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[WIP] start of a new net that does (nn,g) approx in the iron-group #96

[WIP] start of a new net that does (nn,g) approx in the iron-group

[WIP] start of a new net that does (nn,g) approx in the iron-group #96

name: burn_cell_metal_chem
on: [pull_request]
jobs:
burn_cell_metal_chem:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4
with:
fetch-depth: 0
- name: Get AMReX
run: |
mkdir external
cd external
git clone https://github.com/AMReX-Codes/amrex.git
cd amrex
git checkout development
echo 'AMREX_HOME=$(GITHUB_WORKSPACE)/external/amrex' >> $GITHUB_ENV
echo $AMREX_HOME
if [[ -n "${AMREX_HOME}" ]]; then exit 1; fi
cd ../..
- name: Install dependencies
run: |
sudo apt-get update -y -qq
sudo apt-get -qq -y install curl cmake jq clang g++>=9.3.0
- name: Compile
run: |
cd unit_test/burn_cell_metal_chem
make -j 2
- name: Run and compare outputs for different Z values, also including cosmic ray ionization
run: |
set -e
cd unit_test/burn_cell_metal_chem
declare -A line_numbers_map=(
["Z=1"]="4450 4452 4454 4456 4457 4460 4461 4464 4470 4475"
["Z=1_z10"]="1613 1615 4456 4458 4460 4463 4470 4476 4481"
["Z=1e-1"]="4438 4440 4442 4444 4445 4448 4449 4452 4458 4463"
["Z=1e-2"]="4438 4440 4442 4444 4445 4448 4449 4452 4458 4463"
["Z=1e-3"]="4438 4440 4442 4444 4445 4448 4449 4452 4458 4463"
["Z=1e-4"]="4438 4440 4442 4444 4445 4448 4449 4452 4458 4463"
["Z=1e-5"]="4438 4440 4442 4444 4445 4448 4449 4452 4458 4463"
["Z=1e-6"]="4463 4465 4467 4469 4470 4473 4474 4477 4483 4488"
["Z=1_cr"]="652 654 656 658 659 662 663 666 672 677"
["Z=1e-4_cr"]="652 654 656 658 659 662 663 666 672 677"
)
declare -A ref_map=(
["Z=1"]="reference_solution_1.out"
["Z=1_z10"]="reference_solution_1_z10.out"
["Z=1e-1"]="reference_solution_1e-1.out"
["Z=1e-2"]="reference_solution_1e-2.out"
["Z=1e-3"]="reference_solution_1e-3.out"
["Z=1e-4"]="reference_solution_1e-4.out"
["Z=1e-5"]="reference_solution_1e-5.out"
["Z=1e-6"]="reference_solution_1e-6.out"
["Z=1_cr"]="reference_solution_1_cr.out"
["Z=1e-4_cr"]="reference_solution_1e-4_cr.out"
)
ref_line_number_z10=(1 2 3 5 7 10 17 23 28)
# Original input file
original_input_file="inputs_metal_chem_1"
modified_input_file="inputs_metal_chem_modified"
for Z in "Z=1" "Z=1_z10" "Z=1e-1" "Z=1e-2" "Z=1e-3" "Z=1e-4" "Z=1e-5" "Z=1e-6" "Z=1_cr" "Z=1e-4_cr"; do
cp $original_input_file $modified_input_file
Z_val=${Z//Z=/}
if [[ "$Z" == "Z=1_z10" ]]; then
# Modify the redshift line for Z=1_z10
sed -i 's/network.redshift = 0.0/network.redshift = 10.0/g' $modified_input_file
elif [[ "$Z" != "Z=1_cr" && "$Z" != "Z=1e-4_cr" ]]; then
# Replace the metallicity and dust2gas_ratio values for other Z values
sed -i 's/network.metallicity = .*/network.metallicity = '"$Z_val"'/g' $modified_input_file
sed -i 's/network.dust2gas_ratio = .*/network.dust2gas_ratio = '"$Z_val"'/g' $modified_input_file
fi
if [[ "$Z" == "Z=1_cr" || "$Z" == "Z=1e-4_cr" ]]; then
# Modify the number of steps, since CRs impact lowest densities
sed -i 's/unit_test.nsteps = 100000/unit_test.nsteps = 600/g' $modified_input_file
# Modify the crate line for Z=1_cr
sed -i 's/network.crate = 0.0/network.crate = 3e-17/g' $modified_input_file
if [[ "$Z" == "Z=1e-4_cr" ]]; then
# Replace the metallicity and dust2gas_ratio values for other Z values
sed -i 's/network.metallicity = 1/network.metallicity = 1e-4/g' $modified_input_file
sed -i 's/network.dust2gas_ratio = 1/network.dust2gas_ratio = 1e-4/g' $modified_input_file
fi
fi
output_file="test_${Z_val}.out"
./main1d.gnu.DEBUG.ex $modified_input_file amrex.fpe_trap_{invalid,zero,overflow}=1 > $output_file
line_numbers="${line_numbers_map[$Z]}"
ref_file="${ref_map[$Z]}"
error_found=false
index=0
for line_number in $line_numbers; do
value1=$(awk 'NR=='"$line_number"' {match($0, /[+-]?[0-9]+([.][0-9]+)?[eE]?[+-]?[0-9]+/); if (RSTART) print substr($0, RSTART, RLENGTH); else print 0}' $output_file)
# Adjust the line number for the reference file
if [[ "$Z" == "Z=1" ]]; then
reference_line_number=$((line_number - 4449))
elif [[ "$Z" == "Z=1_z10" ]]; then
reference_line_number=${ref_line_number_z10[$index]}
elif [[ "$Z" == "Z=1e-6" ]]; then
reference_line_number=$((line_number - 4462))
elif [[ "$Z" == "Z=1_cr" || "$Z" == "Z=1e-4_cr" ]]; then
reference_line_number=$((line_number - 651))
else
reference_line_number=$((line_number - 4437))
fi
value2=$(awk 'NR=='"$reference_line_number"' {match($0, /[+-]?[0-9]+([.][0-9]+)?[eE]?[+-]?[0-9]+/); if (RSTART) print substr($0, RSTART, RLENGTH)}' $ref_file)
difference=$(awk -v val1="$value1" -v val2="$value2" 'BEGIN { printf "%.2f", (val1 - val2) / val2 }')
if (( $(echo "$difference > 0.01" | bc -l) )); then
echo "Z: $Z"
echo "Line number: $line_number"
echo "Value in $output_file: $value1"
echo "Value in $ref_file: $value2"
echo "Difference between test and reference value is $difference, more than allowed threshold of 0.01"
echo
error_found=true
fi
index=$((index + 1))
done
if [[ $error_found == true ]]; then
exit 1
fi
done
- name: Print backtrace if any failure
if: ${{ failure() && hashFiles('unit_test/burn_cell_metal_chem/Backtrace.0') != '' }}
run: cat unit_test/burn_cell_metal_chem/Backtrace.0