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example-tests.ini
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example-tests.ini
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# this is an example inputs file for the test suite. You can use this
# as a template to create your own suite.
# IMPORTANT NOTE: do not use quotes "" for strings here.
# the items in [main] control the overall behavior of the suite,
# including location of the output directories
[main]
# the parent directory for all the test suite stuff. The benchmarks
# and run directories will live under here
testTopDir = /home/testing/castro-tests/
# the location of the web output. This does not have to be under
# testTopDir, and often will be put in a directory that is seen
# by the webserver
webTopDir = /home/www/Castro/test-suite/test-suite-gfortran/
# one of C_Src or AMReX. This determines whether the C++ build system
# is used or if the tests are standalone AMReX tests, respectively.
sourceTree = C_Src
# how many simultaneous build jobs (through the -j flag of make) are to
# be done
numMakeJobs = 8
# a descriptive name and subtitle. The name will prefix the output
# directories and appear on the webpages. The subtitle only shows up
# on the main webpage.
suiteName = Castro-SBU
sub_title = gfortran version
# do we add a link to the main web page that goes up to the parent
# directory (e.g., a link to "../"). This is useful if you have
# multiple test suite web pages all under a common parent directory.
goUpLink = 1
# should the main test webpage only include columns for tests that are
# defined in the inputs file? This can be used to filter out any
# old test names that might exist in older test runs, but are no
# longer tests that are actively run.
reportActiveTestsOnly = 1
# the names of the compilers. These should be names that the AMReX
# build system can interpret, as these variables as passed directly to
# the make command.
COMP = g++
# any additional options to add to the C++ make command
add_to_c_make_command = TEST=TRUE
# after the test is run and the comparisons are made, do we keep the
# plotfiles around? If this is 1, then any plot or checkpoint files,
# except the one that was used for the comparison will be deleted.
# Otherwise, all the output files will be tar/gzipped.
purge_output = 1
# each test suite invocation produces a test summary page with a table
# that lists each test run in runs with columns giving details about
# the run (like # of processors, etc.). These variables allow you
# to add information to the table by grepping the job_info file in
# the plotfile for the specified keyword, a colon separator, and then
# any text following is written to the summary table
summary_job_info_field1 = EOS
summary_job_info_field2 = network
# MPIcommand should use the placeholders:
# @host@ to indicate where to put the hostname to run on
# @nprocs@ to indicate where to put the number of processors
# @command@ to indicate where to put the command to run
#
# only tests with useMPI = 1 will run in parallel
# nprocs is problem dependent and specified in the individual problem
# sections.
MPIcommand = mpiexec -n @nprocs@ @command@
# the default_branch is used to compare with the branch we request to
# be used in the git repos (which can be set on a repo-by-repo basis).
# If any of the repo branches are not the same as the default branch,
# then an asterisk is placed next to the date in the main webpage to
# indicate that a non-default branch was used.
default_branch = development
# should we send an e-mail if any tests file? If so, where and what
# should the body of the email be?
sendEmailWhenFail = 1
emailTo = [email protected]
emailBody = Check http://bender.astro.sunysb.edu/Castro/test-suite/test-suite-gfortran/ for details
# some research groups use slack for communication. If you setup a
# slack webhook (see the slack documentation for this), then you can
# have the suite directly post when the test begins and ends (and # of
# failures) to a slack channel. You need to put the webhook URL in a
# plaintext file somewhere that is readable by the suite (for security
# reasons, we don't put it in this inputs file, in case this is under
# version control).
slack_post = 1
slack_webhookfile = /home/zingale/.slack.webhook
slack_channel = "#castro"
slack_username = "bender"
# We build by default a few tools for output comparison.
# The build time for those can be skipped if they are not needed.
#ftools = fcompare fboxinfo fsnapshot
# some regression tests require tools from the AMReX library to extract the
# relevant information.
# Default compiled tools are: fcompare, fboxinfo, fsnapshot
# should you need additional tools from AMReX, specify the following:
extra_tools = fextract
# Control the build of the particle_compare tool.
# Needed for test particle_tolerance option.
#use_ctools = 1
# Next we specify the source code repositories. Each git repo is
# given its own section.
# There will always be a "AMReX" repo.
[AMReX]
