Exemplo n.º 1
0
 def __init__(self, out, err, p, args):
     CommandError.__init__(self, out, err, p)
     self.args = args
Exemplo n.º 2
0
def run_test(testdir):
    # Compile each 'input.c', using 'script.py'
    # Assume success and empty stdout; compare against expected stderr, or empty if file not present
    inputfiles = get_source_files(testdir)
    outfile = os.path.join(testdir, 'output.o')
    script_py = os.path.join(testdir, 'script.py')
    out = TestStream(os.path.join(testdir, 'stdout.txt'))
    err = TestStream(os.path.join(testdir, 'stderr.txt'))

    cp = configparser.SafeConfigParser()
    metadatapath = os.path.join(testdir, 'metadata.ini')
    cp.read([metadatapath])

    if cp.has_section('WhenToRun'):
        if cp.has_option('WhenToRun', 'required_features'):
            required_features = cp.get('WhenToRun',
                                       'required_features').split()
            for feature in required_features:
                if feature not in features:
                    raise ValueError('%s in %s not found in %s' %
                                     (feature, metadatapath, config_h))
                if not features[feature]:
                    raise SkipTest('required feature %s not available in %s' %
                                   (feature, config_h))

    env = dict(os.environ)
    env['LC_ALL'] = 'C'

    # Generate the command-line for invoking gcc:
    args = [CC]
    if len(inputfiles) == 1:
        args += ['-c']  # (don't run the linker)
    else:
        args += ['-fPIC', '-shared']
        # Force LTO when there's more than one source file:
        args += ['-flto', '-flto-partition=none']

    if GCC_VERSION >= 4008:
        # GCC 4.8 started showing the source line where the problem is,
        # followed by another line showing a caret indicating column.
        # This is a great usability feature, but totally breaks our "gold"
        # output, so turn it off for running tests:
        args += ['-fno-diagnostics-show-caret']

        # Similarly, the macro expansion tracking is great for usability,
        # but breaks the "gold" output, so we disable it during tests:
        args += ['-ftrack-macro-expansion=0']

    args += ['-o', outfile]
    args += [
        '-fplugin=%s' % os.path.abspath('%s.so' % PLUGIN_NAME),
        '-fplugin-arg-%s-script=%s' % (PLUGIN_NAME, script_py)
    ]

    # Force the signedness of char so that the tests have consistent
    # behavior across all archs:
    args += ['-fsigned-char']

    # Special-case: add the python include dir (for this runtime) if the C code
    # uses Python.h:
    def uses_python_headers():
        for inputfile in inputfiles:
            with open(inputfile, 'r') as f:
                code = f.read()
            if '#include <Python.h>' in code:
                return True

    if uses_python_headers():
        args += ['-I' + get_python_inc()]

    # If there's a getopts.py, run it to get additional test-specific
    # command-line options:
    getopts_py = os.path.join(testdir, 'getopts.py')
    if os.path.exists(getopts_py):
        p = Popen([sys.executable, getopts_py], stdout=PIPE, stderr=PIPE)
        opts_out, opts_err = p.communicate()
        if six.PY3:
            opts_out = opts_out.decode()
            opts_err = opts_err.decode()
        c = p.wait()
        if c != 0:
            raise CommandError()
        args += opts_out.split()

    # and the source files go at the end:
    args += inputfiles

    if uses_dg_directives(inputfiles):
        dg_context = DgContext(inputfiles)
        dg_context.echo_results = True
        for inputfile in inputfiles:
            dg_context.parse_directives(inputfile)
        args += dg_context.get_args()
    else:
        dg_context = None

    if options.show:
        # Show the gcc invocation:
        print(' '.join(args))

    # Invoke the compiler:
    p = Popen(args, env=env, stdout=PIPE, stderr=PIPE)
    out.actual, err.actual = p.communicate()
    if six.PY3:
        out.actual = out.actual.decode()
        err.actual = err.actual.decode()
    #print 'out: %r' % out.actual
    #print 'err: %r' % err.actual
    exitcode_actual = p.wait()

    if options.show:
        # then the user wants to see the gcc invocation directly
        sys.stdout.write(out.actual)
        sys.stderr.write(err.actual)

    if dg_context:
        dg_context.check_result(out.actual, err.actual, exitcode_actual)
        if dg_context.num_failures() > 0:
            raise DejaGnuError(dg_context)
        return

