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nest-open-source / nest-cam / 4320010 / libcxx-ba865ff / refs/heads/master / . / libcxx / test / libcxx / test / config.py
blob: 502b688fb4e8f7f8d39aff03520d60fc80eacaaf [file] [log] [blame]
import importlib
import locale
import os
import platform
import pkgutil
import re
import shlex
import sys
import lit.Test # pylint: disable=import-error,no-name-in-module
import lit.util # pylint: disable=import-error,no-name-in-module
from libcxx.test.format import LibcxxTestFormat
from libcxx.compiler import CXXCompiler
from libcxx.test.executor import *
from libcxx.test.tracing import *
def loadSiteConfig(lit_config, config, param_name, env_name):
# We haven't loaded the site specific configuration (the user is
# probably trying to run on a test file directly, and either the site
# configuration hasn't been created by the build system, or we are in an
# out-of-tree build situation).
site_cfg = lit_config.params.get(param_name,
os.environ.get(env_name))
if not site_cfg:
lit_config.warning('No site specific configuration file found!'
' Running the tests in the default configuration.')
elif not os.path.isfile(site_cfg):
lit_config.fatal(
"Specified site configuration file does not exist: '%s'" %
site_cfg)
else:
lit_config.note('using site specific configuration at %s' % site_cfg)
ld_fn = lit_config.load_config
# Null out the load_config function so that lit.site.cfg doesn't
# recursively load a config even if it tries.
# TODO: This is one hell of a hack. Fix it.
def prevent_reload_fn(*args, **kwargs):
pass
lit_config.load_config = prevent_reload_fn
ld_fn(config, site_cfg)
lit_config.load_config = ld_fn
class Configuration(object):
# pylint: disable=redefined-outer-name
def __init__(self, lit_config, config):
self.lit_config = lit_config
self.config = config
self.cxx = None
self.libcxx_src_root = None
self.libcxx_obj_root = None
self.cxx_library_root = None
self.abi_library_root = None
self.env = {}
self.use_target = False
self.use_system_cxx_lib = False
self.use_clang_verify = False
self.long_tests = None
self.execute_external = False
def get_lit_conf(self, name, default=None):
val = self.lit_config.params.get(name, None)
if val is None:
val = getattr(self.config, name, None)
if val is None:
val = default
return val
def get_lit_bool(self, name, default=None):
conf = self.get_lit_conf(name)
if conf is None:
return default
if conf.lower() in ('1', 'true'):
return True
if conf.lower() in ('', '0', 'false'):
return False
self.lit_config.fatal(
"parameter '{}' should be true or false".format(name))
def configure(self):
self.configure_executor()
self.configure_target_info()
self.configure_cxx()
self.configure_triple()
self.configure_src_root()
self.configure_obj_root()
self.configure_cxx_library_root()
self.configure_use_system_cxx_lib()
self.configure_use_clang_verify()
self.configure_execute_external()
self.configure_ccache()
self.configure_compile_flags()
self.configure_link_flags()
self.configure_env()
self.configure_color_diagnostics()
self.configure_debug_mode()
self.configure_warnings()
self.configure_sanitizer()
self.configure_coverage()
self.configure_substitutions()
self.configure_features()
def print_config_info(self):
# Print the final compile and link flags.
self.lit_config.note('Using compiler: %s' % self.cxx.path)
self.lit_config.note('Using flags: %s' % self.cxx.flags)
self.lit_config.note('Using compile flags: %s'
% self.cxx.compile_flags)
self.lit_config.note('Using link flags: %s' % self.cxx.link_flags)
# Print as list to prevent "set([...])" from being printed.
self.lit_config.note('Using available_features: %s' %
list(self.config.available_features))
self.lit_config.note('Using environment: %r' % self.env)
def get_test_format(self):
return LibcxxTestFormat(
self.cxx,
self.use_clang_verify,
self.execute_external,
self.executor,
exec_env=self.env)
def configure_executor(self):
exec_str = self.get_lit_conf('executor', "None")
te = eval(exec_str)
if te:
self.lit_config.note("Using executor: %r" % exec_str)
if self.lit_config.useValgrind:
# We have no way of knowing where in the chain the
# ValgrindExecutor is supposed to go. It is likely
# that the user wants it at the end, but we have no
# way of getting at that easily.
selt.lit_config.fatal("Cannot infer how to create a Valgrind "
" executor.")
