this warning can be ignored, and the variable could also be declared with the SAVE attribute. [-Wsurprising]
[ 84%] Linking Fortran static library libinput_fields_lib.a
[ 84%] Built target input_fields_lib
Scanning dependencies of target G_unit_test_lib
Scanning dependencies of target benchmark_cases_lib
[ 84%] Building Fortran object src/G_unit_test_types/CMakeFiles/G_unit_test_lib.dir/KK_integrals_tests.F90.o
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Scanning dependencies of target microphys_lib
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/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/G_unit_test_types/fill_holes_tests.F90:407:27:

  407 |                  .or. any( field(:,upper_hf_level:nz) /= field(:,upper_hf_level:nz) ) ) then
      |                           1
Warning: Inequality comparison for REAL(8) at (1) [-Wcompare-reals]
/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/G_unit_test_types/fill_holes_tests.F90:406:22:

  406 |             if ( any( field(:,1:lower_hf_level) /= field(:,1:lower_hf_level) ) &
      |                      1
Warning: Inequality comparison for REAL(8) at (1) [-Wcompare-reals]
/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/G_unit_test_types/fill_holes_tests.F90:462:22:

  462 |             if ( any( field_rev_rev /= field ) ) then
      |                      1
Warning: Inequality comparison for REAL(8) at (1) [-Wcompare-reals]
/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/G_unit_test_types/fill_holes_tests.F90:221:27:

  221 |                  .or. any( field(:,upper_hf_level:nz) /= field(:,upper_hf_level:nz) ) ) then
      |                           1
Warning: Inequality comparison for REAL(8) at (1) [-Wcompare-reals]
/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/G_unit_test_types/fill_holes_tests.F90:220:22:

  220 |             if ( any( field(:,1:lower_hf_level) /= field(:,1:lower_hf_level) ) &
      |                      1
Warning: Inequality comparison for REAL(8) at (1) [-Wcompare-reals]
/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/G_unit_test_types/fill_holes_tests.F90:275:22:

  275 |             if ( any( field_rev_rev /= field ) ) then
      |                      1
Warning: Inequality comparison for REAL(8) at (1) [-Wcompare-reals]
[ 85%] Building Fortran object src/Microphys/CMakeFiles/microphys_lib.dir/parameters_microphys.F90.o
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[ 87%] Building Fortran object src/G_unit_test_types/CMakeFiles/G_unit_test_lib.dir/rev_direction_grid_test.F90.o
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[ 90%] Building Fortran object src/G_unit_test_types/CMakeFiles/G_unit_test_lib.dir/w_up_in_cloud_tests.F90.o
/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/Microphys/ice_dfsn_module.F90:272:25:

  207 |     do k = gr%nzt, 1, -1
      |                        2 
......
  272 |           mass_ice_cryst(k-1) = mass_ice_cryst(k)  &
      |                         1
Warning: Array reference at (1) out of bounds (0 < 1) in loop beginning at (2) [-Wdo-subscript]
/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/src/Microphys/ice_dfsn_module.F90:287:25:

  207 |     do k = gr%nzt, 1, -1
      |                        2 
......
  287 |           mass_ice_cryst(k-1) = mass_ice_cryst(k)
      |                         1
Warning: Array reference at (1) out of bounds (0 < 1) in loop beginning at (2) [-Wdo-subscript]
[ 90%] Building Fortran object src/Microphys/CMakeFiles/microphys_lib.dir/mixed_moment_PDF_integrals.F90.o
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[ 96%] Built target G_unit_test_lib
Scanning dependencies of target G_unit_tests
[ 96%] Building Fortran object src/CMakeFiles/G_unit_tests.dir/G_unit_tests.F90.o
[ 96%] Linking Fortran executable G_unit_tests
[ 96%] Building Fortran object src/Microphys/CMakeFiles/microphys_lib.dir/KK_microphys_module.F90.o
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[ 96%] Building Fortran object src/Microphys/CMakeFiles/microphys_lib.dir/lh_microphys_driver_module.F90.o
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[ 98%] Linking Fortran static library libmicrophys_lib.a
[ 98%] Built target microphys_lib
Scanning dependencies of target clubb_driver_lib
[ 99%] Building Fortran object src/CMakeFiles/clubb_driver_lib.dir/generalized_grid_test.F90.o
[ 99%] Building Fortran object src/CMakeFiles/clubb_driver_lib.dir/clubb_driver.F90.o
[ 99%] Linking Fortran static library libclubb_driver_lib.a
[ 99%] Built target clubb_driver_lib
Scanning dependencies of target clubb_standalone
Scanning dependencies of target clubb_thread_test
Scanning dependencies of target clubb_driver_test
Scanning dependencies of target clubb_tuner
[ 99%] Building Fortran object src/CMakeFiles/clubb_driver_test.dir/clubb_driver_test.F90.o
[100%] Building Fortran object src/CMakeFiles/clubb_thread_test.dir/clubb_thread_test.F90.o
[100%] Building Fortran object src/CMakeFiles/clubb_standalone.dir/clubb_standalone.F90.o
[100%] Building Fortran object src/CMakeFiles/clubb_tuner.dir/error.F90.o
[100%] Linking Fortran executable clubb_standalone
[100%] Linking Fortran executable clubb_thread_test
[100%] Linking Fortran executable clubb_driver_test
[100%] Built target clubb_thread_test
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[100%] Building Fortran object src/CMakeFiles/clubb_tuner.dir/clubb_tuner.F90.o
[100%] Linking Fortran executable clubb_tuner
[100%] Built target clubb_tuner
Install the project...
-- Install configuration: "Debug"
-- Installing: /home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/install/gcc_DEBUG_PRECdouble/libclubb_driver_lib.a
-- Installing: /home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/install/gcc_DEBUG_PRECdouble/clubb_tuner
-- Set runtime path of "/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/install/gcc_DEBUG_PRECdouble/clubb_tuner" to "/usr/local/spack/opt/spack/linux-pop22-skylake_avx512/gcc-13.1.0/netcdf-fortran-4.5.3-zcsi7k5jxdw7dz5ufpdkyk6ovim7ebwe:/usr/local/spack/opt/spack/linux-pop22-skylake_avx512/gcc-13.1.0/netcdf-fortran-4.5.3-zcsi7k5jxdw7dz5ufpdkyk6ovim7ebwe/lib"
-- Installing: /home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/install/gcc_DEBUG_PRECdouble/G_unit_tests
-- Set runtime path of "/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/install/gcc_DEBUG_PRECdouble/G_unit_tests" to "/usr/local/spack/opt/spack/linux-pop22-skylake_avx512/gcc-13.1.0/netcdf-fortran-4.5.3-zcsi7k5jxdw7dz5ufpdkyk6ovim7ebwe:/usr/local/spack/opt/spack/linux-pop22-skylake_avx512/gcc-13.1.0/netcdf-fortran-4.5.3-zcsi7k5jxdw7dz5ufpdkyk6ovim7ebwe/lib"
-- Installing: /home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/install/gcc_DEBUG_PRECdouble/clubb_thread_test
-- Set runtime path of "/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/install/gcc_DEBUG_PRECdouble/clubb_thread_test" to "/usr/local/spack/opt/spack/linux-pop22-skylake_avx512/gcc-13.1.0/netcdf-fortran-4.5.3-zcsi7k5jxdw7dz5ufpdkyk6ovim7ebwe:/usr/local/spack/opt/spack/linux-pop22-skylake_avx512/gcc-13.1.0/netcdf-fortran-4.5.3-zcsi7k5jxdw7dz5ufpdkyk6ovim7ebwe/lib"
-- Installing: /home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/install/gcc_DEBUG_PRECdouble/clubb_standalone
-- Set runtime path of "/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/install/gcc_DEBUG_PRECdouble/clubb_standalone" to "/usr/local/spack/opt/spack/linux-pop22-skylake_avx512/gcc-13.1.0/netcdf-fortran-4.5.3-zcsi7k5jxdw7dz5ufpdkyk6ovim7ebwe:/usr/local/spack/opt/spack/linux-pop22-skylake_avx512/gcc-13.1.0/netcdf-fortran-4.5.3-zcsi7k5jxdw7dz5ufpdkyk6ovim7ebwe/lib"
-- Installing: /home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/install/gcc_DEBUG_PRECdouble/clubb_driver_test
-- Set runtime path of "/home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/install/gcc_DEBUG_PRECdouble/clubb_driver_test" to "/usr/local/spack/opt/spack/linux-pop22-skylake_avx512/gcc-13.1.0/netcdf-fortran-4.5.3-zcsi7k5jxdw7dz5ufpdkyk6ovim7ebwe:/usr/local/spack/opt/spack/linux-pop22-skylake_avx512/gcc-13.1.0/netcdf-fortran-4.5.3-zcsi7k5jxdw7dz5ufpdkyk6ovim7ebwe/lib"
CLUBBStandardsCheck.py: beginning check on src
PASS: 0 checks failed for src
CLUBBStandardsCheck.py: beginning check on src/CLUBB_core
PASS: 0 checks failed for src/CLUBB_core
CLUBBStandardsCheck.py: beginning check on src/SILHS
PASS: 0 checks failed for src/SILHS
CLUBBStandardsCheck.py: beginning check on src/Benchmark_cases
PASS: 0 checks failed for src/Benchmark_cases
CLUBBStandardsCheck.py: beginning check on src/Radiation
PASS: 0 checks failed for src/Radiation
CLUBBStandardsCheck.py: beginning check on src/Microphys
PASS: 0 checks failed for src/Microphys
CLUBBStandardsCheck.py: beginning check on src/Microphys/KK_microphys
PASS: 0 checks failed for src/Microphys/KK_microphys
CLUBBStandardsCheck.py: beginning check on src/G_unit_test_types
PASS: 0 checks failed for src/G_unit_test_types

Build completed successfully, and all source code checks passed.
[Pipeline] }
[Pipeline] // stage
[Pipeline] stage
[Pipeline] { (Run)
[Pipeline] sh
+ python run_scripts/run_G_unit_tests.py
Running G_unit_tests
 
Performing KK integrals tests
 
Percent Difference Tolerance (maximum acceptable percent difference between the CLUBB results and the MATLAB results using the same equations):   1.50000E-12
 
Saturation option (x2_opt for covariance integrals and x1_opt for mean integrals):  1
 
Agreement with regards to integral:  Quadrivariate NNLL
Obtained result:    3.940566852245362E-04
MATLAB result:    3.940566852245361E-04
Percent difference:   1.37569E-14%
 
Agreement with regards to integral:  Quadrivariate NNLL (const. x1)
Obtained result:    3.927115990964176E-04
MATLAB result:    3.927115990964175E-04
Percent difference:   2.76081E-14%
 
Agreement with regards to integral:  Quadrivariate NNLL (const. x2)
Obtained result:    3.959157231937519E-04
MATLAB result:    3.959157231937519E-04
Percent difference:   1.36923E-14%
 
Agreement with regards to integral:  Quadrivariate NNLL (const. x1 and x2)
Obtained result:    3.961224408774508E-04
MATLAB result:    3.961224408774508E-04
Percent difference:   1.36852E-14%
 
Agreement with regards to integral:  Trivariate NNL
Obtained result:    5.957899876478518E-10
MATLAB result:    5.957899876478559E-10
Percent difference:   6.94188E-13%
 
Agreement with regards to integral:  Trivariate NNL (const. x1)
Obtained result:    5.299646183560617E-10
MATLAB result:    5.299646183560650E-10
Percent difference:   6.24329E-13%
 
Agreement with regards to integral:  Trivariate NNL (const. x2)
Obtained result:    5.543555152546510E-10
MATLAB result:    5.543555152546526E-10
Percent difference:   2.98430E-13%
 
