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# Copyright 2019 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 class contains the basic functionality needed to run any interpreter
# or an interpreter-based tool.
from .common import CMakeException
from .client import CMakeClient, RequestCMakeInputs, RequestConfigure, RequestCompute, RequestCodeModel, CMakeTarget
from .. import mlog
from ..build import Build
from ..environment import Environment
from ..mparser import Token, BaseNode, CodeBlockNode, FunctionNode, ArrayNode, ArgumentNode, AssignmentNode, BooleanNode, StringNode, IdNode, MethodNode
from ..backend.backends import Backend
from ..compilers.compilers import obj_suffixes
from ..dependencies.base import CMakeDependency, ExternalProgram
from subprocess import Popen, PIPE, STDOUT
from typing import List
import os, re
backend_generator_map = {
'ninja': 'Ninja',
'xcode': 'Xcode',
'vs2010': 'Visual Studio 10 2010',
'vs2015': 'Visual Studio 15 2017',
'vs2017': 'Visual Studio 15 2017',
'vs2019': 'Visual Studio 16 2019',
}
language_map = {
'c': 'C',
'cpp': 'CXX',
'cuda': 'CUDA',
'cs': 'CSharp',
'java': 'Java',
'fortran': 'Fortran',
'swift': 'Swift',
}
target_type_map = {
'STATIC_LIBRARY': 'static_library',
'MODULE_LIBRARY': 'shared_module',
'SHARED_LIBRARY': 'shared_library',
'EXECUTABLE': 'executable',
'OBJECT_LIBRARY': 'static_library',
}
skip_targets = ['UTILITY']
skip_input_extensions = ['.rule']
blacklist_compiler_flags = [
'/W1', '/W2', '/W3', '/W4', '/Wall',
'/O1', '/O2', '/Ob', '/Od', '/Og', '/Oi', '/Os', '/Ot', '/Ox', '/Oy', '/Ob0',
'/RTC1', '/RTCc', '/RTCs', '/RTCu'
]
blacklist_link_flags = [
'/machine:x64', '/machine:x86', '/machine:arm', '/machine:ebc',
'/debug', '/debug:fastlink', '/debug:full', '/debug:none',
'/incremental',
]
blacklist_clang_cl_link_flags = ['/GR', '/EHsc', '/MDd', '/Zi', '/RTC1']
blacklist_link_libs = [
'kernel32.lib',
'user32.lib',
'gdi32.lib',
'winspool.lib',
'shell32.lib',
'ole32.lib',
'oleaut32.lib',
'uuid.lib',
'comdlg32.lib',
'advapi32.lib'
]
class ConverterTarget:
lang_cmake_to_meson = {val.lower(): key for key, val in language_map.items()}
def __init__(self, target: CMakeTarget, env: Environment):
self.env = env
self.artifacts = target.artifacts
self.src_dir = target.src_dir
self.build_dir = target.build_dir
self.name = target.name
self.full_name = target.full_name
self.type = target.type
self.install = target.install
self.install_dir = ''
self.link_libraries = target.link_libraries
self.link_flags = target.link_flags + target.link_lang_flags
if target.install_paths:
self.install_dir = target.install_paths[0]
self.languages = []
self.sources = []
self.generated = []
self.includes = []
self.link_with = []
self.object_libs = []
