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gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -Wno-conversion -c -I../src ../src/estimate_scm_microphys_module.F90
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -Wno-conversion -c -I../src ../src/lh_microphys_driver_module.F90
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -Wno-conversion -c ../src/microphys_driver.F90
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -Wno-conversion -c ../src/clubb_driver.F90
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -Wno-conversion -c ../src/error.F90
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -Wno-conversion -c -I../src ../src/enhanced_simann.F90
ar rv /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../lib/libclubb_other.a arm_97.o cloud_feedback.o parameters_microphys.o silhs_category_variance_module.o gabls2.o error.o clex9_oct14.o ice_dfsn_module.o wangara.o stat_file_utils.o clubb_model_settings.o lba.o jun25.o spec_hum_to_mixing_ratio.o arm.o mixed_moment_PDF_integrals.o microphys_driver.o clex9_nov02.o arm_0003.o enhanced_simann.o extended_atmosphere_module.o clubb_driver.o input_grads.o gfdl_activation.o extrapolation.o fire.o input_netcdf.o mpace_a.o bomex.o coamps_microphys_driver_module.o rico.o rad_lwsw_module.o bugsrad_driver.o cloud_sed_module.o sounding.o time_dependent_input.o morrison_microphys_module.o gabls3.o simple_rad_module.o estimate_scm_microphys_module.o quicksort.o gabls3_night.o astex_a209.o dycoms2_rf02.o twp_ice.o advance_microphys_module.o atex.o lh_microphys_driver_module.o hydrostatic_module.o mpace_b.o KK_microphys_module.o soil_vegetation.o arm_3year.o parameters_radiation.o microphys_init_cleanup.o diag_ustar_module.o input_interpret.o sfc_flux.o cobra.o input_fields.o dycoms2_rf01.o nov11.o cos_solar_zen_module.o
ar: creating /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../lib/libclubb_other.a
a - arm_97.o
a - cloud_feedback.o
a - parameters_microphys.o
a - silhs_category_variance_module.o
a - gabls2.o
a - error.o
a - clex9_oct14.o
a - ice_dfsn_module.o
a - wangara.o
a - stat_file_utils.o
a - clubb_model_settings.o
a - lba.o
a - jun25.o
a - spec_hum_to_mixing_ratio.o
a - arm.o
a - mixed_moment_PDF_integrals.o
a - microphys_driver.o
a - clex9_nov02.o
a - arm_0003.o
a - enhanced_simann.o
a - extended_atmosphere_module.o
a - clubb_driver.o
a - input_grads.o
a - gfdl_activation.o
a - extrapolation.o
a - fire.o
a - input_netcdf.o
a - mpace_a.o
a - bomex.o
a - coamps_microphys_driver_module.o
a - rico.o
a - rad_lwsw_module.o
a - bugsrad_driver.o
a - cloud_sed_module.o
a - sounding.o
a - time_dependent_input.o
a - morrison_microphys_module.o
a - gabls3.o
a - simple_rad_module.o
a - estimate_scm_microphys_module.o
a - quicksort.o
a - gabls3_night.o
a - astex_a209.o
a - dycoms2_rf02.o
a - twp_ice.o
a - advance_microphys_module.o
a - atex.o
a - lh_microphys_driver_module.o
a - hydrostatic_module.o
a - mpace_b.o
a - KK_microphys_module.o
a - soil_vegetation.o
a - arm_3year.o
a - parameters_radiation.o
a - microphys_init_cleanup.o
a - diag_ustar_module.o
a - input_interpret.o
a - sfc_flux.o
a - cobra.o
a - input_fields.o
a - dycoms2_rf01.o
a - nov11.o
a - cos_solar_zen_module.o
make[1]: Leaving directory '/home/jenkins/workspace/clubb_G_unit_gfortran_tests/obj'
cd /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../obj; make -f Make.clubb_standalone
cd /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../obj; make -f Make.clubb_tuner
cd /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../obj; make -f Make.jacobian
make[1]: Entering directory '/home/jenkins/workspace/clubb_G_unit_gfortran_tests/obj'
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -c ../src/clubb_standalone.F90
make[1]: Entering directory '/home/jenkins/workspace/clubb_G_unit_gfortran_tests/obj'
gfortran -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -c /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../src/Numerical_recipes/nrtype.f90
cd /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../obj; make -f Make.G_unit_tests
make[1]: Entering directory '/home/jenkins/workspace/clubb_G_unit_gfortran_tests/obj'
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -c ../src/jacobian.F90
cd /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../obj; make -f Make.int2txt
make[1]: Entering directory '/home/jenkins/workspace/clubb_G_unit_gfortran_tests/obj'
gfortran -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -c -I../src/CLUBB_core ../src/int2txt.F90
make[1]: Entering directory '/home/jenkins/workspace/clubb_G_unit_gfortran_tests/obj'
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -c ../src/G_unit_test_types/mu_sigma_hm_tests.F90
gfortran -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -c /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../src/Numerical_recipes/nrutil.f90
gfortran clubb_standalone.o -o /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../bin/clubb_standalone -L/home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../lib -lclubb_other -lclubb_coamps -lclubb_gfdlact -lsilhs -lclubb_bugsrad -lclubb_KK_microphys -lclubb_parabolic -lclubb_morrison -lmicrophys_utils -lclubb_param -lclubb_lapack -march=native -msse3 -mfpmath=sse -fopenmp -L/usr/local/NETCDF-Fortran-4.4.5-gfortran/lib -lnetcdff
gfortran int2txt.o -o /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../bin/int2txt -L/home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../lib -lclubb_other -lclubb_coamps -lclubb_gfdlact -lsilhs -lclubb_bugsrad -lclubb_KK_microphys -lclubb_parabolic -lclubb_morrison -lmicrophys_utils -lclubb_param -lclubb_lapack -march=native -msse3 -mfpmath=sse -fopenmp -L/usr/local/NETCDF-Fortran-4.4.5-gfortran/lib -lnetcdff
make[1]: Leaving directory '/home/jenkins/workspace/clubb_G_unit_gfortran_tests/obj'
cd /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../obj; make -f Make.clubb_thread_test
make[1]: Entering directory '/home/jenkins/workspace/clubb_G_unit_gfortran_tests/obj'
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -c ../src/clubb_thread_test.F90
gfortran clubb_thread_test.o -o /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../bin/clubb_thread_test -L/home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../lib -lclubb_other -lclubb_coamps -lclubb_gfdlact -lsilhs -lclubb_bugsrad -lclubb_KK_microphys -lclubb_parabolic -lclubb_morrison -lmicrophys_utils -lclubb_param -lclubb_lapack -march=native -msse3 -mfpmath=sse -fopenmp -L/usr/local/NETCDF-Fortran-4.4.5-gfortran/lib -lnetcdff
make[1]: Leaving directory '/home/jenkins/workspace/clubb_G_unit_gfortran_tests/obj'
gfortran -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -c /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../src/Numerical_recipes/nr.f90
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -c ../src/clubb_tuner.F90
gfortran jacobian.o -o /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../bin/jacobian -L/home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../lib -lclubb_other -lclubb_coamps -lclubb_gfdlact -lsilhs -lclubb_bugsrad -lclubb_KK_microphys -lclubb_parabolic -lclubb_morrison -lmicrophys_utils -lclubb_param -lclubb_lapack -march=native -msse3 -mfpmath=sse -fopenmp -L/usr/local/NETCDF-Fortran-4.4.5-gfortran/lib -lnetcdff
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -c ../src/G_unit_test_types/w_up_in_cloud_tests.F90
../src/G_unit_test_types/w_up_in_cloud_tests.F90:24:8:
24 | use clubb_precision, only: &
| 1
