# Copyright 2012-2017 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. from . import mparser from . import environment from . import coredata from . import dependencies from . import mlog from . import build from . import optinterpreter from . import compilers from .wrap import wrap, WrapMode from . import mesonlib from .mesonlib import FileMode, Popen_safe, get_meson_script from .dependencies import ExternalProgram from .dependencies import InternalDependency, Dependency, DependencyException from .interpreterbase import InterpreterBase from .interpreterbase import check_stringlist, noPosargs, noKwargs, stringArgs from .interpreterbase import InterpreterException, InvalidArguments, InvalidCode from .interpreterbase import InterpreterObject, MutableInterpreterObject from .modules import ModuleReturnValue import os, sys, shutil, uuid import re from collections import namedtuple import importlib run_depr_printed = False def stringifyUserArguments(args): if isinstance(args, list): return '[%s]' % ', '.join([stringifyUserArguments(x) for x in args]) elif isinstance(args, int): return str(args) elif isinstance(args, str): return "'%s'" % args raise InvalidArguments('Function accepts only strings, integers, lists and lists thereof.') class TryRunResultHolder(InterpreterObject): def __init__(self, res): super().__init__() self.res = res self.methods.update({'returncode': self.returncode_method, 'compiled': self.compiled_method, 'stdout': self.stdout_method, 'stderr': self.stderr_method, }) def returncode_method(self, args, kwargs): return self.res.returncode def compiled_method(self, args, kwargs): return self.res.compiled def stdout_method(self, args, kwargs): return self.res.stdout def stderr_method(self, args, kwargs): return self.res.stderr class RunProcess(InterpreterObject): def __init__(self, cmd, args, source_dir, build_dir, subdir, mesonintrospect, in_builddir=False): super().__init__() if not isinstance(cmd, ExternalProgram): raise AssertionError('BUG: RunProcess must be passed an ExternalProgram') pc, self.stdout, self.stderr = self.run_command(cmd, args, source_dir, build_dir, subdir, mesonintrospect, in_builddir) self.returncode = pc.returncode self.methods.update({'returncode': self.returncode_method, 'stdout': self.stdout_method, 'stderr': self.stderr_method, }) def run_command(self, cmd, args, source_dir, build_dir, subdir, mesonintrospect, in_builddir): command_array = cmd.get_command() + args env = {'MESON_SOURCE_ROOT': source_dir, 'MESON_BUILD_ROOT': build_dir, 'MESON_SUBDIR': subdir, 'MESONINTROSPECT': mesonintrospect} if in_builddir: cwd = os.path.join(build_dir, subdir) else: cwd = os.path.join(source_dir, subdir) child_env = os.environ.copy() child_env.update(env) mlog.debug('Running command:', ' '.join(command_array)) try: return Popen_safe(command_array, env=child_env, cwd=cwd) except FileNotFoundError: raise InterpreterException('Could not execute command "%s".' % cmd_name) def returncode_method(self, args, kwargs): return self.returncode def stdout_method(self, args, kwargs): return self.stdout def stderr_method(self, args, kwargs): return self.stderr class ConfigureFileHolder(InterpreterObject): def __init__(self, subdir, sourcename, targetname, configuration_data): InterpreterObject.__init__(self) self.held_object = build.ConfigureFile(subdir, sourcename, targetname, configuration_data) class EnvironmentVariablesHolder(MutableInterpreterObject): def __init__(self): super().__init__() self.held_object = build.EnvironmentVariables() self.methods.update({'set': self.set_method, 'append': self.append_method, 'prepend': self.prepend_method, }) def __repr__(self): repr_str = "<{0}: {1}>" return repr_str.format(self.__class__.__name__, self.held_object.envvars) @stringArgs def add_var(self, method, args, kwargs): if not isinstance(kwargs.get("separator", ""), str): raise InterpreterException("EnvironmentVariablesHolder methods 'separator'" " argument needs to be a string.") if len(args) < 2: raise InterpreterException("EnvironmentVariablesHolder methods require at least" "2 arguments, first is the name of the variable and" " following one are values") self.held_object.envvars.append((method, args[0], args[1:], kwargs)) def set_method(self, args, kwargs): self.add_var(self.held_object.set, args, kwargs) def append_method(self, args, kwargs): self.add_var(self.held_object.append, args, kwargs) def prepend_method(self, args, kwargs): self.add_var(self.held_object.prepend, args, kwargs) class ConfigurationDataHolder(MutableInterpreterObject): def __init__(self): super().__init__() self.used = False # These objects become immutable after use in configure_file. self.held_object = build.ConfigurationData() self.methods.update({'set': self.set_method, 'set10': self.set10_method, 'set_quoted': self.set_quoted_method, 'has': self.has_method, 'get': self.get_method, }) def is_used(self): return self.used def mark_used(self): self.used = True def validate_args(self, args, kwargs): if len(args) != 2: raise InterpreterException("Configuration set requires 2 arguments.") if self.used: raise InterpreterException("Can not set values on configuration object that has been used.") name = args[0] val = args[1] desc = kwargs.get('description', None) if not isinstance(name, str): raise InterpreterException("First argument to set must be a string.") if desc is not None and not isinstance(desc, str): raise InterpreterException('Description must be a string.') return name, val, desc def set_method(self, args, kwargs): (name, val, desc) = self.validate_args(args, kwargs) self.held_object.values[name] = (val, desc) def set_quoted_method(self, args, kwargs): (name, val, desc) = self.validate_args(args, kwargs) if not isinstance(val, str): raise InterpreterException("Second argument to set_quoted must be a string.") escaped_val = '\\"'.join(val.split('"')) self.held_object.values[name] = ('"' + escaped_val + '"', desc) def set10_method(self, args, kwargs): (name, val, desc) = self.validate_args(args, kwargs) if val: self.held_object.values[name] = (1, desc) else: self.held_object.values[name] = (0, desc) def has_method(self, args, kwargs): return args[0] in self.held_object.values def get_method(self, args, kwargs): if len(args) < 1 or len(args) > 2: raise InterpreterException('Get method takes one or two arguments.') name = args[0] if name in self.held_object: return self.held_object.get(name)[0] if len(args) > 1: return args[1] raise InterpreterException('Entry %s not in configuration data.' % name) def get(self, name): return self.held_object.values[name] # (val, desc) def keys(self): return self.held_object.values.keys() # Interpreter objects can not be pickled so we must have # these wrappers. class DependencyHolder(InterpreterObject): def __init__(self, dep): InterpreterObject.