else:
te = LocalExecutor()
if self.lit_config.useValgrind:
te = ValgrindExecutor(self.lit_config.valgrindArgs, te)
self.executor = te
def configure_target_info(self):
default = "libcxx.test.target_info.LocalTI"
info_str = self.get_lit_conf('target_info', default)
mod_path, _, info = info_str.rpartition('.')
mod = importlib.import_module(mod_path)
self.target_info = getattr(mod, info)()
if info_str != default:
self.lit_config.note("inferred target_info as: %r" % info_str)
def configure_cxx(self):
# Gather various compiler parameters.
cxx = self.get_lit_conf('cxx_under_test')
# If no specific cxx_under_test was given, attempt to infer it as
# clang++.
if cxx is None:
clangxx = lit.util.which('clang++',
self.config.environment['PATH'])
if clangxx:
cxx = clangxx
self.lit_config.note(
"inferred cxx_under_test as: %r" % cxx)
if not cxx:
self.lit_config.fatal('must specify user parameter cxx_under_test '
'(e.g., --param=cxx_under_test=clang++)')
self.cxx = CXXCompiler(cxx)
cxx_type = self.cxx.type
if cxx_type is not None:
assert self.cxx.version is not None
maj_v, min_v, _ = self.cxx.version
self.config.available_features.add(cxx_type)
self.config.available_features.add('%s-%s.%s' % (
cxx_type, maj_v, min_v))
def configure_src_root(self):
self.libcxx_src_root = self.get_lit_conf(
'libcxx_src_root', os.path.dirname(self.config.test_source_root))
def configure_obj_root(self):
self.libcxx_obj_root = self.get_lit_conf('libcxx_obj_root')
def configure_cxx_library_root(self):
self.cxx_library_root = self.get_lit_conf('cxx_library_root',
self.libcxx_obj_root)
def configure_use_system_cxx_lib(self):
# 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.
self.use_system_cxx_lib = self.get_lit_bool('use_system_cxx_lib')
if self.use_system_cxx_lib is None:
# Default to testing against the locally built libc++ library.
self.use_system_cxx_lib = False
self.lit_config.note(
"inferred use_system_cxx_lib as: %r" % self.use_system_cxx_lib)
def configure_use_clang_verify(self):
'''If set, run clang with -verify on failing tests.'''
self.use_clang_verify = self.get_lit_bool('use_clang_verify')
if self.use_clang_verify is None:
# NOTE: We do not test for the -verify flag directly because
# -verify will always exit with non-zero on an empty file.
self.use_clang_verify = self.cxx.hasCompileFlag(
['-Xclang', '-verify-ignore-unexpected'])
self.lit_config.note(
"inferred use_clang_verify as: %r" % self.use_clang_verify)
def configure_execute_external(self):
# Choose between lit's internal shell pipeline runner and a real shell.
# If LIT_USE_INTERNAL_SHELL is in the environment, we use that as the
# default value. Otherwise we default to internal on Windows and
# external elsewhere, as bash on Windows is usually very slow.
use_lit_shell_default = os.environ.get('LIT_USE_INTERNAL_SHELL')
if use_lit_shell_default is not None:
use_lit_shell_default = use_lit_shell_default != '0'
else:
use_lit_shell_default = sys.platform == 'win32'