Warning: Unused parameter ‘core_rknd’ which has been explicitly imported at (1) [-Wunused-parameter]
make[1]: Leaving directory '/home/jenkins/workspace/clubb_G_unit_gfortran_tests/obj'
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -c ../src/G_unit_test_types/tuner_tests.F90
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -c ../src/G_unit_test_types/hole_filling_tests.F90
make[1]: Leaving directory '/home/jenkins/workspace/clubb_G_unit_gfortran_tests/obj'
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -c ../src/G_unit_test_types/KK_integrals_tests.F90
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -c ../src/G_unit_test_types/smooth_heaviside_tests.F90
../src/G_unit_test_types/smooth_heaviside_tests.F90:98:7:
98 | i
| 1
Warning: Unused variable ‘i’ declared at (1) [-Wunused-variable]
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -c ../src/G_unit_test_types/spurious_source_test.F90
../src/G_unit_test_types/smooth_heaviside_tests.F90:120:80:
120 | total_mismatches = total_mismatches + COUNT(abs(result - result_cmp) >= eps)
| ^
Warning: ‘total_mismatches’ is used uninitialized in this function [-Wuninitialized]
../src/G_unit_test_types/smooth_heaviside_tests.F90:32:31:
32 | integer :: total_mismatches
| ^
note: ‘total_mismatches’ was declared here
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -c ../src/G_unit_test_types/silhs_category_test.F90
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -c ../src/G_unit_test_types/corr_cholesky_mtx_tests.F90
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -c ../src/G_unit_test_types/Nc_Ncn_test.F90
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -c ../src/G_unit_test_types/read_corr_mtx_test.F90
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -c ../src/G_unit_test_types/pdf_parameter_tests.F90
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -c ../src/G_unit_test_types/smooth_min_max_tests.F90
gfortran -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -c /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../src/Numerical_recipes/ran_state.f90
gfortran -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -c /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../src/Numerical_recipes/amoeba.f90
gfortran -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -c /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../src/Numerical_recipes/amebsa.f90
gfortran -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -c /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../src/Numerical_recipes/ran1_v.f90
gfortran -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -c /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../src/Numerical_recipes/ran1_s.f90
gfortran ran_state.o amoeba.o ran1_v.o nrtype.o amebsa.o nr.o nrutil.o clubb_tuner.o ran1_s.o -o /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../bin/clubb_tuner -L/home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../lib -lclubb_other -lclubb_coamps -lclubb_gfdlact -lsilhs -lclubb_bugsrad -lclubb_KK_microphys -lclubb_parabolic -lclubb_morrison -lmicrophys_utils -lclubb_param -lclubb_lapack -march=native -msse3 -mfpmath=sse -fopenmp -L/usr/local/NETCDF-Fortran-4.4.5-gfortran/lib -lnetcdff
make[1]: Leaving directory '/home/jenkins/workspace/clubb_G_unit_gfortran_tests/obj'
gfortran -DNETCDF -D__GFORTRAN__ -DCLUBB_REAL_TYPE=8 -DCOAMPS_MICRO -DTUNER -DSILHS -Dradoffline -Dnooverlap -DCLUBB -I/usr/local/NETCDF-Fortran-4.4.5-gfortran/include/ -march=native -msse3 -mfpmath=sse -fopenmp -g -fbounds-check -mieee-fp -ffpe-trap=invalid,zero,overflow -finit-real=nan -finit-integer=-99999 -finit-logical=false -fall-intrinsics -fbacktrace -O2 -Wall -Wextra -Wconversion -Wunderflow -Wcharacter-truncation -std=f2008 -pedantic -c ../src/G_unit_tests.F90
../src/G_unit_tests.F90:176:13:
176 | stats_sfc
| 1
Warning: Unused variable ‘stats_sfc’ declared at (1) [-Wunused-variable]
../src/G_unit_tests.F90:175:12:
175 | stats_zm, &
| 1
Warning: Unused variable ‘stats_zm’ declared at (1) [-Wunused-variable]
../src/G_unit_tests.F90:174:12:
174 | stats_zt, &
| 1
Warning: Unused variable ‘stats_zt’ declared at (1) [-Wunused-variable]
gfortran mu_sigma_hm_tests.o w_up_in_cloud_tests.o tuner_tests.o hole_filling_tests.o KK_integrals_tests.o smooth_heaviside_tests.o spurious_source_test.o silhs_category_test.o corr_cholesky_mtx_tests.o G_unit_tests.o pdf_parameter_tests.o Nc_Ncn_test.o smooth_min_max_tests.o read_corr_mtx_test.o -o /home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../bin/G_unit_tests -L/home/jenkins/workspace/clubb_G_unit_gfortran_tests/compile/../lib -lclubb_other -lclubb_coamps -lclubb_gfdlact -lsilhs -lclubb_bugsrad -lclubb_KK_microphys -lclubb_parabolic -lclubb_morrison -lmicrophys_utils -lclubb_param -lclubb_lapack -march=native -msse3 -mfpmath=sse -fopenmp -L/usr/local/NETCDF-Fortran-4.4.5-gfortran/lib -lnetcdff
make[1]: Leaving directory '/home/jenkins/workspace/clubb_G_unit_gfortran_tests/obj'
python ../utilities/check_for_missing_threadprivate.py ../src/CLUBB_core/ ../src/SILHS/
check_for_missing_threadprivate.py has begun.
check_for_missing_threadprivate.py passed.
perl ../utilities/CLUBBStandardsCheck.pl ../src/*.F90
CLUBBStandardsCheck.pl has begun.
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CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2324 : call setup_pdf_parameters_api( gr(1), gr(1)%nz, pdf_dim, dt_main, & ! Intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2349 : call hydrometeor_mixed_moments( gr(1), gr(1)%nz, pdf_dim, hydromet, & ! Intent(in)
CLUBBStandardsCheck.pl WARNING: File has lines that exceed 100 characters.
../src/clubb_driver.F90
--------------------------------------------------------------------------------
CLUBBStandardsCheck.pl has finished.
perl ../utilities/CLUBBStandardsCheck.pl ../src/CLUBB_core/*.F90
CLUBBStandardsCheck.pl has begun.
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CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
302 : exner_col, rtm_col, rcm_col, p_in_Pa_col, thvm_col, & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
698 : Richardson_num(i,:) = Lscale_width_vert_avg( gr(i), Richardson_num(i,:), Lscale_zm(i,:), rho_ds_zm(i,:), &
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
713 : Cx_fnc_Richardson(i,:) = Lscale_width_vert_avg( gr(i), Cx_fnc_Richardson(i,:), Lscale_zm(i,:), rho_ds_zm(i,:), &
CLUBBStandardsCheck.pl WARNING: File has lines that exceed 100 characters.
../src/CLUBB_core/advance_helper_module.F90
--------------------------------------------------------------------------------
--------------------------------------------------------------------------------
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
86 : real( kind = core_rknd ), dimension(ngrdcol,nz), intent(out) :: sigma_sqd_w ! PDF width parameter [-]
CLUBBStandardsCheck.pl WARNING: File has lines that exceed 100 characters.
../src/CLUBB_core/sigma_sqd_w_module.F90
--------------------------------------------------------------------------------
--------------------------------------------------------------------------------
--------------------------------------------------------------------------------
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
860 : write(iunit,*) "l_fix_w_chi_eta_correlations = ", clubb_config_flags%l_fix_w_chi_eta_correlations
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
877 : write(iunit,*) "l_use_tke_in_wp3_pr_turb_term = ", clubb_config_flags%l_use_tke_in_wp3_pr_turb_term
CLUBBStandardsCheck.pl WARNING: File has lines that exceed 100 characters.