__init__(self) self.held_object = dep self.methods.update({'found': self.found_method, 'type_name': self.type_name_method, 'version': self.version_method, 'get_pkgconfig_variable': self.pkgconfig_method, }) def type_name_method(self, args, kwargs): return self.held_object.type_name def found_method(self, args, kwargs): if self.held_object.type_name == 'internal': return True return self.held_object.found() def version_method(self, args, kwargs): return self.held_object.get_version() def pkgconfig_method(self, args, kwargs): if not isinstance(args, list): args = [args] if len(args) != 1: raise InterpreterException('get_pkgconfig_variable takes exactly one argument.') varname = args[0] if not isinstance(varname, str): raise InterpreterException('Variable name must be a string.') return self.held_object.get_pkgconfig_variable(varname) class InternalDependencyHolder(InterpreterObject): def __init__(self, dep): InterpreterObject.__init__(self) self.held_object = dep self.methods.update({'found': self.found_method, 'version': self.version_method, }) def found_method(self, args, kwargs): return True def version_method(self, args, kwargs): return self.held_object.get_version() class ExternalProgramHolder(InterpreterObject): def __init__(self, ep): InterpreterObject.__init__(self) self.held_object = ep self.methods.update({'found': self.found_method, 'path': self.path_method}) def found_method(self, args, kwargs): return self.found() def path_method(self, args, kwargs): return self.held_object.get_path() def found(self): return self.held_object.found() def get_command(self): return self.held_object.get_command() def get_name(self): return self.held_object.get_name() class ExternalLibraryHolder(InterpreterObject): def __init__(self, el): InterpreterObject.__init__(self) self.held_object = el self.methods.update({'found': self.found_method}) def found(self): return self.held_object.found() def found_method(self, args, kwargs): return self.found() def get_name(self): return self.held_object.name def get_compile_args(self): return self.held_object.get_compile_args() def get_link_args(self): return self.held_object.get_link_args() def get_exe_args(self): return self.held_object.get_exe_args() class GeneratorHolder(InterpreterObject): def __init__(self, interpreter, args, kwargs): super().__init__() self.interpreter = interpreter self.held_object = build.Generator(args, kwargs) self.methods.update({'process': self.process_method}) def process_method(self, args, kwargs): extras = mesonlib.stringlistify(kwargs.get('extra_args', [])) gl = self.held_object.process_files('Generator', args, self.interpreter, extra_args=extras) return GeneratedListHolder(gl) class GeneratedListHolder(InterpreterObject): def __init__(self, arg1, extra_args=[]): super().__init__() if isinstance(arg1, GeneratorHolder): self.held_object = build.GeneratedList(arg1.held_object, extra_args) else: self.held_object = arg1 def __repr__(self): r = '<{}: {!r}>' return r.format(self.__class__.__name__, self.held_object.get_outputs()) def add_file(self, a): self.held_object.add_file(a) class BuildMachine(InterpreterObject): def __init__(self, compilers): self.compilers = compilers InterpreterObject.__init__(self) self.held_object = environment.MachineInfo(environment.detect_system(), environment.detect_cpu_family(self.compilers), environment.detect_cpu(self.compilers), sys.byteorder) self.methods.update({'system': self.system_method, 'cpu_family': self.cpu_family_method, 'cpu': self.cpu_method, 'endian': self.endian_method, }) def cpu_family_method(self, args, kwargs): return self.held_object.cpu_family def cpu_method(self, args, kwargs): return self.held_object.cpu def system_method(self, args, kwargs): return self.held_object.system def endian_method(self, args, kwargs): return self.held_object.endian # This class will provide both host_machine and # target_machine class CrossMachineInfo(InterpreterObject): def __init__(self, cross_info): InterpreterObject.__init__(self) minimum_cross_info = {'cpu', 'cpu_family', 'endian', 'system'} if set(cross_info) < minimum_cross_info: raise InterpreterException( 'Machine info is currently {}\n'.format(cross_info) + 'but is missing {}.'.format(minimum_cross_info - set(cross_info))) self.info = cross_info self.held_object = environment.MachineInfo(cross_info['system'], cross_info['cpu_family'], cross_info['cpu'], cross_info['endian']) self.methods.update({'system': self.system_method, 'cpu': self.cpu_method, 'cpu_family': self.cpu_family_method, 'endian': self.endian_method, }) def cpu_family_method(self, args, kwargs): return self.held_object.cpu_family def cpu_method(self, args, kwargs): return self.held_object.cpu def system_method(self, args, kwargs): return self.held_object.system def endian_method(self, args, kwargs): return self.held_object.endian class IncludeDirsHolder(InterpreterObject): def __init__(self, idobj): super().__init__() self.held_object = idobj class Headers(InterpreterObject): def __init__(self, sources, kwargs): InterpreterObject.