# Check for the command line parameter using the default value if it is
# not present.
use_lit_shell = self.get_lit_bool('use_lit_shell',
use_lit_shell_default)
self.execute_external = not use_lit_shell
def configure_ccache(self):
use_ccache_default = os.environ.get('LIBCXX_USE_CCACHE') is not None
use_ccache = self.get_lit_bool('use_ccache', use_ccache_default)
if use_ccache:
self.cxx.use_ccache = True
self.lit_config.note('enabling ccache')
def configure_features(self):
additional_features = self.get_lit_conf('additional_features')
if additional_features:
for f in additional_features.split(','):
self.config.available_features.add(f.strip())
# Figure out which of the required locales we support
locales = {
'Darwin': {
'en_US.UTF-8': 'en_US.UTF-8',
'cs_CZ.ISO8859-2': 'cs_CZ.ISO8859-2',
'fr_FR.UTF-8': 'fr_FR.UTF-8',
'fr_CA.ISO8859-1': 'fr_CA.ISO8859-1',
'ru_RU.UTF-8': 'ru_RU.UTF-8',
'zh_CN.UTF-8': 'zh_CN.UTF-8',
},
'FreeBSD': {
'en_US.UTF-8': 'en_US.UTF-8',
'cs_CZ.ISO8859-2': 'cs_CZ.ISO8859-2',
'fr_FR.UTF-8': 'fr_FR.UTF-8',
'fr_CA.ISO8859-1': 'fr_CA.ISO8859-1',
'ru_RU.UTF-8': 'ru_RU.UTF-8',
'zh_CN.UTF-8': 'zh_CN.UTF-8',
},
'Linux': {
'en_US.UTF-8': 'en_US.UTF-8',
'cs_CZ.ISO8859-2': 'cs_CZ.ISO-8859-2',
'fr_FR.UTF-8': 'fr_FR.UTF-8',
'fr_CA.ISO8859-1': 'fr_CA.ISO-8859-1',
'ru_RU.UTF-8': 'ru_RU.UTF-8',
'zh_CN.UTF-8': 'zh_CN.UTF-8',
},
'Windows': {
'en_US.UTF-8': 'English_United States.1252',
'cs_CZ.ISO8859-2': 'Czech_Czech Republic.1250',
'fr_FR.UTF-8': 'French_France.1252',
'fr_CA.ISO8859-1': 'French_Canada.1252',
'ru_RU.UTF-8': 'Russian_Russia.1251',
'zh_CN.UTF-8': 'Chinese_China.936',
},
}
target_system = self.target_info.system()
target_platform = self.target_info.platform()
if target_system in locales:
default_locale = locale.setlocale(locale.LC_ALL)
for feature, loc in locales[target_system].items():
try:
locale.setlocale(locale.LC_ALL, loc)
self.config.available_features.add(
'locale.{0}'.format(feature))
except locale.Error:
self.lit_config.warning('The locale {0} is not supported by '
'your platform. Some tests will be '
'unsupported.'.format(loc))
locale.setlocale(locale.LC_ALL, default_locale)
else:
# Warn that the user doesn't get any free XFAILs for locale issues
self.lit_config.warning("No locales entry for target_system: %s" %
target_system)
# Write an "available feature" that combines the triple when
# use_system_cxx_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 self.use_system_cxx_lib:
self.config.available_features.add(
'with_system_cxx_lib=%s' % self.config.target_triple)
# Insert the platform name into the available features as a lower case.
self.config.available_features.add(target_platform)
# Some linux distributions have different locale data than others.
# Insert the distributions name and name-version into the available
# features to allow tests to XFAIL on them.
if target_platform == 'linux':
name = self.target_info.platform_name()
ver = self.target_info.platform_ver()
if name:
self.config.available_features.add(name)
if name and ver:
self.config.available_features.add('%s-%s' % (name, ver))
# Simulator testing can take a really long time for some of these tests
# so add a feature check so we can REQUIRES: long_tests in them
self.long_tests = self.get_lit_bool('long_tests')
if self.long_tests is None:
# Default to running long tests.
self.long_tests = True
self.lit_config.note(
"inferred long_tests as: %r" % self.long_tests)
if self.long_tests:
self.config.available_features.add('long_tests')
# Run a compile test for the -fsized-deallocation flag. This is needed
# in test/std/language.support/support.dynamic/new.delete
if self.cxx.hasCompileFlag('-fsized-deallocation'):
self.config.available_features.add('fsized-deallocation')
def configure_compile_flags(self):
no_default_flags = self.get_lit_bool('no_default_flags', False)
if not no_default_flags:
self.configure_default_compile_flags()
# Configure extra flags
compile_flags_str = self.get_lit_conf('compile_flags', '')
self.cxx.compile_flags += shlex.split(compile_flags_str)
def configure_default_compile_flags(self):
