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# Copyright 2013-2017 The Meson development team
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
# http://www.apache.org/licenses/LICENSE-2.0
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# This file contains the detection logic for miscellaneous external dependencies.
from pathlib import Path
import functools
import os
import re
import shlex
import sysconfig
from .. import mlog
from .. import mesonlib
from ..environment import detect_cpu_family
from .base import (
DependencyException, DependencyMethods, ExternalDependency,
ExternalProgram, ExtraFrameworkDependency, PkgConfigDependency,
CMakeDependency, ConfigToolDependency,
)
class CoarrayDependency(ExternalDependency):
"""
Coarrays are a Fortran 2008 feature.
Coarrays are sometimes implemented via external library (GCC+OpenCoarrays),
while other compilers just build in support (Cray, IBM, Intel, NAG).
Coarrays may be thought of as a high-level language abstraction of
low-level MPI calls.
"""
def __init__(self, environment, kwargs):
super().__init__('coarray', environment, 'fortran', kwargs)
kwargs['required'] = False
kwargs['silent'] = True
self.is_found = False
cid = self.get_compiler().get_id()
if cid == 'gcc':
""" OpenCoarrays is the most commonly used method for Fortran Coarray with GCC """
self.is_found = True
kwargs['modules'] = 'OpenCoarrays::caf_mpi'
cmakedep = CMakeDependency('OpenCoarrays', environment, kwargs)
if not cmakedep.found():
self.compile_args = ['-fcoarray=single']
self.version = 'single image'
return
self.compile_args = cmakedep.get_compile_args()
self.link_args = cmakedep.get_link_args()
self.version = cmakedep.get_version()
elif cid == 'intel':
""" Coarrays are built into Intel compilers, no external library needed """
self.is_found = True
self.link_args = ['-coarray=shared']
self.compile_args = self.link_args
elif cid == 'intel-cl':
""" Coarrays are built into Intel compilers, no external library needed """
self.is_found = True
self.compile_args = ['/Qcoarray:shared']
elif cid == 'nagfor':
""" NAG doesn't require any special arguments for Coarray """
self.is_found = True
class HDF5Dependency(ExternalDependency):
def __init__(self, environment, kwargs):
language = kwargs.get('language', 'c')
super().__init__('hdf5', environment, language, kwargs)
kwargs['required'] = False
kwargs['silent'] = True
self.is_found = False
pkgconfig_files = ['hdf5']
if language not in ('c', 'cpp', 'fortran'):
raise DependencyException('Language {} is not supported with HDF5.'.format(language))
for pkg in pkgconfig_files:
try:
pkgdep = PkgConfigDependency(pkg, environment, kwargs, language=self.language)
if pkgdep.found():
self.compile_args = pkgdep.get_compile_args()
# derive needed libraries by language
pd_link_args = pkgdep.get_link_args()
link_args = []
for larg in pd_link_args:
lpath = Path(larg)
if lpath.is_file():
if language == 'cpp':
link_args.append(str(lpath.parent / (lpath.stem + '_hl_cpp' + lpath.suffix)))
link_args.append(str(lpath.parent / (lpath.stem + '_cpp' + lpath.suffix)))
elif language == 'fortran':
link_args.append(str(lpath.parent / (lpath.stem + 'hl_fortran' + lpath.suffix)))
link_args.append(str(lpath.parent / (lpath.stem + '_fortran' + lpath.suffix)))
# HDF5 C libs are required by other HDF5 languages
link_args.append(str(lpath.parent / (lpath.stem + '_hl' + lpath.suffix)))
link_args.append(larg)
else:
link_args.append(larg)
self.link_args = link_args
self.version = pkgdep.get_version()
self.is_found = True
self.pcdep = pkgdep
break
except Exception:
pass
class NetCDFDependency(ExternalDependency):
def __init__(self, environment, kwargs):
language = kwargs.get('language', 'c')
super().__init__('netcdf', environment, language, kwargs)
kwargs['required'] = False
kwargs['silent'] = True
self.is_found = False
pkgconfig_files = ['netcdf']
if language not in ('c', 'cpp', 'fortran'):
raise DependencyException('Language {} is not supported with NetCDF.'.format(language))
if language == 'fortran':
pkgconfig_files.append('netcdf-fortran')
self.compile_args = []
self.link_args = []
self.pcdep = []
for pkg in pkgconfig_files:
pkgdep = PkgConfigDependency(pkg, environment, kwargs, language=self.language)
if pkgdep.found():
self.compile_args.extend(pkgdep.get_compile_args())
self.link_args.extend(pkgdep.get_link_args())
self.version = pkgdep.get_version()
self.is_found = True
self.pcdep.append(pkgdep)
class MPIDependency(ExternalDependency):
def __init__(self, environment, kwargs):
language = kwargs.get('language', 'c')
super().__init__('mpi', environment, language, kwargs)