Agreement with regards to integral:  Trivariate NNL (const. x1 and x2)
Obtained result:    5.286452253001267E-10
MATLAB result:    5.286452253001284E-10
Percent difference:   3.12944E-13%
 
--------------------------------------------------
 
Agreement with regards to integral:  Trivariate NLL
Obtained result:   -9.854231981928352E-04
MATLAB result:   -9.854231981928350E-04
Percent difference:   2.20048E-14%
 
Agreement with regards to integral:  Trivariate NLL (const. x1)
Obtained result:   -9.922448817549015E-04
MATLAB result:   -9.922448817549015E-04
Percent difference:   0.00000E+00%
 
Agreement with regards to integral:  Bivariate NL
Obtained result:    8.940070763287877E-09
MATLAB result:    8.940070763287870E-09
Percent difference:   7.40201E-14%
 
Agreement with regards to integral:  Bivariate NL (const. x1)
Obtained result:    8.942709549399747E-09
MATLAB result:    8.942709549399743E-09
Percent difference:   3.69991E-14%
 
Agreement with regards to integral:  Bivariate LL
Obtained result:    1.007487885941809E-02
MATLAB result:    1.007487885941809E-02
Percent difference:   1.72183E-14%
 
==================================================
 
Saturation option (x2_opt for covariance integrals and x1_opt for mean integrals):  2
 
Agreement with regards to integral:  Quadrivariate NNLL
Obtained result:   -4.441972023148827E-05
MATLAB result:   -4.441972023148829E-05
Percent difference:   4.57652E-14%
 
Agreement with regards to integral:  Quadrivariate NNLL (const. x1)
Obtained result:   -4.559373570842309E-05
MATLAB result:   -4.559373570842311E-05
Percent difference:   4.45868E-14%
 
Agreement with regards to integral:  Quadrivariate NNLL (const. x2)
Obtained result:   -5.040842768062482E-05
MATLAB result:   -5.040842768062482E-05
Percent difference:   0.00000E+00%
 
Agreement with regards to integral:  Quadrivariate NNLL (const. x1 and x2)
Obtained result:   -5.038775591225493E-05
MATLAB result:   -5.038775591225493E-05
Percent difference:   0.00000E+00%
 
Agreement with regards to integral:  Trivariate NNL
Obtained result:    4.629614112194526E-09
MATLAB result:    4.629614112194527E-09
Percent difference:   1.78672E-14%
 
Agreement with regards to integral:  Trivariate NNL (const. x1)
Obtained result:    4.604609365066508E-09
MATLAB result:    4.604609365066509E-09
Percent difference:   1.79642E-14%
 
Agreement with regards to integral:  Trivariate NNL (const. x2)
Obtained result:    4.685272472815394E-09
MATLAB result:    4.685272472815394E-09
Percent difference:   1.76549E-14%
 
Agreement with regards to integral:  Trivariate NNL (const. x1 and x2)
Obtained result:    4.683452323676534E-09
MATLAB result:    4.683452323676534E-09
Percent difference:   0.00000E+00%
 
--------------------------------------------------
 
Agreement with regards to integral:  Trivariate NLL
Obtained result:   -1.088125285831538E-04
MATLAB result:   -1.088125285831538E-04
Percent difference:   2.49099E-14%
 
Agreement with regards to integral:  Trivariate NLL (const. x1)
Obtained result:   -9.922448817549016E-05
MATLAB result:   -9.922448817549016E-05
Percent difference:   0.00000E+00%
 
Agreement with regards to integral:  Bivariate NL
Obtained result:    7.907812698669825E-10
MATLAB result:    7.907812698669821E-10
Percent difference:   5.23015E-14%
 
Agreement with regards to integral:  Bivariate NL (const. x1)
Obtained result:    6.330953526469324E-10
MATLAB result:    6.330953526469324E-10
Percent difference:   0.00000E+00%
 
==================================================
 
Saturation option (x2_opt for covariance integrals and x1_opt for mean integrals):  3
 
Agreement with regards to integral:  Quadrivariate NNLL
Obtained result:   -7.622010070476262E-05
MATLAB result:   -7.622010070476262E-05
Percent difference:   0.00000E+00%
 
Agreement with regards to integral:  Quadrivariate NNLL (const. x1)
Obtained result:   -7.695119321547280E-05
MATLAB result:   -7.695119321547280E-05
Percent difference:   0.00000E+00%
 
Agreement with regards to integral:  Quadrivariate NNLL (const. x2)
Obtained result:   -1.000000000000000E-04
MATLAB result:   -1.000000000000000E-04
Percent difference:   0.00000E+00%
 
Agreement with regards to integral:  Quadrivariate NNLL (const. x1 and x2)
Obtained result:   -1.000000000000000E-04
MATLAB result:   -1.000000000000000E-04
Percent difference:   0.00000E+00%
 
Agreement with regards to integral:  Trivariate NNL
Obtained result:    4.851589269710427E-09
MATLAB result:    4.851589269710427E-09
Percent difference:   0.00000E+00%
 
Agreement with regards to integral:  Trivariate NNL (const. x1)
Obtained result:    4.837259568295437E-09
MATLAB result:    4.837259568295437E-09
Percent difference:   1.71002E-14%
 
Agreement with regards to integral:  Trivariate NNL (const. x2)
Obtained result:    5.000000000000000E-09
MATLAB result:    5.000000000000000E-09
Percent difference:   0.00000E+00%
 
Agreement with regards to integral:  Trivariate NNL (const. x1 and x2)
Obtained result:    5.000000000000000E-09
MATLAB result:    5.000000000000000E-09
Percent difference:   0.00000E+00%
 
--------------------------------------------------
 
Agreement with regards to integral:  Trivariate NLL
Obtained result:   -4.609761356905442E-05
MATLAB result:   -4.609761356905441E-05
Percent difference:   1.46998E-14%
 
Agreement with regards to integral:  Trivariate NLL (const. x1)
Obtained result:    0.000000000000000E+00
MATLAB result:    0.000000000000000E+00
Percent difference:   0.00000E+00%
 
Agreement with regards to integral:  Bivariate NL
Obtained result:    3.254808634091251E-10
MATLAB result:    3.254808634091251E-10
Percent difference:   0.00000E+00%
 
Agreement with regards to integral:  Bivariate NL (const. x1)
Obtained result:    0.000000000000000E+00
MATLAB result:    0.000000000000000E+00
Percent difference:   0.00000E+00%
 
==================================================
 
Success!
 ==================================================
  
 Performing correlation cholesky matrix setup tests
  
 correlation matrix :
   1.0000000000000000        0.0000000000000000        0.0000000000000000     
   0.0000000000000000        1.0000000000000000        0.0000000000000000     
   0.0000000000000000        0.0000000000000000        1.0000000000000000     
  
 Agreement
 Result:  
   1.0000000000000000        0.0000000000000000        0.0000000000000000     
   0.0000000000000000        1.0000000000000000        0.0000000000000000     
   0.0000000000000000        0.0000000000000000        1.0000000000000000     
  
 --
  
 correlation matrix :
   1.0000000000000000        1.0000000000000000        1.0000000000000000     
   0.0000000000000000        1.0000000000000000        1.0000000000000000     
   0.0000000000000000        0.0000000000000000        1.0000000000000000     
  
 Agreement
 Result:  
   1.0000000000000000        1.0000000000000000        1.0000000000000000     
   0.0000000000000000        0.0000000000000000        0.0000000000000000     
   0.0000000000000000        0.0000000000000000        0.0000000000000000     
  
 --
  
 correlation matrix :
   1.0000000000000000       0.86602540378443860       0.86602540378443860     
   0.0000000000000000        1.0000000000000000       0.86602540378443860     
   0.0000000000000000        0.0000000000000000        1.0000000000000000     
  
 Agreement
 Result:  
   1.0000000000000000       0.86602540378443860       0.86602540378443860     
   0.0000000000000000       0.50000000000000011       0.43301270189221941     
   0.0000000000000000        0.0000000000000000       0.25000000000000011     
  
 --
  
 ==================================================
  
 Performing correlation matrix approximation tests
  
 correlation cholesky matrix :
   1.0000000000000000        0.0000000000000000        0.0000000000000000     
   0.0000000000000000        1.0000000000000000        0.0000000000000000     
   0.0000000000000000        0.0000000000000000        1.0000000000000000     
  
 Agreement
 Result:  
   1.0000000000000000        0.0000000000000000        0.0000000000000000     
   0.0000000000000000        1.0000000000000000        0.0000000000000000     
   0.0000000000000000        0.0000000000000000        1.0000000000000000     
  
 --
  
 correlation cholesky matrix :
   1.0000000000000000        1.0000000000000000        1.0000000000000000     
   0.0000000000000000        0.0000000000000000        0.0000000000000000     
   0.0000000000000000        0.0000000000000000        0.0000000000000000     
  
 Agreement
 Result:  
   1.0000000000000000        1.0000000000000000        1.0000000000000000     
   1.0000000000000000        1.0000000000000000        1.0000000000000000     
   1.0000000000000000        1.0000000000000000        1.0000000000000000     
  
 --
  
 correlation cholesky matrix :
   1.0000000000000000       0.86602540378443860       0.86602540378443860     
   0.0000000000000000       0.50000000000000011       0.43301270189221941     
   0.0000000000000000        0.0000000000000000       0.25000000000000011     
  
 Agreement
 Result:  
   1.0000000000000000       0.86602540378443860       0.86602540378443860     
  0.86602540378443860        1.0000000000000000       0.96650635094610959     
  0.86602540378443860       0.96650635094610959        1.0000000000000000     
  
 --
  
 ==================================================
  
 Success!
 ==================================================
  
 Performing hole_filling_hm_one_lev_tests
  
 Hole-filling was conservative
 Warning: One-level hole filling was not able to fill holes completely! The holes were filled partially. |total_hole| > total_mass
 Warning: One-level hole filling was not able to fill holes completely! The holes were filled partially. |total_hole| > total_mass
 Warning: One-level hole filling was not able to fill holes completely! The holes were filled partially. |total_hole| > total_mass
 Warning: One-level hole filling was not able to fill holes completely! The holes were filled partially. |total_hole| > total_mass
 Warning: Hole filling failed! A hole could not be filled.
 Hole-filling was conservative
 Hole not entirely filled, as expected
 Hole-filling was conservative
 ==================================================
  
 Success!
 ==================================================
  
 Performing fill_holes_hydromet_tests
  
 testset_in(:,           1 ) =    1.0000000000000000        2.0000000000000000        3.0000000000000000        4.0000000000000000        5.0000000000000000        6.0000000000000000     
 testset_in(:,           2 ) =    6.0000000000000000        5.0000000000000000        4.0000000000000000        3.0000000000000000        2.0000000000000000        1.0000000000000000     
 testset_in(:,           3 ) =    3.0000000000000000        3.0000000000000000        3.0000000000000000        4.0000000000000000        4.0000000000000000        4.0000000000000000     
 testset_in(:,           4 ) =    1.0000000000000000        3.0000000000000000        2.0000000000000000        1.0000000000000000       -1.0000000000000000        0.0000000000000000     
 testset_in(:,           5 ) =    1.0000000000000000       -2.0000000000000000       -4.0000000000000000       -3.0000000000000000       -1.0000000000000000        0.0000000000000000     
 testset_in(:,           6 ) =    2.0000000000000000       -1.0000000000000000       -1.0000000000000000        1.0000000000000000       -1.0000000000000000        0.0000000000000000     
 testset_in(:,           7 ) =    1.0000000000000000        4.0000000000000000        2.0000000000000000        3.0000000000000000       -1.0000000000000000        0.0000000000000000     
 Warning: One-level hole filling was not able to fill holes completely! The holes were filled partially. |total_hole| > total_mass
 Warning: One-level hole filling was not able to fill holes completely! The holes were filled partially. |total_hole| > total_mass
 Warning: One-level hole filling was not able to fill holes completely! The holes were filled partially. |total_hole| > total_mass
 Warning: One-level hole filling was not able to fill holes completely! The holes were filled partially. |total_hole| > total_mass
 Warning: Hole filling failed! A hole could not be filled.
 Warning: One-level hole filling was not successful! total_mass ~= 0
 Hole-filling was conservative
 Hole-filling was conservative
 Hole-filling was conservative
 Hole not entirely filled, as expected
 Hole-filling was conservative
 Hole-filling was conservative
 Hole not entirely filled, as expected
 Hole-filling was conservative
 ==================================================
  
 Success!
 
