# Copyright 2020 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 __future__ import annotations """Entrypoint script for backend agnostic compile.""" import os import json import re import sys import shutil import typing as T from collections import defaultdict from pathlib import Path from . import mlog from . import mesonlib from . import coredata from .mesonlib import MesonException, RealPathAction, join_args, setup_vsenv from mesonbuild.environment import detect_ninja from mesonbuild.coredata import UserArrayOption from mesonbuild import build if T.TYPE_CHECKING: import argparse def array_arg(value: str) -> T.List[str]: return UserArrayOption(None, value, allow_dups=True, user_input=True).value def validate_builddir(builddir: Path) -> None: if not (builddir / 'meson-private' / 'coredata.dat').is_file(): raise MesonException(f'Current directory is not a meson build directory: `{builddir}`.\n' 'Please specify a valid build dir or change the working directory to it.\n' 'It is also possible that the build directory was generated with an old\n' 'meson version. Please regenerate it in this case.') def parse_introspect_data(builddir: Path) -> T.Dict[str, T.List[dict]]: """ Converts a List of name-to-dict to a dict of name-to-dicts (since names are not unique) """ path_to_intro = builddir / 'meson-info' / 'intro-targets.json' if not path_to_intro.exists(): raise MesonException(f'`{path_to_intro.name}` is missing! Directory is not configured yet?') with path_to_intro.open(encoding='utf-8') as f: schema = json.load(f) parsed_data = defaultdict(list) # type: T.Dict[str, T.List[dict]] for target in schema: parsed_data[target['name']] += [target] return parsed_data class ParsedTargetName: full_name = '' name = '' type = '' path = '' def __init__(self, target: str): self.full_name = target split = target.rsplit(':', 1) if len(split) > 1: self.type = split[1] if not self._is_valid_type(self.type): raise MesonException(f'Can\'t invoke target `{target}`: unknown target type: `{self.type}`') split = split[0].rsplit('/', 1) if len(split) > 1: self.path = split[0] self.name = split[1] else: self.name = split[0] @staticmethod def _is_valid_type(type: str) -> bool: # Amend docs in Commands.md when editing this list allowed_types = { 'executable', 'static_library', 'shared_library', 'shared_module', 'custom', 'run', 'jar', } return type in allowed_types def get_target_from_intro_data(target: ParsedTargetName, builddir: Path, introspect_data: T.Dict[str, T.Any]) -> T.Dict[str, T.Any]: if target.name not in introspect_data: raise MesonException(f'Can\'t invoke target `{target.full_name}`: target not found') intro_targets = introspect_data[target.name] found_targets = [] # type: T.List[T.Dict[str, T.Any]] resolved_bdir = builddir.resolve() if not target.type and not target.path: found_targets = intro_targets else: for intro_target in intro_targets: if ((target.type and target.type != intro_target['type'].replace(' ', '_')) or (target.path and intro_target['filename'] != 'no_name' and Path(target.path) != Path(intro_target['filename'][0]).relative_to(resolved_bdir).parent)): continue found_targets += [intro_target] if not found_targets: raise MesonException(f'Can\'t invoke target `{target.full_name}`: target not found') elif len(found_targets) > 1: suggestions: T.List[str] = [] for i in found_targets: p = Path(i['filename'][0]).relative_to(resolved_bdir) t = i['type'].replace(' ', '_') suggestions.append(f'- ./{p}:{t}') suggestions_str = '\n'.join(suggestions) raise MesonException(f'Can\'t invoke target `{target.full_name}`: ambiguous name.' f'Add target type and/or path:\n{suggestions_str}') return found_targets[0] def generate_target_names_ninja(target: ParsedTargetName, builddir: Path, introspect_data: dict) -> T.List[str]: intro_target = get_target_from_intro_data(target, builddir, introspect_data) if intro_target['type'] == 'run': return [target.name] else: return [str(Path(out_file).relative_to(builddir.resolve())) for out_file in intro_target['filename']] def get_parsed_args_ninja(options: 'argparse.Namespace', builddir: Path) -> T.Tuple[T.List[str], T.Optional[T.Dict[str, str]]]: runner = detect_ninja() if runner is None: raise MesonException('Cannot find ninja.') cmd = runner if not builddir.samefile('.'): cmd.extend(['-C', builddir.as_posix()]) # If the value is set to < 1 then don't set anything, which let's # ninja/samu decide what to do. if options.jobs > 0: cmd.extend(['-j', str(options.jobs)]) if options.load_average > 0: cmd.extend(['-l', str(options.load_average)]) if options.verbose: cmd.append('-v') cmd += options.ninja_args # operands must be processed after options/option-arguments if options.targets: intro_data = parse_introspect_data(builddir) for t in options.targets: cmd.extend(generate_target_names_ninja(ParsedTargetName(t), builddir, intro_data)) if options.clean: cmd.append('clean') return cmd, None def generate_target_name_vs(target: ParsedTargetName, builddir: Path, introspect_data: dict) -> str: intro_target = get_target_from_intro_data(target, builddir, introspect_data) assert intro_target['type'] != 'run', 'Should not reach here: `run` targets must be handle above' # Normalize project name # Source: https://docs.microsoft.com/en-us/visualstudio/msbuild/how-to-build-specific-targets-in-solutions-by-using-msbuild-exe target_name = re.sub(r"[\%\$\@\;\.