kwargs['required'] = False
kwargs['silent'] = True
self.is_found = False
# NOTE: Only OpenMPI supplies a pkg-config file at the moment.
if language == 'c':
env_vars = ['MPICC']
pkgconfig_files = ['ompi-c']
default_wrappers = ['mpicc']
elif language == 'cpp':
env_vars = ['MPICXX']
pkgconfig_files = ['ompi-cxx']
default_wrappers = ['mpic++', 'mpicxx', 'mpiCC']
elif language == 'fortran':
env_vars = ['MPIFC', 'MPIF90', 'MPIF77']
pkgconfig_files = ['ompi-fort']
default_wrappers = ['mpifort', 'mpif90', 'mpif77']
else:
raise DependencyException('Language {} is not supported with MPI.'.format(language))
for pkg in pkgconfig_files:
try:
pkgdep = PkgConfigDependency(pkg, environment, kwargs, language=self.language)
if pkgdep.found():
self.compile_args = pkgdep.get_compile_args()
self.link_args = pkgdep.get_link_args()
self.version = pkgdep.get_version()
self.is_found = True
self.pcdep = pkgdep
break
except Exception:
pass
if not self.is_found:
# Prefer environment.
for var in env_vars:
if var in os.environ:
wrappers = [os.environ[var]]
break
else:
# Or search for default wrappers.
wrappers = default_wrappers
for prog in wrappers:
result = self._try_openmpi_wrapper(prog)
if result is not None:
self.is_found = True
self.version = result[0]
self.compile_args = self._filter_compile_args(result[1])
self.link_args = self._filter_link_args(result[2])
break
result = self._try_other_wrapper(prog)
if result is not None:
self.is_found = True
self.version = result[0]
self.compile_args = self._filter_compile_args(result[1])
self.link_args = self._filter_link_args(result[2])
break
if not self.is_found and mesonlib.is_windows():
# only Intel Fortran compiler is compatible with Microsoft MPI at this time.
if language == 'fortran' and environment.detect_fortran_compiler(self.for_machine).name_string() != 'intel-cl':
return
result = self._try_msmpi()
if result is not None:
self.is_found = True
self.version, self.compile_args, self.link_args = result
def _filter_compile_args(self, args):
"""
MPI wrappers return a bunch of garbage args.
Drop -O2 and everything that is not needed.
"""
result = []
multi_args = ('-I', )
if self.language == 'fortran':
fc = self.env.coredata.compilers[self.for_machine]['fortran']
multi_args += fc.get_module_incdir_args()
include_next = False
for f in args:
if f.startswith(('-D', '-f') + multi_args) or f == '-pthread' \
or (f.startswith('-W') and f != '-Wall' and not f.startswith('-Werror')):
result.append(f)
if f in multi_args:
# Path is a separate argument.
include_next = True
elif include_next:
include_next = False
result.append(f)
return result
def _filter_link_args(self, args):
"""
MPI wrappers return a bunch of garbage args.
Drop -O2 and everything that is not needed.
