opm-simulators/tests/update_reference_data.sh
2022-02-24 08:20:31 +01:00

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#!/bin/bash
OPM_TESTS_ROOT=$1
BUILD_DIR=$2
CONVERT_ECL=$3
TMPDIR=`mktemp -d`
mkdir $TMPDIR/orig
mkdir $TMPDIR/new
# Copy results from a test run to refence dir
# $1 = source directory to copy data from
# $2 = destination directory to copy data to
# $3 = base file name for files to copy
# $4...$@ = file types to copy
copyToReferenceDir () {
SRC_DIR=$1
DST_DIR=$2
STEM=$3
FILETYPES=${@:4}
mkdir -p $DST_DIR
DIFF=1
for filetype in $FILETYPES
do
# Don't flag as changed if both reference and result dir lack a file type
# In particular to handle the optional RFT's
if [ ! -f $SRC_DIR/$STEM.$filetype ] && [ ! -f $DST_DIR/$STEM.$filetype ]
then
continue
fi
diff -q "$SRC_DIR/$STEM.$filetype" "$DST_DIR/$STEM.$filetype"
res=$?
if test $res -ne 0 && test -n "$CONVERT_ECL"
then
cp $SRC_DIR/$STEM.$filetype $TMPDIR/new
$CONVERT_ECL $TMPDIR/new/$STEM.$filetype
cp $DST_DIR/$STEM.$filetype $TMPDIR/orig
$CONVERT_ECL $TMPDIR/orig/$STEM.$filetype
diff -u $TMPDIR/orig/$STEM.F$filetype $TMPDIR/new/$STEM.F$filetype >> $WORKSPACE/data_diff
fi
if test $res -ne 0
then
cp "$SRC_DIR/$STEM.$filetype" $DST_DIR
DIFF=0
fi
done
return $DIFF
}
declare -A tests
# The tests are listed in a dictionary mapping name of the test to the commands
# used to run the test:
#
# tests[cmake_testname]="binary dirname SIMULATION_CASE
#
# The key in the dictionary must agree with the name given to the test when
# registering it with cmake in compareEclFiles.cmake. The SIMULATION_CASE should
# be the basename of the .DATA file used for the simulation.
tests[spe1]="flow spe1 SPE1CASE1"
tests[spe12]="flow spe1 SPE1CASE2"
tests[spe1_2p]="flow spe1 SPE1CASE2_2P"
tests[spe1_oilgas]="flow spe1 SPE1CASE2_OILGAS"
tests[spe1_gaswater]="flow spe1 SPE1CASE2_GASWATER"
tests[spe1_nowells]="flow spe1 SPE1CASE2_NOWELLS"
tests[spe1_thermal]="flow spe1 SPE1CASE2_THERMAL"
tests[spe1_thermal_onephase]="flow_onephase_energy spe1 SPE1CASE2_THERMAL_ONEPHASE"
tests[spe1_thermal_watvisc]="flow spe1 SPE1CASE2_THERMAL_WATVISC"
tests[spe1_rockcomp]="flow spe1 SPE1CASE2_ROCK2DTR"
tests[spe1_brine]="flow spe1_brine SPE1CASE1_BRINE"
tests[spe1_precsalt]="flow spe1_precsalt SPE1CASE1_PRECSALT"
tests[spe1_brine_gaswater]="flow spe1_brine SPE1CASE2_BRINE_GASWATER"
tests[spe1_water]="flow_onephase spe1 SPE1CASE1_WATER"
tests[spe1_spider]="flow radial_grid SPIDER_CAKESLICE"
tests[spe1_radial]="flow radial_grid RADIAL_CAKESLICE"
tests[spe1_import]="flow spe1 SPE1CASE1_IMPORT"
tests[ctaquifer_2d_oilwater]="flow aquifer-oilwater 2D_OW_CTAQUIFER"
tests[fetkovich_2d]="flow aquifer-fetkovich 2D_FETKOVICHAQUIFER"
tests[numerical_aquifer_3d_1aqu]="flow aquifer-num 3D_1AQU_3CELLS"
tests[numerical_aquifer_3d_2aqu]="flow aquifer-num 3D_2AQU_NUM"
tests[msw_2d_h]="flow msw_2d_h 2D_H__"
tests[msw_3d_hfa]="flow msw_3d_hfa 3D_MSW"