../src/CLUBB_core/model_flags.F90
--------------------------------------------------------------------------------
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1335 : sqrt( (ddzt( nz, ngrdcol, gr, um ))**2 &
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1356 : / max( ( ddzt( nz, ngrdcol, gr, um)**2 + ddzt(nz, ngrdcol, gr, vm)**2 ), 1.0e-7_core_rknd ) )
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1391 : * sqrt(em(i,k)) / ( gr(i)%zm(k) - sfc_elevation(i) + z_displace ) ! small
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1395 : invrs_tau_xp2_zm = min( max( sqrt( ( ddzt( nz, ngrdcol, gr, um)**2 + ddzt(nz, ngrdcol, gr, vm)**2 ) &
CLUBBStandardsCheck.pl WARNING: File has lines that exceed 100 characters.
../src/CLUBB_core/mixing_length.F90
--------------------------------------------------------------------------------
--------------------------------------------------------------------------------
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1198 : um_col, vm_col, upwp_col, vpwp_col, up2_col, vp2_col, up3_col, vp3_col, & ! intent(inout)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1200 : wp2_col, wp3_col, rtp2_col, rtp3_col, thlp2_col, thlp3_col, rtpthlp_col, & ! intent(inout)
CLUBBStandardsCheck.pl WARNING: File has lines that exceed 100 characters.
../src/CLUBB_core/clubb_api_module.F90
--------------------------------------------------------------------------------
--------------------------------------------------------------------------------
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
908 : ( gr(i), thlm_forcing(i,:), rtm_forcing(i,:), um_forcing(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
909 : vm_forcing(i,:), wm_zm(i,:), wm_zt(i,:), p_in_Pa(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
910 : rho_zm(i,:), rho(i,:), exner(i,:), rho_ds_zm(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
911 : rho_ds_zt(i,:), invrs_rho_ds_zm(i,:), invrs_rho_ds_zt(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
912 : thv_ds_zm(i,:), thv_ds_zt(i,:), wpthlp_sfc(i), wprtp_sfc(i), upwp_sfc(i), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
913 : vpwp_sfc(i), um(i,:), upwp(i,:), vm(i,:), vpwp(i,:), up2(i,:), vp2(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
914 : rtm(i,:), wprtp(i,:), thlm(i,:), wpthlp(i,:), wp2(i,:), wp3(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
915 : rtp2(i,:), thlp2(i,:), rtpthlp(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
918 : wpsclrp_sfc(i,:), wpedsclrp_sfc(i,:), sclrm(i,:,:), wpsclrp(i,:,:), sclrp2(i,:,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
919 : sclrprtp(i,:,:), sclrpthlp(i,:,:), sclrm_forcing(i,:,:), edsclrm(i,:,:), edsclrm_forcing(i,:,:) ) ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1221 : thlp2_zt(:,:) = max( zm2zt( nz, ngrdcol, gr, thlp2(:,:) ), thl_tol**2 ) ! Positive def. quantity
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1222 : rtp2_zt(:,:) = max( zm2zt( nz, ngrdcol, gr, rtp2(:,:) ), rt_tol**2 ) ! Positive def. quantity
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1448 : call calc_sfc_varnce( upwp_sfc(i), vpwp_sfc(i), wpthlp_sfc(i), wprtp_sfc(i), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1449 : um(i,2), vm(i,2), Lscale_up(i,2), wpsclrp_sfc(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1561 : stability_correction(i,:) = calc_stability_correction( gr(i), thlm(i,:), Lscale(i,:), em(i,:), &
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1665 : stats_zm, & ! intent(inout)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1688 : call advance_xm_wpxp( nz, ngrdcol, gr, dt_advance, sigma_sqd_w, wm_zm, wm_zt, wp2, & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1746 : sclrm(i,:,:), sclrm_trsport_only(i,:,:), & ! intent(inout)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1855 : call clip_covars_denom( gr(i), dt, rtp2(i,:), thlp2(i,:), up2(i,:), vp2(i,:), wp2(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1862 : wprtp(i,:), wpthlp(i,:), upwp(i,:), vpwp(i,:), wpsclrp(i,:,:), & ! intent(inout)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1876 : ( gr(i), dt_advance, sfc_elevation(i), sigma_sqd_w(i,:), wm_zm(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1877 : wm_zt(i,:), a3_coef(i,:), a3_coef_zt(i,:), wp3_on_wp2(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1878 : wpup2(i,:), wpvp2(i,:), wp2up2(i,:), wp2vp2(i,:), wp4(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1879 : wpthvp(i,:), wp2thvp(i,:), um(i,:), vm(i,:), upwp(i,:), vpwp(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1880 : up2(i,:), vp2(i,:), em(i,:), Kh_zm(i,:), Kh_zt(i,:), invrs_tau_C4_zm(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1881 : invrs_tau_wp3_zt(i,:), invrs_tau_C1_zm(i,:), Skw_zm(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1882 : Skw_zt(i,:), rho_ds_zm(i,:), rho_ds_zt(i,:), invrs_rho_ds_zm(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1883 : invrs_rho_ds_zt(i,:), radf(i,:), thv_ds_zm(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1887 : wprtp(i,:), wpthlp(i,:), rtp2(i,:), thlp2(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1902 : wp2(i,:), wp3(i,:), wp3_zm(i,:), wp2_zt(i,:) ) ! intent(inout)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1963 : call clip_covars_denom( gr(i), dt, rtp2(i,:), thlp2(i,:), up2(i,:), vp2(i,:), wp2(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1970 : wprtp(i,:), wpthlp(i,:), upwp(i,:), vpwp(i,:), wpsclrp(i,:,:), & ! intent(inout)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2002 : wp2(i,:), up2(i,:), vp2(i,:), um_forcing(i,:), vm_forcing(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2014 : stats_zt(i), stats_zm(i), stats_sfc(i), & ! intent(inout)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2015 : um(i,:), vm(i,:), edsclrm(i,:,:), & ! intent(inout)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2016 : upwp(i,:), vpwp(i,:), wpedsclrp(i,:,:), & ! intent(inout)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2017 : um_pert(i,:), vm_pert(i,:), upwp_pert(i,:), vpwp_pert(i,:) ) ! intent(inout)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2064 : call advance_xp3( gr(i), dt, rtm(i,:), thlm(i,:), rtp2(i,:), thlp2(i,:), wprtp(i,:), & ! Intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2065 : wpthlp(i,:), wprtp2(i,:), wpthlp2(i,:), rho_ds_zm(i,:), & ! Intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2067 : sclrm(i,:,:), sclrp2(i,:,:), wpsclrp(i,:,:), wpsclrp2(i,:,:), & ! Intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2070 : rtp3(i,:), thlp3(i,:), sclrp3(i,:,:) ) ! Intent(inout)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2124 : thlp2_zt(:,:) = max( zm2zt( nz, ngrdcol, gr, thlp2(:,:) ), thl_tol**2 ) ! Positive def. quantity