__init__(self) self.sources = sources self.install_subdir = kwargs.get('subdir', '') self.custom_install_dir = kwargs.get('install_dir', None) if self.custom_install_dir is not None: if not isinstance(self.custom_install_dir, str): raise InterpreterException('Custom_install_dir must be a string.') def set_install_subdir(self, subdir): self.install_subdir = subdir def get_install_subdir(self): return self.install_subdir def get_sources(self): return self.sources def get_custom_install_dir(self): return self.custom_install_dir class DataHolder(InterpreterObject): def __init__(self, data): super().__init__() self.held_object = data def get_source_subdir(self): return self.held_object.source_subdir def get_sources(self): return self.held_object.sources def get_install_dir(self): return self.held_object.install_dir class InstallDir(InterpreterObject): def __init__(self, src_subdir, inst_subdir, install_dir, install_mode): InterpreterObject.__init__(self) self.source_subdir = src_subdir self.installable_subdir = inst_subdir self.install_dir = install_dir self.install_mode = install_mode class Man(InterpreterObject): def __init__(self, source_subdir, sources, kwargs): InterpreterObject.__init__(self) self.source_subdir = source_subdir self.sources = sources self.validate_sources() if len(kwargs) > 1: raise InvalidArguments('Man function takes at most one keyword arguments.') self.custom_install_dir = kwargs.get('install_dir', None) if self.custom_install_dir is not None and not isinstance(self.custom_install_dir, str): raise InterpreterException('Custom_install_dir must be a string.') def validate_sources(self): for s in self.sources: try: num = int(s.split('.')[-1]) except (IndexError, ValueError): num = 0 if num < 1 or num > 8: raise InvalidArguments('Man file must have a file extension of a number between 1 and 8') def get_custom_install_dir(self): return self.custom_install_dir def get_sources(self): return self.sources def get_source_subdir(self): return self.source_subdir class GeneratedObjectsHolder(InterpreterObject): def __init__(self, held_object): super().__init__() self.held_object = held_object class TargetHolder(InterpreterObject): def __init__(self): super().__init__() class BuildTargetHolder(TargetHolder): def __init__(self, target, interp): super().__init__() self.held_object = target self.interpreter = interp self.methods.update({'extract_objects': self.extract_objects_method, 'extract_all_objects': self.extract_all_objects_method, 'get_id': self.get_id_method, 'outdir': self.outdir_method, 'full_path': self.full_path_method, 'private_dir_include': self.private_dir_include_method, }) def __repr__(self): r = '<{} {}: {}>' h = self.held_object return r.format(self.__class__.__name__, h.get_id(), h.filename) def is_cross(self): return self.held_object.is_cross() def private_dir_include_method(self, args, kwargs): return IncludeDirsHolder(build.IncludeDirs('', [], False, [self.interpreter.backend.get_target_private_dir(self.held_object)])) def full_path_method(self, args, kwargs): return self.interpreter.backend.get_target_filename_abs(self.held_object) def outdir_method(self, args, kwargs): return self.interpreter.backend.get_target_dir(self.held_object) def extract_objects_method(self, args, kwargs): gobjs = self.held_object.extract_objects(args) return GeneratedObjectsHolder(gobjs) def extract_all_objects_method(self, args, kwargs): gobjs = self.held_object.extract_all_objects() return GeneratedObjectsHolder(gobjs) def get_id_method(self, args, kwargs): return self.held_object.get_id() class ExecutableHolder(BuildTargetHolder): def __init__(self, target, interp): super().__init__(target, interp) class StaticLibraryHolder(BuildTargetHolder): def __init__(self, target, interp): super().__init__(target, interp) class SharedLibraryHolder(BuildTargetHolder): def __init__(self, target, interp): super().__init__(target, interp) class SharedModuleHolder(BuildTargetHolder): def __init__(self, target, interp): super().__init__(target, interp) class JarHolder(BuildTargetHolder): def __init__(self, target, interp): super().__init__(target, interp) class CustomTargetHolder(TargetHolder): def __init__(self, object_to_hold, interp): super().__init__() self.held_object = object_to_hold self.interpreter = interp self.methods.update({'full_path': self.full_path_method, }) def __repr__(self): r = '<{} {}: {}>' h = self.held_object return r.format(self.__class__.__name__, h.get_id(), h.command) def full_path_method(self, args, kwargs): return self.interpreter.backend.get_target_filename_abs(self.held_object) class RunTargetHolder(InterpreterObject): def __init__(self, name, command, args, dependencies, subdir): self.held_object = build.RunTarget(name, command, args, dependencies, subdir) def __repr__(self): r = '<{} {}: {}>' h = self.held_object return r.format(self.__class__.__name__, h.get_id(), h.command) class Test(InterpreterObject): def __init__(self, name, suite, exe, is_parallel, cmd_args, env, should_fail, timeout, workdir): InterpreterObject.__init__(self) self.name = name self.suite = suite self.exe = exe self.is_parallel = is_parallel self.cmd_args = cmd_args self.env = env self.should_fail = should_fail self.timeout = timeout self.workdir = workdir def get_exe(self): return self.exe def get_name(self): return self.name class SubprojectHolder(InterpreterObject): def __init__(self, subinterpreter): super().__init__() self.held_object = subinterpreter self.methods.update({'get_variable': self.get_variable_method, }) def get_variable_method(self, args, kwargs): if len(args) != 1: raise InterpreterException('Get_variable takes one argument.') varname = args[0] if not isinstance(varname, str): raise InterpreterException('Get_variable takes a string argument.') return self.held_object.variables[varname] class CompilerHolder(InterpreterObject): def __init__(self, compiler, env): InterpreterObject.