 Nc-Ncn equations unit test
 ==========================
 
 Iteration =            1
 
 mu_chi_1 =   -1.0000000000000001E-005
 mu_chi_2 =   -5.0000000000000002E-005
 sigma_chi_1 =    1.0000000000000001E-005
 sigma_chi_2 =    1.5000000000000000E-005
 mu_Ncn_1 = mu_Ncn_2 =    50000000.000000000     
 sigma_Ncn_1 = sigma_Ncn_2 =    25000000.000000000     
 corr_chi_Ncn_1 = corr_chi_Ncn_2 =   0.40000000000000002     
 mixture fraction =   0.29999999999999999     
 cloud fraction (1st PDF component) =   0.15865525393145707     
 cloud fraction (2nd PDF component) =    4.2906033319683735E-004
 cloud fraction =    4.7896918412674905E-002
 Nc_in_cloud (from Ncn) =    66978771.649335034     
 Ncm (from Ncn) =    3208076.7610693830     
 Ncnm (from Nc_in_cloud) =    50000000.000000007     
 Ncnm (from Ncm) =    50000000.000000007     
 
 Test iteration  1 is a success!
 
 ======================================================
 
 Iteration =            2
 
 mu_chi_1 =   -1.0000000000000001E-005
 mu_chi_2 =   -5.0000000000000002E-005
 sigma_chi_1 =    1.0000000000000001E-009
 sigma_chi_2 =    1.5000000000000000E-009
 mu_Ncn_1 = mu_Ncn_2 =    50000000.000000000     
 sigma_Ncn_1 = sigma_Ncn_2 =    25000000.000000000     
 corr_chi_Ncn_1 = corr_chi_Ncn_2 =   0.40000000000000002     
 mixture fraction =   0.29999999999999999     
 cloud fraction (1st PDF component) =    0.0000000000000000     
 cloud fraction (2nd PDF component) =    0.0000000000000000     
 cloud fraction =    0.0000000000000000     
 Nc_in_cloud (from Ncn) =    50000000.000000000     
 Ncm (from Ncn) =    0.0000000000000000     
 Ncnm (from Nc_in_cloud) =    50000000.000000000     
 Ncnm (from Ncm) =    50000000.000000000     
 
 Test iteration  2 is a success!
 
 ======================================================
 
 Iteration =            3
 
 mu_chi_1 =    1.0000000000000001E-005
 mu_chi_2 =    5.0000000000000002E-005
 sigma_chi_1 =    1.0000000000000001E-005
 sigma_chi_2 =    1.5000000000000000E-005
 mu_Ncn_1 = mu_Ncn_2 =    50000000.000000000     
 sigma_Ncn_1 = sigma_Ncn_2 =    75000000.000000000     
 corr_chi_Ncn_1 = corr_chi_Ncn_2 =   0.40000000000000002     
 mixture fraction =   0.29999999999999999     
 cloud fraction (1st PDF component) =   0.84134474606854293     
 cloud fraction (2nd PDF component) =   0.99957093966680322     
 cloud fraction =   0.95210308158732504     
 Nc_in_cloud (from Ncn) =    51650441.529586732     
 Ncm (from Ncn) =    49176544.545665480     
 Ncnm (from Nc_in_cloud) =    50000000.000000000     
 Ncnm (from Ncm) =    50000000.000000000     
 
 Test iteration  3 is a success!
 
 ======================================================
 
 Iteration =            4
 
 mu_chi_1 =    1.0000000000000000E-008
 mu_chi_2 =   -1.0000000000000000E-008
 sigma_chi_1 =    5.0000000000000002E-005
 sigma_chi_2 =    5.0000000000000002E-005
 mu_Ncn_1 = mu_Ncn_2 =    50000000.000000000     
 sigma_Ncn_1 = sigma_Ncn_2 =    50000000.000000000     
 corr_chi_Ncn_1 = corr_chi_Ncn_2 =   0.10000000000000001     
 mixture fraction =   0.50000000000000000     
 cloud fraction (1st PDF component) =   0.50007978845554835     
 cloud fraction (2nd PDF component) =   0.49992021154445165     
 cloud fraction =   0.50000000000000000     
 Nc_in_cloud (from Ncn) =    53982783.648312390     
 Ncm (from Ncn) =    26991391.824156195     
 Ncnm (from Nc_in_cloud) =    50000000.000000000     
 Ncnm (from Ncm) =    50000000.000000000     
 
 Test iteration  4 is a success!
 
 ======================================================
 
 Iteration =            5
 
 mu_chi_1 =    1.0000000000000001E-005
 mu_chi_2 =    5.0000000000000002E-005
 sigma_chi_1 =    9.9999999999999995E-007
 sigma_chi_2 =    1.5000000000000000E-006
 mu_Ncn_1 = mu_Ncn_2 =    50000000.000000000     
 sigma_Ncn_1 = sigma_Ncn_2 =    25000000.000000000     
 corr_chi_Ncn_1 = corr_chi_Ncn_2 =   0.50000000000000000     
 mixture fraction =   0.29999999999999999     
 cloud fraction (1st PDF component) =    1.0000000000000000     
 cloud fraction (2nd PDF component) =    1.0000000000000000     
 cloud fraction =    1.0000000000000000     
 Nc_in_cloud (from Ncn) =    50000000.000000000     
 Ncm (from Ncn) =    50000000.000000000     
 Ncnm (from Nc_in_cloud) =    50000000.000000000     
 Ncnm (from Ncm) =    50000000.000000000     
 
 Test iteration  5 is a success!
 
 ======================================================
 
 Iteration =            6
 
 mu_chi_1 =   -9.9999999999999995E-008
 mu_chi_2 =   -5.0000000000000002E-005
 sigma_chi_1 =    1.0000000000000001E-005
 sigma_chi_2 =    1.5000000000000000E-005
 mu_Ncn_1 = mu_Ncn_2 =    50000000.000000000     
 sigma_Ncn_1 = sigma_Ncn_2 =    50000000.000000000     
 corr_chi_Ncn_1 = corr_chi_Ncn_2 =    0.0000000000000000     
 mixture fraction =   0.20000000000000001     
 cloud fraction (1st PDF component) =   0.49601064368536840     
 cloud fraction (2nd PDF component) =    4.2906033319683735E-004
 cloud fraction =    9.9545377003631155E-002
 Nc_in_cloud (from Ncn) =    49999999.999999993     
 Ncm (from Ncn) =    4977268.8501815572     
 Ncnm (from Nc_in_cloud) =    49999999.999999993     
 Ncnm (from Ncm) =    49999999.999999993     
 
 Test iteration  6 is a success!
 
 ======================================================
 
 Iteration =            7
 
 mu_chi_1 =    9.9999999999999995E-007
 mu_chi_2 =   -4.9999999999999998E-007
 sigma_chi_1 =    1.0000000000000001E-005
 sigma_chi_2 =    1.5000000000000000E-005
 mu_Ncn_1 = mu_Ncn_2 =    50000000.000000000     
 sigma_Ncn_1 = sigma_Ncn_2 =    0.0000000000000000     
 corr_chi_Ncn_1 = corr_chi_Ncn_2 =   0.69999999999999996     
 mixture fraction =   0.20000000000000001     
 cloud fraction (1st PDF component) =   0.53982783727702899     
 cloud fraction (2nd PDF component) =   0.48670438618290790     
 cloud fraction =   0.49732907640173213     
 Nc_in_cloud (from Ncn) =    50000000.000000000     
 Ncm (from Ncn) =    24866453.820086606     
 Ncnm (from Nc_in_cloud) =    50000000.000000000     
 Ncnm (from Ncm) =    50000000.000000000     
 
 Test iteration  7 is a success!
 
 ======================================================
 
 Iteration =            8
 
 mu_chi_1 =    9.9999999999999995E-007
 mu_chi_2 =   -4.9999999999999998E-007
 sigma_chi_1 =    1.0000000000000001E-005
 sigma_chi_2 =    1.5000000000000000E-009
 mu_Ncn_1 = mu_Ncn_2 =    50000000.000000000     
 sigma_Ncn_1 = sigma_Ncn_2 =    75000000.000000000     
 corr_chi_Ncn_1 = corr_chi_Ncn_2 =   0.69999999999999996     
 mixture fraction =   0.20000000000000001     
 cloud fraction (1st PDF component) =   0.53982783727702899     
 cloud fraction (2nd PDF component) =    0.0000000000000000     
 cloud fraction =   0.10796556745540581     
 Nc_in_cloud (from Ncn) =    81037694.237492040     
 Ncm (from Ncn) =    8749280.6436284967     
 Ncnm (from Nc_in_cloud) =    50000000.000000000     
 Ncnm (from Ncm) =    50000000.000000000     
 
 Test iteration  8 is a success!
 
 ======================================================
 
 Iteration =            9
 
 mu_chi_1 =    1.0000000000000001E-005
 mu_chi_2 =   -5.0000000000000002E-005
 sigma_chi_1 =    1.0000000000000001E-009
 sigma_chi_2 =    1.5000000000000000E-005
 mu_Ncn_1 = mu_Ncn_2 =    50000000.000000000     
 sigma_Ncn_1 = sigma_Ncn_2 =    75000000.000000000     
 corr_chi_Ncn_1 = corr_chi_Ncn_2 =   0.69999999999999996     
 mixture fraction =   0.20000000000000001     
 cloud fraction (1st PDF component) =    1.0000000000000000     
 cloud fraction (2nd PDF component) =    4.2906033319683735E-004
 cloud fraction =   0.20034324826655747     
 Nc_in_cloud (from Ncn) =    52151569.416871324     
 Ncm (from Ncn) =    10448214.819174858     
 Ncnm (from Nc_in_cloud) =    50000000.000000000     
 Ncnm (from Ncm) =    50000000.000000000     
 
 Test iteration  9 is a success!
 
 ======================================================
 
 Iteration =           10
 
 mu_chi_1 =    1.0000000000000001E-005
 mu_chi_2 =   -5.0000000000000002E-005
 sigma_chi_1 =    1.0000000000000001E-005
 sigma_chi_2 =    1.5000000000000000E-005
 mu_Ncn_1 = mu_Ncn_2 =    50000000.000000000     
 sigma_Ncn_1 = sigma_Ncn_2 =    75000000.000000000     
 corr_chi_Ncn_1 = corr_chi_Ncn_2 =   0.69999999999999996     
 mixture fraction =   0.20000000000000001     
 cloud fraction (1st PDF component) =   0.84134474606854293     
 cloud fraction (2nd PDF component) =    4.2906033319683735E-004
 cloud fraction =   0.16861219748026607     
 Nc_in_cloud (from Ncn) =    60768988.354576342     
 Ncm (from Ncn) =    10246392.665117815     
 Ncnm (from Nc_in_cloud) =    50000000.000000007     
 Ncnm (from Ncm) =    50000000.000000007     
 
 Test iteration 10 is a success!
 
 ======================================================
 
 Success!
 