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2125 : rtp2_zt(:,:) = max( zm2zt( nz, ngrdcol, gr, rtp2(:,:) ), rt_tol**2 ) ! Positive def. quantity
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2416 : gr(i), um(i,:), vm(i,:), upwp(i,:), vpwp(i,:), up2(i,:), vp2(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2417 : thlm(i,:), rtm(i,:), wprtp(i,:), wpthlp(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2418 : wp2(i,:), wp3(i,:), rtp2(i,:), rtp3(i,:), thlp2(i,:), thlp3(i,:), rtpthlp(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2419 : wpthvp(i,:), wp2thvp(i,:), rtpthvp(i,:), thlpthvp(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2420 : p_in_Pa(i,:), exner(i,:), rho(i,:), rho_zm(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2421 : rho_ds_zm(i,:), rho_ds_zt(i,:), thv_ds_zm(i,:), thv_ds_zt(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2422 : wm_zt(i,:), wm_zm(i,:), rcm(i,:), wprcp(i,:), rc_coef(i,:), rc_coef_zm(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2423 : rcm_zm(i,:), rtm_zm(i,:), thlm_zm(i,:), cloud_frac(i,:), ice_supersat_frac(i,:),& ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2426 : thvm(i,:), ug(i,:), vg(i,:), Lscale(i,:), wpthlp2(i,:), wp2thlp(i,:), wprtp2(i,:), wp2rtp(i,:),& ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2427 : Lscale_up(i,:), Lscale_down(i,:), tau_zt(i,:), Kh_zt(i,:), wp2rcp(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2428 : wprtpthlp(i,:), sigma_sqd_w_zt(i,:), rsat(i,:), wp2_zt(i,:), thlp2_zt(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2429 : wpthlp_zt(i,:), wprtp_zt(i,:), rtp2_zt(i,:), rtpthlp_zt(i,:), up2_zt(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2430 : vp2_zt(i,:), upwp_zt(i,:), vpwp_zt(i,:), wpup2(i,:), wpvp2(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2433 : rtprcp(i,:), rcp2(i,:), em(i,:), a3_coef(i,:), a3_coef_zt(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2434 : wp3_zm(i,:), wp3_on_wp2(i,:), wp3_on_wp2_zt(i,:), Skw_velocity(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2436 : pdf_params_single_col(i), pdf_params_zm_single_col(i), sclrm(i,:,:), sclrp2(i,:,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2437 : sclrprtp(i,:,:), sclrpthlp(i,:,:), sclrm_forcing(i,:,:), sclrpthvp(i,:,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2438 : wpsclrp(i,:,:), sclrprcp(i,:,:), wp2sclrp(i,:,:), wpsclrp2(i,:,:), wpsclrprtp(i,:,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2439 : wpsclrpthlp(i,:,:), wpedsclrp(i,:,:), edsclrm(i,:,:), edsclrm_forcing(i,:,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2446 : gr(i), thlm_forcing(i,:), rtm_forcing(i,:), um_forcing(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2447 : vm_forcing(i,:), wm_zm(i,:), wm_zt(i,:), p_in_Pa(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2448 : rho_zm(i,:), rho(i,:), exner(i,:), rho_ds_zm(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2449 : rho_ds_zt(i,:), invrs_rho_ds_zm(i,:), invrs_rho_ds_zt(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2450 : thv_ds_zm(i,:), thv_ds_zt(i,:), wpthlp_sfc(i), wprtp_sfc(i), upwp_sfc(i), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2451 : vpwp_sfc(i), um(i,:), upwp(i,:), vm(i,:), vpwp(i,:), up2(i,:), vp2(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2452 : rtm(i,:), wprtp(i,:), thlm(i,:), wpthlp(i,:), wp2(i,:), wp3(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2453 : rtp2(i,:), thlp2(i,:), rtpthlp(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2456 : wpsclrp_sfc(i,:), wpedsclrp_sfc(i,:), sclrm(i,:,:), wpsclrp(i,:,:), sclrp2(i,:,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2457 : sclrprtp(i,:,:), sclrpthlp(i,:,:), sclrm_forcing(i,:,:), edsclrm(i,:,:), edsclrm_forcing(i,:,:) ) ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3027 : wp2_zt(:,:) = max( zm2zt( nz, ngrdcol, gr, wp2(:,:) ), w_tol_sqd ) ! Positive definite quantity
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3029 : thlp2_zt(:,:) = max( zm2zt( nz, ngrdcol, gr, thlp2(:,:) ), thl_tol**2 ) ! Positive definite quantity
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3031 : rtp2_zt(:,:) = max( zm2zt( nz, ngrdcol, gr, rtp2(:,:) ), rt_tol**2 ) ! Positive definite quantity
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3033 : up2_zt(:,:) = max( zm2zt( nz, ngrdcol, gr, up2(:,:) ), w_tol_sqd ) ! Positive definite quantity
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3035 : vp2_zt(:,:) = max( zm2zt( nz, ngrdcol, gr, vp2(:,:) ), w_tol_sqd ) ! Positive definite quantity
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3039 : sclrp2_zt(:,:,j) = max( zm2zt( nz, ngrdcol, gr, sclrp2(:,:,j) ), sclr_tol(j)**2 ) ! Pos. def. quantity
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3169 : sigma_sqd_w_zt(:,:) = max( zm2zt( nz, ngrdcol, gr, sigma_sqd_w(:,:) ), zero_threshold ) ! Pos. def. quantity
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3176 : rtp2_zt(:,:) = max( zm2zt( nz, ngrdcol, gr, rtp2(:,:) ), rt_tol**2 ) ! Positive def. quantity
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3177 : thlp2_zt(:,:) = max( zm2zt( nz, ngrdcol, gr, thlp2(:,:) ), thl_tol**2 ) ! Positive def. quantity
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3178 : up2_zt(:,:) = max( zm2zt( nz, ngrdcol, gr, up2(:,:) ), w_tol_sqd ) ! Positive def. quantity
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3179 : vp2_zt(:,:) = max( zm2zt( nz, ngrdcol, gr, vp2(:,:) ), w_tol_sqd ) ! Positive def. quantity
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3203 : sclrp2_zt(:,:,j) = max( zm2zt( nz, ngrdcol, gr, sclrp2(:,:,j) ), sclr_tol(j)**2 ) ! Pos. def. quantity
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3412 : rcp2(:,:) = max( zt2zm( nz, ngrdcol, gr, rcp2_zt(:,:) ), zero_threshold ) ! Pos. def. quantity
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3484 : rcm(i,:), wp2thvp(i,:), wpsclrprtp(i,:,:), wpsclrp2(i,:,:), & ! intent(inout)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4783 : ( ( 0.5_core_rknd / gr(i)%invrs_dzm(k-1) ) / ( gr(i)%zt(k) - gr(i)%zm(k-1) ) ) &
CLUBBStandardsCheck.pl WARNING: File has lines that exceed 100 characters.