tests[polymer_oilwater]="flow polymer_oilwater 2D_OILWATER_POLYMER"
tests[polymer_simple2D]="flow polymer_simple2D 2D_THREEPHASE_POLY_HETER"
tests[spe3]="flow spe3 SPE3CASE1"
tests[spe5]="flow spe5 SPE5CASE1"
tests[spe5_co2eor]="flow spe5_co2eor SPE5CASE1_DYN"
tests[spe9group]="flow spe9group SPE9_CP_GROUP"
tests[spe9group_resv]="flow spe9group SPE9_CP_GROUP_RESV"
tests[spe9]="flow spe9 SPE9_CP_SHORT"
tests[wecon_wtest]="flow wecon_wtest 3D_WECON"
tests[spe1_metric_vfp1]="flow vfpprod_spe1 SPE1CASE1_METRIC_VFP1"
tests[base_model_1]="flow model1 BASE_MODEL_1"
tests[msw_model_1]="flow model1 MSW_MODEL_1"
tests[faults_model_1]="flow model1 FAULTS_MODEL_1"
tests[base_model2]="flow model2 0_BASE_MODEL2"
tests[0a1_grpctl_stw_model2]="flow model2 0A1_GRCTRL_LRAT_ORAT_BASE_MODEL2_STW"
tests[0a1_grpctl_msw_model2]="flow model2 0A1_GRCTRL_LRAT_ORAT_BASE_MODEL2_MSW"
tests[0a2_grpctl_stw_model2]="flow model2 0A2_GRCTRL_LRAT_ORAT_GGR_BASE_MODEL2_STW"
tests[0a2_grpctl_msw_model2]="flow model2 0A2_GRCTRL_LRAT_ORAT_GGR_BASE_MODEL2_MSW"
tests[0a3_grpctl_stw_model2]="flow model2 0A3_GRCTRL_LRAT_LRAT_BASE_MODEL2_STW"
tests[0a3_grpctl_msw_model2]="flow model2 0A3_GRCTRL_LRAT_LRAT_BASE_MODEL2_MSW"
tests[0a4_grpctl_stw_model2]="flow model2 0A4_GRCTRL_LRAT_LRAT_GGR_BASE_MODEL2_STW"
tests[0a4_grpctl_msw_model2]="flow model2 0A4_GRCTRL_LRAT_LRAT_GGR_BASE_MODEL2_MSW"
tests[multregt_model2]="flow model2 1_MULTREGT_MODEL2"
tests[multxyz_model2]="flow model2 2_MULTXYZ_MODEL2"
tests[multflt_model2]="flow model2 3_MULTFLT_MODEL2"
tests[multpvv_model2]="flow model2 4_MINPVV_MODEL2"
tests[swatinit_model2]="flow model2 5_SWATINIT_MODEL2"
tests[endscale_model2]="flow model2 6_ENDSCALE_MODEL2"
tests[hysteresis_model2]="flow model2 7_HYSTERESIS_MODEL2"
tests[multiply_tranxyz_model2]="flow model2 8_MULTIPLY_TRANXYZ_MODEL2"
tests[editnnc_model2]="flow model2 9_EDITNNC_MODEL2"
tests[9_1a_grpctl_stw_model2]="flow model2 9_1A_DEPL_MAX_RATE_MIN_BHP_STW"
tests[9_1a_grpctl_msw_model2]="flow model2 9_1A_DEPL_MAX_RATE_MIN_BHP_MSW"
tests[9_1b_grpctl_stw_model2]="flow model2 9_1B_DEPL_MAX_RATE_MIN_THP_STW"
tests[9_1b_grpctl_msw_model2]="flow model2 9_1B_DEPL_MAX_RATE_MIN_THP_MSW"
tests[9_2a_grpctl_stw_model2]="flow model2 9_2A_DEPL_GCONPROD_1L_STW"
tests[9_2a_grpctl_msw_model2]="flow model2 9_2A_DEPL_GCONPROD_1L_MSW"
tests[9_2b_grpctl_stw_model2]="flow model2 9_2B_DEPL_GCONPROD_2L_STW"
tests[9_2b_grpctl_msw_model2]="flow model2 9_2B_DEPL_GCONPROD_2L_MSW"
tests[9_3a_grpctl_stw_model2]="flow model2 9_3A_GINJ_REIN-G_STW"
tests[9_3a_grpctl_msw_model2]="flow model2 9_3A_GINJ_REIN-G_MSW"
tests[9_3b_grpctl_stw_model2]="flow model2 9_3B_GINJ_GAS_EXPORT_STW"
tests[9_3b_grpctl_msw_model2]="flow model2 9_3B_GINJ_GAS_EXPORT_MSW"
tests[9_3c_grpctl_stw_model2]="flow model2 9_3C_GINJ_GAS_GCONSUMP_STW"
tests[9_3c_grpctl_msw_model2]="flow model2 9_3C_GINJ_GAS_GCONSUMP_MSW"
tests[9_3d_grpctl_stw_model2]="flow model2 9_3D_GINJ_GAS_MAX_EXPORT_STW"
tests[9_3d_grpctl_msw_model2]="flow model2 9_3D_GINJ_GAS_MAX_EXPORT_MSW"