# Try and get the std version from the command line. Fall back to
# default given in lit.site.cfg is not present. If default is not
# present then force c++11.
std = self.get_lit_conf('std', 'c++11')
self.cxx.compile_flags += ['-std={0}'.format(std)]
self.config.available_features.add(std)
# Configure include paths
self.cxx.compile_flags += ['-nostdinc++']
self.configure_compile_flags_header_includes()
if self.target_info.platform() == 'linux':
self.cxx.compile_flags += ['-D__STDC_FORMAT_MACROS',
'-D__STDC_LIMIT_MACROS',
'-D__STDC_CONSTANT_MACROS']
# Configure feature flags.
self.configure_compile_flags_exceptions()
self.configure_compile_flags_rtti()
self.configure_compile_flags_no_global_filesystem_namespace()
self.configure_compile_flags_no_stdin()
self.configure_compile_flags_no_stdout()
enable_32bit = self.get_lit_bool('enable_32bit', False)
if enable_32bit:
self.cxx.flags += ['-m32']
# Configure threading features.
enable_threads = self.get_lit_bool('enable_threads', True)
enable_monotonic_clock = self.get_lit_bool('enable_monotonic_clock',
True)
if not enable_threads:
self.configure_compile_flags_no_threads()
if not enable_monotonic_clock:
self.configure_compile_flags_no_monotonic_clock()
elif not enable_monotonic_clock:
self.lit_config.fatal('enable_monotonic_clock cannot be false when'
' enable_threads is true.')
self.configure_compile_flags_no_thread_unsafe_c_functions()
# Use verbose output for better errors
self.cxx.flags += ['-v']
sysroot = self.get_lit_conf('sysroot')
if sysroot:
self.cxx.flags += ['--sysroot', sysroot]
gcc_toolchain = self.get_lit_conf('gcc_toolchain')
if gcc_toolchain:
self.cxx.flags += ['-gcc-toolchain', gcc_toolchain]
if self.use_target:
self.cxx.flags += ['-target', self.config.target_triple]
def configure_compile_flags_header_includes(self):
support_path = os.path.join(self.libcxx_src_root, 'test/support')
self.cxx.compile_flags += ['-I' + support_path]
self.cxx.compile_flags += ['-include', os.path.join(support_path, 'nasty_macros.hpp')]
libcxx_headers = self.get_lit_conf(
'libcxx_headers', os.path.join(self.libcxx_src_root, 'include'))
if not os.path.isdir(libcxx_headers):
self.lit_config.fatal("libcxx_headers='%s' is not a directory."
% libcxx_headers)
self.cxx.compile_flags += ['-I' + libcxx_headers]
def configure_compile_flags_exceptions(self):
enable_exceptions = self.get_lit_bool('enable_exceptions', True)
if not enable_exceptions:
self.config.available_features.add('libcpp-no-exceptions')
self.cxx.compile_flags += ['-fno-exceptions']
def configure_compile_flags_rtti(self):
enable_rtti = self.get_lit_bool('enable_rtti', True)
if not enable_rtti:
self.config.available_features.add('libcpp-no-rtti')
self.cxx.compile_flags += ['-fno-rtti', '-D_LIBCPP_NO_RTTI']
def configure_compile_flags_no_global_filesystem_namespace(self):
enable_global_filesystem_namespace = self.get_lit_bool(
'enable_global_filesystem_namespace', True)
if not enable_global_filesystem_namespace:
self.config.available_features.add(
'libcpp-has-no-global-filesystem-namespace')
self.cxx.compile_flags += [
'-D_LIBCPP_HAS_NO_GLOBAL_FILESYSTEM_NAMESPACE']
def configure_compile_flags_no_stdin(self):
enable_stdin = self.get_lit_bool('enable_stdin', True)
if not enable_stdin:
self.config.available_features.add('libcpp-has-no-stdin')
self.cxx.compile_flags += ['-D_LIBCPP_HAS_NO_STDIN']
def configure_compile_flags_no_stdout(self):
enable_stdout = self.get_lit_bool('enable_stdout', True)
if not enable_stdout:
self.config.available_features.add('libcpp-has-no-stdout')
self.cxx.compile_flags += ['-D_LIBCPP_HAS_NO_STDOUT']
def configure_compile_flags_no_threads(self):
self.cxx.compile_flags += ['-D_LIBCPP_HAS_NO_THREADS']
self.config.available_features.add('libcpp-has-no-threads')
def configure_compile_flags_no_thread_unsafe_c_functions(self):
