def build_tools(self, test_list):

        self.log.skip()
        self.log.bold("building tools...")
        self.log.indent()

        self.tools = {}

        self.f_compare_tool_dir = "{}/Tools/Plotfile/".format(
            os.path.normpath(self.amrex_dir))

        os.chdir(self.f_compare_tool_dir)

        self.make_realclean(repo="AMReX")

        ftools = ["fcompare", "fboxinfo", "fsnapshot"]
        if any([t for t in test_list if t.tolerance is not None]):
            ftools.append("fvarnames")
        # Hack to prevent tools from building
        ftools = []

        for t in ftools:
            self.log.log("building {}...".format(t))
            comp_string, rc = self.build_c(
                target="programs={}".format(t),
                opts="DEBUG=FALSE USE_MPI=FALSE USE_OMP=FALSE ",
                c_make_additions="")
            if not rc == 0:
                self.log.fail("unable to continue, tools not able to be built")

            exe = test_util.get_recent_filename(self.f_compare_tool_dir, t,
                                                ".ex")
            self.tools[t] = "{}/{}".format(self.f_compare_tool_dir, exe)

        self.c_compare_tool_dir = "{}/Tools/Postprocessing/C_Src/".format(
            os.path.normpath(self.amrex_dir))

        if self.use_ctools:
            try:
                os.chdir(self.c_compare_tool_dir)
            except OSError:
                ctools = []
            else:
                ctools = ["particle_compare"]
        else:
            ctools = []

        for t in ctools:
            self.log.log("building {}...".format(t))
            comp_string, rc = self.build_c(
                opts="DEBUG=FALSE USE_MPI=FALSE EBASE={}".format(t))
            if not rc == 0:
                self.log.fail("unable to continue, tools not able to be built")

            exe = test_util.get_recent_filename(self.c_compare_tool_dir, t,
                                                ".exe")

            self.tools[t] = "{}/{}".format(self.c_compare_tool_dir, exe)

        self.log.outdent()
Exemple #2
0
def copy_benchmarks(old_full_test_dir, full_web_dir, test_list, bench_dir, log):
    """ copy the last plotfile output from each test in test_list
        into the benchmark directory.  Also copy the diffDir, if
        it exists """
    td = os.getcwd()

    for t in test_list:
        wd = "{}/{}".format(old_full_test_dir, t.name)
        os.chdir(wd)

        if t.compareFile == "" and t.outputFile == "":
            p = t.get_last_plotfile(output_dir=wd)
        elif not t.outputFile == "":
            if not os.path.isdir(t.outputFile):
                p = test_util.get_recent_filename(wd, t.outputFile, ".tgz")
            else:
                p = t.outputFile
        else:
            if not os.path.isdir(t.compareFile):
                p = test_util.get_recent_filename(wd, t.compareFile, ".tgz")
            else:
                p = t.compareFile

        if p != "" and p is not None:
            if p.endswith(".tgz"):
                try:
                    tg = tarfile.open(name=p, mode="r:gz")
                    tg.extractall()
                except:
                    log.fail("ERROR extracting tarfile")
                idx = p.rfind(".tgz")
                p = p[:idx]

            store_file = p
            if not t.outputFile == "":
                store_file = "{}_{}".format(t.name, p)

            try: shutil.rmtree("{}/{}".format(bench_dir, store_file))
            except: pass
            shutil.copytree(p, "{}/{}".format(bench_dir, store_file))

            with open("{}/{}.status".format(full_web_dir, t.name), 'w') as cf:
                cf.write("benchmarks updated.  New file:  {}\n".format(store_file))

        else:   # no benchmark exists
            with open("{}/{}.status".format(full_web_dir, t.name), 'w') as cf:
                cf.write("benchmarks update failed")

        # is there a diffDir to copy too?
        if not t.diffDir == "":
            diff_dir_bench = "{}/{}_{}".format(bench_dir, t.name, t.diffDir)
            if os.path.isdir(diff_dir_bench):
                shutil.rmtree(diff_dir_bench)
                shutil.copytree(t.diffDir, diff_dir_bench)
            else:
                shutil.copy(t.diffDir, diff_dir_bench)
            log.log("new diffDir: {}_{}".format(t.name, t.diffDir))

        os.chdir(td)
Exemple #3
0
def copy_benchmarks(old_full_test_dir, full_web_dir, test_list, bench_dir, log):
    """ copy the last plotfile output from each test in test_list
        into the benchmark directory.  Also copy the diffDir, if
        it exists """
    td = os.getcwd()

    for t in test_list:
        wd = "{}/{}".format(old_full_test_dir, t.name)
        os.chdir(wd)

        if t.compareFile == "" and t.outputFile == "":
            p = t.get_last_plotfile(output_dir=wd)
        elif not t.outputFile == "":
            if not os.path.isdir(t.outputFile):
                p = test_util.get_recent_filename(wd, t.outputFile, ".tgz")
            else:
                p = t.outputFile
        else:
            if not os.path.isdir(t.compareFile):
                p = test_util.get_recent_filename(wd, t.compareFile, ".tgz")
            else:
                p = t.compareFile

        if not p == "":
            if p.endswith(".tgz"):
                try:
                    tg = tarfile.open(name=p, mode="r:gz")
                    tg.extractall()
                except:
                    log.fail("ERROR extracting tarfile")
                idx = p.rfind(".tgz")
                p = p[:idx]

            store_file = p
            if not t.outputFile == "":
                store_file = "{}_{}".format(t.name, p)

            try: shutil.rmtree("{}/{}".format(bench_dir, store_file))
            except: pass
            shutil.copytree(p, "{}/{}".format(bench_dir, store_file))

            with open("{}/{}.status".format(full_web_dir, t.name), 'w') as cf:
                cf.write("benchmarks updated.  New file:  {}\n".format(store_file))

        else:   # no benchmark exists
            with open("{}/{}.status".format(full_web_dir, t.name), 'w') as cf:
                cf.write("benchmarks update failed")

        # is there a diffDir to copy too?
        if not t.diffDir == "":
            diff_dir_bench = "{}/{}_{}".format(bench_dir, t.name, t.diffDir)
            if os.path.isdir(diff_dir_bench):
                shutil.rmtree(diff_dir_bench)
                shutil.copytree(t.diffDir, diff_dir_bench)
            else:
                shutil.copy(t.diffDir, diff_dir_bench)
            log.log("new diffDir: {}_{}".format(t.name, t.diffDir))

        os.chdir(td)
Exemple #4
0
    def build_tools(self, test_list):

        self.log.skip()
        self.log.bold("building tools...")
        self.log.indent()

        self.tools = {}

        self.f_compare_tool_dir = "{}/Tools/Postprocessing/F_Src/".format(
            os.path.normpath(self.amrex_dir))

        os.chdir(self.f_compare_tool_dir)

        self.make_realclean(repo="AMReX")

        ftools = ["fcompare", "fboxinfo"]
        if any([t for t in test_list if t.dim == 2]):
            ftools.append("fsnapshot2d")
        if any([t for t in test_list if t.dim == 3]):
            ftools.append("fsnapshot3d")

        for t in ftools:
            self.log.log("building {}...".format(t))
            comp_string, rc = self.build_f(target="programs={}".format(t),
                                           opts="NDEBUG=t MPI= ")
            if not rc == 0:
                self.log.fail("unable to continue, tools not able to be built")

            exe = test_util.get_recent_filename(self.f_compare_tool_dir, t,
                                                ".exe")
            self.tools[t] = "{}/{}".format(self.f_compare_tool_dir, exe)

        self.c_compare_tool_dir = "{}/Tools/Postprocessing/C_Src/".format(
            os.path.normpath(self.amrex_dir))

        os.chdir(self.c_compare_tool_dir)

        ctools = ["particle_compare"]

        for t in ctools:
            self.log.log("building {}...".format(t))
            comp_string, rc = self.build_c(opts="NDEBUG=t MPI= ")
            if not rc == 0:
                self.log.fail("unable to continue, tools not able to be built")

            exe = test_util.get_recent_filename(self.c_compare_tool_dir, t,
                                                ".exe")

            self.tools[t] = "{}/{}".format(self.c_compare_tool_dir, exe)

        self.log.outdent()
Exemple #5
0
    def build_tools(self, test_list):

        self.compare_tool_dir = "{}/Tools/Postprocessing/F_Src/".format(
            os.path.normpath(self.boxlib_dir))

        os.chdir(self.compare_tool_dir)

        self.make_realclean(repo="BoxLib")

        tools = ["fcompare", "fboxinfo"]
        if any([t for t in test_list if t.dim == 2]): tools.append("fsnapshot2d")
        if any([t for t in test_list if t.dim == 3]): tools.append("fsnapshot3d")