__init__(self) self.compiler = compiler self.environment = env self.methods.update({'compiles': self.compiles_method, 'links': self.links_method, 'get_id': self.get_id_method, 'compute_int': self.compute_int_method, 'sizeof': self.sizeof_method, 'get_define': self.get_define_method, 'has_header': self.has_header_method, 'has_header_symbol': self.has_header_symbol_method, 'run': self.run_method, 'has_function': self.has_function_method, 'has_member': self.has_member_method, 'has_members': self.has_members_method, 'has_type': self.has_type_method, 'alignment': self.alignment_method, 'version': self.version_method, 'cmd_array': self.cmd_array_method, 'find_library': self.find_library_method, 'has_argument': self.has_argument_method, 'has_multi_arguments': self.has_multi_arguments_method, 'first_supported_argument': self.first_supported_argument_method, 'unittest_args': self.unittest_args_method, 'symbols_have_underscore_prefix': self.symbols_have_underscore_prefix_method, }) def version_method(self, args, kwargs): return self.compiler.version def cmd_array_method(self, args, kwargs): return self.compiler.exelist def determine_args(self, kwargs): nobuiltins = kwargs.get('no_builtin_args', False) if not isinstance(nobuiltins, bool): raise InterpreterException('Type of no_builtin_args not a boolean.') args = [] incdirs = kwargs.get('include_directories', []) if not isinstance(incdirs, list): incdirs = [incdirs] for i in incdirs: if not isinstance(i, IncludeDirsHolder): raise InterpreterException('Include directories argument must be an include_directories object.') for idir in i.held_object.get_incdirs(): idir = os.path.join(self.environment.get_source_dir(), idir) args += self.compiler.get_include_args(idir, False) if not nobuiltins: opts = self.environment.coredata.compiler_options args += self.compiler.get_option_compile_args(opts) args += self.compiler.get_option_link_args(opts) args += mesonlib.stringlistify(kwargs.get('args', [])) return args def determine_dependencies(self, kwargs): deps = kwargs.get('dependencies', None) if deps is not None: if not isinstance(deps, list): deps = [deps] final_deps = [] for d in deps: try: d = d.held_object except Exception: pass if isinstance(d, InternalDependency) or not isinstance(d, Dependency): raise InterpreterException('Dependencies must be external dependencies') final_deps.append(d) deps = final_deps return deps def alignment_method(self, args, kwargs): if len(args) != 1: raise InterpreterException('Alignment method takes exactly one positional argument.') check_stringlist(args) typename = args[0] prefix = kwargs.get('prefix', '') if not isinstance(prefix, str): raise InterpreterException('Prefix argument of sizeof must be a string.') extra_args = mesonlib.stringlistify(kwargs.get('args', [])) deps = self.determine_dependencies(kwargs) result = self.compiler.alignment(typename, prefix, self.environment, extra_args, deps) mlog.log('Checking for alignment of "', mlog.bold(typename), '": ', result, sep='') return result def run_method(self, args, kwargs): if len(args) != 1: raise InterpreterException('Run method takes exactly one positional argument.') code = args[0] if isinstance(code, mesonlib.File): code = mesonlib.File.from_absolute_file( code.rel_to_builddir(self.environment.source_dir)) elif not isinstance(code, str): raise InvalidArguments('Argument must be string or file.') testname = kwargs.get('name', '') if not isinstance(testname, str): raise InterpreterException('Testname argument must be a string.') extra_args = self.determine_args(kwargs) deps = self.determine_dependencies(kwargs) result = self.compiler.run(code, self.environment, extra_args, deps) if len(testname) > 0: if not result.compiled: h = mlog.red('DID NOT COMPILE') elif result.returncode == 0: h = mlog.green('YES') else: h = mlog.red('NO (%d)' % result.returncode) mlog.log('Checking if "', mlog.bold(testname), '" runs: ', h, sep='') return TryRunResultHolder(result) def get_id_method(self, args, kwargs): return self.compiler.get_id() def symbols_have_underscore_prefix_method(self, args, kwargs): ''' Check if the compiler prefixes _ (underscore) to global C symbols See: https://en.wikipedia.org/wiki/Name_mangling#C ''' return self.compiler.symbols_have_underscore_prefix(self.environment) def unittest_args_method(self, args, kwargs): # At time, only D compilers have this feature. if not hasattr(self.compiler, 'get_unittest_args'): raise InterpreterException('This {} compiler has no unittest arguments.'.format(self.compiler.language)) return self.compiler.get_unittest_args() def has_member_method(self, args, kwargs): if len(args) != 2: raise InterpreterException('Has_member takes exactly two arguments.') check_stringlist(args) typename = args[0] membername = args[1] prefix = kwargs.get('prefix', '') if not isinstance(prefix, str): raise InterpreterException('Prefix argument of has_member must be a string.') extra_args = self.determine_args(kwargs) deps = self.determine_dependencies(kwargs) had = self.compiler.has_members(typename, [membername], prefix, self.environment, extra_args, deps) if had: hadtxt = mlog.green('YES') else: hadtxt = mlog.red('NO') mlog.log('Checking whether type "', mlog.bold(typename), '" has member "', mlog.bold(membername), '": ', hadtxt, sep='') return had def has_members_method(self, args, kwargs): check_stringlist(args) typename = args[0] membernames = args[1:] prefix = kwargs.get('prefix', '') if not isinstance(prefix, str): raise InterpreterException('Prefix argument of has_members must be a string.') extra_args = self.determine_args(kwargs) deps = self.determine_dependencies(kwargs) had = self.compiler.has_members(typename, membernames, prefix, self.environment, extra_args, deps) if had: hadtxt = mlog.green('YES') else: hadtxt = mlog.red('NO') members = mlog.bold(', '.join(['"{}"'.format(m) for m in membernames])) mlog.log('Checking whether type "', mlog.bold(typename), '" has members ', members, ': ', hadtxt, sep='') return had def has_function_method(self, args, kwargs): if len(args) != 1: raise InterpreterException('Has_function takes exactly one argument.') check_stringlist(args) funcname = args[0] prefix = kwargs.get('prefix', '') if not isinstance(prefix, str): raise InterpreterException('Prefix