"""
result = []
include_next = False
for f in args:
if f.startswith(('-L', '-l', '-Xlinker')) or f == '-pthread' \
or (f.startswith('-W') and f != '-Wall' and not f.startswith('-Werror')):
result.append(f)
if f in ('-L', '-Xlinker'):
include_next = True
elif include_next:
include_next = False
result.append(f)
return result
def _try_openmpi_wrapper(self, prog):
prog = ExternalProgram(prog, silent=True)
if prog.found():
cmd = prog.get_command() + ['--showme:compile']
p, o, e = mesonlib.Popen_safe(cmd)
p.wait()
if p.returncode != 0:
mlog.debug('Command', mlog.bold(cmd), 'failed to run:')
mlog.debug(mlog.bold('Standard output\n'), o)
mlog.debug(mlog.bold('Standard error\n'), e)
return
cargs = shlex.split(o)
cmd = prog.get_command() + ['--showme:link']
p, o, e = mesonlib.Popen_safe(cmd)
p.wait()
if p.returncode != 0:
mlog.debug('Command', mlog.bold(cmd), 'failed to run:')
mlog.debug(mlog.bold('Standard output\n'), o)
mlog.debug(mlog.bold('Standard error\n'), e)
return
libs = shlex.split(o)
cmd = prog.get_command() + ['--showme:version']
p, o, e = mesonlib.Popen_safe(cmd)
p.wait()
if p.returncode != 0:
mlog.debug('Command', mlog.bold(cmd), 'failed to run:')
mlog.debug(mlog.bold('Standard output\n'), o)
mlog.debug(mlog.bold('Standard error\n'), e)
return
version = re.search(r'\d+.\d+.\d+', o)
if version:
version = version.group(0)
else:
version = None
return version, cargs, libs
def _try_other_wrapper(self, prog):
prog = ExternalProgram(prog, silent=True)
if prog.found():
cmd = prog.get_command() + ['-show']
p, o, e = mesonlib.Popen_safe(cmd)
p.wait()
if p.returncode != 0:
mlog.debug('Command', mlog.bold(cmd), 'failed to run:')
mlog.debug(mlog.bold('Standard output\n'), o)
mlog.debug(mlog.bold('Standard error\n'), e)
return
args = shlex.split(o)
version = None
return version, args, args
def _try_msmpi(self):
if self.language == 'cpp':
# MS-MPI does not support the C++ version of MPI, only the standard C API.
return
if 'MSMPI_INC' not in os.environ:
return
incdir = os.environ['MSMPI_INC']
arch = detect_cpu_family(self.env.coredata.compilers.host)
if arch == 'x86':
if 'MSMPI_LIB32' not in os.environ:
return
libdir = os.environ['MSMPI_LIB32']
post = 'x86'
elif arch == 'x86_64':
if 'MSMPI_LIB64' not in os.environ:
return
libdir = os.environ['MSMPI_LIB64']
post = 'x64'
else:
return
if self.language == 'fortran':
return (None,
['-I' + incdir, '-I' + os.path.join(incdir, post)],
[os.path.join(libdir, 'msmpi.lib'), os.path.join(libdir, 'msmpifec.lib')])
else:
return (None,
['-I' + incdir, '-I' + os.path.join(incdir, post)],
[os.path.join(libdir, 'msmpi.lib')])
class OpenMPDependency(ExternalDependency):
# Map date of specification release (which is the macro value) to a version.
VERSIONS = {
'201811': '5.0',
'201611': '5.0-revision1', # This is supported by ICC 19.x
'201511': '4.5',
'201307': '4.0',
'201107': '3.1',
'200805': '3.0',
'200505': '2.5',
'200203': '2.0',
'199810': '1.0',
}
def __init__(self, environment, kwargs):
language = kwargs.get('language')
super().__init__('openmp', environment, language, kwargs)
self.is_found = False
if self.clib_compiler.get_id() == 'pgi':
# through at least PGI 19.4, there is no macro defined for OpenMP, but OpenMP 3.1 is supported.
self.version = '3.1'
self.is_found = True
self.compile_args = self.link_args = self.clib_compiler.openmp_flags()
return
try:
openmp_date = self.clib_compiler.get_define(
'_OPENMP', '', self.env, self.clib_compiler.openmp_flags(), [self], disable_cache=True)[0]
except mesonlib.EnvironmentException as e:
mlog.debug('OpenMP support not available in the compiler')
mlog.debug(e)
openmp_date = None
if openmp_date:
self.version = self.VERSIONS[openmp_date]
# Flang has omp_lib.h
header_names = ('omp.h', 'omp_lib.h')
for name in header_names:
if self.clib_compiler.has_header(name, '', self.env, dependencies=[self], disable_cache=True)[0]:
self.is_found = True
self.compile_args = self.link_args = self.clib_compiler.openmp_flags()
else:
mlog.log(mlog.yellow('WARNING:'), 'OpenMP found but omp.h missing.')