        self.tools = {}

        self.log.skip()
        self.log.bold("building tools...")
        self.log.indent()

        for t in tools:
            self.log.log("building {}...".format(t))
            comp_string, rc = self.build_f(target="programs={}".format(t), opts="NDEBUG=t MPI= ")
            if not rc == 0:
                self.log.fail("unable to continue, tools not able to be built")

            exe = test_util.get_recent_filename(self.compare_tool_dir, t, ".exe")
            self.tools[t] = "{}/{}".format(self.compare_tool_dir, exe)

        self.log.outdent()
Exemple #6
0
    def build_tools(self, test_list):

        self.compare_tool_dir = "{}/Tools/Postprocessing/F_Src/".format(
            os.path.normpath(self.boxlib_dir))

        os.chdir(self.compare_tool_dir)

        self.make_realclean(repo="BoxLib")

        tools = ["fcompare", "fboxinfo"]
        if any([t for t in test_list if t.dim == 2]): tools.append("fsnapshot2d")
        if any([t for t in test_list if t.dim == 3]): tools.append("fsnapshot3d")

        self.tools = {}

        self.log.skip()
        self.log.bold("building tools...")
        self.log.indent()

        for t in tools:
            self.log.log("building {}...".format(t))
            self.build_f(target="programs={}".format(t), opts="NDEBUG=t MPI= ")
            exe = test_util.get_recent_filename(self.compare_tool_dir, t, ".exe")
            self.tools[t] = "{}/{}".format(self.compare_tool_dir, exe)

        self.log.outdent()
Exemple #7
0
def test_suite(argv):
    """
    the main test suite driver
    """

    # parse the commandline arguments
    args = test_util.get_args(arg_string=argv)

    # read in the test information
    suite, test_list = params.load_params(args)

    active_test_list = [t.name for t in test_list]

    test_list = suite.get_tests_to_run(test_list)

    suite.log.skip()
    suite.log.bold("running tests: ")
    suite.log.indent()
    for obj in test_list:
        suite.log.log(obj.name)
    suite.log.outdent()

    if not args.complete_report_from_crash == "":

        # make sure the web directory from the crash run exists
        suite.full_web_dir = "{}/{}/".format(
            suite.webTopDir, args.complete_report_from_crash)
        if not os.path.isdir(suite.full_web_dir):
            suite.log.fail("Crash directory does not exist")

        suite.test_dir = args.complete_report_from_crash

        # find all the tests that completed in that web directory
        tests = []
        test_file = ""
        was_benchmark_run = 0
        for sfile in os.listdir(suite.full_web_dir):
            if os.path.isfile(sfile) and sfile.endswith(".status"):
                index = string.rfind(sfile, ".status")
                tests.append(sfile[:index])

                with open(suite.full_web_dir + sfile, "r") as f:
                    for line in f:
                        if line.find("benchmarks updated") > 0:
                            was_benchmark_run = 1

            if os.path.isfile(sfile) and sfile.endswith(".ini"):
                test_file = sfile


        # create the report for this test run
        num_failed = report.report_this_test_run(suite, was_benchmark_run,
                                                 "recreated report after crash of suite",
                                                 "", tests, test_file)

        # create the suite report
        suite.log.bold("creating suite report...")
        report.report_all_runs(suite, active_test_list)
        suite.log.close_log()
        sys.exit("done")


    #--------------------------------------------------------------------------
    # check bench dir and create output directories
    #--------------------------------------------------------------------------
    all_compile = all([t.compileTest == 1 for t in test_list])

    if not all_compile:
        bench_dir = suite.get_bench_dir()

    if not args.copy_benchmarks is None:
        last_run = suite.get_last_run()

    suite.make_test_dirs()

    if suite.slack_post:
        msg = "{} ({}) test suite started, id: {}\n{}".format(
            suite.suiteName, suite.sub_title, suite.test_dir, args.note)
        suite.slack_post_it(msg)

    if not args.copy_benchmarks is None:
        old_full_test_dir = suite.testTopDir + suite.suiteName + "-tests/" + last_run
        copy_benchmarks(old_full_test_dir, suite.full_web_dir,
                        test_list, bench_dir, suite.log)

        # here, args.copy_benchmarks plays the role of make_benchmarks
        num_failed = report.report_this_test_run(suite, args.copy_benchmarks,
                                                 "copy_benchmarks used -- no new tests run",
                                                 "",
                                                 test_list, args.input_file[0])
        report.report_all_runs(suite, active_test_list)

        if suite.slack_post:
            msg = "copied benchmarks\n{}".format(args.copy_benchmarks)
            suite.slack_post_it(msg)

        sys.exit("done")


    #--------------------------------------------------------------------------
    # figure out what needs updating and do the git updates, save the
    # current hash / HEAD, and make a ChangeLog
    # --------------------------------------------------------------------------
    now = time.localtime(time.time())
    update_time = time.strftime("%Y-%m-%d %H:%M:%S %Z", now)

    no_update = args.no_update.lower()
    if not args.copy_benchmarks is None:
        no_update = "all"

    # the default is to update everything, unless we specified a hash
    # when constructing the Repo object
    if no_update == "none":
        pass

    elif no_update == "all":
        for k in suite.repos:
            suite.repos[k].update = False

    else:
        nouplist = [k.strip() for k in no_update.split(",")]

        for repo in suite.repos.keys():
            if repo.lower() in nouplist:
                suite.repos[repo].update = False

    os.chdir(suite.testTopDir)

    for k in suite.repos:
        suite.log.skip()
        suite.log.bold("repo: {}".format(suite.repos[k].name))
        suite.log.indent()

        if suite.repos[k].update or suite.repos[k].hash_wanted:
            suite.repos[k].git_update()

        suite.repos[k].save_head()

        if suite.repos[k].update:
            suite.repos[k].make_changelog()

        suite.log.outdent()


    # keep track if we are running on any branch that is not the suite
    # default
    branches = [suite.repos[r].branch_wanted for r in suite.repos]
    if not all(suite.default_branch == b for b in branches):
        suite.log.warn("some git repos are not on the default branch")
        bf = open("{}/branch.status".format(suite.full_web_dir), "w")
        bf.write("branch different than suite default")
        bf.close()

    #--------------------------------------------------------------------------
    # build the tools and do a make clean, only once per build directory
    #--------------------------------------------------------------------------
    suite.build_tools(test_list)

    all_build_dirs = find_build_dirs(test_list)

    suite.log.skip()
    suite.log.bold("make clean in...")

    for d, source_tree in all_build_dirs:

        if not source_tree == "":
            suite.log.log("{} in {}".format(d, source_tree))
            os.chdir(suite.repos[source_tree].dir + d)
            suite.make_realclean(repo=source_tree)
        else:
            suite.log.log("{}".format(d))
            os.chdir(suite.source_dir + d)
            if suite.sourceTree in ["AMReX", "amrex"]:
                suite.make_realclean(repo="AMReX")
            else:
                suite.make_realclean()

    os.chdir(suite.testTopDir)


    #--------------------------------------------------------------------------
    # Setup Cmake if needed
    #--------------------------------------------------------------------------
    if ( suite.useCmake ):
        cmake_setup(suite)


    #--------------------------------------------------------------------------
    # main loop over tests
    #--------------------------------------------------------------------------
    for test in test_list:

        suite.log.outdent()  # just to make sure we have no indentation
        suite.log.skip()
        suite.log.bold("working on test: {}".format(test.name))
        suite.log.indent()

        if not args.make_benchmarks is None and (test.restartTest or test.compileTest or
                                                 test.selfTest):
            suite.log.warn("benchmarks not needed for test {}".format(test.name))
            continue

        output_dir = suite.full_test_dir + test.name + '/'
        os.mkdir(output_dir)
        test.output_dir = output_dir


        #----------------------------------------------------------------------
        # compile the code
        #----------------------------------------------------------------------
        if not test.extra_build_dir == "":
            bdir = suite.repos[test.extra_build_dir].dir + test.buildDir
        else:
            bdir = suite.source_dir + test.buildDir

        # # For cmake builds, there is only one build dir
        # if ( suite.useCmake ): bdir = suite.source_build_dir

        os.chdir(bdir)

        if test.reClean == 1:
            # for one reason or another, multiple tests use different
            # build options, make clean again to be safe
            suite.log.log("re-making clean...")
            if not test.extra_build_dir == "":
                suite.make_realclean(repo=test.extra_build_dir)
            else:
                suite.make_realclean()

        suite.log.log("building...")