../src/CLUBB_core/advance_clubb_core_module.F90
--------------------------------------------------------------------------------
--------------------------------------------------------------------------------
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
767 : call error_prints_xm_wpxp( gr(i), dt, sigma_sqd_w(i,:), wm_zm(i,:), wm_zt(i,:), wp2(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
768 : Lscale(i,:), wp3_on_wp2(i,:), wp3_on_wp2_zt(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
769 : Kh_zt(i,:), Kh_zm(i,:), invrs_tau_C6_zm(i,:), Skw_zm(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
773 : wpthlp_forcing(i,:), thlm_ref(i,:), rho_ds_zm(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
779 : wp2sclrp(i,:,:), sclrpthvp(i,:,:), sclrm_forcing(i,:,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
780 : sclrp2(i,:,:), exner(i,:), rcm(i,:), p_in_Pa(i,:), thvm(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
783 : um_forcing(i,:), vm_forcing(i,:), ug(i,:), vg(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
784 : wpthvp(i,:), fcor(i), um_ref(i,:), vm_ref(i,:), up2(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
785 : vp2(i,:), uprcp(i,:), vprcp(i,:), rc_coef(i,:), rtm(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
786 : wprtp(i,:), thlm(i,:), wpthlp(i,:), sclrm(i,:,:), wpsclrp(i,:,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
787 : um(i,:), upwp(i,:), vm(i,:), vpwp(i,:), rtm_old(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
789 : sclrm_old(i,:,:), wpsclrp_old(i,:,:), um_old(i,:), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1363 : call wpxp_terms_ac_pr2_lhs( gr(i), C7_Skw_fnc(i,:), wm_zt(i,:), gr(i)%invrs_dzm(:), & ! Intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1387 : calc_stability_correction( gr(i), thlm(i,:), Lscale(i,:), em(i,:), exner(i,:), rtm(i,:), rcm(i,:), &
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1412 : call term_ma_zt_lhs( gr(i), wm_zt(i,:), gr(i)%invrs_dzt(:), gr(i)%invrs_dzm(:), & ! Intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1706 : call wpxp_terms_bp_pr3_rhs( nz, ngrdcol, gr, (one+C7_Skw_fnc), thv_ds_zm, xpthvp, & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2635 : call xm_wpxp_rhs( nz, ngrdcol, gr, xm_wpxp_scalar, l_iter, dt, sclrm(:,:,j), wpsclrp(:,:,j), & ! In
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2706 : call stat_update_var( iupwp_pr4, C_uu_shr * wp2(i,:) * ddzt( gr(i), um(i,:) ), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2708 : call stat_update_var( ivpwp_pr4, C_uu_shr * wp2(i,:) * ddzt( gr(i), vm(i,:) ), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3503 : call xm_wpxp_rhs( nz, ngrdcol, gr, xm_wpxp_scalar, l_iter, dt, sclrm(:,:,j), wpsclrp(:,:,j), & ! In
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4101 : call wpxp_terms_ac_pr2_lhs( gr(i), zero_vector(i,:), wm_zt(i,:), gr(i)%invrs_dzm, & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4107 : call wpxp_terms_ac_pr2_lhs( gr(i), (one+C7_Skw_fnc(i,:)), wm_zt(i,:), gr(i)%invrs_dzm, & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4353 : call xm_correction_wpxp_cl( gr(i), solve_type, dt, wpxp_chnge(i,:), gr(i)%invrs_dzt, & ! intent(in)
CLUBBStandardsCheck.pl WARNING: File has lines that exceed 100 characters.
../src/CLUBB_core/advance_xm_wpxp_module.F90
--------------------------------------------------------------------------------
--------------------------------------------------------------------------------
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
505 : call calc_xp2_xpyp_ta_terms( nz, ngrdcol, gr, wprtp, wprtp2, wpthlp, wpthlp2, wprtpthlp, & ! In
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
560 : call solve_xp2_xpyp_with_multiple_lhs( nz, ngrdcol, gr, C2rt_1d, C2thl_1d, C2rtthl_1d, C2sclr_1d, & ! In
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
601 : lhs_dp1(i,k) = lhs_dp1(i,k) + term_dp1_lhs( C14_1d(i,k), invrs_tau_C14_zm(i,k) ) * gamma_over_implicit_ts
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1225 : subroutine solve_xp2_xpyp_with_single_lhs( nz, ngrdcol, gr, C2x, invrs_tau_xp2_zm, rtm, thlm, wprtp, &
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1477 : sclrprtp(:,:,:) = one_half * ( sclrprtp(:,:,:) + solution(:,:,3+sclr_dim+1:3+2*sclr_dim) )
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1478 : sclrpthlp(:,:,:) = one_half * ( sclrpthlp(:,:,:) + solution(:,:,3+2*sclr_dim+1:3+3*sclr_dim) )
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1520 : subroutine solve_xp2_xpyp_with_multiple_lhs( nz, ngrdcol, gr, C2rt_1d, C2thl_1d, C2rtthl_1d, C2sclr_1d, &
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1773 : lhs_dp1(i,k) = term_dp1_lhs( C2rtthl_1d(i,k), invrs_tau_xp2_zm(i,k) ) * gamma_over_implicit_ts
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1816 : lhs_dp1(i,k) = term_dp1_lhs( C2sclr_1d(i,k), invrs_tau_xp2_zm(i,k) ) * gamma_over_implicit_ts
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2009 : sclrprtp(:,:,:) = one_half * ( sclrprtp(:,:,:) + sclr_solution(:,:,sclr_dim+1:2*sclr_dim) )
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2010 : sclrpthlp(:,:,:) = one_half * ( sclrpthlp(:,:,:) + sclr_solution(:,:,2*sclr_dim+1:3*sclr_dim) )
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2234 : real( kind = core_rknd ), dimension(ngrdcol) :: rcond ! Est. of the reciprocal of the condition # on the matrix
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2283 : lhs(kp1_mdiag,i,:), lhs(k_mdiag,i,:), lhs(km1_mdiag,i,:), rhs(i,:,1:nrhs), & ! Intent(inout)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2284 : xapxbp(i,:,1:nrhs), rcond(i) ) ! Intent(out)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2694 : rhs(i,k) = rhs(i,k) + ( one - C_uu_shr ) * term_tp( xam(i,k+1), xam(i,k), xam(i,k+1), xam(i,k), &
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2708 : rhs(i,k) = rhs(i,k) + term_pr2( gr(i), C_uu_shr, C_uu_buoy, thv_ds_zm(i,k), wpthvp(i,k), wpxap(i,k), &
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
2776 : wpxbp(i,k), xam(i,:), xbm(i,:), gr(i)%invrs_dzm(k), k+1, k ), & ! intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3500 : sgn_t_vel_rtp2(i,:) = sgn_turbulent_velocity( gr(i), term_wprtp2_explicit_zm(i,:), rtp2(i,:) )
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3522 : sgn_t_vel_thlp2(i,:) = sgn_turbulent_velocity( gr(i), term_wpthlp2_explicit_zm(i,:), thlp2(i,:) )
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3544 : sgn_t_vel_rtpthlp(i,:) = sgn_turbulent_velocity( gr(i), term_wprtpthlp_explicit_zm(i,:), rtpthlp(i,:) )
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3601 : sgn_t_vel_sclrprtp(i,:) = sgn_turbulent_velocity( gr(i), term_wprtpsclrp_explicit_zm(i,:), &
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3630 : sgn_t_vel_sclrpthlp(i,:) = sgn_turbulent_velocity( gr(i), term_wpthlpsclrp_explicit_zm(i,:), &