self.compile_opts = {}
self.pie = False
# Project default override options (c_std, cpp_std, etc.)
self.override_options = []
for i in target.files:
# Determine the meson language
lang = ConverterTarget.lang_cmake_to_meson.get(i.language.lower(), 'c')
if lang not in self.languages:
self.languages += [lang]
if lang not in self.compile_opts:
self.compile_opts[lang] = []
# Add arguments, but avoid duplicates
args = i.flags
args += ['-D{}'.format(x) for x in i.defines]
self.compile_opts[lang] += [x for x in args if x not in self.compile_opts[lang]]
# Handle include directories
self.includes += [x for x in i.includes if x not in self.includes]
# Add sources to the right array
if i.is_generated:
self.generated += i.sources
else:
self.sources += i.sources
def __repr__(self) -> str:
return '<{}: {}>'.format(self.__class__.__name__, self.name)
std_regex = re.compile(r'([-]{1,2}std=|/std:v?|[-]{1,2}std:)(.*)')
def postprocess(self, output_target_map: dict, root_src_dir: str, subdir: str, install_prefix: str) -> None:
# Detect setting the C and C++ standard
for i in ['c', 'cpp']:
if i not in self.compile_opts:
continue
temp = []
for j in self.compile_opts[i]:
m = ConverterTarget.std_regex.match(j)
if m:
self.override_options += ['{}_std={}'.format(i, m.group(2))]
elif j in ['-fPIC', '-fpic', '-fPIE', '-fpie']:
self.pie = True
elif j in blacklist_compiler_flags:
pass
else:
temp += [j]
self.compile_opts[i] = temp
# Make sure to force enable -fPIC for OBJECT libraries
if self.type.upper() == 'OBJECT_LIBRARY':
self.pie = True
# Fix link libraries
temp = []
for i in self.link_libraries:
# Let meson handle this arcane magic
if ',-rpath,' in i:
continue
if not os.path.isabs(i):
basename = os.path.basename(i)
if basename in output_target_map:
self.link_with += [output_target_map[basename]]
continue
temp += [i]
self.link_libraries = temp
# Make paths relative
def rel_path(x: str) -> str:
if not os.path.isabs(x):
x = os.path.normpath(os.path.join(self.src_dir, x))
if os.path.isabs(x) and os.path.commonpath([x, root_src_dir]) == root_src_dir:
return os.path.relpath(x, root_src_dir)
if os.path.isabs(x) and os.path.commonpath([x, self.env.get_build_dir()]) == self.env.get_build_dir():
return os.path.relpath(x, os.path.join(self.env.get_build_dir(), subdir))
return x
build_dir_rel = os.path.relpath(self.build_dir, os.path.join(self.env.get_build_dir(), subdir))
self.includes = list(set([rel_path(x) for x in set(self.includes)] + [build_dir_rel]))
self.sources = [rel_path(x) for x in self.sources]
self.generated = [rel_path(x) for x in self.generated]
# Filter out CMake rule files
self.sources = [x for x in self.sources if not any([x.endswith(y) for y in skip_input_extensions])]
self.generated = [x for x in self.generated if not any([x.endswith(y) for y in skip_input_extensions])]
# Make sure '.' is always in the include directories
if '.' not in self.includes:
self.includes += ['.']
# make install dir relative to the install prefix
if self.install_dir and os.path.isabs(self.install_dir):
if os.path.commonpath([self.install_dir, install_prefix]) == install_prefix:
self.install_dir = os.path.relpath(self.install_dir, install_prefix)
# Remove blacklisted options and libs
def check_flag(flag: str) -> bool:
if flag.lower() in blacklist_link_flags or flag in blacklist_compiler_flags + blacklist_clang_cl_link_flags:
return False
if flag.startswith('/D'):
return False