        coutfile="{}/{}.make.out".format(output_dir, test.name)

        if suite.sourceTree == "C_Src" or test.testSrcTree == "C_Src":
            if ( suite.useCmake ) :
                comp_string, rc = suite.build_test_cmake(test=test, outfile=coutfile)
            else:
                comp_string, rc = suite.build_c(test=test, outfile=coutfile)

            executable = test_util.get_recent_filename(bdir, "", ".ex")

        elif suite.sourceTree == "F_Src" or test.testSrcTree == "F_Src":
            comp_string, rc = suite.build_f(test=test, outfile=coutfile)
            executable = test_util.get_recent_filename(bdir, "main", ".exe")

        test.comp_string = comp_string

        # make return code is 0 if build was successful
        if rc == 0: test.compile_successful = True

        # copy the make.out into the web directory
        shutil.copy("{}/{}.make.out".format(output_dir, test.name), suite.full_web_dir)

        if not test.compile_successful:
            error_msg = "ERROR: compilation failed"
            report.report_single_test(suite, test, test_list, failure_msg=error_msg)
            continue

        if test.compileTest:
            suite.log.log("creating problem test report ...")
            report.report_single_test(suite, test, test_list)
            continue


        #----------------------------------------------------------------------
        # copy the necessary files over to the run directory
        #----------------------------------------------------------------------
        suite.log.log("copying files to run directory...")

        needed_files = []
        if executable is not None:
            needed_files.append((executable, "move"))

        needed_files.append((test.inputFile, "copy"))
        # strip out any sub-directory from the build dir
        test.inputFile = os.path.basename(test.inputFile)

        if test.probinFile != "":
            needed_files.append((test.probinFile, "copy"))
            # strip out any sub-directory from the build dir
            test.probinFile = os.path.basename(test.probinFile)

        for auxf in test.auxFiles:
            needed_files.append((auxf, "copy"))

        # if any copy/move fail, we move onto the next test
        skip_to_next_test = 0
        for nfile, action in needed_files:
            if action == "copy":
                act = shutil.copy
            elif action == "move":
                act = shutil.move
            else:
                suite.log.fail("invalid action")

            try: act(nfile, output_dir)
            except IOError:
                error_msg = "ERROR: unable to {} file {}".format(action, nfile)
                report.report_single_test(suite, test, test_list, failure_msg=error_msg)
                skip_to_next_test = 1
                break

        if skip_to_next_test: continue

        skip_to_next_test = 0
        for lfile in test.linkFiles:
            if not os.path.exists(lfile):
                error_msg = "ERROR: link file {} does not exist".format(lfile)
                report.report_single_test(suite, test, test_list, failure_msg=error_msg)
                skip_to_next_test = 1
                break

            else:
                link_source = os.path.abspath(lfile)
                link_name = os.path.join(output_dir, os.path.basename(lfile))
                try: os.symlink(link_source, link_name)
                except IOError:
                    error_msg = "ERROR: unable to symlink link file: {}".format(lfile)
                    report.report_single_test(suite, test, test_list, failure_msg=error_msg)
                    skip_to_next_test = 1
                    break

        if skip_to_next_test: continue


        #----------------------------------------------------------------------
        # run the test
        #----------------------------------------------------------------------
        suite.log.log("running the test...")

        os.chdir(output_dir)

        test.wall_time = time.time()

        if suite.sourceTree == "C_Src" or test.testSrcTree == "C_Src":

            base_cmd = "./{} {} amr.plot_file={}_plt amr.check_file={}_chk".format(
                executable, test.inputFile, test.name, test.name)

            # keep around the checkpoint files only for the restart runs
            if test.restartTest:
                base_cmd += " amr.checkpoint_files_output=1 amr.check_int=%d" % \
                                (test.restartFileNum)
            else:
                base_cmd += " amr.checkpoint_files_output=0"

            base_cmd += "{} {}".format(suite.globalAddToExecString, test.runtime_params)

        elif suite.sourceTree == "F_Src" or test.testSrcTree == "F_Src":

            base_cmd = "./{} {} --plot_base_name {}_plt --check_base_name {}_chk ".format(
                executable, test.inputFile, test.name, test.name)

            # keep around the checkpoint files only for the restart runs
            if not test.restartTest: base_cmd += " --chk_int 0 "

            base_cmd += "{} {}".format(suite.globalAddToExecString, test.runtime_params)

        if args.with_valgrind:
            base_cmd = "valgrind " + args.valgrind_options + " " + base_cmd

        if test.customRunCmd is not None:
            base_cmd = test.customRunCmd



        suite.run_test(test, base_cmd)

        # if it is a restart test, then rename the final output file and
        # restart the test
        if test.restartTest:
            skip_restart = False

            last_file = test.get_last_plotfile(output_dir=output_dir)

            if last_file == "":
                error_msg = "ERROR: test did not produce output.  Restart test not possible"
                skip_restart = True

            if len(test.find_backtrace()) > 0:
                error_msg = "ERROR: test produced backtraces.  Restart test not possible"
                skip_restart = True

            if skip_restart:
                # copy what we can
                test.wall_time = time.time() - test.wall_time
                shutil.copy("{}.run.out".format(test.name), suite.full_web_dir)
                if os.path.isfile("{}.err.out".format(test.name)):
                    shutil.copy("{}.err.out".format(test.name), suite.full_web_dir)
                    test.has_stderr = True
                suite.copy_backtrace(test)
                report.report_single_test(suite, test, test_list, failure_msg=error_msg)
                continue
            orig_last_file = "orig_{}".format(last_file)
            shutil.move(last_file, orig_last_file)

            if test.diffDir:
                orig_diff_dir = "orig_{}".format(test.diffDir)
                shutil.move(test.diffDir, orig_diff_dir)

            # get the file number to restart from
            restart_file = "%s_chk%5.5d" % (test.name, test.restartFileNum)

            suite.log.log("restarting from {} ... ".format(restart_file))

            if suite.sourceTree == "C_Src" or test.testSrcTree == "C_Src":

                base_cmd = "./{} {} amr.plot_file={}_plt amr.check_file={}_chk amr.checkpoint_files_output=0 amr.restart={}".format(
                    executable, test.inputFile, test.name, test.name, restart_file)

            elif suite.sourceTree == "F_Src" or test.testSrcTree == "F_Src":

                base_cmd = "./{} {} --plot_base_name {}_plt --check_base_name {}_chk --chk_int 0 --restart {} {}".format(
                    executable, test.inputFile, test.name, test.name, test.restartFileNum, suite.globalAddToExecString)

            suite.run_test(test, base_cmd)

        test.wall_time = time.time() - test.wall_time


        #----------------------------------------------------------------------
        # do the comparison
        #----------------------------------------------------------------------
        if not test.selfTest:

            if test.outputFile == "":
                if test.compareFile == "":
                    compare_file = test.get_last_plotfile(output_dir=output_dir)
                else:
                    # we specified the name of the file we want to
                    # compare to -- make sure it exists
                    compare_file = test.compareFile
                    if not os.path.isdir(compare_file):
                        compare_file = ""

                output_file = compare_file
            else:
                output_file = test.outputFile
                compare_file = test.name+'_'+output_file


            # get the number of levels for reporting
            prog = "{} -l {}".format(suite.tools["fboxinfo"], output_file)
            stdout0, stderr0, rc = test_util.run(prog)
            test.nlevels = stdout0.rstrip('\n')
            if not type(params.convert_type(test.nlevels)) is int:
                test.nlevels = ""

            if args.make_benchmarks is None:

                suite.log.log("doing the comparison...")
                suite.log.indent()
                suite.log.log("comparison file: {}".format(output_file))

                test.compare_file_used = output_file

                if not test.restartTest:
                    bench_file = bench_dir + compare_file
                else:
                    bench_file = orig_last_file

                # see if it exists
                # note, with AMReX, the plotfiles are actually directories

                if not os.path.isdir(bench_file):
                    suite.log.warn("no corresponding benchmark found")
                    bench_file = ""

                    with open("{}.compare.out".format(test.name), 'w') as cf:
                        cf.write("WARNING: no corresponding benchmark found\n")
                        cf.write("         unable to do a comparison\n")

                else:
                    if not compare_file == "":

                        suite.log.log("benchmark file: {}".format(bench_file))

                        if suite.useCmake:
                            command = "{} -n 0 --infile1 {} --infile2 {}".format(
                                suite.tools["plt_compare_diff_grids"], bench_file, output_file)
                        else:
                            command = "{} -n 0 {} {}".format(
                                suite.tools["fcompare"], bench_file, output_file)
                            
                        sout, serr, ierr = test_util.run(command,
                                                         outfile="{}.compare.out".format(test.name), store_command=True)

                        if ierr == 0:
                            test.compare_successful = True

                    else:
                        suite.log.warn("unable to do a comparison")