 Performing corr_mtx_test
 
 ==================================================
 Expected:
  1.00  2.00  3.00  4.00  5.00  6.00  7.00  8.00  9.00  1.00  1.10  1.20 
  0.00  1.00  0.20  0.30  0.40  0.50  0.60  0.70  0.80  0.90  0.10  0.11 
  0.00  0.00  1.00  0.02  0.03  0.04  0.05  0.06  0.07  0.08  0.09  0.01 
  0.00  0.00  0.00  1.00 -1.00 -2.00 -3.00 -4.00 -5.00 -6.00 -7.00 -8.00 
  0.00  0.00  0.00  0.00  1.00 -0.10 -0.20 -0.30 -0.40 -0.50 -0.60 -0.70 
  0.00  0.00  0.00  0.00  0.00  1.00  0.00  0.00  0.00  0.00  0.00  0.00 
  0.00  0.00  0.00  0.00  0.00  0.00  1.00 -0.00 -0.00 -0.00 -0.00 -0.00 
  0.00  0.00  0.00  0.00  0.00  0.00  0.00  1.00  0.00  0.00  0.00  1.00 
  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  1.00  0.00  0.00  2.00 
  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  1.00  0.00  3.00 
  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  1.00  4.00 
  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  1.00 
 Actual:
  1.00  2.00  3.00  4.00  5.00  6.00  7.00  8.00  9.00  1.00  1.10  1.20 
  0.00  1.00  0.20  0.30  0.40  0.50  0.60  0.70  0.80  0.90  0.10  0.11 
  0.00  0.00  1.00  0.02  0.03  0.04  0.05  0.06  0.07  0.08  0.09  0.01 
  0.00  0.00  0.00  1.00 -1.00 -2.00 -3.00 -4.00 -5.00 -6.00 -7.00 -8.00 
  0.00  0.00  0.00  0.00  1.00 -0.10 -0.20 -0.30 -0.40 -0.50 -0.60 -0.70 
  0.00  0.00  0.00  0.00  0.00  1.00  0.00  0.00  0.00  0.00  0.00  0.00 
  0.00  0.00  0.00  0.00  0.00  0.00  1.00 -0.00 -0.00 -0.00 -0.00 -0.00 
  0.00  0.00  0.00  0.00  0.00  0.00  0.00  1.00  0.00  0.00  0.00  1.00 
  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  1.00  0.00  0.00  2.00 
  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  1.00  0.00  3.00 
  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  1.00  4.00 
  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  0.00  1.00 
 Success!
 ==================================================
 ==================================================
 
 Performing SILHS category test
 
 ==================================================
 Success!
 
 Performing hydrometeor mu and sigma values unit test
 ====================================================
 
 PDF parameter set 1:
 hmm =    2.0000000000000002E-005
 mixt_frac =    2.7000000000000000E-002
 precip_frac =    8.0000000000000002E-002
 precip_frac_1 =    1.0000000000000000     
 precip_frac_2 =    5.4470709146968145E-002
 hmp2_ip_on_hmm2_ip =    3.6000000000000001     
 hmm_ip =    2.5000000000000001E-004
 hmp2 =    2.2599999999999997E-008
 hm_tol =    1.0000000000000000E-010
 precip_frac_tol =    1.0000000000000000E-002
 
 Running tests for the above parameter set for all combinations of omicron and zeta.  Omicron values are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 PDF parameter set 2:
 hmm =    5.0000000000000004E-006
 mixt_frac =   0.50000000000000000     
 precip_frac =   0.50000000000000000     
 precip_frac_1 =   0.50000000000000000     
 precip_frac_2 =   0.50000000000000000     
 hmp2_ip_on_hmm2_ip =    1.0000000000000000     
 hmm_ip =    1.0000000000000001E-005
 hmp2 =    7.5000000000000012E-011
 hm_tol =    1.0000000000000000E-010
 precip_frac_tol =    1.0000000000000000E-002
 
 Running tests for the above parameter set for all combinations of omicron and zeta.  Omicron values are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 PDF parameter set 3:
 hmm =    1.0000000000000000E-010
 mixt_frac =   0.25000000000000000     
 precip_frac =   0.40000000000000002     
 precip_frac_1 =   0.75000000000000000     
 precip_frac_2 =   0.28333333333333338     
 hmp2_ip_on_hmm2_ip =   0.50000000000000000     
 hmm_ip =    2.5000000000000002E-010
 hmp2 =    2.7500000000000010E-020
 hm_tol =    1.0000000000000000E-010
 precip_frac_tol =    1.0000000000000000E-002
 
 Running tests for the above parameter set for all combinations of omicron and zeta.  Omicron values are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 PDF parameter set 4:
 hmm =    4.0000000000000003E-005
 mixt_frac =    1.0000000000000000E-002
 precip_frac =   0.10000000000000001     
 precip_frac_1 =    1.0000000000000000E-002
 precip_frac_2 =   0.10090909090909091     
 hmp2_ip_on_hmm2_ip =    2.5000000000000000     
 hmm_ip =    4.0000000000000002E-004
 hmp2 =    5.4400000000000004E-008
 hm_tol =    1.0000000000000000E-010
 precip_frac_tol =    1.0000000000000000E-002
 
 Running tests for the above parameter set for all combinations of omicron and zeta.  Omicron values are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 PDF parameter set 5:
 hmm =    4.0000000000000003E-005
 mixt_frac =   0.98999999999999999     
 precip_frac =   0.10000000000000001     
 precip_frac_1 =   0.10090909090909091     
 precip_frac_2 =    1.0000000000000278E-002
 hmp2_ip_on_hmm2_ip =    2.5000000000000000     
 hmm_ip =    4.0000000000000002E-004
 hmp2 =    5.4400000000000004E-008
 hm_tol =    1.0000000000000000E-010
 precip_frac_tol =    1.0000000000000000E-002
 
 Running tests for the above parameter set for all combinations of omicron and zeta.  Omicron values are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 PDF parameter set 6:
 hmm =    1.0000000000000001E-005
 mixt_frac =   0.12500000000000000     
 precip_frac =    1.0000000000000000     
 precip_frac_1 =    1.0000000000000000     
 precip_frac_2 =    1.0000000000000000     
 hmp2_ip_on_hmm2_ip =    1.5000000000000000     
 hmm_ip =    1.0000000000000001E-005
 hmp2 =    1.5000000000000005E-010
 hm_tol =    1.0000000000000000E-010
 precip_frac_tol =    1.0000000000000000E-002
 
 Running tests for the above parameter set for all combinations of omicron and zeta.  Omicron values are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 PDF parameter set 7:
 hmm =    6.0000000000000002E-005
 mixt_frac =    5.0000000000000003E-002
 precip_frac =   0.11000000000000000     
 precip_frac_1 =   0.90000000000000002     
 precip_frac_2 =    6.8421052631578952E-002
 hmp2_ip_on_hmm2_ip =    5.0000000000000000     
 hmm_ip =    5.4545454545454548E-004
 hmp2 =    1.9276363636363637E-007
 hm_tol =    1.0000000000000000E-010
 precip_frac_tol =    1.0000000000000000E-002
 
 Running tests for the above parameter set for all combinations of omicron and zeta.  Omicron values are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 PDF parameter set 8:
 hmm =    7.9999999999999996E-007
 mixt_frac =   0.80000000000000004     
 precip_frac =   0.25000000000000000     
 precip_frac_1 =   0.10000000000000001     
 precip_frac_2 =   0.85000000000000009     
 hmp2_ip_on_hmm2_ip =   0.75000000000000000     
 hmm_ip =    3.1999999999999999E-006
 hmp2 =    3.8399999999999998E-012
 hm_tol =    1.0000000000000000E-010
 precip_frac_tol =    1.0000000000000000E-002
 
 Running tests for the above parameter set for all combinations of omicron and zeta.  Omicron values are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 PDF parameter set 9:
 hmm =    1.3499999999999999E-005
 mixt_frac =   0.10000000000000001     
 precip_frac =   0.10000000000000001     
 precip_frac_1 =   0.50000000000000000     
 precip_frac_2 =    5.5555555555555559E-002
 hmp2_ip_on_hmm2_ip =    2.0000000000000000     
 hmm_ip =    1.3499999999999997E-004
 hmp2 =    5.2852499999999985E-009
 hm_tol =    1.0000000000000000E-010
 precip_frac_tol =    1.0000000000000000E-002
 
 Running tests for the above parameter set for all combinations of omicron and zeta.  Omicron values are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 PDF parameter set 10 (randomly generated):
 Random seed values =         2026           4           7        -300           3          33          34         265
 hmm =    2.4553947299392720E-005
 mixt_frac =   0.12495386393492154     
 precip_frac =   0.74388336640762309     
 precip_frac_1 =   0.99018543331008313     
 precip_frac_2 =   0.70871219807012753     
 hmp2_ip_on_hmm2_ip =    2.3428539916402547     
 hmm_ip =    3.3007791823561198E-005
 hmp2 =    2.1063918313580708E-009
 hm_tol =    1.0000000000000000E-010
 precip_frac_tol =    1.0000000000000000E-002
 
 Running tests for the above parameter set for all combinations of omicron and zeta.  Omicron values are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Checking values with precipitation in 1st PDF component only.
 
 Checking values with precipitation in 2nd PDF component only.
 
 Success!
 
 
 Performing PDF parameter values unit test
 =========================================
 
 Performing PDF parameter unit tests for ADG1
 
 PDF parameter set 1:
 wm =   -5.0000000000000001E-003
 rtm =    4.2868400000000001E-003
 thlm =    309.13099999999997     
 wp2 =    3.3741899999999998E-002
 rtp2 =    1.1786499999999999E-006
 thlp2 =    5.9920000000000001E-002
 Skw =    8.6882480819056749     
 wp3 =    5.3850099999999998E-002
 Skrt =    1.4880899999999999     
 rtp3 =    1.9041733779221134E-009
 Skthl =   -1.4580900000000001     
 thlp3 =   -2.1386614365822010E-002
 wprtp =    2.3725400000000002E-005
 wpthlp =   -5.5512699999999996E-003
 rtpthlp =   -2.3917778634313013E-004
 
 Running tests for the above parameter set for various values of sigma_sqd_w for the setting variable (w).  Values of sigma_sqd_w are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1 (or 0.99).
 
 Running tests for the above parameter set for the full PDF (the setting of sigma_sqd_w is handled the same way as in the model code).
 
 PDF parameter set 2:
 wm =    1.0000000000000000E-002
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.10000000000000001     
 rtp2 =    5.0000000000000004E-006
 thlp2 =   0.10000000000000001     
 Skw =   -4.5000000000000000     
 wp3 =  -0.14230249470757708     
 Skrt =    1.0000000000000000     
 rtp3 =    1.1180339887498949E-008
 Skthl =   -2.5000000000000000     
 thlp3 =   -7.9056941504209499E-002
 wprtp =   -5.0000000000000002E-005
 wpthlp =    5.0000000000000001E-003
 rtpthlp =   -6.3639610306789288E-004
 
 Running tests for the above parameter set for various values of sigma_sqd_w for the setting variable (w).  Values of sigma_sqd_w are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1 (or 0.99).
 
 Running tests for the above parameter set for the full PDF (the setting of sigma_sqd_w is handled the same way as in the model code).
 
 PDF parameter set 3:
 wm =   -1.0000000000000000E-002
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.50000000000000000     
 rtp2 =    5.0000000000000004E-006
 thlp2 =   0.10000000000000001     
 Skw =    4.5000000000000000     
 wp3 =    1.5909902576697321     
 Skrt =    2.5000000000000000     
 rtp3 =    2.7950849718747374E-008
 Skthl =   -2.5000000000000000     
 thlp3 =   -7.9056941504209499E-002
 wprtp =    5.0000000000000002E-005
 wpthlp =   -5.0000000000000001E-003
 rtpthlp =   -6.3639610306789288E-004
 
 Running tests for the above parameter set for various values of sigma_sqd_w for the setting variable (w).  Values of sigma_sqd_w are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1 (or 0.99).
 