return True
self.link_libraries = [x for x in self.link_libraries if x.lower() not in blacklist_link_libs]
self.link_flags = [x for x in self.link_flags if check_flag(x)]
def process_object_libs(self, obj_target_list: List['ConverterTarget']):
# Try to detect the object library(s) from the generated input sources
temp = [os.path.basename(x) for x in self.generated]
temp = [x for x in temp if any([x.endswith('.' + y) for y in obj_suffixes])]
temp = [os.path.splitext(x)[0] for x in temp]
# Temp now stores the source filenames of the object files
for i in obj_target_list:
source_files = [os.path.basename(x) for x in i.sources + i.generated]
for j in source_files:
if j in temp:
self.object_libs += [i]
break
# Filter out object files from the sources
self.generated = [x for x in self.generated if not any([x.endswith('.' + y) for y in obj_suffixes])]
def meson_func(self) -> str:
return target_type_map.get(self.type.upper())
def log(self) -> None:
mlog.log('Target', mlog.bold(self.name))
mlog.log(' -- artifacts: ', mlog.bold(str(self.artifacts)))
mlog.log(' -- full_name: ', mlog.bold(self.full_name))
mlog.log(' -- type: ', mlog.bold(self.type))
mlog.log(' -- install: ', mlog.bold('true' if self.install else 'false'))
mlog.log(' -- install_dir: ', mlog.bold(self.install_dir))
mlog.log(' -- link_libraries: ', mlog.bold(str(self.link_libraries)))
mlog.log(' -- link_with: ', mlog.bold(str(self.link_with)))
mlog.log(' -- object_libs: ', mlog.bold(str(self.object_libs)))
mlog.log(' -- link_flags: ', mlog.bold(str(self.link_flags)))
mlog.log(' -- languages: ', mlog.bold(str(self.languages)))
mlog.log(' -- includes: ', mlog.bold(str(self.includes)))
mlog.log(' -- sources: ', mlog.bold(str(self.sources)))
mlog.log(' -- generated: ', mlog.bold(str(self.generated)))
mlog.log(' -- pie: ', mlog.bold('true' if self.pie else 'false'))
mlog.log(' -- override_opts: ', mlog.bold(str(self.override_options)))
mlog.log(' -- options:')
for key, val in self.compile_opts.items():
mlog.log(' -', key, '=', mlog.bold(str(val)))
class CMakeInterpreter:
def __init__(self, build: Build, subdir: str, src_dir: str, install_prefix: str, env: Environment, backend: Backend):
assert(hasattr(backend, 'name'))
self.build = build
self.subdir = subdir
self.src_dir = src_dir
self.build_dir_rel = os.path.join(subdir, '__CMake_build')
self.build_dir = os.path.join(env.get_build_dir(), self.build_dir_rel)
self.install_prefix = install_prefix
self.env = env
self.backend_name = backend.name
self.client = CMakeClient(self.env)
# Raw CMake results
self.bs_files = []
self.codemodel = None
# Analysed data
self.project_name = ''
self.languages = []
self.targets = []
def configure(self, extra_cmake_options: List[str]) -> None:
# Find CMake
cmake_exe, cmake_vers, _ = CMakeDependency.find_cmake_binary(self.env)
if cmake_exe is None or cmake_exe is False:
raise CMakeException('Unable to find CMake')
assert(isinstance(cmake_exe, ExternalProgram))
if not cmake_exe.found():
raise CMakeException('Unable to find CMake')
generator = backend_generator_map[self.backend_name]
cmake_args = cmake_exe.get_command()
# Map meson compiler to CMake variables
for lang, comp in self.build.compilers.items():
if lang not in language_map:
continue
cmake_lang = language_map[lang]
exelist = comp.get_exelist()
if len(exelist) == 1:
cmake_args += ['-DCMAKE_{}_COMPILER={}'.format(cmake_lang, exelist[0])]
elif len(exelist) == 2:
cmake_args += ['-DCMAKE_{}_COMPILER_LAUNCHER={}'.format(cmake_lang, exelist[0]),
'-DCMAKE_{}_COMPILER={}'.format(cmake_lang, exelist[1])]
if hasattr(comp, 'get_linker_exelist') and comp.get_id() == 'clang-cl':
cmake_args += ['-DCMAKE_LINKER={}'.format(comp.get_linker_exelist()[0])]
cmake_args += ['-G', generator]
cmake_args += ['-DCMAKE_INSTALL_PREFIX={}'.format(self.install_prefix)]
cmake_args += extra_cmake_options
# Run CMake
mlog.log()
with mlog.nested():
mlog.log('Configuring the build directory with', mlog.bold('CMake'), 'version', mlog.cyan(cmake_vers))
mlog.log(mlog.bold('Running:'), ' '.join(cmake_args))
mlog.log()
os.makedirs(self.build_dir, exist_ok=True)
os_env = os.environ.copy()
os_env['LC_ALL'] = 'C'
proc = Popen(cmake_args + [self.src_dir], stdout=PIPE, stderr=STDOUT, cwd=self.build_dir, env=os_env)
# Print CMake log in realtime
while True:
line = proc.stdout.readline()
if not line:
break
mlog.log(line.decode('utf-8').strip('\n'))
# Wait for CMake to finish
proc.communicate()
mlog.log()
h = mlog.green('SUCCEEDED') if proc.returncode == 0 else mlog.red('FAILED')
mlog.log('CMake configuration:', h)
if proc.returncode != 0:
raise CMakeException('Failed to configure the CMake subproject')
def initialise(self, extra_cmake_options: List[str]) -> None:
# Run configure the old way becuse doing it
# with the server doesn't work for some reason
self.configure(extra_cmake_options)
with self.client.connect():
generator = backend_generator_map[self.backend_name]
self.client.do_handshake(self.src_dir, self.build_dir, generator, 1)
# Do a second configure to initialise the server
self.client.query_checked(RequestConfigure(), 'CMake server configure')
# Generate the build system files
self.client.query_checked(RequestCompute(), 'Generating build system files')
# Get CMake build system files
bs_reply = self.client.query_checked(RequestCMakeInputs(), 'Querying build system files')
# Now get the CMake code model
cm_reply = self.client.query_checked(RequestCodeModel(), 'Querying the CMake code model')
src_dir = bs_reply.src_dir
self.bs_files = [x.file for x in bs_reply.build_files if not x.is_cmake and not x.is_temp]
self.bs_files = [os.path.relpath(os.path.join(src_dir, x), self.env.get_source_dir()) for x in self.bs_files]
self.bs_files = list(set(self.bs_files))
self.codemodel = cm_reply
def analyse(self) -> None:
if self.codemodel is None:
raise CMakeException('CMakeInterpreter was not initialized')
# Clear analyser data
self.project_name = ''
self.languages = []
self.targets = []
# Find all targets
for i in self.codemodel.configs:
for j in i.projects:
if not self.project_name:
self.project_name = j.name
for k in j.targets:
if k.type not in skip_targets:
self.targets += [ConverterTarget(k, self.env)]
output_target_map = {x.full_name: x for x in self.targets}
for i in self.targets:
for j in i.artifacts:
output_target_map[os.path.basename(j)] = i
object_libs = []
# First pass: Basic target cleanup
for i in self.targets:
i.postprocess(output_target_map, self.src_dir, self.subdir, self.install_prefix)
if i.type == 'OBJECT_LIBRARY':
object_libs += [i]
self.languages += [x for x in i.languages if x not in self.languages]
# Second pass: Detect object library dependencies
for i in self.targets:
i.process_object_libs(object_libs)
mlog.log('CMake project', mlog.bold(self.project_name), 'has', mlog.bold(str(len(self.targets))), 'build targets.')