enable_thread_unsafe_c_functions = self.get_lit_bool(
'enable_thread_unsafe_c_functions', True)
if not enable_thread_unsafe_c_functions:
self.cxx.compile_flags += [
'-D_LIBCPP_HAS_NO_THREAD_UNSAFE_C_FUNCTIONS']
self.config.available_features.add(
'libcpp-has-no-thread-unsafe-c-functions')
def configure_compile_flags_no_monotonic_clock(self):
self.cxx.compile_flags += ['-D_LIBCPP_HAS_NO_MONOTONIC_CLOCK']
self.config.available_features.add('libcpp-has-no-monotonic-clock')
def configure_link_flags(self):
no_default_flags = self.get_lit_bool('no_default_flags', False)
if not no_default_flags:
self.cxx.link_flags += ['-nodefaultlibs']
# Configure library path
self.configure_link_flags_cxx_library_path()
self.configure_link_flags_abi_library_path()
# Configure libraries
self.configure_link_flags_cxx_library()
self.configure_link_flags_abi_library()
self.configure_extra_library_flags()
link_flags_str = self.get_lit_conf('link_flags', '')
self.cxx.link_flags += shlex.split(link_flags_str)
def configure_link_flags_cxx_library_path(self):
libcxx_library = self.get_lit_conf('libcxx_library')
# Configure libc++ library paths.
if libcxx_library is not None:
# Check that the given value for libcxx_library is valid.
if not os.path.isfile(libcxx_library):
self.lit_config.fatal(
"libcxx_library='%s' is not a valid file." %
libcxx_library)
if self.use_system_cxx_lib:
self.lit_config.fatal(
"Conflicting options: 'libcxx_library' cannot be used "
"with 'use_system_cxx_lib=true'")
self.cxx.link_flags += ['-Wl,-rpath,' +
os.path.dirname(libcxx_library)]
elif not self.use_system_cxx_lib and self.cxx_library_root:
self.cxx.link_flags += ['-L' + self.cxx_library_root,
'-Wl,-rpath,' + self.cxx_library_root]
def configure_link_flags_abi_library_path(self):
# Configure ABI library paths.
self.abi_library_root = self.get_lit_conf('abi_library_path')
if self.abi_library_root:
self.cxx.link_flags += ['-L' + self.abi_library_root,
'-Wl,-rpath,' + self.abi_library_root]
def configure_link_flags_cxx_library(self):
libcxx_library = self.get_lit_conf('libcxx_library')
if libcxx_library:
self.cxx.link_flags += [libcxx_library]
else:
self.cxx.link_flags += ['-lc++']
def configure_link_flags_abi_library(self):
cxx_abi = self.get_lit_conf('cxx_abi', 'libcxxabi')
if cxx_abi == 'libstdc++':
self.cxx.link_flags += ['-lstdc++']
elif cxx_abi == 'libsupc++':
self.cxx.link_flags += ['-lsupc++']
elif cxx_abi == 'libcxxabi':
# Don't link libc++abi explicitly on OS X because the symbols
# should be available in libc++ directly.
if self.target_info.platform() != 'darwin':
self.cxx.link_flags += ['-lc++abi']
elif cxx_abi == 'libcxxrt':
self.cxx.link_flags += ['-lcxxrt']
elif cxx_abi == 'none':
pass
else:
self.lit_config.fatal(
'C++ ABI setting %s unsupported for tests' % cxx_abi)
def configure_extra_library_flags(self):
enable_threads = self.get_lit_bool('enable_threads', True)
llvm_unwinder = self.get_lit_bool('llvm_unwinder', False)
target_platform = self.target_info.platform()
if target_platform == 'darwin':
self.cxx.link_flags += ['-lSystem']
elif target_platform == 'linux':
if not llvm_unwinder:
self.cxx.link_flags += ['-lgcc_eh']
self.cxx.link_flags += ['-lc', '-lm']
if enable_threads:
self.cxx.link_flags += ['-lpthread']
self.cxx.link_flags += ['-lrt']
if llvm_unwinder:
self.cxx.link_flags += ['-lunwind', '-ldl']
else:
self.cxx.link_flags += ['-lgcc_s']
elif target_platform.startswith('freebsd'):
self.cxx.link_flags += ['-lc', '-lm', '-lpthread', '-lgcc_s', '-lcxxrt']
else:
self.lit_config.fatal("unrecognized system: %r" % target_platform)
def configure_color_diagnostics(self):
use_color = self.get_lit_conf('color_diagnostics')
if use_color is None:
use_color = os.environ.get('LIBCXX_COLOR_DIAGNOSTICS')
if use_color is None:
return
if use_color != '':
self.lit_config.fatal('Invalid value for color_diagnostics "%s".'
