darling-libcxx/test/lit.cfg

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# -*- Python -*- vim: set syntax=python tabstop=4 expandtab cc=80:
# Configuration file for the 'lit' test runner.
import os
import sys
import platform
import tempfile
import signal
import subprocess
import errno
import time
import shlex
# FIXME: For now, this is cribbed from lit.TestRunner, to avoid introducing a
# dependency there. What we more ideally would like to do is lift the "xfail"
# and "requires" handling to be a core lit framework feature.
def isExpectedFail(test, xfails):
# Check if any of the xfails match an available feature or the target.
for item in xfails:
# If this is the wildcard, it always fails.
if item == '*':
return True
# If this is a part of any of the features, it fails.
for feature in test.config.available_features:
if item in feature:
return True
# If this is a part of the target triple, it fails.
if item in test.suite.config.target_triple:
return True
return False
class LibcxxTestFormat(lit.formats.FileBasedTest):
"""
Custom test format handler for use with the test format use by libc++.
Tests fall into two categories:
FOO.pass.cpp - Executable test which should compile, run, and exit with
code 0.
FOO.fail.cpp - Negative test case which is expected to fail compilation.
"""
def __init__(self, cxx_under_test, cpp_flags, ld_flags, exec_env):
self.cxx_under_test = cxx_under_test
self.cpp_flags = list(cpp_flags)
self.ld_flags = list(ld_flags)
self.exec_env = dict(exec_env)
def execute_command(self, command, in_dir=None):
kwargs = {
'stdin' :subprocess.PIPE,
'stdout':subprocess.PIPE,
'stderr':subprocess.PIPE,
}
if in_dir:
kwargs['cwd'] = in_dir
p = subprocess.Popen(command, **kwargs)
out,err = p.communicate()
exitCode = p.wait()
# Detect Ctrl-C in subprocess.
if exitCode == -signal.SIGINT:
raise KeyboardInterrupt
return out, err, exitCode
def execute(self, test, lit_config):
while True:
try:
return self._execute(test, lit_config)
except OSError, oe:
if oe.errno != errno.ETXTBSY:
raise
time.sleep(0.1)
def _execute(self, test, lit_config):
# Extract test metadata from the test file.
xfails = []
requires = []
with open(test.getSourcePath()) as f:
for ln in f:
if 'XFAIL:' in ln:
items = ln[ln.index('XFAIL:') + 6:].split(',')
xfails.extend([s.strip() for s in items])
elif 'REQUIRES:' in ln:
items = ln[ln.index('REQUIRES:') + 9:].split(',')
requires.extend([s.strip() for s in items])
elif not ln.startswith("//") and ln.strip():
# Stop at the first non-empty line that is not a C++
# comment.
break
# Check that we have the required features.
#
# FIXME: For now, this is cribbed from lit.TestRunner, to avoid
# introducing a dependency there. What we more ideally would like to do
# is lift the "xfail" and "requires" handling to be a core lit
# framework feature.
missing_required_features = [f for f in requires
if f not in test.config.available_features]
if missing_required_features:
return (lit.Test.UNSUPPORTED,
"Test requires the following features: %s" % (
', '.join(missing_required_features),))
# Determine if this test is an expected failure.
isXFail = isExpectedFail(test, xfails)
# Evaluate the test.
result, report = self._evaluate_test(test, lit_config)
# Convert the test result based on whether this is an expected failure.
if isXFail:
if result != lit.Test.FAIL:
report += "\n\nTest was expected to FAIL, but did not.\n"
result = lit.Test.XPASS
else:
result = lit.Test.XFAIL
return result, report
def _evaluate_test(self, test, lit_config):
name = test.path_in_suite[-1]
source_path = test.getSourcePath()
source_dir = os.path.dirname(source_path)
# Check what kind of test this is.
assert name.endswith('.pass.cpp') or name.endswith('.fail.cpp')
expected_compile_fail = name.endswith('.fail.cpp')
# If this is a compile (failure) test, build it and check for failure.
if expected_compile_fail:
cmd = [self.cxx_under_test, '-c',
'-o', '/dev/null', source_path] + self.cpp_flags
out, err, exitCode = self.execute_command(cmd)
if exitCode == 1:
return lit.Test.PASS, ""
else:
report = """Command: %s\n""" % ' '.join(["'%s'" % a
for a in cmd])
report += """Exit Code: %d\n""" % exitCode
if out:
report += """Standard Output:\n--\n%s--""" % out
if err:
report += """Standard Error:\n--\n%s--""" % err
report += "\n\nExpected compilation to fail!"
return lit.Test.FAIL, report
else:
exec_file = tempfile.NamedTemporaryFile(suffix="exe", delete=False)
exec_path = exec_file.name
exec_file.close()
try:
compile_cmd = [self.cxx_under_test, '-o', exec_path,
source_path] + self.cpp_flags + self.ld_flags
cmd = compile_cmd
out, err, exitCode = self.execute_command(cmd)
if exitCode != 0:
report = """Command: %s\n""" % ' '.join(["'%s'" % a
for a in cmd])
report += """Exit Code: %d\n""" % exitCode
if out:
report += """Standard Output:\n--\n%s--""" % out
if err:
report += """Standard Error:\n--\n%s--""" % err
report += "\n\nCompilation failed unexpectedly!"
return lit.Test.FAIL, report
cmd = []
if self.exec_env:
cmd.append('env')
cmd.extend('%s=%s' % (name, value)
for name,value in self.exec_env.items())
cmd.append(exec_path)
if lit_config.useValgrind:
cmd = lit_config.valgrindArgs + cmd
out, err, exitCode = self.execute_command(cmd, source_dir)
if exitCode != 0:
report = """Compiled With: %s\n""" % \
' '.join(["'%s'" % a for a in compile_cmd])
report += """Command: %s\n""" % \
' '.join(["'%s'" % a for a in cmd])
report += """Exit Code: %d\n""" % exitCode
if out:
report += """Standard Output:\n--\n%s--""" % out
if err:
report += """Standard Error:\n--\n%s--""" % err
report += "\n\nCompiled test failed unexpectedly!"