                        with open("{}.compare.out".format(test.name), 'w') as cf:
                            cf.write("WARNING: run did not produce any output\n")
                            cf.write("         unable to do a comparison\n")

                suite.log.outdent()

                if not test.diffDir == "":
                    if not test.restartTest:
                        diff_dir_bench = bench_dir + '/' + test.name + '_' + test.diffDir
                    else:
                        diff_dir_bench = orig_diff_dir

                    suite.log.log("doing the diff...")
                    suite.log.log("diff dir: {}".format(test.diffDir))

                    command = "diff {} -r {} {}".format(
                        test.diffOpts, diff_dir_bench, test.diffDir)

                    outfile = "{}.compare.out".format(test.name)
                    sout, serr, diff_status = test_util.run(command, outfile=outfile, store_command=True)

                    if diff_status == 0:
                        diff_successful = True
                        with open("{}.compare.out".format(test.name), 'a') as cf:
                            cf.write("\ndiff was SUCCESSFUL\n")
                    else:
                        diff_successful = False

                    test.compare_successful = test.compare_successful and diff_successful

            else:   # make_benchmarks

                suite.log.log("storing output of {} as the new benchmark...".format(test.name))
                suite.log.indent()
                suite.log.warn("new benchmark file: {}".format(compare_file))
                suite.log.outdent()

                if not compare_file == "":
                    if not output_file == compare_file:
                        source_file = output_file
                    else:
                        source_file = compare_file

                    try: shutil.rmtree("{}/{}".format(bench_dir, compare_file))
                    except: pass
                    shutil.copytree(source_file, "{}/{}".format(bench_dir, compare_file))

                    with open("{}.status".format(test.name), 'w') as cf:
                        cf.write("benchmarks updated.  New file:  {}\n".format(compare_file) )

                else:
                    with open("{}.status".format(test.name), 'w') as cf:
                        cf.write("benchmarks failed")

                    # copy what we can
                    shutil.copy("{}.run.out".format(test.name), suite.full_web_dir)
                    if os.path.isfile("{}.err.out".format(test.name)):
                        shutil.copy("{}.err.out".format(test.name), suite.full_web_dir)
                        test.has_stderr = True
                    suite.copy_backtrace(test)
                    error_msg = "ERROR: runtime failure during benchmark creation"
                    report.report_single_test(suite, test, test_list, failure_msg=error_msg)


                if not test.diffDir == "":
                    diff_dir_bench = "{}/{}_{}".format(bench_dir, test.name, test.diffDir)
                    if os.path.isdir(diff_dir_bench):
                        shutil.rmtree(diff_dir_bench)
                        shutil.copytree(test.diffDir, diff_dir_bench)
                    else:
                        shutil.copy(test.diffDir, diff_dir_bench)
                    suite.log.log("new diffDir: {}_{}".format(test.name, test.diffDir))

        else:   # selfTest

            if args.make_benchmarks is None:

                suite.log.log("looking for selfTest success string: {} ...".format(test.stSuccessString))

                try: of = open("{}.run.out".format(test.name), 'r')
                except IOError:
                    suite.log.warn("no output file found")
                    out_lines = ['']
                else:
                    out_lines = of.readlines()

                    # successful comparison is indicated by presence
                    # of success string
                    for line in out_lines:
                        if line.find(test.stSuccessString) >= 0:
                            test.compare_successful = True
                            break

                    of.close()

                with open("{}.compare.out".format(test.name), 'w') as cf:
                    if test.compare_successful:
                        cf.write("SELF TEST SUCCESSFUL\n")
                    else:
                        cf.write("SELF TEST FAILED\n")


        #----------------------------------------------------------------------
        # do any requested visualization (2- and 3-d only) and analysis
        #----------------------------------------------------------------------
        if not test.selfTest:
            if output_file != "":
                if args.make_benchmarks is None:

                    # get any parameters for the summary table
                    job_info_file = "{}/job_info".format(output_file)
                    if os.path.isfile(job_info_file):
                        test.has_jobinfo = 1

                    try: jif = open(job_info_file, "r")
                    except:
                        suite.log.warn("unable to open the job_info file")
                    else:
                        job_file_lines = jif.readlines()

                        if suite.summary_job_info_field1 is not "":
                            for l in job_file_lines:
                                if l.find(suite.summary_job_info_field1) >= 0 and l.find(":") >= 0:
                                    _tmp = l.split(":")[1]
                                    idx = _tmp.rfind("/") + 1
                                    test.job_info_field1 = _tmp[idx:]
                                    break

                        if suite.summary_job_info_field2 is not "":
                            for l in job_file_lines:
                                if l.find(suite.summary_job_info_field2) >= 0 and l.find(":") >= 0:
                                    _tmp = l.split(":")[1]
                                    idx = _tmp.rfind("/") + 1
                                    test.job_info_field2 = _tmp[idx:]
                                    break

                        if suite.summary_job_info_field3 is not "":
                            for l in job_file_lines:
                                if l.find(suite.summary_job_info_field3) >= 0 and l.find(":") >= 0:
                                    _tmp = l.split(":")[1]
                                    idx = _tmp.rfind("/") + 1
                                    test.job_info_field3 = _tmp[idx:]
                                    break

                    # visualization
                    if test.doVis:

                        if test.dim == 1:
                            suite.log.log("Visualization not supported for dim = {}".format(test.dim))
                        else:
                            suite.log.log("doing the visualization...")
                            tool = suite.tools["fsnapshot{}d".format(test.dim)]
                            test_util.run('{} --palette {}/Palette -cname "{}" -p "{}"'.format(
                                tool, suite.compare_tool_dir, test.visVar, output_file))

                            # convert the .ppm files into .png files
                            ppm_file = test_util.get_recent_filename(output_dir, "", ".ppm")
                            if not ppm_file is None:
                                png_file = ppm_file.replace(".ppm", ".png")
                                test_util.run("convert {} {}".format(ppm_file, png_file))
                                test.png_file = png_file

                    # analysis
                    if not test.analysisRoutine == "":

                        suite.log.log("doing the analysis...")
                        if not test.extra_build_dir == "":
                            tool = "{}/{}".format(suite.repos[test.extra_build_dir].dir, test.analysisRoutine)
                        else:
                            tool = "{}/{}".format(suite.source_dir, test.analysisRoutine)

                        shutil.copy(tool, os.getcwd())

                        if test.analysisMainArgs == "":
                            option = ""
                        else:
                            option = eval("suite.{}".format(test.analysisMainArgs))

                        cmd_name = os.path.basename(test.analysisRoutine)
                        cmd_string = "./{} {} {}".format(cmd_name, option, output_file)
                        _, _, rc = test_util.run(cmd_string)

                        if rc == 0:
                            analysis_successful = True
                        else:
                            analysis_successful = False

                        test.compare_successful = test.compare_successful and analysis_successful

            else:
                if test.doVis or test.analysisRoutine != "":
                    suite.log.warn("no output file.  Skipping visualization")


        #----------------------------------------------------------------------
        # move the output files into the web directory
        #----------------------------------------------------------------------
        if args.make_benchmarks is None:
            shutil.copy("{}.run.out".format(test.name), suite.full_web_dir)
            if os.path.isfile("{}.err.out".format(test.name)):
                shutil.copy("{}.err.out".format(test.name), suite.full_web_dir)
                test.has_stderr = True
            shutil.copy("{}.compare.out".format(test.name), suite.full_web_dir)

            shutil.copy(test.inputFile, "{}/{}.{}".format(
                suite.full_web_dir, test.name, test.inputFile) )

            if test.has_jobinfo:
                shutil.copy(job_info_file, "{}/{}.job_info".format(
                    suite.full_web_dir, test.name))

            if suite.sourceTree == "C_Src" and test.probinFile != "":
                shutil.copy(test.probinFile, "{}/{}.{}".format(
                    suite.full_web_dir, test.name, test.probinFile) )

            for af in test.auxFiles:

                # strip out any sub-directory under build dir for the aux file
                # when copying
                shutil.copy(os.path.basename(af),
                            "{}/{}.{}".format(suite.full_web_dir,
                                              test.name, os.path.basename(af)) )

            if not test.png_file is None:
                try: shutil.copy(test.png_file, suite.full_web_dir)
                except IOError:
                    # visualization was not successful.  Reset image
                    test.png_file = None

            if not test.analysisRoutine == "":
                try: shutil.copy(test.analysisOutputImage, suite.full_web_dir)
                except IOError:
                    # analysis was not successful.  Reset the output image
                    test.analysisOutputImage = ""