tests[9_3e_grpctl_stw_model2]="flow model2 9_3E_GAS_MIN_EXPORT_STW"
tests[9_3e_grpctl_msw_model2]="flow model2 9_3E_GAS_MIN_EXPORT_MSW"
tests[9_4a_grpctl_stw_model2]="flow model2 9_4A_WINJ_MAXWRATES_MAXBHP_GCONPROD_1L_STW"
tests[9_4a_grpctl_msw_model2]="flow model2 9_4A_WINJ_MAXWRATES_MAXBHP_GCONPROD_1L_MSW"
tests[9_4b_grpctl_stw_model2]="flow model2 9_4B_WINJ_VREP-W_STW"
tests[9_4b_grpctl_msw_model2]="flow model2 9_4B_WINJ_VREP-W_MSW"
tests[9_4c_grpctl_stw_model2]="flow model2 9_4C_WINJ_GINJ_VREP-W_REIN-G_STW"
tests[9_4c_grpctl_msw_model2]="flow model2 9_4C_WINJ_GINJ_VREP-W_REIN-G_MSW"
tests[9_4d_grpctl_stw_model2]="flow model2 9_4D_WINJ_GINJ_GAS_EXPORT_STW"
tests[9_4d_grpctl_msw_model2]="flow model2 9_4D_WINJ_GINJ_GAS_EXPORT_MSW"
tests[model4_group]="flow model4 MOD4_GRP"
tests[model4_udq_group]="flow model4 MOD4_UDQ_ACTIONX"
tests[model4_gefac]="flow model4 MOD4_GRP_GEFAC"
tests[polymer_injectivity]="flow polymer_injectivity 2D_POLYMER_INJECTIVITY"
tests[nnc]="flow editnnc NNC_AND_EDITNNC"
tests[udq_wconprod]="flow udq_actionx UDQ_WCONPROD"
tests[udq_actionx]="flow udq_actionx UDQ_ACTIONX"
tests[actionx_m1]="flow udq_actionx ACTIONX_M1"
tests[udq_uadd]="flow udq_actionx UDQ_M1"
tests[udq_undefined]="flow udq_actionx UDQ_M2"
tests[udq_in_actionx]="flow udq_actionx UDQ_M3"
tests[udq_pyaction]="flow udq_actionx PYACTION_WCONPROD"
tests[spe1_foam]="flow spe1_foam SPE1FOAM"
tests[wsegsicd]="flow wsegsicd TEST_WSEGSICD"
tests[wsegaicd]="flow wsegaicd BASE_MSW_WSEGAICD"
tests[bc_lab]="flow bc_lab BC_LAB"
tests[pinch_multz_all]="flow pinch PINCH_MULTZ_ALL"
tests[pinch_multz_all_barrier]="flow pinch PINCH_MULTZ_ALL_BARRIER"
tests[model6_msw]="flow model6 1_MSW_MODEL6"
tests[norne_reperf]="flow norne NORNE_ATW2013_B1H_RE-PERF"
tests[compl_smry]="flow compl_smry COMPL_SMRY"
tests[3d_tran_operator]="flow parallel_fieldprops 3D_TRAN_OPERATOR"
tests[co2store]="flow co2store CO2STORE"
tests[co2store_diffusive]="flow co2store CO2STORE_DIFFUSIVE"
tests[co2store_drsdtcon]="flow co2store CO2STORE_DRSDTCON"
tests[co2store_energy]="flow co2store CO2STORE_ENERGY"
tests[actionx_gconinje]="flow actionx ACTIONX_GCONINJE"
tests[actionx_gconprod]="flow actionx ACTIONX_GCONPROD"
tests[actionx_wconinje]="flow actionx ACTIONX_WCONINJE"
tests[actionx_wefac]="flow actionx ACTIONX_WEFAC"
tests[actionx_udq]="flow actionx ACTIONX_UDQ"
tests[micp]="flow micp MICP"
tests[0_base_model6]="flow model6 0_BASE_MODEL6"
tests[0a_aquct_model6]="flow model6 0A_AQUCT_MODEL6"
tests[0b_rocktab_model6]="flow model6 0B_ROCKTAB_MODEL6"
tests[base_wt_tracer]="flow tracer BASE_WT_TRACER"
tests[min_bhp_1]="flow wtest/bhp_min MIN_BHP_1"
tests[min_bhp_2]="flow wtest/bhp_min MIN_BHP_2"
tests[min_bhp_3]="flow wtest/bhp_min MIN_BHP_3"
tests[min_thp_1]="flow wtest/thp_min MIN_THP_1"
tests[max_gor_1]="flow wtest/wecon_gor_max MAX_GOR_1"
tests[min_gasrate_1]="flow wtest/wecon_qg_min MIN_GASRATE_1"