return lit.Test.FAIL, report
finally:
try:
os.remove(exec_path)
except:
pass
return lit.Test.PASS, ""
# name: The name of this test suite.
config.name = 'libc++'
# suffixes: A list of file extensions to treat as test files.
config.suffixes = ['.cpp']
# test_source_root: The root path where tests are located.
config.test_source_root = os.path.dirname(__file__)
# Gather various compiler parameters.
cxx_under_test = lit.params.get('cxx_under_test', None)
if cxx_under_test is None:
cxx_under_test = getattr(config, 'cxx_under_test', None)
# If no specific cxx_under_test was given, attempt to infer it as clang++.
clangxx = lit.util.which('clang++', config.environment['PATH'])
if clangxx is not None:
cxx_under_test = clangxx
lit.note("inferred cxx_under_test as: %r" % (cxx_under_test,))
if cxx_under_test is None:
lit.fatal('must specify user parameter cxx_under_test '
'(e.g., --param=cxx_under_test=clang++)')
libcxx_src_root = lit.params.get('libcxx_src_root', None)
if libcxx_src_root is None:
libcxx_src_root = getattr(config, 'libcxx_src_root', None)
if libcxx_src_root is None:
libcxx_src_root = os.path.dirname(config.test_source_root)
libcxx_obj_root = lit.params.get('libcxx_obj_root', None)
if libcxx_obj_root is None:
libcxx_obj_root = getattr(config, 'libcxx_obj_root', None)
if libcxx_obj_root is None:
libcxx_obj_root = libcxx_src_root
cxx_has_stdcxx0x_flag_str = lit.params.get('cxx_has_stdcxx0x_flag', None)
if cxx_has_stdcxx0x_flag_str is not None:
if cxx_has_stdcxx0x_flag_str.lower() in ('1', 'true'):
cxx_has_stdcxx0x_flag = True
elif cxx_has_stdcxx0x_flag_str.lower() in ('', '0', 'false'):
cxx_has_stdcxx0x_flag = False
else:
lit.fatal('user parameter cxx_has_stdcxx0x_flag_str should be 0 or 1')
else:
cxx_has_stdcxx0x_flag = getattr(config, 'cxx_has_stdcxx0x_flag', True)
# This test suite supports testing against either the system library or the
# locally built one; the former mode is useful for testing ABI compatibility
# between the current headers and a shipping dynamic library.
use_system_lib_str = lit.params.get('use_system_lib', None)
if use_system_lib_str is not None:
if use_system_lib_str.lower() in ('1', 'true'):
use_system_lib = True
elif use_system_lib_str.lower() in ('', '0', 'false'):
use_system_lib = False
else:
lit.fatal('user parameter use_system_lib should be 0 or 1')
else:
# Default to testing against the locally built libc++ library.
use_system_lib = False
lit.note("inferred use_system_lib as: %r" % (use_system_lib,))
link_flags = []
link_flags_str = lit.params.get('link_flags', None)
if link_flags_str is None:
link_flags_str = getattr(config, 'link_flags', None)
if link_flags_str is None:
if sys.platform == 'darwin':
link_flags += ['-lSystem']
elif sys.platform == 'linux2':
link_flags += ['-lsupc++', '-lgcc_eh', '-lc', '-lm', '-lpthread',
'-lrt', '-lgcc_s']
else:
lit.fatal("unrecognized system")
lit.note("inferred link_flags as: %r" % (link_flags,))
if not link_flags_str is None:
link_flags += shlex.split(link_flags_str)
# Configure extra compiler flags.
include_paths = ['-I' + libcxx_src_root + '/include',
'-I' + libcxx_src_root + '/test/support']
library_paths = ['-L' + libcxx_obj_root + '/lib']
compile_flags = []
if cxx_has_stdcxx0x_flag:
compile_flags += ['-std=c++0x']
# Configure extra linker parameters.
exec_env = {}
if sys.platform == 'darwin':
if not use_system_lib:
exec_env['DYLD_LIBRARY_PATH'] = os.path.join(libcxx_obj_root, 'lib')
elif sys.platform == 'linux2':
if not use_system_lib:
link_flags += ['-Wl,-R', libcxx_obj_root + '/lib']
compile_flags += ['-D__STDC_FORMAT_MACROS', '-D__STDC_LIMIT_MACROS',
'-D__STDC_CONSTANT_MACROS']
else:
lit.fatal("unrecognized system")
config.test_format = LibcxxTestFormat(
cxx_under_test,
cpp_flags = ['-nostdinc++'] + compile_flags + include_paths,
ld_flags = ['-nodefaultlibs'] + library_paths + ['-lc++'] + link_flags,
exec_env = exec_env)
# Get or infer the target triple.
config.target_triple = lit.params.get('target_triple', None)
# If no target triple was given, try to infer it from the compiler under test.
if config.target_triple is None:
config.target_triple = lit.util.capture(
[cxx_under_test, '-dumpmachine']).strip()
lit.note("inferred target_triple as: %r" % (config.target_triple,))
# Write an "available feature" that combines the triple when use_system_lib is
# enabled. This is so that we can easily write XFAIL markers for tests that are
# known to fail with versions of libc++ as were shipped with a particular
# triple.
if use_system_lib:
config.available_features.add('with_system_lib=%s' % (
config.target_triple,))