class ThreadDependency(ExternalDependency):
def __init__(self, environment, kwargs):
super().__init__('threads', environment, None, kwargs)
self.name = 'threads'
self.is_found = True
# Happens if you are using a language with threads
# concept without C, such as plain Cuda.
if self.clib_compiler is None:
self.compile_args = []
self.link_args = []
else:
self.compile_args = self.clib_compiler.thread_flags(environment)
self.link_args = self.clib_compiler.thread_link_flags(environment)
class Python3Dependency(ExternalDependency):
def __init__(self, environment, kwargs):
super().__init__('python3', environment, None, kwargs)
if not environment.machines.matches_build_machine(self.for_machine):
return
self.name = 'python3'
self.static = kwargs.get('static', False)
# We can only be sure that it is Python 3 at this point
self.version = '3'
self._find_libpy3_windows(environment)
@classmethod
def _factory(cls, environment, kwargs):
methods = cls._process_method_kw(kwargs)
candidates = []
if DependencyMethods.PKGCONFIG in methods:
candidates.append(functools.partial(PkgConfigDependency, 'python3', environment, kwargs))
if DependencyMethods.SYSCONFIG in methods:
candidates.append(functools.partial(Python3Dependency, environment, kwargs))
if DependencyMethods.EXTRAFRAMEWORK in methods:
# In OSX the Python 3 framework does not have a version
# number in its name.
# There is a python in /System/Library/Frameworks, but that's
# python 2, Python 3 will always be in /Library
candidates.append(functools.partial(
ExtraFrameworkDependency, 'Python', False, ['/Library/Frameworks'],
environment, kwargs.get('language', None), kwargs))
return candidates
@staticmethod
def get_windows_python_arch():
pyplat = sysconfig.get_platform()
if pyplat == 'mingw':
pycc = sysconfig.get_config_var('CC')
if pycc.startswith('x86_64'):
return '64'
elif pycc.startswith(('i686', 'i386')):
return '32'
else:
mlog.log('MinGW Python built with unknown CC {!r}, please file'
'a bug'.format(pycc))
return None
elif pyplat == 'win32':
return '32'
elif pyplat in ('win64', 'win-amd64'):
return '64'
mlog.log('Unknown Windows Python platform {!r}'.format(pyplat))
return None
def get_windows_link_args(self):
pyplat = sysconfig.get_platform()
if pyplat.startswith('win'):
vernum = sysconfig.get_config_var('py_version_nodot')
if self.static:
libpath = Path('libs') / 'libpython{}.a'.format(vernum)
else:
comp = self.get_compiler()
if comp.id == "gcc":
libpath = 'python{}.dll'.format(vernum)
else:
libpath = Path('libs') / 'python{}.lib'.format(vernum)
lib = Path(sysconfig.get_config_var('base')) / libpath
elif pyplat == 'mingw':
if self.static:
libname = sysconfig.get_config_var('LIBRARY')
else:
libname = sysconfig.get_config_var('LDLIBRARY')
lib = Path(sysconfig.get_config_var('LIBDIR')) / libname
if not lib.exists():
mlog.log('Could not find Python3 library {!r}'.format(str(lib)))
return None
return [str(lib)]
def _find_libpy3_windows(self, env):
'''
Find python3 libraries on Windows and also verify that the arch matches
what we are building for.
