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# Copyright 2013-2021 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.
from .base import ExternalDependency, DependencyException, DependencyTypeName
from .pkgconfig import PkgConfigDependency
from ..mesonlib import (Popen_safe, OptionKey)
from ..mesonlib.universal import join_args
from ..programs import ExternalProgram
from ..compilers import DCompiler
from ..compilers.d import d_feature_args
from .. import mlog
import re
import os
import json
import typing as T
if T.TYPE_CHECKING:
from ..environment import Environment
class DubDependency(ExternalDependency):
class_dubbin = None
def __init__(self, name: str, environment: 'Environment', kwargs: T.Dict[str, T.Any]):
super().__init__(DependencyTypeName('dub'), environment, kwargs, language='d')
self.name = name
_temp_comp = super().get_compiler()
assert isinstance(_temp_comp, DCompiler)
self.compiler = _temp_comp
if 'required' in kwargs:
self.required = kwargs.get('required')
if DubDependency.class_dubbin is None:
self.dubbin = self._check_dub()
DubDependency.class_dubbin = self.dubbin
else:
self.dubbin = DubDependency.class_dubbin
if not self.dubbin:
if self.required:
raise DependencyException('DUB not found.')
self.is_found = False
return
assert isinstance(self.dubbin, ExternalProgram)
mlog.debug('Determining dependency {!r} with DUB executable '
'{!r}'.format(name, self.dubbin.get_path()))
# if an explicit version spec was stated, use this when querying Dub
main_pack_spec = name
if 'version' in kwargs:
version_spec = kwargs['version']
if isinstance(version_spec, list):
version_spec = " ".join(version_spec)
main_pack_spec = f'{name}@{version_spec}'
# we need to know the target architecture
dub_arch = self.compiler.arch
# we need to know the build type as well
dub_buildtype = str(environment.coredata.get_option(OptionKey('buildtype')))
# MESON types: choices=['plain', 'debug', 'debugoptimized', 'release', 'minsize', 'custom'])),
# DUB types: debug (default), plain, release, release-debug, release-nobounds, unittest, profile, profile-gc,
# docs, ddox, cov, unittest-cov, syntax and custom
if dub_buildtype == 'debugoptimized':
dub_buildtype = 'release-debug'
elif dub_buildtype == 'minsize':
dub_buildtype = 'release'
# Ask dub for the package
describe_cmd = [
'describe', main_pack_spec, '--arch=' + dub_arch,
'--build=' + dub_buildtype, '--compiler=' + self.compiler.get_exelist()[-1]
]
ret, res, err = self._call_dubbin(describe_cmd)
if ret != 0:
mlog.debug('DUB describe failed: ' + err)
if 'locally' in err:
fetch_cmd = ['dub', 'fetch', main_pack_spec]
mlog.error(mlog.bold(main_pack_spec), 'is not present locally. You may try the following command:')
mlog.log(mlog.bold(join_args(fetch_cmd)))
self.is_found = False
return
# A command that might be useful in case of missing DUB package
def dub_build_deep_command() -> str:
cmd = ['dub', 'run', 'dub-build-deep', '--yes', '--', main_pack_spec,
'--arch=' + dub_arch, '--compiler=' + self.compiler.get_exelist()[-1],
'--build=' + dub_buildtype
]
return join_args(cmd)
dub_comp_id = self.compiler.get_id().replace('llvm', 'ldc').replace('gcc', 'gdc')
description = json.loads(res)
self.compile_args = []
self.link_args = self.raw_link_args = []
show_buildtype_warning = False
def find_package_target(pkg: T.Dict[str, str]) -> bool:
nonlocal show_buildtype_warning
# try to find a static library in a DUB folder corresponding to
# version, configuration, compiler, arch and build-type
# if can find, add to link_args.
# link_args order is meaningful, so this function MUST be called in the right order
pack_id = f'{pkg["name"]}@{pkg["version"]}'
(tgt_file, compatibilities) = self._find_compatible_package_target(description, pkg, dub_comp_id)
if tgt_file is None:
if not compatibilities:
mlog.error(mlog.bold(pack_id), 'not found')
elif 'compiler' not in compatibilities:
mlog.error(mlog.bold(pack_id), 'found but not compiled with ', mlog.bold(dub_comp_id))
elif dub_comp_id != 'gdc' and 'compiler_version' not in compatibilities:
mlog.error(mlog.bold(pack_id), 'found but not compiled with', mlog.bold(f'{dub_comp_id}-{self.compiler.version}'))
elif 'arch' not in compatibilities:
mlog.error(mlog.bold(pack_id), 'found but not compiled for', mlog.bold(dub_arch))
elif 'platform' not in compatibilities:
mlog.error(mlog.bold(pack_id), 'found but not compiled for', mlog.bold(description['platform'].join('.')))