            # were any Backtrace files output (indicating a crash)
            suite.copy_backtrace(test)

        else:
            shutil.copy("{}.status".format(test.name), suite.full_web_dir)


        #----------------------------------------------------------------------
        # archive (or delete) the output
        #----------------------------------------------------------------------
        suite.log.log("archiving the output...")
        for pfile in os.listdir(output_dir):
            if (os.path.isdir(pfile) and
                (pfile.startswith("{}_plt".format(test.name)) or
                 pfile.startswith("{}_chk".format(test.name)) ) ):

                if suite.purge_output == 1 and not pfile == output_file:
                    # delete the plt/chk file
                    if os.path.isdir(pfile):
                        try: shutil.rmtree(pfile)
                        except:
                            suite.log.warn("unable to remove {}".format(pfile))

                else:
                    # tar it up
                    try:
                        tar = tarfile.open("{}.tgz".format(pfile), "w:gz")
                        tar.add("{}".format(pfile))
                        tar.close()

                    except:
                        suite.log.warn("unable to tar output file {}".format(pfile))

                    else:
                        try: shutil.rmtree(pfile)
                        except OSError:
                            suite.log.warn("unable to remove {}".format(pfile))


        #----------------------------------------------------------------------
        # write the report for this test
        #----------------------------------------------------------------------
        if args.make_benchmarks is None:
            suite.log.log("creating problem test report ...")
            report.report_single_test(suite, test, test_list)

    #--------------------------------------------------------------------------
    # Clean Cmake build and install directories if needed
    #--------------------------------------------------------------------------
    if ( suite.useCmake ):
        suite.cmake_clean("AMReX", suite.amrex_dir)
        suite.cmake_clean(suite.suiteName, suite.source_dir)


    #--------------------------------------------------------------------------
    # write the report for this instance of the test suite
    #--------------------------------------------------------------------------
    suite.log.outdent()
    suite.log.skip()
    suite.log.bold("creating new test report...")
    num_failed = report.report_this_test_run(suite, args.make_benchmarks, args.note,
                                             update_time,
                                             test_list, args.input_file[0])


    # make sure that all of the files in the web directory are world readable
    for file in os.listdir(suite.full_web_dir):
       current_file = suite.full_web_dir + file

       if os.path.isfile(current_file):
          os.chmod(current_file, 0o644)

    # reset the branch to what it was originally
    suite.log.skip()
    suite.log.bold("reverting git branches/hashes")
    suite.log.indent()

    for k in suite.repos:
        if suite.repos[k].update or suite.repos[k].hash_wanted:
            suite.repos[k].git_back()

    suite.log.outdent()

    # For temporary run, return now without creating suote report.
    if args.do_temp_run:
        return num_failed


    # store an output file in the web directory that can be parsed easily by
    # external program
    name = "source"
    if suite.sourceTree in ["AMReX", "amrex"]: name = "AMReX"
    branch = ''
    if suite.repos[name].branch_wanted:
        branch = suite.repos[name].branch_wanted.strip("\"")

    with open("{}/suite.{}.status".format(suite.webTopDir, branch), "w") as f:
        f.write("{}; num failed: {}; source hash: {}".format(
            suite.repos[name].name, num_failed, suite.repos[name].hash_current))


    #--------------------------------------------------------------------------
    # generate the master report for all test instances
    #--------------------------------------------------------------------------
    suite.log.skip()
    suite.log.bold("creating suite report...")
    report.report_all_runs(suite, active_test_list)

    def email_developers():
        msg = email.message_from_string(suite.emailBody)
        msg['From'] = suite.emailFrom
        msg['To'] = ",".join(suite.emailTo)
        msg['Subject'] = suite.emailSubject

        server = smtplib.SMTP('localhost')
        server.sendmail(suite.emailFrom, suite.emailTo, msg.as_string())
        server.quit()

    if num_failed > 0 and suite.sendEmailWhenFail and not args.send_no_email:
        suite.log.skip()
        suite.log.bold("sending email...")
        email_developers()


    if suite.slack_post:
        suite.slack_post_it("test complete, num failed = {}\n{}".format(num_failed, suite.emailBody))

    return num_failed
Exemple #8
0
def test_suite(argv):
    """
    the main test suite driver
    """

    # parse the commandline arguments
    args = test_util.get_args(arg_string=argv)

    # read in the test information
    suite, test_list = params.load_params(args)

    active_test_list = [t.name for t in test_list]

    test_list = suite.get_tests_to_run(test_list)

    suite.log.skip()
    suite.log.bold("running tests: ")
    suite.log.indent()
    for obj in test_list:
        suite.log.log(obj.name)
    suite.log.outdent()

    if not args.complete_report_from_crash == "":

        # make sure the web directory from the crash run exists
        suite.full_web_dir = "{}/{}/".format(
            suite.webTopDir, args.complete_report_from_crash)
        if not os.path.isdir(suite.full_web_dir):
            suite.log.fail("Crash directory does not exist")

        suite.test_dir = args.complete_report_from_crash

        # find all the tests that completed in that web directory
        tests = []
        test_file = ""
        was_benchmark_run = 0
        for sfile in os.listdir(suite.full_web_dir):
            if os.path.isfile(sfile) and sfile.endswith(".status"):
                index = string.rfind(sfile, ".status")
                tests.append(sfile[:index])

                with open(suite.full_web_dir + sfile, "r") as f:
                    for line in f:
                        if line.find("benchmarks updated") > 0:
                            was_benchmark_run = 1

            if os.path.isfile(sfile) and sfile.endswith(".ini"):
                test_file = sfile


        # create the report for this test run
        num_failed = report.report_this_test_run(suite, was_benchmark_run,
                                                 "recreated report after crash of suite",
                                                 "", tests, test_file)

        # create the suite report
        suite.log.bold("creating suite report...")
        report.report_all_runs(suite, active_test_list)
        suite.log.close_log()
        sys.exit("done")


    #--------------------------------------------------------------------------
    # check bench dir and create output directories
    #--------------------------------------------------------------------------
    all_compile = all([t.compileTest == 1 for t in test_list])

    if not all_compile:
        bench_dir = suite.get_bench_dir()

    if not args.copy_benchmarks is None:
        last_run = suite.get_last_run()

    suite.make_test_dirs()

    if suite.slack_post:
        msg = "{} ({}) test suite started, id: {}\n{}".format(
            suite.suiteName, suite.sub_title, suite.test_dir, args.note)
        suite.slack_post_it(msg)

    if not args.copy_benchmarks is None:
        old_full_test_dir = suite.testTopDir + suite.suiteName + "-tests/" + last_run
        copy_benchmarks(old_full_test_dir, suite.full_web_dir,
                        test_list, bench_dir, suite.log)

        # here, args.copy_benchmarks plays the role of make_benchmarks
        num_failed = report.report_this_test_run(suite, args.copy_benchmarks,
                                                 "copy_benchmarks used -- no new tests run",
                                                 "",
                                                 test_list, args.input_file[0])
        report.report_all_runs(suite, active_test_list)

        if suite.slack_post:
            msg = "copied benchmarks\n{}".format(args.copy_benchmarks)
            suite.slack_post_it(msg)

        sys.exit("done")


    #--------------------------------------------------------------------------
    # figure out what needs updating and do the git updates, save the
    # current hash / HEAD, and make a ChangeLog
    # --------------------------------------------------------------------------
    now = time.localtime(time.time())
    update_time = time.strftime("%Y-%m-%d %H:%M:%S %Z", now)

    no_update = args.no_update.lower()
    if not args.copy_benchmarks is None:
        no_update = "all"

    # the default is to update everything, unless we specified a hash
    # when constructing the Repo object
    if no_update == "none":
        pass

    elif no_update == "all":
        for k in suite.repos:
            suite.repos[k].update = False

    else:
        nouplist = [k.strip() for k in no_update.split(",")]

        for repo in suite.repos.keys():
            if repo.lower() in nouplist:
                suite.repos[repo].update = False

    os.chdir(suite.testTopDir)

    for k in suite.repos:
        suite.log.skip()
        suite.log.bold("repo: {}".format(suite.repos[k].name))
        suite.log.indent()

        if suite.repos[k].update or suite.repos[k].hash_wanted:
            suite.repos[k].git_update()

        suite.repos[k].save_head()

        if suite.repos[k].update:
            suite.repos[k].make_changelog()

        suite.log.outdent()


    # keep track if we are running on any branch that is not the suite
    # default
    branches = [suite.repos[r].branch_wanted for r in suite.repos]
    if not all(suite.default_branch == b for b in branches):
        suite.log.warn("some git repos are not on the default branch")
        bf = open("{}/branch.status".format(suite.full_web_dir), "w")
        bf.write("branch different than suite default")
        bf.close()