% use_color)
color_flag = '-fdiagnostics-color=always'
# Check if the compiler supports the color diagnostics flag. Issue a
# warning if it does not since color diagnostics have been requested.
if not self.cxx.hasCompileFlag(color_flag):
self.lit_config.warning(
'color diagnostics have been requested but are not supported '
'by the compiler')
else:
self.cxx.flags += [color_flag]
def configure_debug_mode(self):
debug_level = self.get_lit_conf('debug_level', None)
if not debug_level:
return
if debug_level not in ['0', '1']:
self.lit_config.fatal('Invalid value for debug_level "%s".'
% debug_level)
self.cxx.compile_flags += ['-D_LIBCPP_DEBUG=%s' % debug_level]
def configure_warnings(self):
enable_warnings = self.get_lit_bool('enable_warnings', False)
if enable_warnings:
self.cxx.compile_flags += [
'-D_LIBCPP_HAS_NO_PRAGMA_SYSTEM_HEADER',
'-Wall', '-Werror'
]
self.cxx.addCompileFlagIfSupported('-Wno-attributes')
if self.cxx.type == 'clang' or self.cxx.type == 'apple-clang':
self.cxx.addCompileFlagIfSupported('-Wno-pessimizing-move')
self.cxx.addCompileFlagIfSupported('-Wno-c++11-extensions')
self.cxx.addCompileFlagIfSupported('-Wno-user-defined-literals')
std = self.get_lit_conf('std', None)
if std in ['c++98', 'c++03']:
# The '#define static_assert' provided by libc++ in C++03 mode
# causes an unused local typedef whenever it is used.
self.cxx.addCompileFlagIfSupported('-Wno-unused-local-typedef')
def configure_sanitizer(self):
san = self.get_lit_conf('use_sanitizer', '').strip()
if san:
# Search for llvm-symbolizer along the compiler path first
# and then along the PATH env variable.
symbolizer_search_paths = os.environ.get('PATH', '')
cxx_path = lit.util.which(self.cxx.path)
if cxx_path is not None:
symbolizer_search_paths = (
os.path.dirname(cxx_path) +
os.pathsep + symbolizer_search_paths)
llvm_symbolizer = lit.util.which('llvm-symbolizer',
symbolizer_search_paths)
# Setup the sanitizer compile flags
self.cxx.flags += ['-g', '-fno-omit-frame-pointer']
if self.target_info.platform() == 'linux':
self.cxx.link_flags += ['-ldl']
if san == 'Address':
self.cxx.flags += ['-fsanitize=address']
if llvm_symbolizer is not None:
self.env['ASAN_SYMBOLIZER_PATH'] = llvm_symbolizer
self.config.available_features.add('asan')
self.config.available_features.add('sanitizer-new-delete')
elif san == 'Memory' or san == 'MemoryWithOrigins':
self.cxx.flags += ['-fsanitize=memory']
if san == 'MemoryWithOrigins':
self.cxx.compile_flags += [
'-fsanitize-memory-track-origins']
if llvm_symbolizer is not None:
self.env['MSAN_SYMBOLIZER_PATH'] = llvm_symbolizer
self.config.available_features.add('msan')
self.config.available_features.add('sanitizer-new-delete')
elif san == 'Undefined':
self.cxx.flags += ['-fsanitize=undefined',
'-fno-sanitize=vptr,function',
'-fno-sanitize-recover']
self.cxx.compile_flags += ['-O3']
self.config.available_features.add('ubsan')
if self.target_info.platform() == 'darwin':
self.config.available_features.add('sanitizer-new-delete')
elif san == 'Thread':
self.cxx.flags += ['-fsanitize=thread']
self.config.available_features.add('tsan')
self.config.available_features.add('sanitizer-new-delete')
else:
self.lit_config.fatal('unsupported value for '
'use_sanitizer: {0}'.format(san))
san_lib = self.get_lit_conf('sanitizer_library')
if san_lib:
self.cxx.link_flags += [
san_lib, '-Wl,-rpath,%s' % os.path.dirname(san_lib)]