\(\)']", '_', intro_target['id']) # type: str rel_path = Path(intro_target['filename'][0]).relative_to(builddir.resolve()).parent if rel_path != Path('.'): target_name = str(rel_path / target_name) return target_name def get_parsed_args_vs(options: 'argparse.Namespace', builddir: Path) -> T.Tuple[T.List[str], T.Optional[T.Dict[str, str]]]: slns = list(builddir.glob('*.sln')) assert len(slns) == 1, 'More than one solution in a project?' sln = slns[0] cmd = ['msbuild'] if options.targets: intro_data = parse_introspect_data(builddir) has_run_target = any( get_target_from_intro_data(ParsedTargetName(t), builddir, intro_data)['type'] == 'run' for t in options.targets) if has_run_target: # `run` target can't be used the same way as other targets on `vs` backend. # They are defined as disabled projects, which can't be invoked as `.sln` # target and have to be invoked directly as project instead. # Issue: https://github.com/microsoft/msbuild/issues/4772 if len(options.targets) > 1: raise MesonException('Only one target may be specified when `run` target type is used on this backend.') intro_target = get_target_from_intro_data(ParsedTargetName(options.targets[0]), builddir, intro_data) proj_dir = Path(intro_target['filename'][0]).parent proj = proj_dir/'{}.vcxproj'.format(intro_target['id']) cmd += [str(proj.resolve())] else: cmd += [str(sln.resolve())] cmd.extend(['-target:{}'.format(generate_target_name_vs(ParsedTargetName(t), builddir, intro_data)) for t in options.targets]) else: cmd += [str(sln.resolve())] if options.clean: cmd.extend(['-target:Clean']) # In msbuild `-maxCpuCount` with no number means "detect cpus", the default is `-maxCpuCount:1` if options.jobs > 0: cmd.append(f'-maxCpuCount:{options.jobs}') else: cmd.append('-maxCpuCount') if options.load_average: mlog.warning('Msbuild does not have a load-average switch, ignoring.') if not options.verbose: cmd.append('-verbosity:minimal') cmd += options.vs_args # Remove platform from env if set so that msbuild does not # pick x86 platform when solution platform is Win32 env = os.environ.copy() env.pop('PLATFORM', None) return cmd, env def get_parsed_args_xcode(options: 'argparse.Namespace', builddir: Path) -> T.Tuple[T.List[str], T.Optional[T.Dict[str, str]]]: runner = 'xcodebuild' if not shutil.which(runner): raise MesonException('Cannot find xcodebuild, did you install XCode?') # No argument to switch directory os.chdir(str(builddir)) cmd = [runner, '-parallelizeTargets'] if options.targets: for t in options.targets: cmd += ['-target', t] if options.clean: if options.targets: cmd += ['clean'] else: cmd += ['-alltargets', 'clean'] # Otherwise xcodebuild tries to delete the builddir and fails cmd += ['-UseNewBuildSystem=FALSE'] if options.jobs > 0: cmd.extend(['-jobs', str(options.jobs)]) if options.load_average > 0: mlog.warning('xcodebuild does not have a load-average switch, ignoring') if options.verbose: # xcodebuild is already quite verbose, and -quiet doesn't print any # status messages pass cmd += options.xcode_args return cmd, None def add_arguments(parser: 'argparse.ArgumentParser') -> None: """Add compile specific arguments.""" parser.add_argument( 'targets', metavar='TARGET', nargs='*', default=None, help='Targets to build. Target has the following format: [PATH_TO_TARGET/]TARGET_NAME[:TARGET_TYPE].') parser.add_argument( '--clean', action='store_true', help='Clean the build directory.' ) parser.add_argument('-C', dest='wd', action=RealPathAction, help='directory to cd into before running') parser.add_argument( '-j', '--jobs', action='store', default=0, type=int, help='The number of worker jobs to run (if supported). If the value is less than 1 the build program will guess.' ) parser.add_argument( '-l', '--load-average', action='store', default=0, type=float, help='The system load average to try to maintain (if supported).' ) parser.add_argument( '-v', '--verbose', action='store_true', help='Show more verbose output.' ) parser.add_argument( '--ninja-args', type=array_arg, default=[], help='Arguments to pass to `ninja` (applied only on `ninja` backend).' ) parser.add_argument( '--vs-args', type=array_arg, default=[], help='Arguments to pass to `msbuild` (applied only on `vs` backend).' ) parser.add_argument( '--xcode-args', type=array_arg, default=[], help='Arguments to pass to `xcodebuild` (applied only on `xcode` backend).' ) def run(options: 'argparse.Namespace') -> int: bdir = Path(options.wd) validate_builddir(bdir) if options.targets and options.clean: raise MesonException('`TARGET` and `--clean` can\'t be used simultaneously') cdata = coredata.load(options.wd) b = build.load(options.wd) vsenv_active = setup_vsenv(b.need_vsenv) if vsenv_active: mlog.log(mlog.green('INFO:'), 'automatically activated MSVC compiler environment') cmd = [] # type: T.List[str] env = None # type: T.Optional[T.Dict[str, str]] backend = cdata.get_option(mesonlib.OptionKey('backend')) assert isinstance(backend, str) mlog.log(mlog.green('INFO:'), 'autodetecting backend as', backend) if backend == 'ninja': cmd, env = get_parsed_args_ninja(options, bdir) elif backend.startswith('vs'): cmd, env = get_parsed_args_vs(options, bdir) elif backend == 'xcode': cmd, env = get_parsed_args_xcode(options, bdir) else: raise MesonException( f'Backend `{backend}` is not yet supported by `compile`. Use generated project files directly instead.') mlog.log(mlog.green('INFO:'), 'calculating backend command to run:', join_args(cmd)) p, *_ = mesonlib.Popen_safe(cmd, stdout=sys.stdout.buffer, stderr=sys.stderr.buffer, env=env) return p.returncode