    #--------------------------------------------------------------------------
    # build the tools and do a make clean, only once per build directory
    #--------------------------------------------------------------------------
    suite.build_tools(test_list)

    all_build_dirs = find_build_dirs(test_list)

    suite.log.skip()
    suite.log.bold("make clean in...")

    for d, source_tree in all_build_dirs:

        if not source_tree == "":
            suite.log.log("{} in {}".format(d, source_tree))
            os.chdir(suite.repos[source_tree].dir + d)
            suite.make_realclean(repo=source_tree)
        else:
            suite.log.log("{}".format(d))
            os.chdir(suite.source_dir + d)
            if suite.sourceTree == "BoxLib":
                suite.make_realclean(repo="BoxLib")
            else:
                suite.make_realclean()

    os.chdir(suite.testTopDir)


    #--------------------------------------------------------------------------
    # main loop over tests
    #--------------------------------------------------------------------------
    for test in test_list:

        suite.log.outdent()  # just to make sure we have no indentation
        suite.log.skip()
        suite.log.bold("working on test: {}".format(test.name))
        suite.log.indent()

        if not args.make_benchmarks is None and (test.restartTest or test.compileTest or
                                                 test.selfTest):
            suite.log.warn("benchmarks not needed for test {}".format(test.name))
            continue

        output_dir = suite.full_test_dir + test.name + '/'
        os.mkdir(output_dir)
        test.output_dir = output_dir


        #----------------------------------------------------------------------
        # compile the code
        #----------------------------------------------------------------------
        if not test.extra_build_dir == "":
            bdir = suite.repos[test.extra_build_dir].dir + test.buildDir
        else:
            bdir = suite.source_dir + test.buildDir

        os.chdir(bdir)

        if test.reClean == 1:
            # for one reason or another, multiple tests use different
            # build options, make clean again to be safe
            suite.log.log("re-making clean...")
            if not test.extra_build_dir == "":
                suite.make_realclean(repo=test.extra_build_dir)
            else:
                suite.make_realclean()

        suite.log.log("building...")

        coutfile="{}/{}.make.out".format(output_dir, test.name)

        if suite.sourceTree == "C_Src" or test.testSrcTree == "C_Src":

            comp_string, rc = suite.build_c(test=test, outfile=coutfile)
            executable = test_util.get_recent_filename(bdir, "", ".ex")

        elif suite.sourceTree == "F_Src" or test.testSrcTree == "F_Src":

            comp_string, rc = suite.build_f(test=test, outfile=coutfile)
            executable = test_util.get_recent_filename(bdir, "main", ".exe")

        test.comp_string = comp_string

        # make return code is 0 if build was successful
        if rc == 0: test.compile_successful = True

        # copy the make.out into the web directory
        shutil.copy("{}/{}.make.out".format(output_dir, test.name), suite.full_web_dir)

        if not test.compile_successful:
            error_msg = "ERROR: compilation failed"
            report.report_single_test(suite, test, test_list, failure_msg=error_msg)
            continue

        if test.compileTest:
            suite.log.log("creating problem test report ...")
            report.report_single_test(suite, test, test_list)
            continue


        #----------------------------------------------------------------------
        # copy the necessary files over to the run directory
        #----------------------------------------------------------------------
        suite.log.log("copying files to run directory...")

        needed_files = []
        needed_files.append((executable, "move"))

        needed_files.append((test.inputFile, "copy"))
        # strip out any sub-directory from the build dir
        test.inputFile = os.path.basename(test.inputFile)

        if test.probinFile != "":
            needed_files.append((test.probinFile, "copy"))
            # strip out any sub-directory from the build dir
            test.probinFile = os.path.basename(test.probinFile)

        for auxf in test.auxFiles:
            needed_files.append((auxf, "copy"))

        # if any copy/move fail, we move onto the next test
        skip_to_next_test = 0
        for nfile, action in needed_files:
            if action == "copy":
                act = shutil.copy
            elif action == "move":
                act = shutil.move
            else:
                suite.log.fail("invalid action")

            try: act(nfile, output_dir)
            except IOError:
                error_msg = "ERROR: unable to {} file {}".format(action, nfile)
                report.report_single_test(suite, test, test_list, failure_msg=error_msg)
                skip_to_next_test = 1
                break

        if skip_to_next_test: continue

        skip_to_next_test = 0
        for lfile in test.linkFiles:
            if not os.path.exists(lfile):
                error_msg = "ERROR: link file {} does not exist".format(lfile)
                report.report_single_test(suite, test, test_list, failure_msg=error_msg)
                skip_to_next_test = 1
                break

            else:
                link_source = os.path.abspath(lfile)
                link_name = os.path.join(output_dir, os.path.basename(lfile))
                try: os.symlink(link_source, link_name)
                except IOError:
                    error_msg = "ERROR: unable to symlink link file: {}".format(lfile)
                    report.report_single_test(suite, test, test_list, failure_msg=error_msg)
                    skip_to_next_test = 1
                    break

        if skip_to_next_test: continue


        #----------------------------------------------------------------------
        # run the test
        #----------------------------------------------------------------------
        suite.log.log("running the test...")

        os.chdir(output_dir)

        test.wall_time = time.time()

        if suite.sourceTree == "C_Src" or test.testSrcTree == "C_Src":

            base_cmd = "./{} {} amr.plot_file={}_plt amr.check_file={}_chk".format(
                executable, test.inputFile, test.name, test.name)

            # keep around the checkpoint files only for the restart runs
            if test.restartTest:
                base_cmd += " amr.checkpoint_files_output=1 amr.check_int=%d" % \
                                (test.restartFileNum)
            else:
                base_cmd += " amr.checkpoint_files_output=0"

            base_cmd += "{} {}".format(suite.globalAddToExecString, test.runtime_params)

        elif suite.sourceTree == "F_Src" or test.testSrcTree == "F_Src":

            base_cmd = "./{} {} --plot_base_name {}_plt --check_base_name {}_chk ".format(
                executable, test.inputFile, test.name, test.name)

            # keep around the checkpoint files only for the restart runs
            if not test.restartTest: base_cmd += " --chk_int 0 "

            base_cmd += "{} {}".format(suite.globalAddToExecString, test.runtime_params)

        if args.with_valgrind:
            base_cmd = "valgrind " + args.valgrind_options + " " + base_cmd

        suite.run_test(test, base_cmd)


        # if it is a restart test, then rename the final output file and
        # restart the test
        if test.restartTest:
            skip_restart = False

            last_file = test.get_last_plotfile(output_dir=output_dir)

            if last_file == "":
                error_msg = "ERROR: test did not produce output.  Restart test not possible"
                skip_restart = True

            if len(test.find_backtrace()) > 0:
                error_msg = "ERROR: test produced backtraces.  Restart test not possible"
                skip_restart = True

            if skip_restart:
                # copy what we can
                test.wall_time = time.time() - test.wall_time
                shutil.copy("{}.run.out".format(test.name), suite.full_web_dir)
                if os.path.isfile("{}.err.out".format(test.name)):
                    shutil.copy("{}.err.out".format(test.name), suite.full_web_dir)
                    test.has_stderr = True
                suite.copy_backtrace(test)
                report.report_single_test(suite, test, test_list, failure_msg=error_msg)
                continue

            orig_last_file = "orig_{}".format(last_file)
            shutil.move(last_file, orig_last_file)

            if test.diffDir:
                orig_diff_dir = "orig_{}".format(test.diffDir)
                shutil.move(test.diffDir, orig_diff_dir)

            # get the file number to restart from
            restart_file = "%s_chk%5.5d" % (test.name, test.restartFileNum)

            suite.log.log("restarting from {} ... ".format(restart_file))

            if suite.sourceTree == "C_Src" or test.testSrcTree == "C_Src":

                base_cmd = "./{} {} amr.plot_file={}_plt amr.check_file={}_chk amr.checkpoint_files_output=0 amr.restart={}".format(
                    executable, test.inputFile, test.name, test.name, restart_file)

            elif suite.sourceTree == "F_Src" or test.testSrcTree == "F_Src":

                base_cmd = "./{} {} --plot_base_name {}_plt --check_base_name {}_chk --chk_int 0 --restart {} {}".format(
                    executable, test.inputFile, test.name, test.name, test.restartFileNum, suite.globalAddToExecString)

            suite.run_test(test, base_cmd)

        test.wall_time = time.time() - test.wall_time


        #----------------------------------------------------------------------
        # do the comparison
        #----------------------------------------------------------------------
        if not test.selfTest:

            if test.outputFile == "":
                if test.compareFile == "":
                    compare_file = test.get_last_plotfile(output_dir=output_dir)
                else:
                    # we specified the name of the file we want to
                    # compare to -- make sure it exists
                    compare_file = test.compareFile
                    if not os.path.isdir(compare_file):
                        compare_file = ""

                output_file = compare_file
            else:
                output_file = test.outputFile
                compare_file = test.name+'_'+output_file