 Running tests for the above parameter set for the full PDF (the setting of sigma_sqd_w is handled the same way as in the model code).
 
 PDF parameter set 4:
 wm =   0.10000000000000001     
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =    5.0000000000000000     
 rtp2 =    6.9999999999999999E-006
 thlp2 =    1.0000000000000000     
 Skw =    2.0000000000000000     
 wp3 =    22.360679774997898     
 Skrt =    1.5000000000000000     
 rtp3 =    2.7780388766178202E-008
 Skthl =   -1.5000000000000000     
 thlp3 =   -1.5000000000000000     
 wprtp =    5.0000000000000002E-005
 wpthlp =   -1.0000000000000000E-002
 rtpthlp =   -2.3811761799581318E-003
 
 Running tests for the above parameter set for various values of sigma_sqd_w for the setting variable (w).  Values of sigma_sqd_w are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1 (or 0.99).
 
 Running tests for the above parameter set for the full PDF (the setting of sigma_sqd_w is handled the same way as in the model code).
 
 PDF parameter set 5:
 wm =   -1.0000000000000000E-003
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.29999999999999999     
 rtp2 =    1.9999999999999999E-006
 thlp2 =   0.20000000000000001     
 Skw =   -2.0000000000000000     
 wp3 =  -0.32863353450309962     
 Skrt =  -0.25000000000000000     
 rtp3 =   -7.0710678118654745E-010
 Skthl =   -3.5000000000000000     
 thlp3 =  -0.31304951684997062     
 wprtp =    5.0000000000000002E-005
 wpthlp =    5.0000000000000001E-003
 rtpthlp =    5.6920997883030825E-004
 
 Running tests for the above parameter set for various values of sigma_sqd_w for the setting variable (w).  Values of sigma_sqd_w are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1 (or 0.99).
 
 Running tests for the above parameter set for the full PDF (the setting of sigma_sqd_w is handled the same way as in the model code).
 
 PDF parameter set 6:
 wm =   -1.0000000000000000E-002
 rtm =    5.0000000000000001E-003
 thlm =    305.00000000000000     
 wp2 =    1.0000000000000000     
 rtp2 =    4.9999999999999998E-007
 thlp2 =   0.10000000000000001     
 Skw =    0.0000000000000000     
 wp3 =    0.0000000000000000     
 Skrt =    0.0000000000000000     
 rtp3 =    0.0000000000000000     
 Skthl =    0.0000000000000000     
 thlp3 =    0.0000000000000000     
 wprtp =    5.0000000000000002E-005
 wpthlp =   -5.0000000000000001E-003
 rtpthlp =   -2.0124611797498108E-004
 
 Running tests for the above parameter set for various values of sigma_sqd_w for the setting variable (w).  Values of sigma_sqd_w are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1 (or 0.99).
 
 Running tests for the above parameter set for the full PDF (the setting of sigma_sqd_w is handled the same way as in the model code).
 
 PDF parameter set 7:
 wm =   0.20000000000000001     
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.25000000000000000     
 rtp2 =    5.0000000000000004E-006
 thlp2 =   0.14999999999999999     
 Skw =   0.75000000000000000     
 wp3 =    9.3750000000000000E-002
 Skrt =    3.0000000000000000     
 rtp3 =    3.3541019662496846E-008
 Skthl =  -0.50000000000000000     
 thlp3 =   -2.9047375096555625E-002
 wprtp =    5.0000000000000002E-005
 wpthlp =   -5.0000000000000001E-003
 rtpthlp =   -7.7942286340599491E-004
 
 Running tests for the above parameter set for various values of sigma_sqd_w for the setting variable (w).  Values of sigma_sqd_w are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1 (or 0.99).
 
 Running tests for the above parameter set for the full PDF (the setting of sigma_sqd_w is handled the same way as in the model code).
 
 PDF parameter set 8:
 wm =   -2.0000000000000000E-003
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =    4.0000000000000002E-004
 rtp2 =    1.0000000000000001E-016
 thlp2 =    1.0000000000000000E-004
 Skw =    0.0000000000000000     
 wp3 =    0.0000000000000000     
 Skrt =    0.0000000000000000     
 rtp3 =    0.0000000000000000     
 Skthl =    0.0000000000000000     
 thlp3 =    0.0000000000000000     
 wprtp =    0.0000000000000000     
 wpthlp =    0.0000000000000000     
 rtpthlp =    9.0000000000000012E-011
 
 Running tests for the above parameter set for various values of sigma_sqd_w for the setting variable (w).  Values of sigma_sqd_w are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1 (or 0.99).
 
 Running tests for the above parameter set for the full PDF (the setting of sigma_sqd_w is handled the same way as in the model code).
 
 PDF parameter set 9:
 wm =    1.0000000000000000E-003
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =    4.0000000000000002E-004
 rtp2 =    1.9999999999999999E-006
 thlp2 =   0.69999999999999996     
 Skw =    0.0000000000000000     
 wp3 =    0.0000000000000000     
 Skrt =   -1.0000000000000000     
 rtp3 =   -2.8284271247461898E-009
 Skthl =   -2.0000000000000000     
 thlp3 =   -1.1713240371477056     
 wprtp =    0.0000000000000000     
 wpthlp =    0.0000000000000000     
 rtpthlp =    1.0648943609579309E-003
 
 Running tests for the above parameter set for various values of sigma_sqd_w for the setting variable (w).  Values of sigma_sqd_w are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1 (or 0.99).
 
 Running tests for the above parameter set for the full PDF (the setting of sigma_sqd_w is handled the same way as in the model code).
 
 PDF parameter set 10 (randomly generated):
 Random seed values =         2026           4           7        -300           3          33          34         266
 wm =   -2.8921054012145619E-002
 rtm =    3.3459972231616713E-003
 thlm =    304.14621417005310     
 wp2 =   0.99008629623188371     
 rtp2 =    1.2802678647854536E-006
 thlp2 =    1.3261978014753761     
 Skw =    3.0436876990335486     
 wp3 =    2.9985387346055217     
 Skrt =    3.7883163934723587     
 rtp3 =    5.4877903334185941E-009
 Skthl =   -3.1869755455723725     
 thlp3 =   -4.8673344213877749     
 wprtp =    1.1098381286494409E-003
 wpthlp =   -3.7010956920681695E-002
 rtpthlp =   -1.1727274305388335E-003
 
 Running tests for the above parameter set for various values of sigma_sqd_w for the setting variable (w).  Values of sigma_sqd_w are 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1 (or 0.99).
 
 Running tests for the above parameter set for the full PDF (the setting of sigma_sqd_w is handled the same way as in the model code).
 
 Running ADG1 expected-failure tests.
 
 ADG1_w_closure correctly failed when given wp2 = 0.
 ADG1_pdf_driver correctly failed when given thlp2 = 0.
 Success!
 
 
 Performing PDF parameter values unit test
 =========================================
 
 Performing PDF parameter unit tests for LY93
 
 PDF parameter set 1:
 wm =   -5.0000000000000001E-003
 rtm =    4.2868400000000001E-003
 thlm =    309.13099999999997     
 wp2 =    3.3741899999999998E-002
 rtp2 =    1.1786499999999999E-006
 thlp2 =    5.9920000000000001E-002
 Skw =    8.6882480819056749     
 wp3 =    5.3850099999999998E-002
 Skrt =    1.4880899999999999     
 rtp3 =    1.9041733779221134E-009
 Skthl =   -1.4580900000000001     
 thlp3 =   -2.1386614365822010E-002
 wprtp =    2.3725400000000002E-005
 wpthlp =   -5.5512699999999996E-003
 rtpthlp =   -2.3917778634313013E-004
 
 Running tests for the above parameter set for the setting variable (w is used here).
 
 Running tests for the above parameter set for the full PDF.
 
 PDF parameter set 2:
 wm =    1.0000000000000000E-002
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.10000000000000001     
 rtp2 =    5.0000000000000004E-006
 thlp2 =   0.10000000000000001     
 Skw =   -4.5000000000000000     
 wp3 =  -0.14230249470757708     
 Skrt =    1.0000000000000000     
 rtp3 =    1.1180339887498949E-008
 Skthl =   -2.5000000000000000     
 thlp3 =   -7.9056941504209499E-002
 wprtp =   -5.0000000000000002E-005
 wpthlp =    5.0000000000000001E-003
 rtpthlp =   -6.3639610306789288E-004
 
 Running tests for the above parameter set for the setting variable (w is used here).
 
 Running tests for the above parameter set for the full PDF.
 
 PDF parameter set 3:
 wm =   -1.0000000000000000E-002
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.50000000000000000     
 rtp2 =    5.0000000000000004E-006
 thlp2 =   0.10000000000000001     
 Skw =    4.5000000000000000     
 wp3 =    1.5909902576697321     
 Skrt =    2.5000000000000000     
 rtp3 =    2.7950849718747374E-008
 Skthl =   -2.5000000000000000     
 thlp3 =   -7.9056941504209499E-002
 wprtp =    5.0000000000000002E-005
 wpthlp =   -5.0000000000000001E-003
 rtpthlp =   -6.3639610306789288E-004
 
 Running tests for the above parameter set for the setting variable (w is used here).
 
 Running tests for the above parameter set for the full PDF.
 
 PDF parameter set 4:
 wm =   0.10000000000000001     
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =    5.0000000000000000     
 rtp2 =    6.9999999999999999E-006
 thlp2 =    1.0000000000000000     
 Skw =    2.0000000000000000     
 wp3 =    22.360679774997898     
 Skrt =    1.5000000000000000     
 rtp3 =    2.7780388766178202E-008
 Skthl =   -1.5000000000000000     
 thlp3 =   -1.5000000000000000     
 wprtp =    5.0000000000000002E-005
 wpthlp =   -1.0000000000000000E-002
 rtpthlp =   -2.3811761799581318E-003
 
 Running tests for the above parameter set for the setting variable (w is used here).
 
 Running tests for the above parameter set for the full PDF.
 
 PDF parameter set 5:
 wm =   -1.0000000000000000E-003
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.29999999999999999     
 rtp2 =    1.9999999999999999E-006
 thlp2 =   0.20000000000000001     
 Skw =   -2.0000000000000000     
 wp3 =  -0.32863353450309962     
 Skrt =  -0.25000000000000000     
 rtp3 =   -7.0710678118654745E-010
 Skthl =   -3.5000000000000000     
 thlp3 =  -0.31304951684997062     
 wprtp =    5.0000000000000002E-005
 wpthlp =    5.0000000000000001E-003
 rtpthlp =    5.6920997883030825E-004
 
 Running tests for the above parameter set for the setting variable (w is used here).
 
 Running tests for the above parameter set for the full PDF.
 
 PDF parameter set 6:
 wm =   -1.0000000000000000E-002
 rtm =    5.0000000000000001E-003
 thlm =    305.00000000000000     
 wp2 =    1.0000000000000000     
 rtp2 =    4.9999999999999998E-007
 thlp2 =   0.10000000000000001     
 Skw =    0.0000000000000000     
 wp3 =    0.0000000000000000     
 Skrt =    0.0000000000000000     
 rtp3 =    0.0000000000000000     
 Skthl =    0.0000000000000000     
 thlp3 =    0.0000000000000000     
 wprtp =    5.0000000000000002E-005
 wpthlp =   -5.0000000000000001E-003
 rtpthlp =   -2.0124611797498108E-004
 
 Running tests for the above parameter set for the setting variable (w is used here).
 
 Running tests for the above parameter set for the full PDF.
 
