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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.
from .common import CMakeException, CMakeBuildFile, CMakeConfiguration
import typing as T
from .. import mlog
from pathlib import Path
import json
import re
STRIP_KEYS = ['cmake', 'reply', 'backtrace', 'backtraceGraph', 'version']
class CMakeFileAPI:
def __init__(self, build_dir: Path):
self.build_dir = build_dir
self.api_base_dir = self.build_dir / '.cmake' / 'api' / 'v1'
self.request_dir = self.api_base_dir / 'query' / 'client-meson'
self.reply_dir = self.api_base_dir / 'reply'
self.cmake_sources = [] # type: T.List[CMakeBuildFile]
self.cmake_configurations = [] # type: T.List[CMakeConfiguration]
self.kind_resolver_map = {
'codemodel': self._parse_codemodel,
'cmakeFiles': self._parse_cmakeFiles,
}
def get_cmake_sources(self) -> T.List[CMakeBuildFile]:
return self.cmake_sources
def get_cmake_configurations(self) -> T.List[CMakeConfiguration]:
return self.cmake_configurations
def setup_request(self) -> None:
self.request_dir.mkdir(parents=True, exist_ok=True)
query = {
'requests': [
{'kind': 'codemodel', 'version': {'major': 2, 'minor': 0}},
{'kind': 'cmakeFiles', 'version': {'major': 1, 'minor': 0}},
]
}
query_file = self.request_dir / 'query.json'
query_file.write_text(json.dumps(query, indent=2), encoding='utf-8')
def load_reply(self) -> None:
if not self.reply_dir.is_dir():
raise CMakeException('No response from the CMake file API')
root = None
reg_index = re.compile(r'^index-.*\.json$')
for i in self.reply_dir.iterdir():
if reg_index.match(i.name):
root = i
break
if not root:
raise CMakeException('Failed to find the CMake file API index')
index = self._reply_file_content(root) # Load the root index
index = self._strip_data(index) # Avoid loading duplicate files
index = self._resolve_references(index) # Load everything
index = self._strip_data(index) # Strip unused data (again for loaded files)
# Debug output
debug_json = self.build_dir / '..' / 'fileAPI.json'
debug_json = debug_json.resolve()
debug_json.write_text(json.dumps(index, indent=2), encoding='utf-8')
mlog.cmd_ci_include(debug_json.as_posix())
# parse the JSON
for i in index['objects']:
assert(isinstance(i, dict))
assert('kind' in i)
assert(i['kind'] in self.kind_resolver_map)
self.kind_resolver_map[i['kind']](i)
def _parse_codemodel(self, data: T.Dict[str, T.Any]) -> None:
assert('configurations' in data)
assert('paths' in data)
source_dir = data['paths']['source']
build_dir = data['paths']['build']
# The file API output differs quite a bit from the server
# output. It is more flat than the server output and makes
# heavy use of references. Here these references are
# resolved and the resulting data structure is identical
# to the CMake serve output.
def helper_parse_dir(dir_entry: T.Dict[str, T.Any]) -> T.Tuple[Path, Path]:
src_dir = Path(dir_entry.get('source', '.'))
bld_dir = Path(dir_entry.get('build', '.'))
src_dir = src_dir if src_dir.is_absolute() else source_dir / src_dir
bld_dir = bld_dir if bld_dir.is_absolute() else build_dir / bld_dir
src_dir = src_dir.resolve()
bld_dir = bld_dir.resolve()
return src_dir, bld_dir
def parse_sources(comp_group: T.Dict[str, T.Any], tgt: T.Dict[str, T.Any]) -> T.Tuple[T.List[Path], T.List[Path], T.List[int]]:
gen = []
src = []
idx = []
src_list_raw = tgt.get('sources', [])
for i in comp_group.get('sourceIndexes', []):
if i >= len(src_list_raw) or 'path' not in src_list_raw[i]:
continue
if src_list_raw[i].get('isGenerated', False):
gen += [Path(src_list_raw[i]['path'])]
else:
src += [Path(src_list_raw[i]['path'])]
idx += [i]
return src, gen, idx
def parse_target(tgt: T.Dict[str, T.Any]) -> T.Dict[str, T.Any]:
src_dir, bld_dir = helper_parse_dir(cnf.get('paths', {}))
# Parse install paths (if present)
install_paths = []
if 'install' in tgt:
prefix = Path(tgt['install']['prefix']['path'])
install_paths = [prefix / x['path'] for x in tgt['install']['destinations']]
install_paths = list(set(install_paths))
# On the first look, it looks really nice that the CMake devs have
# decided to use arrays for the linker flags. However, this feeling
# soon turns into despair when you realize that there only one entry
# per type in most cases, and we still have to do manual string splitting.
link_flags = []
link_libs = []
for i in tgt.get('link', {}).get('commandFragments', []):
if i['role'] == 'flags':
link_flags += [i['fragment']]
elif i['role'] == 'libraries':
link_libs += [i['fragment']]
elif i['role'] == 'libraryPath':
link_flags += ['-L{}'.format(i['fragment'])]
elif i['role'] == 'frameworkPath':
link_flags += ['-F{}'.format(i['fragment'])]
for i in tgt.get('archive', {}).get('commandFragments', []):
if i['role'] == 'flags':
link_flags += [i['fragment']]