elif 'configuration' not in compatibilities:
mlog.error(mlog.bold(pack_id), 'found but not compiled for the', mlog.bold(pkg['configuration']), 'configuration')
else:
mlog.error(mlog.bold(pack_id), 'not found')
mlog.log('You may try the following command to install the necessary DUB libraries:')
mlog.log(mlog.bold(dub_build_deep_command()))
return False
if 'build_type' not in compatibilities:
mlog.warning(mlog.bold(pack_id), 'found but not compiled as', mlog.bold(dub_buildtype))
show_buildtype_warning = True
self.link_args.append(tgt_file)
return True
# Main algorithm:
# 1. Ensure that the target is a compatible library type (not dynamic)
# 2. Find a compatible built library for the main dependency
# 3. Do the same for each sub-dependency.
# link_args MUST be in the same order than the "linkDependencies" of the main target
# 4. Add other build settings (imports, versions etc.)
# 1
self.is_found = False
packages = {}
for pkg in description['packages']:
packages[pkg['name']] = pkg
if not pkg['active']:
continue
if pkg['targetType'] == 'dynamicLibrary':
mlog.error('DUB dynamic library dependencies are not supported.')
self.is_found = False
return
## check that the main dependency is indeed a library
if pkg['name'] == name:
self.is_found = True
if pkg['targetType'] not in ['library', 'sourceLibrary', 'staticLibrary']:
mlog.error(mlog.bold(name), "found but it isn't a library")
self.is_found = False
return
self.version = pkg['version']
self.pkg = pkg
# collect all targets
targets = {}
for tgt in description['targets']:
targets[tgt['rootPackage']] = tgt
if not name in targets:
self.is_found = False
if self.pkg['targetType'] == 'sourceLibrary':
# source libraries have no associated targets,
# but some build settings like import folders must be found from the package object.
# Current algo only get these from "buildSettings" in the target object.
# Let's save this for a future PR.
# (See openssl DUB package for example of sourceLibrary)
mlog.error('DUB targets of type', mlog.bold('sourceLibrary'), 'are not supported.')
else:
mlog.error('Could not find target description for', mlog.bold(main_pack_spec))
if not self.is_found:
mlog.error(f'Could not find {name} in DUB description')
return
# Current impl only supports static libraries
self.static = True
# 2
if not find_package_target(self.pkg):
self.is_found = False
return
# 3
for link_dep in targets[name]['linkDependencies']:
pkg = packages[link_dep]
if not find_package_target(pkg):
self.is_found = False
return
if show_buildtype_warning:
mlog.log('If it is not suitable, try the following command and reconfigure Meson with', mlog.bold('--clearcache'))
mlog.log(mlog.bold(dub_build_deep_command()))
# 4
bs = targets[name]['buildSettings']
for flag in bs['dflags']:
self.compile_args.append(flag)
for path in bs['importPaths']:
self.compile_args.append('-I' + path)
for path in bs['stringImportPaths']:
if not 'import_dir' in d_feature_args[self.compiler.id]:
break
flag = d_feature_args[self.compiler.id]['import_dir']
self.compile_args.append(f'{flag}={path}')
for ver in bs['versions']:
if not 'version' in d_feature_args[self.compiler.id]:
break
flag = d_feature_args[self.compiler.id]['version']
self.compile_args.append(f'{flag}={ver}')
if bs['mainSourceFile']:
self.compile_args.append(bs['mainSourceFile'])
# pass static libraries
# linkerFiles are added during step 3
# for file in bs['linkerFiles']:
# self.link_args.append(file)
for file in bs['sourceFiles']:
# sourceFiles may contain static libraries
if file.endswith('.lib') or file.endswith('.a'):
self.link_args.append(file)
for flag in bs['lflags']:
self.link_args.append(flag)
is_windows = self.env.machines.host.is_windows()
if is_windows:
winlibs = ['kernel32', 'user32', 'gdi32', 'winspool', 'shell32', 'ole32',
'oleaut32', 'uuid', 'comdlg32', 'advapi32', 'ws2_32']
for lib in bs['libs']:
if os.name != 'nt':
# trying to add system libraries by pkg-config
pkgdep = PkgConfigDependency(lib, environment, {'required': 'true', 'silent': 'true'})
if pkgdep.is_found:
for arg in pkgdep.get_compile_args():
self.compile_args.append(arg)
for arg in pkgdep.get_link_args():
self.link_args.append(arg)
for arg in pkgdep.get_link_args(raw=True):
self.raw_link_args.append(arg)
continue
if is_windows and lib in winlibs:
self.link_args.append(lib + '.lib')
continue
# fallback
self.link_args.append('-l'+lib)