            # get the number of levels for reporting
            prog = "{} -l {}".format(suite.tools["fboxinfo"], output_file)
            stdout0, stderr0, rc = test_util.run(prog)
            test.nlevels = stdout0.rstrip('\n')
            if not type(params.convert_type(test.nlevels)) is int:
                test.nlevels = ""

            if args.make_benchmarks is None:

                suite.log.log("doing the comparison...")
                suite.log.indent()
                suite.log.log("comparison file: {}".format(output_file))

                test.compare_file_used = output_file

                if not test.restartTest:
                    bench_file = bench_dir + compare_file
                else:
                    bench_file = orig_last_file

                # see if it exists
                # note, with BoxLib, the plotfiles are actually directories

                if not os.path.isdir(bench_file):
                    suite.log.warn("no corresponding benchmark found")
                    bench_file = ""

                    with open("{}.compare.out".format(test.name), 'w') as cf:
                        cf.write("WARNING: no corresponding benchmark found\n")
                        cf.write("         unable to do a comparison\n")

                else:
                    if not compare_file == "":

                        suite.log.log("benchmark file: {}".format(bench_file))

                        command = "{} -n 0 {} {}".format(
                            suite.tools["fcompare"], bench_file, output_file)
                        sout, serr, ierr = test_util.run(command,
                                                         outfile="{}.compare.out".format(test.name), store_command=True)

                        if ierr == 0:
                            test.compare_successful = True

                    else:
                        suite.log.warn("unable to do a comparison")

                        with open("{}.compare.out".format(test.name), 'w') as cf:
                            cf.write("WARNING: run did not produce any output\n")
                            cf.write("         unable to do a comparison\n")

                suite.log.outdent()

                if not test.diffDir == "":
                    if not test.restartTest:
                        diff_dir_bench = bench_dir + '/' + test.name + '_' + test.diffDir
                    else:
                        diff_dir_bench = orig_diff_dir

                    suite.log.log("doing the diff...")
                    suite.log.log("diff dir: {}".format(test.diffDir))

                    command = "diff {} -r {} {}".format(
                        test.diffOpts, diff_dir_bench, test.diffDir)

                    outfile = "{}.compare.out".format(test.name)
                    sout, serr, diff_status = test_util.run(command, outfile=outfile, store_command=True)

                    if diff_status == 0:
                        diff_successful = True
                        with open("{}.compare.out".format(test.name), 'a') as cf:
                            cf.write("\ndiff was SUCCESSFUL\n")
                    else:
                        diff_successful = False

                    test.compare_successful = test.compare_successful and diff_successful

            else:   # make_benchmarks

                suite.log.log("storing output of {} as the new benchmark...".format(test.name))
                suite.log.indent()
                suite.log.warn("new benchmark file: {}".format(compare_file))
                suite.log.outdent()

                if not compare_file == "":
                    if not output_file == compare_file:
                        source_file = output_file
                    else:
                        source_file = compare_file

                    try: shutil.rmtree("{}/{}".format(bench_dir, compare_file))
                    except: pass
                    shutil.copytree(source_file, "{}/{}".format(bench_dir, compare_file))

                    with open("{}.status".format(test.name), 'w') as cf:
                        cf.write("benchmarks updated.  New file:  {}\n".format(compare_file) )

                else:
                    with open("{}.status".format(test.name), 'w') as cf:
                        cf.write("benchmarks failed")

                    # copy what we can
                    shutil.copy("{}.run.out".format(test.name), suite.full_web_dir)
                    if os.path.isfile("{}.err.out".format(test.name)):
                        shutil.copy("{}.err.out".format(test.name), suite.full_web_dir)
                        test.has_stderr = True
                    suite.copy_backtrace(test)
                    error_msg = "ERROR: runtime failure during benchmark creation"
                    report.report_single_test(suite, test, test_list, failure_msg=error_msg)


                if not test.diffDir == "":
                    diff_dir_bench = "{}/{}_{}".format(bench_dir, test.name, test.diffDir)
                    if os.path.isdir(diff_dir_bench):
                        shutil.rmtree(diff_dir_bench)
                        shutil.copytree(test.diffDir, diff_dir_bench)
                    else:
                        shutil.copy(test.diffDir, diff_dir_bench)
                    suite.log.log("new diffDir: {}_{}".format(test.name, test.diffDir))

        else:   # selfTest

            if args.make_benchmarks is None:

                suite.log.log("looking for selfTest success string: {} ...".format(test.stSuccessString))

                try: of = open("{}.run.out".format(test.name), 'r')
                except IOError:
                    suite.log.warn("no output file found")
                    out_lines = ['']
                else:
                    out_lines = of.readlines()

                    # successful comparison is indicated by presence
                    # of success string
                    for line in out_lines:
                        if line.find(test.stSuccessString) >= 0:
                            test.compare_successful = True
                            break

                    of.close()

                with open("{}.compare.out".format(test.name), 'w') as cf:
                    if test.compare_successful:
                        cf.write("SELF TEST SUCCESSFUL\n")
                    else:
                        cf.write("SELF TEST FAILED\n")


        #----------------------------------------------------------------------
        # do any requested visualization (2- and 3-d only) and analysis
        #----------------------------------------------------------------------
        if not test.selfTest:
            if output_file != "":
                if args.make_benchmarks is None:

                    # get any parameters for the summary table
                    job_info_file = "{}/job_info".format(output_file)
                    if os.path.isfile(job_info_file):
                        test.has_jobinfo = 1

                    try: jif = open(job_info_file, "r")
                    except:
                        suite.log.warn("unable to open the job_info file")
                    else:
                        job_file_lines = jif.readlines()

                        if suite.summary_job_info_field1 is not "":
                            for l in job_file_lines:
                                if l.find(suite.summary_job_info_field1) >= 0 and l.find(":") >= 0:
                                    _tmp = l.split(":")[1]
                                    idx = _tmp.rfind("/") + 1
                                    test.job_info_field1 = _tmp[idx:]
                                    break

                        if suite.summary_job_info_field2 is not "":
                            for l in job_file_lines:
                                if l.find(suite.summary_job_info_field2) >= 0 and l.find(":") >= 0:
                                    _tmp = l.split(":")[1]
                                    idx = _tmp.rfind("/") + 1
                                    test.job_info_field2 = _tmp[idx:]
                                    break

                        if suite.summary_job_info_field3 is not "":
                            for l in job_file_lines:
                                if l.find(suite.summary_job_info_field3) >= 0 and l.find(":") >= 0:
                                    _tmp = l.split(":")[1]
                                    idx = _tmp.rfind("/") + 1
                                    test.job_info_field3 = _tmp[idx:]
                                    break

                    # visualization
                    if test.doVis:

                        if test.dim == 1:
                            suite.log.log("Visualization not supported for dim = {}".format(test.dim))
                        else:
                            suite.log.log("doing the visualization...")
                            tool = suite.tools["fsnapshot{}d".format(test.dim)]
                            test_util.run('{} --palette {}/Palette -cname "{}" -p "{}"'.format(
                                tool, suite.compare_tool_dir, test.visVar, output_file))

                            # convert the .ppm files into .png files
                            ppm_file = test_util.get_recent_filename(output_dir, "", ".ppm")
                            if not ppm_file is None:
                                png_file = ppm_file.replace(".ppm", ".png")
                                test_util.run("convert {} {}".format(ppm_file, png_file))
                                test.png_file = png_file

                    # analysis
                    if not test.analysisRoutine == "":

                        suite.log.log("doing the analysis...")
                        if not test.extra_build_dir == "":
                            tool = "{}/{}".format(suite.repos[test.extra_build_dir].dir, test.analysisRoutine)
                        else:
                            tool = "{}/{}".format(suite.source_dir, test.analysisRoutine)

                        shutil.copy(tool, os.getcwd())

                        option = eval("suite.{}".format(test.analysisMainArgs))
                        test_util.run("{} {} {}".format(os.path.basename(test.analysisRoutine),
                                                        option, output_file))

            else:
                if test.doVis or test.analysisRoutine != "":
                    suite.log.warn("no output file.  Skipping visualization")


