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#===----------------------------------------------------------------------===##
#
# Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
# See https://llvm.org/LICENSE.txt for license information.
# SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
#
#===----------------------------------------------------------------------===##
from libcxx.test.dsl import *
from libcxx.test.features import _isMSVC
import re
_warningFlags = [
'-Werror',
'-Wall',
'-Wextra',
'-Wshadow',
'-Wundef',
'-Wno-unused-command-line-argument',
'-Wno-attributes',
'-Wno-pessimizing-move',
'-Wno-c++11-extensions',
'-Wno-user-defined-literals',
'-Wno-noexcept-type',
'-Wno-aligned-allocation-unavailable',
'-Wno-atomic-alignment',
# GCC warns about places where we might want to add sized allocation/deallocation
# functions, but we know better what we're doing/testing in the test suite.
'-Wno-sized-deallocation',
# These warnings should be enabled in order to support the MSVC
# team using the test suite; They enable the warnings below and
# expect the test suite to be clean.
'-Wsign-compare',
'-Wunused-variable',
'-Wunused-parameter',
'-Wunreachable-code',
'-Wno-unused-local-typedef',
]
_allStandards = ['c++03', 'c++11', 'c++14', 'c++17', 'c++20', 'c++2b']
def getStdFlag(cfg, std):
fallbacks = {
'c++11': 'c++0x',
'c++14': 'c++1y',
'c++17': 'c++1z',
'c++20': 'c++2a',
}
if hasCompileFlag(cfg, '-std='+std):
return '-std='+std
if std in fallbacks and hasCompileFlag(cfg, '-std='+fallbacks[std]):
return '-std='+fallbacks[std]
return None
DEFAULT_PARAMETERS = [
Parameter(name='target_triple', type=str,
help="The target triple to compile the test suite for. This must be "
"compatible with the target that the tests will be run on.",
actions=lambda triple: filter(None, [
AddFeature('target={}'.format(triple)),
AddFlagIfSupported('--target={}'.format(triple)),
AddSubstitution('%{triple}', triple)
])),
Parameter(name='std', choices=_allStandards, type=str,
help="The version of the standard to compile the test suite with.",
default=lambda cfg: next(s for s in reversed(_allStandards) if getStdFlag(cfg, s)),
actions=lambda std: [
AddFeature(std),
AddCompileFlag(lambda cfg: getStdFlag(cfg, std)),
]),
Parameter(name='enable_modules', choices=[True, False], type=bool, default=False,
help="Whether to build the test suite with Clang modules enabled.",
actions=lambda modules: [
AddFeature('modules-build'),
AddCompileFlag('-fmodules'),
] if modules else []),
Parameter(name='enable_exceptions', choices=[True, False], type=bool, default=True,
help="Whether to enable exceptions when compiling the test suite.",
actions=lambda exceptions: [] if exceptions else [
AddFeature('no-exceptions'),
AddCompileFlag('-fno-exceptions')
]),
Parameter(name='enable_rtti', choices=[True, False], type=bool, default=True,
help="Whether to enable RTTI when compiling the test suite.",
actions=lambda rtti: [] if rtti else [
AddFeature('no-rtti'),
AddCompileFlag('-fno-rtti')
]),
Parameter(name='stdlib', choices=['llvm-libc++', 'apple-libc++', 'libstdc++', 'msvc'], type=str, default='llvm-libc++',
help="""The C++ Standard Library implementation being tested.
Note that this parameter can also be used to encode different 'flavors' of the same
standard library, such as libc++ as shipped by a different vendor, if it has different
properties worth testing.
The Standard libraries currently supported are:
- llvm-libc++: The 'upstream' libc++ as shipped with LLVM.
- apple-libc++: libc++ as shipped by Apple. This is basically like the LLVM one, but
there are a few differences like installation paths and the use of
universal dylibs.
- libstdc++: The GNU C++ library typically shipped with GCC.
- msvc: The Microsoft implementation of the C++ Standard Library.