 PDF parameter set 7:
 wm =   0.20000000000000001     
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.25000000000000000     
 rtp2 =    5.0000000000000004E-006
 thlp2 =   0.14999999999999999     
 Skw =   0.75000000000000000     
 wp3 =    9.3750000000000000E-002
 Skrt =    3.0000000000000000     
 rtp3 =    3.3541019662496846E-008
 Skthl =  -0.50000000000000000     
 thlp3 =   -2.9047375096555625E-002
 wprtp =    5.0000000000000002E-005
 wpthlp =   -5.0000000000000001E-003
 rtpthlp =   -7.7942286340599491E-004
 
 Running tests for the above parameter set for the setting variable (w is used here).
 
 Running tests for the above parameter set for the full PDF.
 
 PDF parameter set 8:
 wm =   -2.0000000000000000E-003
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =    4.0000000000000002E-004
 rtp2 =    1.0000000000000001E-016
 thlp2 =    1.0000000000000000E-004
 Skw =    0.0000000000000000     
 wp3 =    0.0000000000000000     
 Skrt =    0.0000000000000000     
 rtp3 =    0.0000000000000000     
 Skthl =    0.0000000000000000     
 thlp3 =    0.0000000000000000     
 wprtp =    0.0000000000000000     
 wpthlp =    0.0000000000000000     
 rtpthlp =    9.0000000000000012E-011
 
 Running tests for the above parameter set for the setting variable (w is used here).
 
 Running tests for the above parameter set for the full PDF.
 
 PDF parameter set 9:
 wm =    1.0000000000000000E-003
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =    4.0000000000000002E-004
 rtp2 =    1.9999999999999999E-006
 thlp2 =   0.69999999999999996     
 Skw =    0.0000000000000000     
 wp3 =    0.0000000000000000     
 Skrt =   -1.0000000000000000     
 rtp3 =   -2.8284271247461898E-009
 Skthl =   -2.0000000000000000     
 thlp3 =   -1.1713240371477056     
 wprtp =    0.0000000000000000     
 wpthlp =    0.0000000000000000     
 rtpthlp =    1.0648943609579309E-003
 
 Running tests for the above parameter set for the setting variable (w is used here).
 
 Running tests for the above parameter set for the full PDF.
 
 PDF parameter set 10 (randomly generated):
 Random seed values =         2026           4           7        -300           3          33          34         266
 wm =   -2.8921054012145619E-002
 rtm =    3.3459972231616713E-003
 thlm =    304.14621417005310     
 wp2 =   0.99008629623188371     
 rtp2 =    1.2802678647854536E-006
 thlp2 =    1.3261978014753761     
 Skw =    3.0436876990335486     
 wp3 =    2.9985387346055217     
 Skrt =    3.7883163934723587     
 rtp3 =    5.4877903334185941E-009
 Skthl =   -3.1869755455723725     
 thlp3 =   -4.8673344213877749     
 wprtp =    1.1098381286494409E-003
 wpthlp =   -3.7010956920681695E-002
 rtpthlp =   -1.1727274305388335E-003
 
 Running tests for the above parameter set for the setting variable (w is used here).
 
 Running tests for the above parameter set for the full PDF.
 
 Success!
 
 
 Performing PDF parameter values unit test
 =========================================
 
 Performing PDF parameter unit tests for TSDADG
 
 PDF parameter set 1:
 wm =   -5.0000000000000001E-003
 rtm =    4.2868400000000001E-003
 thlm =    309.13099999999997     
 wp2 =    3.3741899999999998E-002
 rtp2 =    1.1786499999999999E-006
 thlp2 =    5.9920000000000001E-002
 Skw =    8.6882480819056749     
 wp3 =    5.3850099999999998E-002
 Skrt =    1.4880899999999999     
 rtp3 =    1.9041733779221134E-009
 Skthl =   -1.4580900000000001     
 thlp3 =   -2.1386614365822010E-002
 wprtp =    2.3725400000000002E-005
 wpthlp =   -5.5512699999999996E-003
 rtpthlp =   -2.3917778634313013E-004
 
 PDF parameter set 2:
 wm =    1.0000000000000000E-002
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.10000000000000001     
 rtp2 =    5.0000000000000004E-006
 thlp2 =   0.10000000000000001     
 Skw =   -4.5000000000000000     
 wp3 =  -0.14230249470757708     
 Skrt =    1.0000000000000000     
 rtp3 =    1.1180339887498949E-008
 Skthl =   -2.5000000000000000     
 thlp3 =   -7.9056941504209499E-002
 wprtp =   -5.0000000000000002E-005
 wpthlp =    5.0000000000000001E-003
 rtpthlp =   -6.3639610306789288E-004
 
 PDF parameter set 3:
 wm =   -1.0000000000000000E-002
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.50000000000000000     
 rtp2 =    5.0000000000000004E-006
 thlp2 =   0.10000000000000001     
 Skw =    4.5000000000000000     
 wp3 =    1.5909902576697321     
 Skrt =    2.5000000000000000     
 rtp3 =    2.7950849718747374E-008
 Skthl =   -2.5000000000000000     
 thlp3 =   -7.9056941504209499E-002
 wprtp =    5.0000000000000002E-005
 wpthlp =   -5.0000000000000001E-003
 rtpthlp =   -6.3639610306789288E-004
 
 PDF parameter set 4:
 wm =   0.10000000000000001     
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =    5.0000000000000000     
 rtp2 =    6.9999999999999999E-006
 thlp2 =    1.0000000000000000     
 Skw =    2.0000000000000000     
 wp3 =    22.360679774997898     
 Skrt =    1.5000000000000000     
 rtp3 =    2.7780388766178202E-008
 Skthl =   -1.5000000000000000     
 thlp3 =   -1.5000000000000000     
 wprtp =    5.0000000000000002E-005
 wpthlp =   -1.0000000000000000E-002
 rtpthlp =   -2.3811761799581318E-003
 
 PDF parameter set 5:
 wm =   -1.0000000000000000E-003
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.29999999999999999     
 rtp2 =    1.9999999999999999E-006
 thlp2 =   0.20000000000000001     
 Skw =   -2.0000000000000000     
 wp3 =  -0.32863353450309962     
 Skrt =  -0.25000000000000000     
 rtp3 =   -7.0710678118654745E-010
 Skthl =   -3.5000000000000000     
 thlp3 =  -0.31304951684997062     
 wprtp =    5.0000000000000002E-005
 wpthlp =    5.0000000000000001E-003
 rtpthlp =    5.6920997883030825E-004
 
 PDF parameter set 6:
 wm =   -1.0000000000000000E-002
 rtm =    5.0000000000000001E-003
 thlm =    305.00000000000000     
 wp2 =    1.0000000000000000     
 rtp2 =    4.9999999999999998E-007
 thlp2 =   0.10000000000000001     
 Skw =    0.0000000000000000     
 wp3 =    0.0000000000000000     
 Skrt =    0.0000000000000000     
 rtp3 =    0.0000000000000000     
 Skthl =    0.0000000000000000     
 thlp3 =    0.0000000000000000     
 wprtp =    5.0000000000000002E-005
 wpthlp =   -5.0000000000000001E-003
 rtpthlp =   -2.0124611797498108E-004
 
 PDF parameter set 7:
 wm =   0.20000000000000001     
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.25000000000000000     
 rtp2 =    5.0000000000000004E-006
 thlp2 =   0.14999999999999999     
 Skw =   0.75000000000000000     
 wp3 =    9.3750000000000000E-002
 Skrt =    3.0000000000000000     
 rtp3 =    3.3541019662496846E-008
 Skthl =  -0.50000000000000000     
 thlp3 =   -2.9047375096555625E-002
 wprtp =    5.0000000000000002E-005
 wpthlp =   -5.0000000000000001E-003
 rtpthlp =   -7.7942286340599491E-004
 
 PDF parameter set 8:
 wm =   -2.0000000000000000E-003
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =    4.0000000000000002E-004
 rtp2 =    1.0000000000000001E-016
 thlp2 =    1.0000000000000000E-004
 Skw =    0.0000000000000000     
 wp3 =    0.0000000000000000     
 Skrt =    0.0000000000000000     
 rtp3 =    0.0000000000000000     
 Skthl =    0.0000000000000000     
 thlp3 =    0.0000000000000000     
 wprtp =    0.0000000000000000     
 wpthlp =    0.0000000000000000     
 rtpthlp =    9.0000000000000012E-011
 
 PDF parameter set 9:
 wm =    1.0000000000000000E-003
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =    4.0000000000000002E-004
 rtp2 =    1.9999999999999999E-006
 thlp2 =   0.69999999999999996     
 Skw =    0.0000000000000000     
 wp3 =    0.0000000000000000     
 Skrt =   -1.0000000000000000     
 rtp3 =   -2.8284271247461898E-009
 Skthl =   -2.0000000000000000     
 thlp3 =   -1.1713240371477056     
 wprtp =    0.0000000000000000     
 wpthlp =    0.0000000000000000     
 rtpthlp =    1.0648943609579309E-003
 
 PDF parameter set 10 (randomly generated):
 Random seed values =         2026           4           7        -300           3          33          34         267
 wm =   -2.8921054012145619E-002
 rtm =    3.3459972231616756E-003
 thlm =    304.14621417005310     
 wp2 =   0.99008629619095612     
 rtp2 =    1.3110177660248631E-006
 thlp2 =    1.3262138319879724     
 Skw =    3.1425163720282949     
 wp3 =    3.0959014185544120     
 Skrt =   -4.2273568859215631     
 rtp3 =   -6.3457327706645006E-009
 Skthl =  -0.41624792119794485     
 thlp3 =  -0.63572956248786827     
 wprtp =   -4.8530949723684465E-004
 wpthlp =  -0.70950964272739492     
 rtpthlp =    1.1867345175649679E-003
 
 Success!
 
 
 Performing PDF parameter values unit test
 =========================================
 