    # Expected exit code
    # By default, we expect success if the expected stderr is empty, and
    # and failure if it's non-empty.
    # This can be overridden if the test has a metadata.ini, by setting
    # exitcode within the [ExpectedBehavior] section:
    if err.expdata == '':
        exitcode_expected = 0
    else:
        exitcode_expected = 1
    if cp.has_section('ExpectedBehavior'):
        if cp.has_option('ExpectedBehavior', 'exitcode'):
            exitcode_expected = cp.getint('ExpectedBehavior', 'exitcode')

    # Check exit code:
    if exitcode_actual != exitcode_expected:
        sys.stderr.write(out.diff('stdout'))
        sys.stderr.write(err.diff('stderr'))
        raise CompilationError(out.actual, err.actual, p, args)

    if exitcode_expected == 0:
        assert os.path.exists(outfile)

    out.check_for_diff(out.actual, err.actual, p, args, 'stdout', WRITEBACK)
    err.check_for_diff(out.actual, err.actual, p, args, 'stderr', WRITEBACK)
Exemplo n.º 3
0
 def __init__(self, out, err, p, args):
     CommandError.__init__(self, out, err, p)
     self.args = args
def run_test(testdir):
    # Compile each 'input.c', using 'script.py'
    # Assume success and empty stdout; compare against expected stderr, or empty if file not present
    inputfile = get_source_file(testdir)
    outfile = os.path.join(testdir, 'output.o')
    script_py = os.path.join(testdir, 'script.py')
    out = TestStream(os.path.join(testdir, 'stdout.txt'))
    err = TestStream(os.path.join(testdir, 'stderr.txt'))

    cp = configparser.SafeConfigParser()
    metadatapath = os.path.join(testdir, 'metadata.ini')
    cp.read([metadatapath])

    if cp.has_section('WhenToRun'):
        if cp.has_option('WhenToRun', 'required_features'):
            required_features = cp.get('WhenToRun',
                                       'required_features').split()
            for feature in required_features:
                if feature not in features:
                    raise ValueError('%s in %s not found in %s' %
                                     (feature, metadatapath, config_h))
                if not features[feature]:
                    raise SkipTest('required feature %s not available in %s' %
                                   (feature, config_h))

    env = dict(os.environ)
    env['LC_ALL'] = 'C'

    # Generate the command-line for invoking gcc:
    args = [os.environ.get('CC', 'gcc')]
    args += ['-c']  # (don't run the linker)
    args += ['-o', outfile]
    args += [
        '-fplugin=%s' % os.path.abspath('python.so'),
        '-fplugin-arg-python-script=%s' % script_py
    ]

    # Special-case: add the python include dir (for this runtime) if the C code
    # uses Python.h:
    with open(inputfile, 'r') as f:
        code = f.read()
    if '#include <Python.h>' in code:
        args += ['-I' + get_python_inc()]

    # If there's a getopts.py, run it to get additional test-specific
    # command-line options:
    getopts_py = os.path.join(testdir, 'getopts.py')
    if os.path.exists(getopts_py):
        p = Popen([sys.executable, getopts_py], stdout=PIPE, stderr=PIPE)
        opts_out, opts_err = p.communicate()
        if six.PY3:
            opts_out = opts_out.decode()
            opts_err = opts_err.decode()
        c = p.wait()
        if c != 0:
            raise CommandError()
        args += opts_out.split()

    # and the source file goes at the end:
    args += [inputfile]

    # Invoke the compiler:
    p = Popen(args, env=env, stdout=PIPE, stderr=PIPE)
    out.actual, err.actual = p.communicate()
    if six.PY3:
        out.actual = out.actual.decode()
        err.actual = err.actual.decode()
    #print 'out: %r' % out.actual
    #print 'err: %r' % err.actual
    exitcode_actual = p.wait()

    # Expected exit code
    # By default, we expect success if the expected stderr is empty, and
    # and failure if it's non-empty.
    # This can be overridden if the test has a metadata.ini, by setting
    # exitcode within the [ExpectedBehavior] section:
    if err.expdata == '':
        exitcode_expected = 0
    else:
        exitcode_expected = 1
    if cp.has_section('ExpectedBehavior'):
        if cp.has_option('ExpectedBehavior', 'exitcode'):
            exitcode_expected = cp.getint('ExpectedBehavior', 'exitcode')

    # Check exit code:
    if exitcode_actual != exitcode_expected:
        sys.stderr.write(out.diff('stdout'))
        sys.stderr.write(err.diff('stderr'))
        raise CompilationError(out.actual, err.actual, p, args)

    if exitcode_expected == 0:
        assert os.path.exists(outfile)

    out.check_for_diff(out.actual, err.actual, p, args, 'stdout', 0)
    err.check_for_diff(out.actual, err.actual, p, args, 'stderr', 0)