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3739 : = ( one - one_third * beta ) * a1_zt(:,:)**2 * wprtp_zt(:,:)**2 * wp3_on_wp2_zt(:,:) / wp2_zt(:,:)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3742 : = ( one - one_third * beta ) * a1_zt(:,:)**2 * wpthlp_zt(:,:)**2 * wp3_on_wp2_zt(:,:) / wp2_zt(:,:)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3745 : = ( one - one_third * beta ) * a1_zt(:,:)**2 * wprtp_zt(:,:) * wpthlp_zt(:,:) * wp3_on_wp2_zt(:,:) / wp2_zt(:,:)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3784 : sgn_t_vel_rtp2(:,:) = ( one - one_third * beta ) * a1_zt(:,:)**2 * wp3_on_wp2_zt(:,:) / wp2_zt(:,:)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3829 : sgn_t_vel_thlp2(:,:) = ( one - one_third * beta ) * a1_zt(:,:)**2 * wp3_on_wp2_zt(:,:) / wp2_zt(:,:)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3847 : = ( one - one_third * beta ) * a1(:,:)**2 * wprtp(:,:) * wpthlp(:,:) * wp3_on_wp2(:,:) / wp2(:,:)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3875 : sgn_t_vel_rtpthlp(:,:) = ( one - one_third * beta ) * a1_zt(:,:)**2 * wp3_on_wp2_zt(:,:) / wp2_zt(:,:)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3878 : call xpyp_term_ta_pdf_rhs_godunov( gr(i), term_wprtpthlp_explicit_zm(i,:), & ! Intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3905 : = ( one - one_third * beta ) * a1(:,:)**2 * wpsclrp(:,:,sclr)**2 * wp3_on_wp2(:,:) / wp2(:,:)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3912 : = ( one - one_third * beta ) * a1_zt(:,:)**2 * wpsclrp_zt(:,:,sclr)**2 * wp3_on_wp2_zt(:,:) / wp2_zt(:,:)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3938 : sgn_t_vel_sclrp2(:,:) = ( one - one_third * beta ) * a1_zt(:,:)**2 * wp3_on_wp2_zt(:,:) / wp2_zt(:,:)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3941 : call xpyp_term_ta_pdf_rhs_godunov( gr(i), term_wpsclrp2_explicit_zm(i,:), & ! Intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3946 : rhs_ta_wpsclrp2(i,:,sclr) ) ! Intent(out)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3959 : = ( one - one_third * beta ) * a1(:,:)**2 * wpsclrp(:,:,sclr) * wprtp(:,:) * wp3_on_wp2(:,:) / wp2(:,:)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3991 : sgn_t_vel_sclrprtp(:,:) = ( one - one_third * beta ) * a1_zt(:,:)**2 * wp3_on_wp2_zt(:,:) / wp2_zt(:,:)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3994 : call xpyp_term_ta_pdf_rhs_godunov( gr(i), term_wprtpsclrp_explicit_zm(i,:), & ! Intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
3999 : rhs_ta_wprtpsclrp(i,:,sclr) ) ! Intent(out)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4012 : = ( one - one_third * beta ) * a1(:,:)**2 * wpsclrp(:,:,sclr) * wpthlp(:,:) * wp3_on_wp2(:,:) / wp2(:,:)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4045 : sgn_t_vel_sclrpthlp(:,:) = ( one - one_third * beta ) * a1_zt(:,:)**2 * wp3_on_wp2_zt(:,:) / wp2_zt(:,:)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4048 : call xpyp_term_ta_pdf_rhs_godunov( gr(i), term_wpthlpsclrp_explicit_zm(i,:), & ! Intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4050 : gr(i)%invrs_dzm(:), & ! Intent(in)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4053 : rhs_ta_wpthlpsclrp(i,:,sclr) ) ! Intent(out)
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4079 : coef_wprtp2_implicit_zm(i,:) = zt2zm( gr(i), pdf_implicit_coefs_terms(i)%coef_wprtp2_implicit )
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4080 : sgn_t_vel_rtp2(i,:) = sgn_turbulent_velocity( gr(i), coef_wprtp2_implicit_zm(i,:) * rtp2(i,:), rtp2(i,:) )
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4102 : coef_wpthlp2_implicit_zm(i,:) = zt2zm( gr(i), pdf_implicit_coefs_terms(i)%coef_wpthlp2_implicit )
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4103 : sgn_t_vel_thlp2(i,:) = sgn_turbulent_velocity( gr(i), coef_wpthlp2_implicit_zm(i,:) * thlp2(i,:), thlp2(i,:) )
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4125 : coef_wprtpthlp_implicit_zm(i,:) = zt2zm( gr(i), pdf_implicit_coefs_terms(i)%coef_wprtpthlp_implicit )
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4126 : term_wprtpthlp_explicit_zm(i,:) = zt2zm( gr(i), pdf_implicit_coefs_terms(i)%term_wprtpthlp_explicit )
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4127 : sgn_t_vel_rtpthlp(i,:) = sgn_turbulent_velocity( gr(i), coef_wprtpthlp_implicit_zm(i,:) * rtpthlp(i,:) &
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4128 : + term_wprtpthlp_explicit_zm(i,:), rtpthlp(i,:) )
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4512 : = sgn_turbulent_velocity( gr(i), coef_wprtpsclrp_implicit_zm(i,:) * sclrprtp(i,:,sclr) &
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
4563 : = sgn_turbulent_velocity( gr(i), coef_wpthlpsclrp_implicit_zm(i,:) * sclrpthlp(i,:,sclr) &
CLUBBStandardsCheck.pl WARNING: File has lines that exceed 100 characters.
../src/CLUBB_core/advance_xp2_xpyp_module.F90
--------------------------------------------------------------------------------
--------------------------------------------------------------------------------
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
238 : real( kind = core_rknd ), dimension(ngrdcol, nz, min(1,sclr_dim), 2 ), intent(in) :: & ! h1g, 2010-06-15
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
575 : wm(i,:), rtm(i,:), thlm(i,:), wp2(i,:), rtp2(i,:), thlp2(i,:), & ! In
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
576 : Skw(i,:), Skrt(i,:), Skthl(i,:), wprtp(i,:), wpthlp(i,:), & ! In
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
587 : call new_pdf_driver( gr(i), wm(i,:), rtm(i,:), thlm(i,:), wp2(i,:), rtp2(i,:), thlp2(i,:), Skw(i,:), & ! In
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
588 : wprtp(i,:), wpthlp(i,:), rtpthlp(i,:), & ! In
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
593 : Skrt(i,:), Skthl(i,:), & ! In/Out
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
602 : F_w(i,:), F_rt(i,:), F_thl(i,:), min_F_w(i,:), max_F_w(i,:), & ! Out
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
603 : min_F_rt(i,:), max_F_rt(i,:), min_F_thl(i,:), max_F_thl(i,:) ) ! Out
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
608 : wm(i,:), rtm(i,:), thlm(i,:), wp2(i,:), rtp2(i,:), thlp2(i,:), & ! In
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
609 : Skw(i,:), Skrt(i,:), Skthl(i,:), wprtp(i,:), wpthlp(i,:), & ! In
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
620 : call LY93_driver( gr(i), wm(i,:), rtm(i,:), thlm(i,:), wp2(i,:), rtp2(i,:), & ! In
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
621 : thlp2(i,:), Skw(i,:), Skrt(i,:), Skthl(i,:), & ! In
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
632 : call new_hybrid_pdf_driver( gr(i), wm(i,:), rtm(i,:), thlm(i,:), um(i,:), vm(i,:), & ! In
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
633 : wp2(i,:), rtp2(i,:), thlp2(i,:), up2(i,:), vp2(i,:), & ! In
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
634 : Skw(i,:), wprtp(i,:), wpthlp(i,:), upwp(i,:), vpwp(i,:), & ! In
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
639 : Skrt(i,:), Skthl(i,:), Sku(i,:), Skv(i,:), Sksclr(i,:,:), & ! I/O
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1040 : chi_at_ice_sat1 = ( sat_mixrat_ice( p_in_Pa(i,k), tl1(i,k) ) - pdf_params%rsatl_1(i,k) ) &
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1045 : pdf_params%ice_supersat_frac_1(i,k), rc_1_ice(i,k) )! out
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1085 : chi_at_ice_sat2 = ( sat_mixrat_ice( p_in_Pa(i,k), tl2(i,k) ) - pdf_params%rsatl_2(i,k) ) &
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1139 : rcm(i,k) = pdf_params%mixt_frac(i,k) * pdf_params%rc_1(i,k) + ( one - pdf_params%mixt_frac(i,k) ) &
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1318 : - ( one - pdf_params%mixt_frac(i,:) ) * corr_sclr_thl_2(i,:,j) * pdf_params%cthl_2(i,:) &
CLUBBStandardsCheck.pl WARNING: File has lines that exceed 100 characters.