def configure_coverage(self):
self.generate_coverage = self.get_lit_bool('generate_coverage', False)
if self.generate_coverage:
self.cxx.flags += ['-g', '--coverage']
self.cxx.compile_flags += ['-O0']
def configure_substitutions(self):
sub = self.config.substitutions
# Configure compiler substitions
sub.append(('%cxx', self.cxx.path))
# Configure flags substitutions
flags_str = ' '.join(self.cxx.flags)
compile_flags_str = ' '.join(self.cxx.compile_flags)
link_flags_str = ' '.join(self.cxx.link_flags)
all_flags = '%s %s %s' % (flags_str, compile_flags_str, link_flags_str)
sub.append(('%flags', flags_str))
sub.append(('%compile_flags', compile_flags_str))
sub.append(('%link_flags', link_flags_str))
sub.append(('%all_flags', all_flags))
# Add compile and link shortcuts
compile_str = (self.cxx.path + ' -o %t.o %s -c ' + flags_str
+ compile_flags_str)
link_str = (self.cxx.path + ' -o %t.exe %t.o ' + flags_str
+ link_flags_str)
assert type(link_str) is str
build_str = self.cxx.path + ' -o %t.exe %s ' + all_flags
sub.append(('%compile', compile_str))
sub.append(('%link', link_str))
sub.append(('%build', build_str))
# Configure exec prefix substitutions.
exec_env_str = 'env ' if len(self.env) != 0 else ''
for k, v in self.env.items():
exec_env_str += ' %s=%s' % (k, v)
# Configure run env substitution.
exec_str = ''
if self.lit_config.useValgrind:
exec_str = ' '.join(self.lit_config.valgrindArgs) + exec_env_str
sub.append(('%exec', exec_str))
# Configure run shortcut
sub.append(('%run', exec_str + ' %t.exe'))
# Configure not program substitions
not_py = os.path.join(self.libcxx_src_root, 'utils', 'not', 'not.py')
not_str = '%s %s' % (sys.executable, not_py)
sub.append(('not', not_str))
def configure_triple(self):
# Get or infer the target triple.
self.config.target_triple = self.get_lit_conf('target_triple')
self.use_target = bool(self.config.target_triple)
# If no target triple was given, try to infer it from the compiler
# under test.
if not self.use_target:
target_triple = self.cxx.getTriple()
# Drop sub-major version components from the triple, because the
# current XFAIL handling expects exact matches for feature checks.
# Example: x86_64-apple-darwin14.0.0 -> x86_64-apple-darwin14
# The 5th group handles triples greater than 3 parts
# (ex x86_64-pc-linux-gnu).
target_triple = re.sub(r'([^-]+)-([^-]+)-([^.]+)([^-]*)(.*)',
r'\1-\2-\3\5', target_triple)
# linux-gnu is needed in the triple to properly identify linuxes
# that use GLIBC. Handle redhat and opensuse triples as special
# cases and append the missing `-gnu` portion.
if (target_triple.endswith('redhat-linux') or
target_triple.endswith('suse-linux')):
target_triple += '-gnu'
self.config.target_triple = target_triple
self.lit_config.note(
"inferred target_triple as: %r" % self.config.target_triple)
def configure_env(self):
if self.target_info.platform() == 'darwin':
library_paths = []
# Configure the library path for libc++
libcxx_library = self.get_lit_conf('libcxx_library')
if self.use_system_cxx_lib:
pass
elif libcxx_library:
library_paths += [os.path.dirname(libcxx_library)]
elif self.cxx_library_root:
library_paths += [self.cxx_library_root]
# Configure the abi library path
if self.abi_library_root:
library_paths += [self.abi_library_root]
if library_paths:
self.env['DYLD_LIBRARY_PATH'] = ':'.join(library_paths)