        #----------------------------------------------------------------------
        # move the output files into the web directory
        #----------------------------------------------------------------------
        if args.make_benchmarks is None:
            shutil.copy("{}.run.out".format(test.name), suite.full_web_dir)
            if os.path.isfile("{}.err.out".format(test.name)):
                shutil.copy("{}.err.out".format(test.name), suite.full_web_dir)
                test.has_stderr = True
            shutil.copy("{}.compare.out".format(test.name), suite.full_web_dir)

            shutil.copy(test.inputFile, "{}/{}.{}".format(
                suite.full_web_dir, test.name, test.inputFile) )

            if test.has_jobinfo:
                shutil.copy(job_info_file, "{}/{}.job_info".format(
                    suite.full_web_dir, test.name))

            if suite.sourceTree == "C_Src" and test.probinFile != "":
                shutil.copy(test.probinFile, "{}/{}.{}".format(
                    suite.full_web_dir, test.name, test.probinFile) )

            for af in test.auxFiles:

                # strip out any sub-directory under build dir for the aux file
                # when copying
                shutil.copy(os.path.basename(af),
                            "{}/{}.{}".format(suite.full_web_dir,
                                              test.name, os.path.basename(af)) )

            if not test.png_file is None:
                try: shutil.copy(test.png_file, suite.full_web_dir)
                except IOError:
                    # visualization was not successful.  Reset image
                    test.png_file = None

            if not test.analysisRoutine == "":
                try: shutil.copy(test.analysisOutputImage, suite.full_web_dir)
                except IOError:
                    # analysis was not successful.  Reset the output image
                    test.analysisOutputImage = ""

            # were any Backtrace files output (indicating a crash)
            suite.copy_backtrace(test)

        else:
            shutil.copy("{}.status".format(test.name), suite.full_web_dir)


        #----------------------------------------------------------------------
        # archive (or delete) the output
        #----------------------------------------------------------------------
        suite.log.log("archiving the output...")
        for pfile in os.listdir(output_dir):
            if (os.path.isdir(pfile) and
                (pfile.startswith("{}_plt".format(test.name)) or
                 pfile.startswith("{}_chk".format(test.name)) ) ):

                if suite.purge_output == 1 and not pfile == output_file:
                    # delete the plt/chk file
                    if os.path.isdir(pfile):
                        try: shutil.rmtree(pfile)
                        except:
                            suite.log.warn("unable to remove {}".format(pfile))

                else:
                    # tar it up
                    try:
                        tar = tarfile.open("{}.tgz".format(pfile), "w:gz")
                        tar.add("{}".format(pfile))
                        tar.close()

                    except:
                        suite.log.warn("unable to tar output file {}".format(pfile))

                    else:
                        try: shutil.rmtree(pfile)
                        except OSError:
                            suite.log.warn("unable to remove {}".format(pfile))


        #----------------------------------------------------------------------
        # write the report for this test
        #----------------------------------------------------------------------
        if args.make_benchmarks is None:
            suite.log.log("creating problem test report ...")
            report.report_single_test(suite, test, test_list)


    #--------------------------------------------------------------------------
    # write the report for this instance of the test suite
    #--------------------------------------------------------------------------
    suite.log.outdent()
    suite.log.skip()
    suite.log.bold("creating new test report...")
    num_failed = report.report_this_test_run(suite, args.make_benchmarks, args.note,
                                             update_time,
                                             test_list, args.input_file[0])


    # make sure that all of the files in the web directory are world readable
    for file in os.listdir(suite.full_web_dir):
       current_file = suite.full_web_dir + file

       if os.path.isfile(current_file):
          os.chmod(current_file, 0o644)

    # reset the branch to what it was originally
    suite.log.skip()
    suite.log.bold("reverting git branches/hashes")
    suite.log.indent()

    for k in suite.repos:
        if suite.repos[k].update or suite.repos[k].hash_wanted:
            suite.repos[k].git_back()

    suite.log.outdent()

    # For temporary run, return now without creating suote report.
    if args.do_temp_run:
        return num_failed


    # store an output file in the web directory that can be parsed easily by
    # external program
    name = "source"
    if suite.sourceTree == "BoxLib": name = "BoxLib"
    branch = suite.repos[name].branch_wanted.strip("\"")

    with open("{}/suite.{}.status".format(suite.webTopDir, branch), "w") as f:
        f.write("{}; num failed: {}; source hash: {}".format(
            suite.repos[name].name, num_failed, suite.repos[name].hash_current))


    #--------------------------------------------------------------------------
    # generate the master report for all test instances
    #--------------------------------------------------------------------------
    suite.log.skip()
    suite.log.bold("creating suite report...")
    report.report_all_runs(suite, active_test_list)

    def email_developers():
        msg = email.message_from_string(suite.emailBody)
        msg['From'] = suite.emailFrom
        msg['To'] = ",".join(suite.emailTo)
        msg['Subject'] = suite.emailSubject

        server = smtplib.SMTP('localhost')
        server.sendmail(suite.emailFrom, suite.emailTo, msg.as_string())
        server.quit()

    if num_failed > 0 and suite.sendEmailWhenFail and not args.send_no_email:
        suite.log.skip()
        suite.log.bold("sending email...")
        email_developers()


    if suite.slack_post:
        suite.slack_post_it("test complete, num failed = {}\n{}".format(num_failed, suite.emailBody))

    return num_failed
Exemple #9
0
    def build_tools(self, test_list):

        self.log.skip()
        self.log.bold("building tools...")
        self.log.indent()

        self.tools = {}

        self.f_compare_tool_dir = "{}/Tools/Plotfile/".format(
            os.path.normpath(self.amrex_dir))

        os.chdir(self.f_compare_tool_dir)

        self.make_realclean(repo="AMReX")

        ftools = self.ftools
        if ("fextract" in self.extra_tools): ftools.append("fextract")
        if ("fextrema" in self.extra_tools): ftools.append("fextrema")
        if ("ftime" in self.extra_tools): ftools.append("ftime")
        if any([
                t for t in test_list
                if t.tolerance is not None or t.abs_tolerance is not None
        ]):
            ftools.append("fvarnames")

        for t in ftools:
            self.log.log(f"building {t}...")
            comp_string, rc = self.build_c(
                target=f"programs={t}",
                opts="DEBUG=FALSE USE_MPI=FALSE USE_OMP=FALSE ",
                c_make_additions="",
                outfile=f"{t}.make.out")
            if not rc == 0:
                self.log.fail("unable to continue, tools not able to be built")

            exe = test_util.get_recent_filename(self.f_compare_tool_dir, t,
                                                ".ex")
            self.tools[t] = f"{self.f_compare_tool_dir}/{exe}"

        self.c_compare_tool_dir = "{}/Tools/Postprocessing/C_Src/".format(
            os.path.normpath(self.amrex_dir))

        if self.use_ctools:
            try:
                os.chdir(self.c_compare_tool_dir)
            except OSError:
                ctools = []
            else:
                ctools = ["particle_compare"]
                self.make_realclean(repo="AMReX")
        else:
            ctools = []

        for t in ctools:
            self.log.log(f"building {t}...")
            comp_string, rc = self.build_c(
                opts="DEBUG=FALSE USE_MPI=FALSE EBASE={}".format(t))
            if not rc == 0:
                self.log.fail("unable to continue, tools not able to be built")

            exe = test_util.get_recent_filename(self.c_compare_tool_dir, t,
                                                ".exe")

            self.tools[t] = f"{self.c_compare_tool_dir}/{exe}"

        if ("DiffSameDomainRefined" in self.extra_tools):
            self.extra_tool_dir = "{}/Tools/C_util/Convergence/".format(
                os.path.normpath(self.amrex_dir))

            os.chdir(self.extra_tool_dir)

            self.make_realclean(repo="AMReX")

            extra_tools = []
            if ("DiffSameDomainRefined1d" in self.extra_tools):
                extra_tools.append("DiffSameDomainRefined1d")
            if ("DiffSameDomainRefined2d" in self.extra_tools):
                extra_tools.append("DiffSameDomainRefined2d")
            if ("DiffSameDomainRefined3d" in self.extra_tools):
                extra_tools.append("DiffSameDomainRefined3d")

            for t in extra_tools:
                if ("1d" in t): ndim = 1
                if ("2d" in t): ndim = 2
                if ("3d" in t): ndim = 3
                self.log.log(f"building {t}...")
                comp_string, rc = self.build_c(
                    opts=
                    f"EBASE=DiffSameDomainRefined DIM={ndim} DEBUG=FALSE USE_MPI=FALSE USE_OMP=FALSE "
                )
                if not rc == 0:
                    self.log.fail(
                        "unable to continue, tools not able to be built")

                exe = test_util.get_recent_filename(self.extra_tool_dir, t,
                                                    ".ex")

                self.tools[t] = f"{self.extra_tool_dir}/{exe}"
                print(self.tools[t])

        self.log.outdent()