../src/CLUBB_core/pdf_closure_module.F90
--------------------------------------------------------------------------------
CLUBBStandardsCheck.pl has finished.
perl ../utilities/CLUBBStandardsCheck.pl ../src/Benchmark_cases/*.F90
CLUBBStandardsCheck.pl has begun.
CLUBBStandardsCheck.pl has finished.
perl ../utilities/CLUBBStandardsCheck.pl ../src/KK_microphys/*.F90
CLUBBStandardsCheck.pl has begun.
CLUBBStandardsCheck.pl has finished.
perl ../utilities/CLUBBStandardsCheck.pl ../src/SILHS/*.F90
CLUBBStandardsCheck.pl has begun.
CLUBBStandardsCheck.pl has finished.
perl ../utilities/CLUBBStandardsCheck.pl ../src/G_unit_test_types/*.F90
CLUBBStandardsCheck.pl has begun.
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CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
115 : result = smooth_min(4, 1, input, zero, smth_coef) ! Order of nz and ngrdcol is opposite to order of indexing! This is very unintuitive!
CLUBBStandardsCheck.pl WARNING: File has lines that exceed 100 characters.
../src/G_unit_test_types/smooth_min_max_tests.F90
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--------------------------------------------------------------------------------
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1560 : wp2(1,:), rtp2(1,:), thlp2(1,:), up2(1,:), vp2(1,:), &! In
CLUBBStandardsCheck.pl WARNING: Line has exceeded 100 characters.
1610 : wp2(1,:), rtp2(1,:), thlp2(1,:), up2(1,:), vp2(1,:), & ! In
CLUBBStandardsCheck.pl WARNING: File has lines that exceed 100 characters.
../src/G_unit_test_types/pdf_parameter_tests.F90
--------------------------------------------------------------------------------
CLUBBStandardsCheck.pl has finished.
[Pipeline] }
[Pipeline] // stage
[Pipeline] stage
[Pipeline] { (Run CLUBB's G Unit Tests)
[Pipeline] sh
+ run_scripts/run_G_unit_tests.bash
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: 3.940566852245361E-04
MATLAB result: 3.940566852245361E-04
Percent difference: 1.37569E-14%
Agreement with regards to integral: Quadrivariate NNLL (const. x1)
Obtained result: 3.927115990964175E-04
MATLAB result: 3.927115990964175E-04
Percent difference: 0.00000E+00%
Agreement with regards to integral: Quadrivariate NNLL (const. x2)
Obtained result: 3.959157231937518E-04
MATLAB result: 3.959157231937519E-04
Percent difference: 1.36923E-14%
Agreement with regards to integral: Quadrivariate NNLL (const. x1 and x2)
Obtained result: 3.961224408774507E-04
MATLAB result: 3.961224408774508E-04
Percent difference: 2.73704E-14%
Agreement with regards to integral: Trivariate NNL
Obtained result: 5.957899876478482E-10
MATLAB result: 5.957899876478559E-10
Percent difference: 1.30160E-12%
Agreement with regards to integral: Trivariate NNL (const. x1)
Obtained result: 5.299646183560589E-10
MATLAB result: 5.299646183560650E-10
Percent difference: 1.15111E-12%
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: 5.286452253001269E-10
MATLAB result: 5.286452253001284E-10
Percent difference: 2.73826E-13%
--------------------------------------------------
Agreement with regards to integral: Trivariate NLL
Obtained result: -9.854231981928350E-04
MATLAB result: -9.854231981928350E-04
Percent difference: 0.00000E+00%
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: 8.940070763287882E-09
MATLAB result: 8.940070763287870E-09
Percent difference: 1.29535E-13%
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: 1.007487885941808E-02
MATLAB result: 1.007487885941809E-02
Percent difference: 1.03310E-13%
==================================================
Saturation option (x2_opt for covariance integrals and x1_opt for mean integrals): 2
Agreement with regards to integral: Quadrivariate NNLL
Obtained result: -4.441972023148828E-05
MATLAB result: -4.441972023148829E-05
Percent difference: 3.05102E-14%
Agreement with regards to integral: Quadrivariate NNLL (const. x1)
Obtained result: -4.559373570842311E-05
MATLAB result: -4.559373570842311E-05
Percent difference: 1.48623E-14%
Agreement with regards to integral: Quadrivariate NNLL (const. x2)
Obtained result: -5.040842768062482E-05
MATLAB result: -5.040842768062482E-05
Percent difference: 1.34427E-14%
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: 0.00000E+00%
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: -7.622010070476263E-05
MATLAB result: -7.622010070476262E-05
Percent difference: 1.77808E-14%
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: -4.609761356905441E-05
MATLAB result: -4.609761356905441E-05
Percent difference: 0.00000E+00%
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
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
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 = 0.95210308158732515
Nc_in_cloud (from Ncn) = 51650441.529586725
Ncm (from Ncn) = 49176544.545665473
Ncnm (from Nc_in_cloud) = 50000000.000000000
Ncnm (from Ncm) = 49999999.999999993
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) = 60768988.354576334
Ncm (from Ncn) = 10246392.665117815
Ncnm (from Nc_in_cloud) = 50000000.000000000
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 = 2022 4 22 -300 3 29 24 535 2557 539 557 235 538 564 559 1070 2557 539 557 235 538 564 559 1070 2557 539 557 235 538 564 559 1070 2557
hmm = 2.8507225851063258E-005
mixt_frac = 0.26964928648885306
precip_frac = 0.98925067835427116
precip_frac_1 = 0.97873548448842806
precip_frac_2 = 0.99313294268394559
hmp2_ip_on_hmm2_ip = 4.4965048238044130
hmm_ip = 2.8816988933975972E-005
hmp2 = 3.7026750789400225E-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 = 0.0000000000000000
rtp2 = 0.0000000000000000
thlp2 = 0.0000000000000000
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 = 0.0000000000000000
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 = 0.0000000000000000
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 = 2022 4 22 -300 3 29 24 537 2559 541 559 237 540 566 561 1074 2559 541 559 237 540 566 561 1074 2559 541 559 237 540 566 561 1074 2559
wm = -0.35973277648417656
rtm = 1.5877869689406309E-002
thlm = 306.95706493527729
wp2 = 5.3556631300836210E-002
rtp2 = 2.5428354868656360E-005
thlp2 = 0.43267471918770239
Skw = 1.2285525666578723
wp3 = 1.5226974549316132E-002
Skrt = -3.9521121382976419
rtp3 = -5.0676504888696389E-007
Skthl = -2.9618638423280039
thlp3 = -0.84296078357168713
wprtp = 3.7217795149139538E-005
wpthlp = -8.3893083703164666E-003
rtpthlp = -2.9852616476253664E-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).
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 = 0.0000000000000000
rtp2 = 0.0000000000000000
thlp2 = 0.0000000000000000
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 = 0.0000000000000000
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 = 0.0000000000000000
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 = 2022 4 22 -300 3 29 24 538 2560 542 560 238 541 567 562 1076 2560 542 560 238 541 567 562 1076 2560 542 560 238 541 567 562 1076 2560
wm = -0.24759521074249047
rtm = 1.3131106380263016E-003
thlm = 301.76961698089849
wp2 = 0.98166075742516368
rtp2 = 1.5621147480515788E-007
thlp2 = 0.37059463182807517
Skw = 1.5137634588035884
wp3 = 1.4723130537872369
Skrt = -1.9656833415691153
rtp3 = -1.2136206463183941E-010
Skthl = 1.6944616453009491
thlp3 = 0.38227898928976700
wprtp = 3.0544264453178635E-004
wpthlp = 0.35707764871873887
rtpthlp = 2.1654518820356616E-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.