def pretend_to_be_meson(self) -> CodeBlockNode:
if not self.project_name:
raise CMakeException('CMakeInterpreter was not analysed')
def token(tid: str = 'string', val='') -> Token:
return Token(tid, self.subdir, 0, 0, 0, None, val)
def string(value: str) -> StringNode:
return StringNode(token(val=value))
def id_node(value: str) -> IdNode:
return IdNode(token(val=value))
def nodeify(value):
if isinstance(value, str):
return string(value)
elif isinstance(value, bool):
return BooleanNode(token(), value)
elif isinstance(value, list):
return array(value)
return value
def array(elements) -> ArrayNode:
args = ArgumentNode(token())
if not isinstance(elements, list):
elements = [args]
args.arguments += [nodeify(x) for x in elements]
return ArrayNode(args, 0, 0, 0, 0)
def function(name: str, args=None, kwargs=None) -> FunctionNode:
if args is None:
args = []
if kwargs is None:
kwargs = {}
args_n = ArgumentNode(token())
if not isinstance(args, list):
args = [args]
args_n.arguments = [nodeify(x) for x in args]
args_n.kwargs = {k: nodeify(v) for k, v in kwargs.items()}
func_n = FunctionNode(self.subdir, 0, 0, 0, 0, name, args_n)
return func_n
def method(obj: BaseNode, name: str, args=None, kwargs=None) -> MethodNode:
if args is None:
args = []
if kwargs is None:
kwargs = {}
args_n = ArgumentNode(token())
if not isinstance(args, list):
args = [args]
args_n.arguments = [nodeify(x) for x in args]
args_n.kwargs = {k: nodeify(v) for k, v in kwargs.items()}
return MethodNode(self.subdir, 0, 0, obj, name, args_n)
def assign(var_name: str, value: BaseNode) -> AssignmentNode:
return AssignmentNode(self.subdir, 0, 0, var_name, value)
# Generate the root code block and the project function call
root_cb = CodeBlockNode(token())
root_cb.lines += [function('project', [self.project_name] + self.languages)]
processed = {}
def process_target(tgt: ConverterTarget):
# First handle inter target dependencies
link_with = []
objec_libs = []
for i in tgt.link_with:
assert(isinstance(i, ConverterTarget))
if i.name not in processed:
process_target(i)
link_with += [id_node(processed[i.name]['tgt'])]
for i in tgt.object_libs:
assert(isinstance(i, ConverterTarget))
if i.name not in processed:
process_target(i)
objec_libs += [processed[i.name]['tgt']]
# Determine the meson function to use for the build target
tgt_func = tgt.meson_func()
if not tgt_func:
raise CMakeException('Unknown target type "{}"'.format(tgt.type))
# Determine the variable names
base_name = str(tgt.name)
base_name = base_name.replace('-', '_')
inc_var = '{}_inc'.format(base_name)
src_var = '{}_src'.format(base_name)
dep_var = '{}_dep'.format(base_name)
tgt_var = base_name
# Generate target kwargs
tgt_kwargs = {
'link_args': tgt.link_flags + tgt.link_libraries,
'link_with': link_with,
'include_directories': id_node(inc_var),
'install': tgt.install,
'install_dir': tgt.install_dir,
'override_options': tgt.override_options,
'objects': [method(id_node(x), 'extract_all_objects') for x in objec_libs],
}
# Handle compiler args
for key, val in tgt.compile_opts.items():
tgt_kwargs['{}_args'.format(key)] = val
# Handle -fPCI, etc
if tgt_func == 'executable':
tgt_kwargs['pie'] = tgt.pie
elif tgt_func == 'static_library':
tgt_kwargs['pic'] = tgt.pie
# declare_dependency kwargs
dep_kwargs = {
'link_args': tgt.link_flags + tgt.link_libraries,
'link_with': id_node(tgt_var),
'include_directories': id_node(inc_var),
}
# Generate the function nodes
inc_node = assign(inc_var, function('include_directories', tgt.includes))
src_node = assign(src_var, function('files', tgt.sources + tgt.generated))
tgt_node = assign(tgt_var, function(tgt_func, [base_name, id_node(src_var)], tgt_kwargs))
dep_node = assign(dep_var, function('declare_dependency', kwargs=dep_kwargs))
# Add the nodes to the ast
root_cb.lines += [inc_node, src_node, tgt_node, dep_node]
processed[tgt.name] = {'inc': inc_var, 'src': src_var, 'dep': dep_var, 'tgt': tgt_var}
# Now generate the target function calls
for i in self.targets:
if i.name not in processed:
process_target(i)
return root_cb