# dir is the full path to the AMReX git repo you will do the testing
# on. This should be a separate directoy from one that you do
# day-to-day work in, to ensure that there are no conflicts when the
# test suite does git pulls
dir = /home/testing/castro-tests/AMReX/
# branch is the git branch that you want AMReX to be on for the test
# suite run. Usually this is development or master
branch = development
# you will usually have a source section -- this corresponds to your
# application code. This has the "dir" and "branch" options just
# like for AMReX.
[source]
dir = /home/testing/castro-tests/Castro/
branch = development
# any additional git repositories needed to either build the
# application code, or contain problem directories that we actually
# will do the compilation in. The names of these sections will
# always start with "extra-". In addition to "dir" and "branch"
# for the repo, there are two additional options here, "comp_string"
# and "build". If "build = 1" is present, then the test suite will
# treat this repo as hosting problem directories that we compile
# in. Otherwise it will treat the repo as an additional source
# directory that the application code requires for building.
[extra-Microphysics]
dir = /home/testing/castro-tests/Microphysics
branch = development
# here comp_string sets a variable that will be used on the make line.
# The idea is to list any environment variables that the build system
# will need to interpret and access this additional source directory.
# Here we set the environment variable MICROPHYSICS_HOME to point to
# the full path of this additional source directory (this is
# substituted in for the keyword "@self@" here.
comp_string = MICROPHYSICS_HOME=@self@
[extra-wdmerger]
# this indicates that this directory will host test problems that
# the suite will compile in
build = 1
dir = /home/testing/castro-tests/wdmerger/
branch = development
# here comp_string sets the environment variable WDMERGER_HOME to
# point to this extra build repo's full path and sets another
# environment variable CASTRO_HOME to point to the full path of the
# main source directory (indicated in the [source] section). This is
# needed in this case to ensure that the alternate build directories
# contained here still see the main source directory that the suite is
# using.
comp_string = CASTRO_HOME=@source@ WDMERGER_HOME=@self@
# next come the problem setups. Each problem is given its own section.
# The name of the problem is given in the section heading -- this is how
# the test suite will refer to the problem. As an example, here's a
# problem definition template
[sample_problem]
# extra_build_dir is set to the name of the repo (other than source)
# that contains the problem build directory. This needs to be the
# name of a source repo defined as extra-reponame that had "build = 1"
# set as an option.
extra_build_dir =
# buildDir is the relative path from the build source directory (that
# specified in the [source] block by default) that defines where we
# build the test problem.
buildDir = Exec/Sod_stellar/
# inputFile is the inputs file that is given to the executable when
# it is run
inputFile = inputs-test1-helm
# some C++ AMReX applications require a probin file in addition to the
# inputs file. Specify that here
probinFile = probin-test1-helm
# a script to run in place of the executable. The script will be copied
# to the run directory and executed with the given arguments.
run_as_script =
script_args =
# link?File and aux?File (where ? = any nonnegative integer) give the names
# of any additional files that are needed to run the executable (e.g.
# initial models). These are specified relative to the problem's build
# directory. link files are soft-linked to the run directory, aux
# files are copied to the run directory.
link1File = helm_table.dat
aux1File = spherical.hse.640
# the dimensionality of the problem
dim = 2
# do we compile in debug mode or not?
debug = 1
# do visualization of the last plotfile output? This only works for
# 2- and 3-d. visVar gives the name of the plotfile to visualized.
# the output will be on the test's webpage.
doVis = 0
visVar = "Temp"
# is this a compile-only test? (e.g. just ensure the code compiles, but
# don't run anything).
compileTest = 0
# is this a restart test? If so, we run to completion and then
# restart from the checkpoint file number given by restartFileNum and
# run to completion again and compare the two outputs.
restartTest = 0
restartFileNum = 10
# is this a self test? Self-tests don't have a benchmark that they
# compare to. Instead the executable determines if the test was
# successful and reports a particular string upon success. This
# string should be specified as stSuccessString. The test suite will
# look for that string to determine if the test passed.
selfTest =
stSuccessString =
# MPI test? and number of processors for MPI
useMPI = 1
numprocs = 4
# OpenMP test? and number of threads to use
useOMP = 1
numthreads = 4
# OpenACC test?
acc = 1
# any additional variable definitions that need to be added to the problem's
# make command
addToCompileString = GENERAL_NET_INPUTS="${CASTRO_HOME}/Microphysics/networks/general_null/ignition.net"
# some problems have analysis routines (e.g. to compare to an analytic
# solution). these options control what script to run, what inputs it
# takes, and what output is produced.
analysisRoutine = Exec/Sod_stellar/testsuite_analysis/test1-helm.py
analysisMainArgs = source_dir
analysisOutputImage = Sod_stellar-test1-2d.png
# explicit output file to compare with -- exactly as it will be
# written. Not prefix of the test name will be done
outputFile =
# explicit output file to do the comparison with -- this is assumed to
# be prefixed with the test name when output by the code at runtime,
# e.g. test_plt00100. Normally this is not specified and the suite
# uses the last plotfile output by the test.
compareFile =
# directory or file to do a plain text diff on (recursive, if
# directory). For instance, the global diagnostic file output
# by the simulation
diffDir =
# options to use with the diff command for the diffDir comparison
diffOpts =
# any runtime parameters to append to the test's commandline
runtime_params =