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 = 0.0000000000000000
rtp2 = 0.0000000000000000
thlp2 = 0.0000000000000000
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 = 0.0000000000000000
PDF parameter set 9:
wm = 1.0000000000000000E-003
rtm = 1.0000000000000000E-002
thlm = 305.00000000000000
wp2 = 0.0000000000000000
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 = 2022 4 22 -300 3 29 24 541 2563 545 563 241 544 570 565 1082 2563 545 563 241 544 570 565 1082 2563 545 563 241 544 570 565 1082 2563
wm = -0.44611915315113926
rtm = 7.8280482116289286E-003
thlm = 292.55311992394195
wp2 = 0.24175152644519537
rtp2 = 1.0296614195778754E-005
thlp2 = 0.22436394336972909
Skw = -0.22584666675041842
wp3 = -2.6845254321288103E-002
Skrt = -3.6037379926314923
rtp3 = -1.1906794797736957E-007
Skthl = -2.7633567618779393
thlp3 = -0.29367471409490187
wprtp = -1.0663870416569555E-003
wpthlp = -9.0736122287223928E-002
rtpthlp = 1.3679375209053003E-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 = 0.0000000000000000
rtp2 = 0.0000000000000000
thlp2 = 0.0000000000000000
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 = 0.0000000000000000
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 = 0.0000000000000000
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 = 2022 4 22 -300 3 29 24 554 2576 558 576 254 557 583 578 1108 2576 558 576 254 557 583 578 1108 2576 558 576 254 557 583 578 1108 2576
wm = 0.24863399343711112
rtm = 6.1949186437471352E-003
thlm = 298.55304867285457
wp2 = 0.21029434723901841
rtp2 = 8.5182510442578242E-006
thlp2 = 2.0599211062679714
Skw = -2.5214256504086903
wp3 = -0.24315744141816090
Skrt = -1.8619647000049140
rtp3 = -4.6291056832919001E-008
Skthl = -3.3259280201097123
thlp3 = -9.8330608602623695
wprtp = -3.3135762070974144E-006
wpthlp = 0.49924846678282708
rtpthlp = -3.7700145016684307E-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 = 0.0000000000000000
rtp2 = 0.0000000000000000
thlp2 = 0.0000000000000000
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 = 0.0000000000000000
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 = 0.0000000000000000
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 = 2022 4 22 -300 3 29 24 564 2586 568 586 264 567 593 588 1128 2586 568 586 264 567 593 588 1128 2586 568 586 264 567 593 588 1128 2586
wm = 0.34746014027798633
rtm = 2.0582595079922404E-002
thlm = 303.49401198400773
wp2 = 0.10864184137847599
rtp2 = 7.5517736553262679E-005
thlp2 = 3.9616933779152874E-002
Skw = -3.7824270721790465
wp3 = -0.13544601751562288
Skrt = 0.74405626080928233
rtp3 = 4.8829156524824095E-007
Skthl = 0.56130796854275078
thlp3 = 4.4261129956434161E-003
wprtp = 1.1548667325815437E-003
wpthlp = -4.4210195623660395E-002
rtpthlp = -1.5567089471791181E-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 = 28.454761250379878
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> = 2.4909544912854464E-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 = 46.444301545178156
Vertical integral of <rt> after advance_xm_wpxp = 46.659319173345075
Vertical integral of <rt> forcing = -7.0263665535739300E-005
Flux of <rt> at the surface = 7.8698909275883445E-004
Flux of <rt> at the top of the domain = 0.0000000000000000
Spurious source of <rt> = -3.2038174196946656E-017
The spurious source of <rt> is within acceptable limits.
Vertical integral of <thl> before advance_xm_wpxp = 800640.57361199672
Vertical integral of <thl> after advance_xm_wpxp = 800622.53686732845
Vertical integral of <thl> forcing = -7.5862264082647568E-002
Flux of <thl> at the surface = 1.5739781855176688E-002
Flux of <thl> at the top of the domain = 0.0000000000000000
Spurious source of <thl> = -7.8687056870307970E-014
The spurious source of <thl> is within acceptable limits.
Test 3
Vertical integral of <rt> before advance_xm_wpxp = 38.927293998950525
Vertical integral of <rt> after advance_xm_wpxp = 39.098885989337816
Vertical integral of <rt> forcing = -5.8742697075162954E-005
Flux of <rt> at the surface = 6.3071599836623756E-004
Flux of <rt> at the top of the domain = 0.0000000000000000
Spurious source of <rt> = -1.0269427452511137E-016
The spurious source of <rt> is within acceptable limits.
Vertical integral of <thl> before advance_xm_wpxp = 800159.07086359186
Vertical integral of <thl> after advance_xm_wpxp = 800143.85063011141
Vertical integral of <thl> forcing = -6.3348431570470085E-002
Flux of <thl> at the surface = 1.2614319967324752E-002
Flux of <thl> at the top of the domain = 0.0000000000000000
Spurious source of <thl> = 1.6585344209119057E-012
The spurious source of <thl> is within acceptable limits.
Test 4
Vertical integral of <rt> before advance_xm_wpxp = 18.952186671808818
Vertical integral of <rt> after advance_xm_wpxp = 19.106769169838724
Vertical integral of <rt> forcing = -2.1801877479563115E-005
Flux of <rt> at the surface = 5.3707687091260824E-004
Flux of <rt> at the top of the domain = 0.0000000000000000
Spurious source of <rt> = -2.2951204738802522E-017
The spurious source of <rt> is within acceptable limits.
Vertical integral of <thl> before advance_xm_wpxp = 791789.84284080390
Vertical integral of <thl> after advance_xm_wpxp = 791786.64891583635
Vertical integral of <thl> forcing = -2.1387953977598659E-002
Flux of <thl> at the surface = 1.0741537418252164E-002
Flux of <thl> at the top of the domain = 0.0000000000000000
Spurious source of <thl> = 8.5046206188543749E-013
The spurious source of <thl> is within acceptable limits.
Test 5
Vertical integral of <rt> before advance_xm_wpxp = 15.282369068162371
Vertical integral of <rt> after advance_xm_wpxp = 15.349480008268376
Vertical integral of <rt> forcing = -2.7573228711554756E-005
Flux of <rt> at the surface = 2.5127636239825169E-004
Flux of <rt> at the top of the domain = 0.0000000000000000
Spurious source of <rt> = -1.3457659465976324E-017
The spurious source of <rt> is within acceptable limits.
Vertical integral of <thl> before advance_xm_wpxp = 787849.46623332391
Vertical integral of <thl> after advance_xm_wpxp = 787843.27730257856
Vertical integral of <thl> forcing = -2.5655296399067305E-002
Flux of <thl> at the surface = 5.0255272479650340E-003
Flux of <thl> at the top of the domain = 0.0000000000000000
Spurious source of <thl> = -7.4367595415125720E-014
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: 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: 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: -2.2247448714824141 -1.3660254037844388 -0.36602540378443871 -0.22474487138241406
Smooth max:
Expected outcome: 0.22474487138241406 0.36602540378443871 1.3660254037844388 2.2247448714824141
True outcome: 0.22474487138241406 0.36602540378443871 1.3660254037844388 2.2247448714824141
Testing smooth min and max with smth_coef=1e-7, input_var1 = equidistant grid on [-1, 1), input_var2 = 0
Success!
==================================================
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
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