'''
pyarch = self.get_windows_python_arch()
if pyarch is None:
self.is_found = False
return
arch = detect_cpu_family(env.coredata.compilers.host)
if arch == 'x86':
arch = '32'
elif arch == 'x86_64':
arch = '64'
else:
# We can't cross-compile Python 3 dependencies on Windows yet
mlog.log('Unknown architecture {!r} for'.format(arch),
mlog.bold(self.name))
self.is_found = False
return
# Pyarch ends in '32' or '64'
if arch != pyarch:
mlog.log('Need', mlog.bold(self.name), 'for {}-bit, but '
'found {}-bit'.format(arch, pyarch))
self.is_found = False
return
# This can fail if the library is not found
largs = self.get_windows_link_args()
if largs is None:
self.is_found = False
return
self.link_args = largs
# Compile args
inc = sysconfig.get_path('include')
platinc = sysconfig.get_path('platinclude')
self.compile_args = ['-I' + inc]
if inc != platinc:
self.compile_args.append('-I' + platinc)
self.version = sysconfig.get_config_var('py_version')
self.is_found = True
@staticmethod
def get_methods():
if mesonlib.is_windows():
return [DependencyMethods.PKGCONFIG, DependencyMethods.SYSCONFIG]
elif mesonlib.is_osx():
return [DependencyMethods.PKGCONFIG, DependencyMethods.EXTRAFRAMEWORK]
else:
return [DependencyMethods.PKGCONFIG]
def log_tried(self):
return 'sysconfig'
class PcapDependency(ExternalDependency):
def __init__(self, environment, kwargs):
super().__init__('pcap', environment, None, kwargs)
@classmethod
def _factory(cls, environment, kwargs):
methods = cls._process_method_kw(kwargs)
candidates = []
if DependencyMethods.PKGCONFIG in methods:
candidates.append(functools.partial(PkgConfigDependency, 'pcap', environment, kwargs))
if DependencyMethods.CONFIG_TOOL in methods:
candidates.append(functools.partial(ConfigToolDependency.factory,
'pcap', environment, None,
kwargs, ['pcap-config'],
'pcap-config',
PcapDependency.tool_finish_init))
return candidates
@staticmethod
def tool_finish_init(ctdep):
ctdep.compile_args = ctdep.get_config_value(['--cflags'], 'compile_args')
ctdep.link_args = ctdep.get_config_value(['--libs'], 'link_args')
ctdep.version = PcapDependency.get_pcap_lib_version(ctdep)
@staticmethod
def get_methods():
return [DependencyMethods.PKGCONFIG, DependencyMethods.CONFIG_TOOL]
@staticmethod
def get_pcap_lib_version(ctdep):
# Since we seem to need to run a program to discover the pcap version,
# we can't do that when cross-compiling
if not ctdep.env.machines.matches_build_machine(ctdep.for_machine):
return None
v = ctdep.clib_compiler.get_return_value('pcap_lib_version', 'string',
'#include <pcap.h>', ctdep.env, [], [ctdep])
v = re.sub(r'libpcap version ', '', v)
v = re.sub(r' -- Apple version.*$', '', v)
return v
class CupsDependency(ExternalDependency):
def __init__(self, environment, kwargs):
super().__init__('cups', environment, None, kwargs)
@classmethod
def _factory(cls, environment, kwargs):
methods = cls._process_method_kw(kwargs)
candidates = []
if DependencyMethods.PKGCONFIG in methods:
candidates.append(functools.partial(PkgConfigDependency, 'cups', environment, kwargs))
if DependencyMethods.CONFIG_TOOL in methods:
candidates.append(functools.partial(ConfigToolDependency.factory,
'cups', environment, None,
kwargs, ['cups-config'],
'cups-config', CupsDependency.tool_finish_init))
if DependencyMethods.EXTRAFRAMEWORK in methods:
if mesonlib.is_osx():
candidates.append(functools.partial(
ExtraFrameworkDependency, 'cups', False, None, environment,
kwargs.get('language', None), kwargs))
if DependencyMethods.CMAKE in methods:
candidates.append(functools.partial(CMakeDependency, 'Cups', environment, kwargs))
return candidates
@staticmethod
def tool_finish_init(ctdep):
ctdep.compile_args = ctdep.get_config_value(['--cflags'], 'compile_args')
ctdep.link_args = ctdep.get_config_value(['--ldflags', '--libs'], 'link_args')
@staticmethod
def get_methods():
if mesonlib.is_osx():
return [DependencyMethods.PKGCONFIG, DependencyMethods.CONFIG_TOOL, DependencyMethods.EXTRAFRAMEWORK, DependencyMethods.CMAKE]
else:
return [DependencyMethods.PKGCONFIG, DependencyMethods.CONFIG_TOOL, DependencyMethods.CMAKE]
class LibWmfDependency(ExternalDependency):
def __init__(self, environment, kwargs):
super().__init__('libwmf', environment, None, kwargs)
@classmethod
def _factory(cls, environment, kwargs):