# TODO The `dependencies` entry is new in the file API.
# maybe we can make use of that in addition to the
# implicit dependency detection
tgt_data = {
'artifacts': [Path(x.get('path', '')) for x in tgt.get('artifacts', [])],
'sourceDirectory': src_dir,
'buildDirectory': bld_dir,
'name': tgt.get('name', ''),
'fullName': tgt.get('nameOnDisk', ''),
'hasInstallRule': 'install' in tgt,
'installPaths': install_paths,
'linkerLanguage': tgt.get('link', {}).get('language', 'CXX'),
'linkLibraries': ' '.join(link_libs), # See previous comment block why we join the array
'linkFlags': ' '.join(link_flags), # See previous comment block why we join the array
'type': tgt.get('type', 'EXECUTABLE'),
'fileGroups': [],
}
processed_src_idx = []
for cg in tgt.get('compileGroups', []):
# Again, why an array, when there is usually only one element
# and arguments are separated with spaces...
flags = []
for i in cg.get('compileCommandFragments', []):
flags += [i['fragment']]
cg_data = {
'defines': [x.get('define', '') for x in cg.get('defines', [])],
'compileFlags': ' '.join(flags),
'language': cg.get('language', 'C'),
'isGenerated': None, # Set later, flag is stored per source file
'sources': [],
'includePath': cg.get('includes', []),
}
normal_src, generated_src, src_idx = parse_sources(cg, tgt)
if normal_src:
cg_data = dict(cg_data)
cg_data['isGenerated'] = False
cg_data['sources'] = normal_src
tgt_data['fileGroups'] += [cg_data]
if generated_src:
cg_data = dict(cg_data)
cg_data['isGenerated'] = True
cg_data['sources'] = generated_src
tgt_data['fileGroups'] += [cg_data]
processed_src_idx += src_idx
# Object libraries have no compile groups, only source groups.
# So we add all the source files to a dummy source group that were
# not found in the previous loop
normal_src = []
generated_src = []
for idx, src in enumerate(tgt.get('sources', [])):
if idx in processed_src_idx:
continue
if src.get('isGenerated', False):
generated_src += [src['path']]
else:
normal_src += [src['path']]
if normal_src:
tgt_data['fileGroups'] += [{
'isGenerated': False,
'sources': normal_src,
}]
if generated_src:
tgt_data['fileGroups'] += [{
'isGenerated': True,
'sources': generated_src,
}]
return tgt_data
def parse_project(pro: T.Dict[str, T.Any]) -> T.Dict[str, T.Any]:
# Only look at the first directory specified in directoryIndexes
# TODO Figure out what the other indexes are there for
p_src_dir = source_dir
p_bld_dir = build_dir
try:
p_src_dir, p_bld_dir = helper_parse_dir(cnf['directories'][pro['directoryIndexes'][0]])
except (IndexError, KeyError):
pass
pro_data = {
'name': pro.get('name', ''),
'sourceDirectory': p_src_dir,
'buildDirectory': p_bld_dir,
'targets': [],
}
for ref in pro.get('targetIndexes', []):
tgt = {}
try:
tgt = cnf['targets'][ref]
except (IndexError, KeyError):
pass
pro_data['targets'] += [parse_target(tgt)]
return pro_data
for cnf in data.get('configurations', []):
cnf_data = {
'name': cnf.get('name', ''),
'projects': [],
}
for pro in cnf.get('projects', []):
cnf_data['projects'] += [parse_project(pro)]
self.cmake_configurations += [CMakeConfiguration(cnf_data)]
def _parse_cmakeFiles(self, data: T.Dict[str, T.Any]) -> None:
assert 'inputs' in data
assert 'paths' in data
src_dir = Path(data['paths']['source'])
for i in data['inputs']:
path = Path(i['path'])
path = path if path.is_absolute() else src_dir / path
self.cmake_sources += [CMakeBuildFile(path, i.get('isCMake', False), i.get('isGenerated', False))]
def _strip_data(self, data: T.Any) -> T.Any:
if isinstance(data, list):
for idx, i in enumerate(data):
data[idx] = self._strip_data(i)
elif isinstance(data, dict):
new = {}
for key, val in data.items():
if key not in STRIP_KEYS:
new[key] = self._strip_data(val)
data = new
return data
def _resolve_references(self, data: T.Any) -> T.Any:
if isinstance(data, list):
for idx, i in enumerate(data):
data[idx] = self._resolve_references(i)
elif isinstance(data, dict):
# Check for the "magic" reference entry and insert
# it into the root data dict
if 'jsonFile' in data:
data.update(self._reply_file_content(data['jsonFile']))
for key, val in data.items():
data[key] = self._resolve_references(val)
return data
def _reply_file_content(self, filename: Path) -> T.Dict[str, T.Any]:
real_path = self.reply_dir / filename
if not real_path.exists():
raise CMakeException(f'File "{real_path}" does not exist')
data = json.loads(real_path.read_text(encoding='utf-8'))
assert isinstance(data, dict)
for i in data.keys():
assert isinstance(i, str)
return data