# This function finds the target of the provided JSON package, built for the right
# compiler, architecture, configuration...
# It returns (target|None, {compatibilities})
# If None is returned for target, compatibilities will list what other targets were found without full compatibility
def _find_compatible_package_target(self, jdesc: T.Dict[str, str], jpack: T.Dict[str, str], dub_comp_id: str) -> T.Tuple[str, T.Set[str]]:
dub_build_path = os.path.join(jpack['path'], '.dub', 'build')
if not os.path.exists(dub_build_path):
return (None, None)
# try to find a dir like library-debug-linux.posix-x86_64-ldc_2081-EF934983A3319F8F8FF2F0E107A363BA
# fields are:
# - configuration
# - build type
# - platform
# - architecture
# - compiler id (dmd, ldc, gdc)
# - compiler version or frontend id or frontend version?
conf = jpack['configuration']
build_type = jdesc['buildType']
platforms = jdesc['platform']
archs = jdesc['architecture']
# Get D frontend version implemented in the compiler, or the compiler version itself
# gdc doesn't support this
comp_versions = []
if dub_comp_id != 'gdc':
comp_versions.append(self.compiler.version)
ret, res = self._call_compbin(['--version'])[0:2]
if ret != 0:
mlog.error('Failed to run {!r}', mlog.bold(dub_comp_id))
return (None, None)
d_ver_reg = re.search('v[0-9].[0-9][0-9][0-9].[0-9]', res) # Ex.: v2.081.2
if d_ver_reg is not None:
frontend_version = d_ver_reg.group()
frontend_id = frontend_version.rsplit('.', 1)[0].replace('v', '').replace('.', '') # Fix structure. Ex.: 2081
comp_versions.extend([frontend_version, frontend_id])
compatibilities: T.Set[str] = set()
# build_type is not in check_list because different build types might be compatible.
# We do show a WARNING that the build type is not the same.
# It might be critical in release builds, and acceptable otherwise
check_list = ('configuration', 'platform', 'arch', 'compiler', 'compiler_version')
for entry in os.listdir(dub_build_path):
target = os.path.join(dub_build_path, entry, jpack['targetFileName'])
if not os.path.exists(target):
# unless Dub and Meson are racing, the target file should be present
# when the directory is present
mlog.debug("WARNING: Could not find a Dub target: " + target)
continue
# we build a new set for each entry, because if this target is returned
# we want to return only the compatibilities associated to this target
# otherwise we could miss the WARNING about build_type
comps = set()
if conf in entry:
comps.add('configuration')
if build_type in entry:
comps.add('build_type')
if all(platform in entry for platform in platforms):
comps.add('platform')
if all(arch in entry for arch in archs):
comps.add('arch')
if dub_comp_id in entry:
comps.add('compiler')
if dub_comp_id == 'gdc' or any(cv in entry for cv in comp_versions):
comps.add('compiler_version')
if all(key in comps for key in check_list):
return (target, comps)
else:
compatibilities = set.union(compatibilities, comps)
return (None, compatibilities)
def _call_dubbin(self, args: T.List[str], env: T.Optional[T.Dict[str, str]] = None) -> T.Tuple[int, str, str]:
assert isinstance(self.dubbin, ExternalProgram)
p, out, err = Popen_safe(self.dubbin.get_command() + args, env=env)
return p.returncode, out.strip(), err.strip()
def _call_compbin(self, args: T.List[str], env: T.Optional[T.Dict[str, str]] = None) -> T.Tuple[int, str, str]:
p, out, err = Popen_safe(self.compiler.get_exelist() + args, env=env)
return p.returncode, out.strip(), err.strip()
def _check_dub(self) -> T.Union[bool, ExternalProgram]:
dubbin: T.Union[bool, ExternalProgram] = ExternalProgram('dub', silent=True)
assert isinstance(dubbin, ExternalProgram)
if dubbin.found():
try:
p, out = Popen_safe(dubbin.get_command() + ['--version'])[0:2]
if p.returncode != 0:
mlog.warning('Found dub {!r} but couldn\'t run it'
''.format(' '.join(dubbin.get_command())))
# Set to False instead of None to signify that we've already
# searched for it and not found it
dubbin = False
except (FileNotFoundError, PermissionError):
dubbin = False
else:
dubbin = False
if isinstance(dubbin, ExternalProgram):
mlog.log('Found DUB:', mlog.bold(dubbin.get_path()),
'(%s)' % out.strip())
else:
mlog.log('Found DUB:', mlog.red('NO'))
return dubbin