""",
actions=lambda stdlib: filter(None, [
AddFeature('stdlib={}'.format(stdlib)),
# Also add an umbrella feature 'stdlib=libc++' for all flavors of libc++, to simplify
# the test suite.
AddFeature('stdlib=libc++') if re.match('.+-libc\+\+', stdlib) else None
])),
Parameter(name='enable_warnings', choices=[True, False], type=bool, default=True,
help="Whether to enable warnings when compiling the test suite.",
actions=lambda warnings: [] if not warnings else [
AddOptionalWarningFlag(w) for w in _warningFlags
]),
Parameter(name='debug_level', choices=['', '0', '1'], type=str, default='',
help="The debugging level to enable in the test suite.",
actions=lambda debugLevel: [] if debugLevel == '' else filter(None, [
AddFeature('debug_level={}'.format(debugLevel)),
AddCompileFlag('-D_LIBCPP_DEBUG={}'.format(debugLevel)),
AddFeature('LIBCXX-DEBUG-FIXME') if debugLevel == '1' else None
])),
Parameter(name='use_sanitizer', choices=['', 'Address', 'Undefined', 'Memory', 'MemoryWithOrigins', 'Thread', 'DataFlow', 'Leaks'], type=str, default='',
help="An optional sanitizer to enable when building and running the test suite.",
actions=lambda sanitizer: filter(None, [
AddFlag('-g -fno-omit-frame-pointer') if sanitizer else None,
AddFlag('-fsanitize=undefined -fno-sanitize=float-divide-by-zero -fno-sanitize-recover=all') if sanitizer == 'Undefined' else None,
AddFeature('ubsan') if sanitizer == 'Undefined' else None,
AddFlag('-fsanitize=address') if sanitizer == 'Address' else None,
AddFeature('asan') if sanitizer == 'Address' else None,
AddFlag('-fsanitize=memory') if sanitizer in ['Memory', 'MemoryWithOrigins'] else None,
AddFeature('msan') if sanitizer in ['Memory', 'MemoryWithOrigins'] else None,
AddFlag('-fsanitize-memory-track-origins') if sanitizer == 'MemoryWithOrigins' else None,
AddFlag('-fsanitize=thread') if sanitizer == 'Thread' else None,
AddFeature('tsan') if sanitizer == 'Thread' else None,
AddFlag('-fsanitize=dataflow') if sanitizer == 'DataFlow' else None,
AddFlag('-fsanitize=leaks') if sanitizer == 'Leaks' else None,
AddFeature('sanitizer-new-delete') if sanitizer in ['Address', 'Memory', 'MemoryWithOrigins', 'Thread'] else None,
])),
Parameter(name='enable_experimental', choices=[True, False], type=bool, default=True,
help="Whether to enable tests for experimental C++ libraries (typically Library Fundamentals TSes).",
actions=lambda experimental: [] if not experimental else [
AddFeature('c++experimental'),
# When linking in MSVC mode via the Clang driver, a -l<foo>
# maps to <foo>.lib, so we need to use -llibc++experimental here
# to make it link against the static libc++experimental.lib.
# We can't check for the feature 'msvc' in available_features
# as those features are added after processing parameters.
PrependLinkFlag(lambda config: '-llibc++experimental' if _isMSVC(config) else '-lc++experimental')
]),
Parameter(name='long_tests', choices=[True, False], type=bool, default=True,
help="Whether to enable tests that take longer to run. This can be useful when running on a very slow device.",
actions=lambda enabled: [] if not enabled else [
AddFeature('long_tests')
]),
Parameter(name='enable_debug_tests', choices=[True, False], type=bool, default=True,
help="Whether to enable tests that exercise the libc++ debugging mode.",
actions=lambda enabled: [] if enabled else [
AddFeature('libcxx-no-debug-mode')
]),
Parameter(name='additional_features', type=list, default=[],
help="A comma-delimited list of additional features that will be enabled when running the tests. "
"This should be used sparingly since specifying ad-hoc features manually is error-prone and "
"brittle in the long run as changes are made to the test suite.",
actions=lambda features: [AddFeature(f) for f in features]),
]
DEFAULT_PARAMETERS += [
Parameter(name='use_system_cxx_lib', choices=[True, False], type=bool, default=False,
help="""
Whether the test suite is being *run* against the library shipped on the
target triple in use, as opposed to the trunk library.
When vendor-specific availability annotations are enabled, we add the
'use_system_cxx_lib' Lit feature to allow writing XFAIL or UNSUPPORTED
markup for tests that are known to fail on a particular triple.
That feature can be used to XFAIL a test that fails when deployed on (or is
compiled for) an older system. For example, if the test exhibits a bug in the
libc on a particular system version, or if the test uses a symbol that is not
available on an older version of the dylib, it can be marked as XFAIL with
the above feature.
It is sometimes useful to check that a test fails specifically when compiled
for a given deployment target. For example, this is the case when testing
availability markup, where we want to make sure that using the annotated
facility on a deployment target that doesn't support it will fail at compile
time, not at runtime. This can be achieved by creating a `.compile.pass.cpp`
and XFAILing it for the right deployment target. If the test doesn't fail at
compile-time like it's supposed to, the test will XPASS. Another option is to
create a `.verify.cpp` test that checks for the right errors, and mark that
test as requiring `use_system_cxx_lib && <target>`.
""",
actions=lambda useSystem: [
AddFeature('use_system_cxx_lib')
] if useSystem else [
# If we're testing upstream libc++, disable availability markup,
# which is not relevant for non-shipped flavors of libc++.
AddCompileFlag('-D_LIBCPP_DISABLE_AVAILABILITY')
])
]
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