argument of has_function must be a string.') extra_args = self.determine_args(kwargs) deps = self.determine_dependencies(kwargs) had = self.compiler.has_function(funcname, prefix, self.environment, extra_args, deps) if had: hadtxt = mlog.green('YES') else: hadtxt = mlog.red('NO') mlog.log('Checking for function "', mlog.bold(funcname), '": ', hadtxt, sep='') return had def has_type_method(self, args, kwargs): if len(args) != 1: raise InterpreterException('Has_type takes exactly one argument.') check_stringlist(args) typename = args[0] prefix = kwargs.get('prefix', '') if not isinstance(prefix, str): raise InterpreterException('Prefix argument of has_type must be a string.') extra_args = self.determine_args(kwargs) deps = self.determine_dependencies(kwargs) had = self.compiler.has_type(typename, prefix, self.environment, extra_args, deps) if had: hadtxt = mlog.green('YES') else: hadtxt = mlog.red('NO') mlog.log('Checking for type "', mlog.bold(typename), '": ', hadtxt, sep='') return had def compute_int_method(self, args, kwargs): if len(args) != 1: raise InterpreterException('Compute_int takes exactly one argument.') check_stringlist(args) expression = args[0] prefix = kwargs.get('prefix', '') l = kwargs.get('low', -1024) h = kwargs.get('high', 1024) guess = kwargs.get('guess', None) if not isinstance(prefix, str): raise InterpreterException('Prefix argument of compute_int must be a string.') if not isinstance(l, int): raise InterpreterException('Low argument of compute_int must be an int.') if not isinstance(h, int): raise InterpreterException('High argument of compute_int must be an int.') if guess is not None and not isinstance(guess, int): raise InterpreterException('Guess argument of compute_int must be an int.') extra_args = self.determine_args(kwargs) deps = self.determine_dependencies(kwargs) res = self.compiler.compute_int(expression, l, h, guess, prefix, self.environment, extra_args, deps) mlog.log('Computing int of "%s": %d' % (expression, res)) return res def sizeof_method(self, args, kwargs): if len(args) != 1: raise InterpreterException('Sizeof takes exactly one argument.') check_stringlist(args) element = args[0] prefix = kwargs.get('prefix', '') if not isinstance(prefix, str): raise InterpreterException('Prefix argument of sizeof must be a string.') extra_args = self.determine_args(kwargs) deps = self.determine_dependencies(kwargs) esize = self.compiler.sizeof(element, prefix, self.environment, extra_args, deps) mlog.log('Checking for size of "%s": %d' % (element, esize)) return esize def get_define_method(self, args, kwargs): if len(args) != 1: raise InterpreterException('get_define() takes exactly one argument.') check_stringlist(args) element = args[0] prefix = kwargs.get('prefix', '') if not isinstance(prefix, str): raise InterpreterException('Prefix argument of get_define() must be a string.') extra_args = self.determine_args(kwargs) deps = self.determine_dependencies(kwargs) value = self.compiler.get_define(element, prefix, self.environment, extra_args, deps) mlog.log('Checking for value of define "%s": %s' % (element, value)) return value def compiles_method(self, args, kwargs): if len(args) != 1: raise InterpreterException('compiles method takes exactly one argument.') code = args[0] if isinstance(code, mesonlib.File): code = mesonlib.File.from_absolute_file( code.rel_to_builddir(self.environment.source_dir)) elif not isinstance(code, str): raise InvalidArguments('Argument must be string or file.') testname = kwargs.get('name', '') if not isinstance(testname, str): raise InterpreterException('Testname argument must be a string.') extra_args = self.determine_args(kwargs) deps = self.determine_dependencies(kwargs) result = self.compiler.compiles(code, self.environment, extra_args, deps) if len(testname) > 0: if result: h = mlog.green('YES') else: h = mlog.red('NO') mlog.log('Checking if "', mlog.bold(testname), '" compiles: ', h, sep='') return result def links_method(self, args, kwargs): if len(args) != 1: raise InterpreterException('links method takes exactly one argument.') code = args[0] if isinstance(code, mesonlib.File): code = mesonlib.File.from_absolute_file( code.rel_to_builddir(self.environment.source_dir)) elif not isinstance(code, str): raise InvalidArguments('Argument must be string or file.') testname = kwargs.get('name', '') if not isinstance(testname, str): raise InterpreterException('Testname argument must be a string.') extra_args = self.determine_args(kwargs) deps = self.determine_dependencies(kwargs) result = self.compiler.links(code, self.environment, extra_args, deps) if len(testname) > 0: if result: h = mlog.green('YES') else: h = mlog.red('NO') mlog.log('Checking if "', mlog.bold(testname), '" links: ', h, sep='') return result def has_header_method(self, args, kwargs): if len(args) != 1: raise InterpreterException('has_header method takes exactly one argument.') check_stringlist(args) hname = args[0] prefix = kwargs.get('prefix', '') if not isinstance(prefix, str): raise InterpreterException('Prefix argument of has_header must be a string.') extra_args = self.determine_args(kwargs) deps = self.determine_dependencies(kwargs) haz = self.compiler.has_header(hname, prefix, self.environment, extra_args, deps) if haz: h = mlog.green('YES') else: h = mlog.red('NO') mlog.log('Has header "%s":' % hname, h) return haz def has_header_symbol_method(self, args, kwargs): if len(args) != 2: raise InterpreterException('has_header_symbol method takes exactly two arguments.') check_stringlist(args) hname = args[0] symbol = args[1] prefix = kwargs.get('prefix', '') if not isinstance(prefix, str): raise InterpreterException('Prefix argument of has_header_symbol must be a string.') extra_args = self.determine_args(kwargs) deps = self.determine_dependencies(kwargs) haz = self.compiler.has_header_symbol(hname, symbol, prefix, self.environment, extra_args, deps) if haz: h = mlog.green('YES') else: h = mlog.red('NO') mlog.log('Header <{0}> has symbol "{1}":'.format(hname, symbol), h) return haz def find_library_method(self, args, kwargs): # TODO add dependencies support? if len(args) != 1: raise InterpreterException('find_library method takes one argument.') libname = args[0] if not isinstance(libname, str): raise InterpreterException('Library name not a string.') required = kwargs.get('required', True) if not isinstance(required, bool): raise InterpreterException('required must be boolean.') search_dirs = mesonlib.stringlistify(kwargs.get('dirs', [])) for i in search_dirs: if not os.path.isabs(i): raise InvalidCode('Search directory %s is not an absolute path.' % i) linkargs = self.compiler.find_library(libname, self.environment, search_dirs) if required and not linkargs: l = self.compiler.language.capitalize() raise InterpreterException('{} library {!r} not found'.format(l, libname)) lib = dependencies.ExternalLibrary(libname, linkargs, self.compiler.language) return ExternalLibraryHolder(lib) def has_argument_method(self, args, kwargs): args = mesonlib.stringlistify(args) if len(args) != 1: raise InterpreterException('Has_arg takes exactly one argument.') result = self.compiler.has_argument(args[0], self.environment) if result: h = mlog.green('YES') else: h = mlog.red('NO') mlog.log('Compiler for {} supports argument {}:'.format(self.compiler.language, args[0]), h) return result def has_multi_arguments_method(self, args, kwargs): args = mesonlib.stringlistify(args) result = self.compiler.has_multi_arguments(args, self.environment) if result: h = mlog.green('YES') else: h = mlog.red('NO') mlog.log( 'Compiler for {} supports arguments {}:'.format( self.compiler.language, ' '.join(args)), h) return result def first_supported_argument_method(self, args, kwargs): for i in mesonlib.stringlistify(args): if self.compiler.has_argument(i, self.environment): mlog.log('First supported argument:', mlog.bold(i)) return [i] mlog.log('First supported argument:', mlog.red('None')) return [] ModuleState = namedtuple('ModuleState', [ 'build_to_src', 'subdir', 'environment', 'project_name', 'project_version', 'compilers', 'targets', 'data', 'headers', 'man', 'global_args', 'project_args', 'build_machine', 'host_machine', 'target_machine']) class ModuleHolder(InterpreterObject): def __init__(self, modname, module, interpreter): InterpreterObject.__init__(self) self.modname = modname self.held_object = module self.interpreter = interpreter def method_call(self, method_name, args, kwargs): try: fn = getattr(self.held_object, method_name) except AttributeError: raise InvalidArguments('Module %s does not have method %s.' % (self.modname, method_name)) if method_name.startswith('_'): raise InvalidArguments('Function {!r} in module {!r} is private.'.format(method_name, self.modname)) # This is not 100% reliable but we can't use hash() # because the Build object contains dicts and lists. num_targets = len(self.interpreter.build.targets) state = ModuleState( build_to_src=os.path.relpath(self.interpreter.environment.get_source_dir(), self.interpreter.environment.get_build_dir()), subdir=self.interpreter.subdir, environment=self.interpreter.environment, project_name=self.interpreter.build.project_name, project_version=self.interpreter.build.dep_manifest[self.interpreter.active_projectname], compilers=self.interpreter.build.compilers, targets=self.interpreter.build.targets, data=self.interpreter.build.data, headers=self.interpreter.build.get_headers(), man=self.interpreter.build.get_man(), global_args=self.interpreter.build.global_args, project_args=self.interpreter.build.projects_args.get(self.interpreter.subproject, {}), build_machine=self.interpreter.builtin['build_machine'].held_object, host_machine=self.interpreter.builtin['host_machine'].held_object, target_machine=self.interpreter.builtin['target_machine'].held_object, ) if self.held_object.is_snippet(method_name): value = fn(self.interpreter, state, args, kwargs) return self.interpreter.holderify(value) else: value = fn(state, args, kwargs) if num_targets != len(self.interpreter.build.targets): raise InterpreterException('Extension module altered internal state illegally.') return self.interpreter.module_method_callback(value) class MesonMain(InterpreterObject): def __init__(self, build, interpreter): InterpreterObject.__init__(self) self.build = build self.interpreter = interpreter self._found_source_scripts = {} self.methods.update({'get_compiler': self.get_compiler_method, 'is_cross_build': self.is_cross_build_method, 'has_exe_wrapper': self.has_exe_wrapper_method, 'is_unity': self.is_unity_method, 'is_subproject': self.is_subproject_method, 'current_source_dir': self.current_source_dir_method, 'current_build_dir': self.current_build_dir_method, 'source_root': self.source_root_method, 'build_root': self.build_root_method, 'add_install_script': self.add_install_script_method, 'add_postconf_script': self.add_postconf_script_method, 'install_dependency_manifest': self.install_dependency_manifest_method, 'project_version': self.project_version_method, 'version': self.version_method, 'project_name': self.project_name_method, 'get_cross_property': self.get_cross_property_method, 'backend': self.backend_method, }) def _find_source_script(self, name, args): # Prefer scripts in the current source directory search_dir = os.path.join(self.interpreter.environment.source_dir, self.interpreter.subdir) key = (name, search_dir) if key in self._found_source_scripts: found = self._found_source_scripts[key] else: found = dependencies.ExternalProgram(name, search_dir=search_dir) if found.found(): self._found_source_scripts[key] = found else: m = 'Script or command {!r} not found or not executable' raise InterpreterException(m.format(name)) return build.RunScript(found.get_command(), args) def add_install_script_method(self, args, kwargs): if len(args) < 1: raise InterpreterException('add_install_script takes one or more arguments') check_stringlist(args, 'add_install_script args must be strings') script = self._find_source_script(args[0], args[1:]) self.build.install_scripts.append(script) def add_postconf_script_method(self, args, kwargs): if len(args) < 1: raise InterpreterException('add_postconf_script takes one or more arguments') check_stringlist(args, 'add_postconf_script arguments must be strings') script = self._find_source_script(args[0], args[1:]) self.build.postconf_scripts.append(script) def current_source_dir_method(self, args, kwargs): src = self.interpreter.environment.source_dir sub = self.interpreter.subdir if sub == '': return src return os.path.join(src, sub) def current_build_dir_method(self, args, kwargs): src = self.interpreter.environment.build_dir sub = self.interpreter.subdir if sub == '': return src return os.path.join(src, sub) def backend_method(self, args, kwargs): return self.interpreter.backend.name def source_root_method(self, args, kwargs): return self.interpreter.environment.source_dir def build_root_method(self, args, kwargs): return self.interpreter.environment.build_dir def has_exe_wrapper_method(self, args, kwargs): if self.is_cross_build_method(None, None) and \ 'binaries' in self.build.environment.cross_info.config and \ self.build.environment.cross_info.need_exe_wrapper(): exe_wrap = self.build.environment.cross_info.config['binaries'].get('exe_wrapper', None) if exe_wrap is None: return False # We return True when exe_wrap is defined, when it's not needed, and # when we're compiling natively. The last two are semantically confusing. # Need to revisit this. return True def is_cross_build_method(self, args, kwargs): return self.build.environment.is_cross_build() def get_compiler_method(self, args, kwargs): if len(args) != 1: raise InterpreterException('get_compiler_method must have one and only one argument.') cname = args[0] native = kwargs.get('native', None) if native is None: if self.build.environment.is_cross_build(): native = False else: native = True if not isinstance(native, bool): raise InterpreterException('Type of "native" must be a boolean.') if native: clist = self.build.compilers else: clist = self.build.cross_compilers if cname in clist: return CompilerHolder(clist[cname], self.build.environment) raise InterpreterException('Tried to access compiler for unspecified language "%s".' % cname) def is_unity_method(self, args, kwargs): optval = self.interpreter.environment.coredata.get_builtin_option('unity') if optval == 'on' or (optval == 'subprojects' and self.interpreter.subproject != ''): return True return False def is_subproject_method(self, args, kwargs): return self.interpreter.is_subproject() def install_dependency_manifest_method(self, args, kwargs): if len(args) != 1: raise InterpreterException('Must specify manifest install file name') if not isinstance(args[0], str): raise InterpreterException('Argument must be a string.') self.build.dep_manifest_name = args[0] def project_version_method(self, args, kwargs): return self.build.dep_manifest[self.interpreter.active_projectname]['version'] def version_method(self, args, kwargs): return coredata.version def project_name_method(self, args, kwargs): return self.interpreter.active_projectname def get_cross_property_method(self, args, kwargs): if len(args) < 1 or len(args) > 2: raise InterpreterException('Must have one or two arguments.') propname = args[0] if not isinstance(propname, str): raise InterpreterException('Property name must be string.') try: props = self.interpreter.environment.cross_info.get_properties() return props[propname] except Exception: if len(args) == 2: return args[1] raise InterpreterException('Unknown cross property: %s.' % propname) class Interpreter(InterpreterBase): def __init__(self, build, backend, subproject='', subdir='', subproject_dir='subprojects', default_project_options=[]): super().__init__(build.environment.get_source_dir(), subdir) self.build = build self.environment = build.environment self.coredata = self.environment.get_coredata() self.backend = backend self.subproject = subproject self.subproject_dir = subproject_dir self.option_file = os.path.join(self.source_root, self.subdir, 'meson_options.txt') self.load_root_meson_file() self.sanity_check_ast() self.builtin.update({'meson': MesonMain(build, self)}) self.generators = [] self.visited_subdirs = {} self.project_args_frozen = False self.global_args_frozen = False # implies self.project_args_frozen self.subprojects = {} self.subproject_stack = [] self.default_project_options = default_project_options[:] # Passed from the outside, only used in subprojects. self.build_func_dict() self.parse_project() self.builtin['build_machine'] = BuildMachine(self.coredata.compilers) if not self.build.environment.is_cross_build(): self.builtin['host_machine'] = self.builtin['build_machine'] self.builtin['target_machine'] = self.builtin['build_machine'] else: cross_info = self.build.environment.cross_info if cross_info.has_host(): self.builtin['host_machine'] = CrossMachineInfo(cross_info.config['host_machine']) else: self.builtin['host_machine'] = self.builtin['build_machine'] if cross_info.has_target(): self.builtin['target_machine'] = CrossMachineInfo(cross_info.config['target_machine']) else: self.builtin['target_machine'] = self.builtin['host_machine'] self.build_def_files = [os.path.join(self.subdir, environment.build_filename)] def build_func_dict(self): self.funcs.update({'project': self.func_project, 'message': self.func_message, 'error': self.func_error, 'executable': self.func_executable, 'dependency': self.func_dependency, 'static_library': self.func_static_lib, 'shared_library': self.func_shared_lib, 'shared_module': self.func_shared_module, 'library': self.func_library, 'jar': self.func_jar, 'build_target': self.func_build_target, 'custom_target': self.func_custom_target, 'run_target': self.func_run_target, 'generator': self.func_generator, 'test': self.func_test, 'benchmark': self.func_benchmark, 'install_headers': self.func_install_headers, 'install_man': self.func_install_man, 'subdir': self.func_subdir, 