 Performing PDF parameter unit tests for the new PDF
 
 PDF parameter set 1:
 wm =   -5.0000000000000001E-003
 rtm =    4.2868400000000001E-003
 thlm =    309.13099999999997     
 wp2 =    3.3741899999999998E-002
 rtp2 =    1.1786499999999999E-006
 thlp2 =    5.9920000000000001E-002
 Skw =    8.6882480819056749     
 wp3 =    5.3850099999999998E-002
 Skrt =    1.4880899999999999     
 rtp3 =    1.9041733779221134E-009
 Skthl =   -1.4580900000000001     
 thlp3 =   -2.1386614365822010E-002
 wprtp =    2.3725400000000002E-005
 wpthlp =   -5.5512699999999996E-003
 rtpthlp =   -2.3917778634313013E-004
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 PDF parameter set 2:
 wm =    1.0000000000000000E-002
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.10000000000000001     
 rtp2 =    5.0000000000000004E-006
 thlp2 =   0.10000000000000001     
 Skw =   -4.5000000000000000     
 wp3 =  -0.14230249470757708     
 Skrt =    1.0000000000000000     
 rtp3 =    1.1180339887498949E-008
 Skthl =   -2.5000000000000000     
 thlp3 =   -7.9056941504209499E-002
 wprtp =   -5.0000000000000002E-005
 wpthlp =    5.0000000000000001E-003
 rtpthlp =   -6.3639610306789288E-004
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 PDF parameter set 3:
 wm =   -1.0000000000000000E-002
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.50000000000000000     
 rtp2 =    5.0000000000000004E-006
 thlp2 =   0.10000000000000001     
 Skw =    4.5000000000000000     
 wp3 =    1.5909902576697321     
 Skrt =    2.5000000000000000     
 rtp3 =    2.7950849718747374E-008
 Skthl =   -2.5000000000000000     
 thlp3 =   -7.9056941504209499E-002
 wprtp =    5.0000000000000002E-005
 wpthlp =   -5.0000000000000001E-003
 rtpthlp =   -6.3639610306789288E-004
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 PDF parameter set 4:
 wm =   0.10000000000000001     
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =    5.0000000000000000     
 rtp2 =    6.9999999999999999E-006
 thlp2 =    1.0000000000000000     
 Skw =    2.0000000000000000     
 wp3 =    22.360679774997898     
 Skrt =    1.5000000000000000     
 rtp3 =    2.7780388766178202E-008
 Skthl =   -1.5000000000000000     
 thlp3 =   -1.5000000000000000     
 wprtp =    5.0000000000000002E-005
 wpthlp =   -1.0000000000000000E-002
 rtpthlp =   -2.3811761799581318E-003
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 PDF parameter set 5:
 wm =   -1.0000000000000000E-003
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.29999999999999999     
 rtp2 =    1.9999999999999999E-006
 thlp2 =   0.20000000000000001     
 Skw =   -2.0000000000000000     
 wp3 =  -0.32863353450309962     
 Skrt =  -0.25000000000000000     
 rtp3 =   -7.0710678118654745E-010
 Skthl =   -3.5000000000000000     
 thlp3 =  -0.31304951684997062     
 wprtp =    5.0000000000000002E-005
 wpthlp =    5.0000000000000001E-003
 rtpthlp =    5.6920997883030825E-004
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 PDF parameter set 6:
 wm =   -1.0000000000000000E-002
 rtm =    5.0000000000000001E-003
 thlm =    305.00000000000000     
 wp2 =    1.0000000000000000     
 rtp2 =    4.9999999999999998E-007
 thlp2 =   0.10000000000000001     
 Skw =    0.0000000000000000     
 wp3 =    0.0000000000000000     
 Skrt =    0.0000000000000000     
 rtp3 =    0.0000000000000000     
 Skthl =    0.0000000000000000     
 thlp3 =    0.0000000000000000     
 wprtp =    5.0000000000000002E-005
 wpthlp =   -5.0000000000000001E-003
 rtpthlp =   -2.0124611797498108E-004
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 PDF parameter set 7:
 wm =   0.20000000000000001     
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.25000000000000000     
 rtp2 =    5.0000000000000004E-006
 thlp2 =   0.14999999999999999     
 Skw =   0.75000000000000000     
 wp3 =    9.3750000000000000E-002
 Skrt =    3.0000000000000000     
 rtp3 =    3.3541019662496846E-008
 Skthl =  -0.50000000000000000     
 thlp3 =   -2.9047375096555625E-002
 wprtp =    5.0000000000000002E-005
 wpthlp =   -5.0000000000000001E-003
 rtpthlp =   -7.7942286340599491E-004
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 PDF parameter set 8:
 wm =   -2.0000000000000000E-003
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =    4.0000000000000002E-004
 rtp2 =    1.0000000000000001E-016
 thlp2 =    1.0000000000000000E-004
 Skw =    0.0000000000000000     
 wp3 =    0.0000000000000000     
 Skrt =    0.0000000000000000     
 rtp3 =    0.0000000000000000     
 Skthl =    0.0000000000000000     
 thlp3 =    0.0000000000000000     
 wprtp =    0.0000000000000000     
 wpthlp =    0.0000000000000000     
 rtpthlp =    9.0000000000000012E-011
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 PDF parameter set 9:
 wm =    1.0000000000000000E-003
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =    4.0000000000000002E-004
 rtp2 =    1.9999999999999999E-006
 thlp2 =   0.69999999999999996     
 Skw =    0.0000000000000000     
 wp3 =    0.0000000000000000     
 Skrt =   -1.0000000000000000     
 rtp3 =   -2.8284271247461898E-009
 Skthl =   -2.0000000000000000     
 thlp3 =   -1.1713240371477056     
 wprtp =    0.0000000000000000     
 wpthlp =    0.0000000000000000     
 rtpthlp =    1.0648943609579309E-003
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 PDF parameter set 10 (randomly generated):
 Random seed values =         2026           4           7        -300           3          33          34         269
 wm =   -2.8921054012145619E-002
 rtm =    3.3459972231616891E-003
 thlm =    304.14621417005310     
 wp2 =   0.99008629643652157     
 rtp2 =    1.1265183576720172E-006
 thlp2 =    1.3261171464893236     
 Skw =    3.7358746480949154     
 wp3 =    3.6804580335142041     
 Skrt =    4.4911034332947555     
 rtp3 =    5.3698291400495909E-009
 Skthl =    1.3546029555249239     
 thlp3 =    2.0686396970697727     
 wprtp =    2.3712883096222636E-005
 wpthlp =  -0.77792764705983652     
 rtpthlp =   -1.1000250911022541E-003
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 Success!
 
 
 Performing PDF parameter values unit test
 =========================================
 
 Performing PDF parameter unit tests for the new hybrid PDF
 
 PDF parameter set 1:
 wm =   -5.0000000000000001E-003
 rtm =    4.2868400000000001E-003
 thlm =    309.13099999999997     
 wp2 =    3.3741899999999998E-002
 rtp2 =    1.1786499999999999E-006
 thlp2 =    5.9920000000000001E-002
 Skw =    8.6882480819056749     
 wp3 =    5.3850099999999998E-002
 Skrt =    1.4880899999999999     
 rtp3 =    1.9041733779221134E-009
 Skthl =   -1.4580900000000001     
 thlp3 =   -2.1386614365822010E-002
 wprtp =    2.3725400000000002E-005
 wpthlp =   -5.5512699999999996E-003
 rtpthlp =   -2.3917778634313013E-004
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 PDF parameter set 2:
 wm =    1.0000000000000000E-002
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.10000000000000001     
 rtp2 =    5.0000000000000004E-006
 thlp2 =   0.10000000000000001     
 Skw =   -4.5000000000000000     
 wp3 =  -0.14230249470757708     
 Skrt =    1.0000000000000000     
 rtp3 =    1.1180339887498949E-008
 Skthl =   -2.5000000000000000     
 thlp3 =   -7.9056941504209499E-002
 wprtp =   -5.0000000000000002E-005
 wpthlp =    5.0000000000000001E-003
 rtpthlp =   -6.3639610306789288E-004
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 PDF parameter set 3:
 wm =   -1.0000000000000000E-002
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.50000000000000000     
 rtp2 =    5.0000000000000004E-006
 thlp2 =   0.10000000000000001     
 Skw =    4.5000000000000000     
 wp3 =    1.5909902576697321     
 Skrt =    2.5000000000000000     
 rtp3 =    2.7950849718747374E-008
 Skthl =   -2.5000000000000000     
 thlp3 =   -7.9056941504209499E-002
 wprtp =    5.0000000000000002E-005
 wpthlp =   -5.0000000000000001E-003
 rtpthlp =   -6.3639610306789288E-004
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 PDF parameter set 4:
 wm =   0.10000000000000001     
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =    5.0000000000000000     
 rtp2 =    6.9999999999999999E-006
 thlp2 =    1.0000000000000000     
 Skw =    2.0000000000000000     
 wp3 =    22.360679774997898     
 Skrt =    1.5000000000000000     
 rtp3 =    2.7780388766178202E-008
 Skthl =   -1.5000000000000000     
 thlp3 =   -1.5000000000000000     
 wprtp =    5.0000000000000002E-005
 wpthlp =   -1.0000000000000000E-002
 rtpthlp =   -2.3811761799581318E-003
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 PDF parameter set 5:
 wm =   -1.0000000000000000E-003
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.29999999999999999     
 rtp2 =    1.9999999999999999E-006
 thlp2 =   0.20000000000000001     
 Skw =   -2.0000000000000000     
 wp3 =  -0.32863353450309962     
 Skrt =  -0.25000000000000000     
 rtp3 =   -7.0710678118654745E-010
 Skthl =   -3.5000000000000000     
 thlp3 =  -0.31304951684997062     
 wprtp =    5.0000000000000002E-005
 wpthlp =    5.0000000000000001E-003
 rtpthlp =    5.6920997883030825E-004
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 PDF parameter set 6:
 wm =   -1.0000000000000000E-002
 rtm =    5.0000000000000001E-003
 thlm =    305.00000000000000     
 wp2 =    1.0000000000000000     
 rtp2 =    4.9999999999999998E-007
 thlp2 =   0.10000000000000001     
 Skw =    0.0000000000000000     
 wp3 =    0.0000000000000000     
 Skrt =    0.0000000000000000     
 rtp3 =    0.0000000000000000     
 Skthl =    0.0000000000000000     
 thlp3 =    0.0000000000000000     
 wprtp =    5.0000000000000002E-005
 wpthlp =   -5.0000000000000001E-003
 rtpthlp =   -2.0124611797498108E-004
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 PDF parameter set 7:
 wm =   0.20000000000000001     
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =   0.25000000000000000     
 rtp2 =    5.0000000000000004E-006
 thlp2 =   0.14999999999999999     
 Skw =   0.75000000000000000     
 wp3 =    9.3750000000000000E-002
 Skrt =    3.0000000000000000     
 rtp3 =    3.3541019662496846E-008
 Skthl =  -0.50000000000000000     
 thlp3 =   -2.9047375096555625E-002
 wprtp =    5.0000000000000002E-005
 wpthlp =   -5.0000000000000001E-003
 rtpthlp =   -7.7942286340599491E-004
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 PDF parameter set 8:
 wm =   -2.0000000000000000E-003
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =    4.0000000000000002E-004
 rtp2 =    1.0000000000000001E-016
 thlp2 =    1.0000000000000000E-004
 Skw =    0.0000000000000000     
 wp3 =    0.0000000000000000     
 Skrt =    0.0000000000000000     
 rtp3 =    0.0000000000000000     
 Skthl =    0.0000000000000000     
 thlp3 =    0.0000000000000000     
 wprtp =    0.0000000000000000     
 wpthlp =    0.0000000000000000     
 rtpthlp =    9.0000000000000012E-011
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 PDF parameter set 9:
 wm =    1.0000000000000000E-003
 rtm =    1.0000000000000000E-002
 thlm =    305.00000000000000     
 wp2 =    4.0000000000000002E-004
 rtp2 =    1.9999999999999999E-006
 thlp2 =   0.69999999999999996     
 Skw =    0.0000000000000000     
 wp3 =    0.0000000000000000     
 Skrt =   -1.0000000000000000     
 rtp3 =   -2.8284271247461898E-009
 Skthl =   -2.0000000000000000     
 thlp3 =   -1.1713240371477056     
 wprtp =    0.0000000000000000     
 wpthlp =    0.0000000000000000     
 rtpthlp =    1.0648943609579309E-003
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 PDF parameter set 10 (randomly generated):
 Random seed values =         2026           4           7        -300           3          33          34         270
 wm =   -2.8921054012145619E-002
 rtm =    3.3459972231616956E-003
 thlm =    304.14621417005310     
 wp2 =   0.99008629639559398     
 rtp2 =    1.1572682589114280E-006
 thlp2 =    1.3261331765107927     
 Skw =    3.4393886291106757     
 wp3 =    3.3883699807909826     
 Skrt =   -3.5243767270500941     
 rtp3 =   -4.3876642482260721E-009
 Skthl =    3.7299193265569759     
 thlp3 =    5.6961333636350595     
 wprtp =    6.5372660400114357E-004
 wpthlp =   0.39899242532953594     
 rtpthlp =    1.1149441170457445E-003
 
 Running tests for the above parameter set for all combinations of F_w and zeta_w for the setting variable.  F_w values are 0 (or 1.0 x 10^-5), 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and 1.  Zeta_w values are 0, -1/2, 1, -1/3, 1/2, -1/5, 1/4, -9/10, 9, -3/4, and 3.
 
 Running tests for the above parameter set for the full PDF (the setting of F and zeta values is handled internally).
 
 Success!
 