tests[min_qoil_1]="flow wtest/wecon_qo_min MIN_QOIL_1"
tests[max_watercut_1]="flow wtest/wecon_wct_max MAX_WATERCUT_1"
tests[max_watercut_2]="flow wtest/wecon_wct_max MAX_WATERCUT_2"
tests[max_watercut_3]="flow wtest/wecon_wct_max MAX_WATERCUT_3"
tests[max_watercut_4]="flow wtest/wecon_wct_max MAX_WATERCUT_4"
tests[max_wgr_1]="flow wtest/wecon_wgr_max MAX_WGR_1"
tests[rxft_smry]="flow rxft_smry TEST_RXFT"
changed_tests=""
# Read failed tests
FAILED_TESTS=`cat $BUILD_DIR/Testing/Temporary/LastTestsFailed*.log`
test -z "$FAILED_TESTS" && exit 5
for failed_test in $FAILED_TESTS
do
failed=`echo $failed_test | sed -e 's/.*:compareECLFiles_//g'`
for test_name in ${!tests[*]}
do
binary=`echo ${tests[$test_name]} | awk -F ' ' '{print $1}'`
dirname=`echo ${tests[$test_name]} | awk -F ' ' '{print $2}'`
casename=`echo ${tests[$test_name]} | awk -F ' ' '{print $3}'`
if grep -q "$failed" <<< "$binary+$casename"
then
copyToReferenceDir \
$BUILD_DIR/tests/results/$binary+$test_name \
$OPM_TESTS_ROOT/$dirname/opm-simulation-reference/$binary \
$casename \
EGRID INIT RFT SMSPEC UNRST UNSMRY
test $? -eq 0 && changed_tests="$changed_tests $test_name"
if [ -d $configuration/build-opm-simulators/tests/results/$binary+$test_name/restart ]
then
RSTEPS=`ls -1 $BUILD_DIR/tests/results/$binary+$test_name/restart/*.UNRST | sed -e 's/.*RESTART_*//' | sed 's/[.].*//' `
result=0
for RSTEP in $RSTEPS
do
copyToReferenceDir \
$BUILD_DIR/tests/results/$binary+$test_name/restart/ \
$OPM_TESTS_ROOT/$dirname/opm-simulation-reference/$binary/restart \
${casename}_RESTART_${RSTEP} \
EGRID INIT RFT SMSPEC UNRST UNSMRY
res=$?
test $result -eq 0 || result=$res
done
test $result -eq 0 && changed_tests="$changed_tests $test_name(restart)"
fi
fi
done
done
# special tests
copyToReferenceDir \
$BUILD_DIR/tests/results/init/flow+norne \
$OPM_TESTS_ROOT/norne/opm-simulation-reference/flow \
NORNE_ATW2013 \
EGRID INIT
test $? -eq 0 && changed_tests="$changed_tests norne_init"
changed_tests=`echo $changed_tests | xargs`
echo -e "Automatic Reference Data Update for ${REASON:-(Unknown)}\n" > /tmp/cmsg
if [ -z "$REASON" ]
then
echo -e "Reason: fill in this\n" >> /tmp/cmsg
else
echo -e "Reason: $REASON\n" >> /tmp/cmsg
fi
if [ -n "$CONVERT_ECL" ]
then
for dep in opm-common opm-grid opm-material opm-models
do
pushd $WORKSPACE/deps/$dep > /dev/null
name=`printf "%-14s" $dep`
rev=`git rev-parse HEAD`
echo -e "$name = $rev" >> /tmp/cmsg
popd > /dev/null
done
echo -e "opm-simulators = `git rev-parse HEAD`" >> /tmp/cmsg
fi
echo -e "\n### Changed Tests ###\n" >> /tmp/cmsg
for t in ${changed_tests}
do
echo " * ${t}" >> /tmp/cmsg
done
cd $OPM_TESTS_ROOT
if [ -n "$BRANCH_NAME" ]
then
git checkout -b $BRANCH_NAME $BRANCH_BASE
fi
# Add potential new files
untracked=`git status --porcelain | awk '$1~/\?/{print $2}'`
if [ -n "$untracked" ]
then
git add $untracked
fi
if [ -z "$REASON" ]
then
git commit -a -t /tmp/cmsg
else
git commit -a -F /tmp/cmsg
fi
rm -rf $TMPDIR