methods = cls._process_method_kw(kwargs)
candidates = []
if DependencyMethods.PKGCONFIG in methods:
candidates.append(functools.partial(PkgConfigDependency, 'libwmf', environment, kwargs))
if DependencyMethods.CONFIG_TOOL in methods:
candidates.append(functools.partial(ConfigToolDependency.factory,
'libwmf', environment, None, kwargs, ['libwmf-config'], 'libwmf-config', LibWmfDependency.tool_finish_init))
return candidates
@staticmethod
def tool_finish_init(ctdep):
ctdep.compile_args = ctdep.get_config_value(['--cflags'], 'compile_args')
ctdep.link_args = ctdep.get_config_value(['--libs'], 'link_args')
@staticmethod
def get_methods():
return [DependencyMethods.PKGCONFIG, DependencyMethods.CONFIG_TOOL]
class LibGCryptDependency(ExternalDependency):
def __init__(self, environment, kwargs):
super().__init__('libgcrypt', environment, None, kwargs)
@classmethod
def _factory(cls, environment, kwargs):
methods = cls._process_method_kw(kwargs)
candidates = []
if DependencyMethods.PKGCONFIG in methods:
candidates.append(functools.partial(PkgConfigDependency, 'libgcrypt', environment, kwargs))
if DependencyMethods.CONFIG_TOOL in methods:
candidates.append(functools.partial(ConfigToolDependency.factory,
'libgcrypt', environment, None, kwargs, ['libgcrypt-config'],
'libgcrypt-config',
LibGCryptDependency.tool_finish_init))
return candidates
@staticmethod
def tool_finish_init(ctdep):
ctdep.compile_args = ctdep.get_config_value(['--cflags'], 'compile_args')
ctdep.link_args = ctdep.get_config_value(['--libs'], 'link_args')
ctdep.version = ctdep.get_config_value(['--version'], 'version')[0]
@staticmethod
def get_methods():
return [DependencyMethods.PKGCONFIG, DependencyMethods.CONFIG_TOOL]
class GpgmeDependency(ExternalDependency):
def __init__(self, environment, kwargs):
super().__init__('gpgme', environment, None, kwargs)
@classmethod
def _factory(cls, environment, kwargs):
methods = cls._process_method_kw(kwargs)
candidates = []
if DependencyMethods.PKGCONFIG in methods:
candidates.append(functools.partial(PkgConfigDependency, 'gpgme', environment, kwargs))
if DependencyMethods.CONFIG_TOOL in methods:
candidates.append(functools.partial(ConfigToolDependency.factory,
'gpgme', environment, None, kwargs, ['gpgme-config'],
'gpgme-config',
GpgmeDependency.tool_finish_init))
return candidates
@staticmethod
def tool_finish_init(ctdep):
ctdep.compile_args = ctdep.get_config_value(['--cflags'], 'compile_args')
ctdep.link_args = ctdep.get_config_value(['--libs'], 'link_args')
ctdep.version = ctdep.get_config_value(['--version'], 'version')[0]
@staticmethod
def get_methods():
return [DependencyMethods.PKGCONFIG, DependencyMethods.CONFIG_TOOL]
class ShadercDependency(ExternalDependency):
def __init__(self, environment, kwargs):
super().__init__('shaderc', environment, None, kwargs)
static_lib = 'shaderc_combined'
shared_lib = 'shaderc_shared'
libs = [shared_lib, static_lib]
if self.static:
libs.reverse()
cc = self.get_compiler()
for lib in libs:
self.link_args = cc.find_library(lib, environment, [])
if self.link_args is not None:
self.is_found = True
if self.static and lib != static_lib:
mlog.warning('Static library {!r} not found for dependency {!r}, may '
'not be statically linked'.format(static_lib, self.name))
break
def log_tried(self):
return 'system'
@classmethod
def _factory(cls, environment, kwargs):
methods = cls._process_method_kw(kwargs)
candidates = []
if DependencyMethods.PKGCONFIG in methods:
# ShaderC packages their shared and static libs together
# and provides different pkg-config files for each one. We
# smooth over this difference by handling the static
# keyword before handing off to the pkg-config handler.
shared_libs = ['shaderc']
static_libs = ['shaderc_combined', 'shaderc_static']
if kwargs.get('static', False):
c = [functools.partial(PkgConfigDependency, name, environment, kwargs)
for name in static_libs + shared_libs]
else:
c = [functools.partial(PkgConfigDependency, name, environment, kwargs)
for name in shared_libs + static_libs]
candidates.extend(c)
if DependencyMethods.SYSTEM in methods:
candidates.append(functools.partial(ShadercDependency, environment, kwargs))
return candidates
@staticmethod
def get_methods():
return [DependencyMethods.SYSTEM, DependencyMethods.PKGCONFIG]