 Performing spurious source unit test
 ====================================

 Test            1
 
 Vertical integral of <rt> before advance_xm_wpxp =    28.316670259590918     
 Vertical integral of <rt> after advance_xm_wpxp =    28.454761250379875     
 Vertical integral of <rt> forcing =   -3.9696697370157397E-005
 Flux of <rt> at the surface =    5.0000000000000001E-004
 Flux of <rt> at the top of the domain =    0.0000000000000000     
 Spurious source of <rt> =    1.3037531124138191E-017
 
 The spurious source of <rt> is within acceptable limits.
 
 Vertical integral of <thl> before advance_xm_wpxp =    793918.42642888101     
 Vertical integral of <thl> after advance_xm_wpxp =    793908.03522151255     
 Vertical integral of <thl> forcing =   -4.4637357896125940E-002
 Flux of <thl> at the surface =    1.0000000000000000E-002
 Flux of <thl> at the top of the domain =    0.0000000000000000     
 Spurious source of <thl> =    1.2514503322513804E-012
 
 The spurious source of <thl> is within acceptable limits.
 
 Test            2
 
 Vertical integral of <rt> before advance_xm_wpxp =    33.886547439507538     
 Vertical integral of <rt> after advance_xm_wpxp =    34.121573029329063     
 Vertical integral of <rt> forcing =   -4.8182509626233074E-005
 Flux of <rt> at the surface =    8.3160114236463143E-004
 Flux of <rt> at the top of the domain =    0.0000000000000000     
 Spurious source of <rt> =    1.8993866809230431E-017
 
 The spurious source of <rt> is within acceptable limits.
 
 Vertical integral of <thl> before advance_xm_wpxp =    795962.51265479065     
 Vertical integral of <thl> after advance_xm_wpxp =    795953.72131531232     
 Vertical integral of <thl> forcing =   -4.5936487776290162E-002
 Flux of <thl> at the surface =    1.6632022847292628E-002
 Flux of <thl> at the top of the domain =    0.0000000000000000     
 Spurious source of <thl> =    1.2006437510869716E-012
 
 The spurious source of <thl> is within acceptable limits.
 
 Test            3
 
 Vertical integral of <rt> before advance_xm_wpxp =    32.141859278268299     
 Vertical integral of <rt> after advance_xm_wpxp =    32.374233252329120     
 Vertical integral of <rt> forcing =   -3.2038294281031815E-005
 Flux of <rt> at the surface =    8.0661820781708065E-004
 Flux of <rt> at the top of the domain =    0.0000000000000000     
 Spurious source of <rt> =    1.9095510762900947E-017
 
 The spurious source of <rt> is within acceptable limits.
 
 Vertical integral of <thl> before advance_xm_wpxp =    794504.88040905003     
 Vertical integral of <thl> after advance_xm_wpxp =    794497.37186362955     
 Vertical integral of <thl> forcing =   -4.1160848890653461E-002
 Flux of <thl> at the surface =    1.6132364156341613E-002
 Flux of <thl> at the top of the domain =    0.0000000000000000     
 Spurious source of <thl> =   -6.2756050356327364E-013
 
 The spurious source of <thl> is within acceptable limits.
 
 Test            4
 
 Vertical integral of <rt> before advance_xm_wpxp =    21.692436187134202     
 Vertical integral of <rt> after advance_xm_wpxp =    21.831851155086529     
 Vertical integral of <rt> forcing =   -2.5965559245192523E-005
 Flux of <rt> at the surface =    4.9068211908626915E-004
 Flux of <rt> at the top of the domain =    0.0000000000000000     
 Spurious source of <rt> =    1.2220991362985045E-017
 
 The spurious source of <rt> is within acceptable limits.
 
 Vertical integral of <thl> before advance_xm_wpxp =    789251.68234854774     
 Vertical integral of <thl> after advance_xm_wpxp =    789245.45240449603     
 Vertical integral of <thl> forcing =   -3.0580122553748337E-002
 Flux of <thl> at the surface =    9.8136423817253831E-003
 Flux of <thl> at the top of the domain =    0.0000000000000000     
 Spurious source of <thl> =   -3.4046723773606402E-013
 
 The spurious source of <thl> is within acceptable limits.
 
 Test            5
 
 Vertical integral of <rt> before advance_xm_wpxp =    22.490173971969448     
 Vertical integral of <rt> after advance_xm_wpxp =    22.524852841801934     
 Vertical integral of <rt> forcing =   -4.9700771180502963E-005
 Flux of <rt> at the surface =    1.6529700395546843E-004
 Flux of <rt> at the top of the domain =    0.0000000000000000     
 Spurious source of <rt> =   -1.0570971181733668E-017
 
 The spurious source of <rt> is within acceptable limits.
 
 Vertical integral of <thl> before advance_xm_wpxp =    793734.22078064061     
 Vertical integral of <thl> after advance_xm_wpxp =    793721.73267157050     
 Vertical integral of <thl> forcing =   -4.4932970313911122E-002
 Flux of <thl> at the surface =    3.3059400791093686E-003
 Flux of <thl> at the top of the domain =    0.0000000000000000     
 Spurious source of <thl> =    1.1044082315336823E-012
 
 The spurious source of <thl> is within acceptable limits.
 
 Success!
 
 Running tuner tests
 -------------------
 goldstein_price pass
 rastrigin pass
 himmelblau pass
 eggholder pass
 schaffer pass
 ==================================================
  
 Performing 'mean vertical velocity in clouds' tests
  
 Success!
  
 ==================================================
  
 ==================================================
  
 Performing 'Smooth Heaviside Peskin' tests
  
 Case 1: heaviside_smth_range = 0, smooth Heaviside collapses to Heaviside
 Input:   -1.0000000000000000       -1.0000000000000000E-010   1.0000000000000000E-010   1.0000000000000000     
 Expected outcome:    0.0000000000000000        0.0000000000000000        1.0000000000000000        1.0000000000000000     
 True outcome:        0.0000000000000000        0.0000000000000000        1.0000000000000000        1.0000000000000000     
 
Case 2: heaviside_smth_range =    2.0000000000000000     
 Input:   -2.0000000001000000       -1.0000000000000000        1.0000000000000000        2.0000000001000000     
 Expected outcome:    0.0000000000000000        9.0845056908100005E-002  0.90915494309000000        1.0000000000000000     
 True outcome:        0.0000000000000000        9.0845056909999999E-002  0.90915494309000000        1.0000000000000000     
 Success!
  
 ==================================================
  
 ==================================================
  
 Performing 'Smooth Min / Max' tests
  
 Input:   -1.0000000000000000       -1.0000000000000000E-010   1.0000000000000000E-010   1.0000000000000000     
 (Simple) min:
 Expected outcome:   -1.0000000000000000       -1.0000000000000000E-010   0.0000000000000000        0.0000000000000000     
 True outcome:       -1.0000000000000000       -1.0000000000000000E-010   0.0000000000000000        0.0000000000000000      

 (Simple) max:
 Expected outcome:    0.0000000000000000        0.0000000000000000        1.0000000000000000E-010   1.0000000000000000     
 True outcome:        0.0000000000000000        0.0000000000000000        1.0000000000000000E-010   1.0000000000000000      


 Input:   -2.0000000001000000       -1.0000000000000000        1.0000000000000000        2.0000000001000000     
 Smooth min:
 Expected outcome:   -2.2247448714824141       -1.3660254037844388      -0.36602540378443871      -0.22474487138241406     
 True outcome:       -2.2247448714824136       -1.3660254037844388      -0.36602540378443871      -0.22474487138241384     
 Smooth max:
 Expected outcome:   0.22474487138241406       0.36602540378443871        1.3660254037844388        2.2247448714824141     
 True outcome:       0.22474487138241384       0.36602540378443871        1.3660254037844388        2.2247448714824136      


 Testing smooth min and max with min_max_smth_mag=1e-7, input_var1 = equidistant grid on [-1, 1), input_var2 = 0

 Input:    1.0000000000000000        10.000000000000000        100.00000000000000        1000.0000000000000     
 Smooth min:
 Expected outcome:   -1.1180339887498949       -1.0226805085936306       -1.0024751868658441       -1.0002497501874359     
 True outcome:       -1.1180339887498949       -1.0226805085936306       -1.0024751868658441       -1.0002497501874359      

 Smooth max:
 Expected outcome:    1.1180339887498949        1.0226805085936306        1.0024751868658441        1.0002497501874359     
 True outcome:        1.1180339887498949        1.0226805085936306        1.0024751868658441        1.0002497501874359      


    Fatal error in CLUBB - MPI Process   1 / Chunk index   1
Column index not available. Latitude/Longitude for column 1: ******/******
Latitude range from -90 to 90 degrees, Longitude range from -180 to 180 degrees
 Error in ADG1_w_closure: wp2 must not be less than the w tolerance value.
    Fatal error in CLUBB - MPI Process   1 / Chunk index   1
Column index not available. Latitude/Longitude for column 1: ******/******
Latitude range from -90 to 90 degrees, Longitude range from -180 to 180 degrees
 Error in ADG1_ADG2_responder_params: xp2 must not be less than its tolerance value.
 Input_var1:   -1000000.0000000000       -10000000.000000000       -100000000.00000000       -1000000000.0000000     
 Input_var2:    1.0000000000000000        10.000000000000000        100.00000000000000        1000.0000000000000     
 Smooth min:
 Expected outcome:   -1000000.0000002501       -10000000.000000026       -100000000.00000000       -1000000000.0000000     
 True outcome:       -1000000.0000002501       -10000000.000000026       -100000000.00000000       -1000000000.0000000      

 Smooth max:
 Expected outcome:    1.0000002500019036        10.000000025145710        100.00000000000000        1000.0000000000000     
 True outcome:        1.0000002500019036        10.000000025145710        100.00000000000000        1000.0000000000000      

 Input_var1:   -1000000.0000000000     
 Input_var2:    1.0000000000000000     
 Smooth min:
 Expected outcome:   -1000000.0000002501     
 True outcome:       -1000000.0000002501      

 Smooth max:
 Expected outcome:    1.0000002500019036     
 True outcome:        1.0000002500019036      

 Success!
  
 ==================================================
  
 
 ====================== Running fill holes tests ====================== 
 
 -------------- easy_fill_test --------------
 --- Testing fill type: global              ---
 --- Testing fill type: sliding_window      ---
 --- Testing fill type: widening_windows    ---
 --- Testing fill type: smart_window        ---
 --- Testing fill type: smart_window_smooth ---
 --- Testing fill type: parallel            ---
 PASS: easy_fill_test
 -----------------------------------------------
 
 -------------- below_thresh_test --------------
 --- Testing fill type: global              ---
 --- Testing fill type: sliding_window      ---
 --- Testing fill type: widening_windows    ---
 --- Testing fill type: smart_window        ---
 --- Testing fill type: smart_window_smooth ---
 --- Testing fill type: parallel            ---
 PASS: below_thresh_test
 -----------------------------------------------
 
 ====================== End fill holes tests ====================== 
 
Running /home/jenkins/workspace/clubb_G_unit_reverse_dir_grid_test/run_scripts/../install/latest/G_unit_tests ...
All tests have succeeded.
[Pipeline] }
[Pipeline] // stage
[Pipeline] stage
[Pipeline] { (Declarative: Post Actions)
[Pipeline] script
[Pipeline] {
[Pipeline] cleanWs
[WS-CLEANUP] Deleting project workspace...
[WS-CLEANUP] Deferred wipeout is used...
[WS-CLEANUP] done
[Pipeline] }
[Pipeline] // script
[Pipeline] }
[Pipeline] // stage
[Pipeline] }
[Pipeline] // withEnv
[Pipeline] }
[Pipeline] // node
[Pipeline] End of Pipeline
Finished: SUCCESS