'install_data': self.func_install_data, 'install_subdir': self.func_install_subdir, 'configure_file': self.func_configure_file, 'include_directories': self.func_include_directories, 'add_global_arguments': self.func_add_global_arguments, 'add_project_arguments': self.func_add_project_arguments, 'add_global_link_arguments': self.func_add_global_link_arguments, 'add_project_link_arguments': self.func_add_project_link_arguments, 'add_test_setup': self.func_add_test_setup, 'add_languages': self.func_add_languages, 'find_program': self.func_find_program, 'find_library': self.func_find_library, 'configuration_data': self.func_configuration_data, 'run_command': self.func_run_command, 'gettext': self.func_gettext, 'option': self.func_option, 'get_option': self.func_get_option, 'subproject': self.func_subproject, 'vcs_tag': self.func_vcs_tag, 'set_variable': self.func_set_variable, 'is_variable': self.func_is_variable, 'get_variable': self.func_get_variable, 'import': self.func_import, 'files': self.func_files, 'declare_dependency': self.func_declare_dependency, 'assert': self.func_assert, 'environment': self.func_environment, 'join_paths': self.func_join_paths, }) def holderify(self, item): if isinstance(item, list): return [self.holderify(x) for x in item] if isinstance(item, build.CustomTarget): return CustomTargetHolder(item, self) elif isinstance(item, (int, str)) or item is None: return item elif isinstance(item, build.Executable): return ExecutableHolder(item, self) elif isinstance(item, build.GeneratedList): return GeneratedListHolder(item) elif isinstance(item, build.RunTarget): raise RuntimeError('This is not a pipe.') elif isinstance(item, build.RunScript): raise RuntimeError('Do not do this.') elif isinstance(item, build.Data): return DataHolder(item) elif isinstance(item, dependencies.InternalDependency): return InternalDependencyHolder(item) elif isinstance(item, dependencies.ExternalProgram): return ExternalProgramHolder(item) elif hasattr(item, 'held_object'): return item else: raise InterpreterException('Module returned a value of unknown type.') def process_new_values(self, invalues): if not isinstance(invalues, list): invalues = [invalues] for v in invalues: if isinstance(v, (build.BuildTarget, build.CustomTarget, build.RunTarget)): self.add_target(v.name, v) elif isinstance(v, list): self.module_method_callback(v) elif isinstance(v, build.GeneratedList): pass elif isinstance(v, build.RunScript): self.build.install_scripts.append(v) elif isinstance(v, build.Data): self.build.data.append(v) elif isinstance(v, dependencies.ExternalProgram): return ExternalProgramHolder(v) elif isinstance(v, dependencies.InternalDependency): # FIXME: This is special cased and not ideal: # The first source is our new VapiTarget, the rest are deps self.process_new_values(v.sources[0]) elif hasattr(v, 'held_object'): pass else: raise InterpreterException('Module returned a value of unknown type.') def module_method_callback(self, return_object): if not isinstance(return_object, ModuleReturnValue): assert False raise InterpreterException('Bug in module, it returned an invalid object') invalues = return_object.new_objects self.process_new_values(invalues) return self.holderify(return_object.return_value) def get_build_def_files(self): return self.build_def_files def get_variables(self): return self.variables def check_cross_stdlibs(self): if self.build.environment.is_cross_build(): cross_info = self.build.environment.cross_info for l, c in self.build.cross_compilers.items(): try: di = mesonlib.stringlistify(cross_info.get_stdlib(l)) if len(di) != 2: raise InterpreterException('Stdlib definition for %s should have exactly two elements.' % l) projname, depname = di subproj = self.do_subproject(projname, {}) self.build.cross_stdlibs[l] = subproj.get_variable_method([depname], {}) except KeyError: pass @stringArgs @noKwargs def func_import(self, node, args, kwargs): if len(args) != 1: raise InvalidCode('Import takes one argument.') modname = args[0] if modname not in self.environment.coredata.modules: try: module = importlib.import_module('mesonbuild.modules.' + modname) except ImportError: raise InvalidArguments('Module "%s" does not exist' % (modname, )) self.environment.coredata.modules[modname] = module.initialize() return ModuleHolder(modname, self.environment.coredata.modules[modname], self) @stringArgs @noKwargs def func_files(self, node, args, kwargs): return [mesonlib.File.from_source_file(self.environment.source_dir, self.subdir, fname) for fname in args] @noPosargs def func_declare_dependency(self, node, args, kwargs): version = kwargs.get('version', self.project_version) if not isinstance(version, str): raise InterpreterException('Version must be a string.') incs = kwargs.get('include_directories', []) if not isinstance(incs, list): incs = [incs] libs = kwargs.get('link_with', []) if not isinstance(libs, list): libs = [libs] sources = kwargs.get('sources', []) if not isinstance(sources, list): sources = [sources] sources = self.source_strings_to_files(self.flatten(sources)) deps = self.flatten(kwargs.get('dependencies', [])) if not isinstance(deps, list): deps = [deps] compile_args = mesonlib.stringlistify(kwargs.get('compile_args', [])) link_args = mesonlib.stringlistify(kwargs.get('link_args', [])) final_deps = [] for d in deps: try: d = d.held_object except Exception: pass if not isinstance(d, (dependencies.Dependency, dependencies.ExternalLibrary, dependencies.InternalDependency)): raise InterpreterException('Dependencies must be external deps') final_deps.append(d) dep = dependencies.InternalDependency(version, incs, compile_args, link_args, libs, sources, final_deps) return DependencyHolder(dep) @noKwargs def func_assert(self, node, args, kwargs): if len(args) != 2: raise InterpreterException('Assert takes exactly two arguments') value, message = args if not isinstance(value, bool): raise InterpreterException('Assert value not bool.') if not isinstance(message, str): raise InterpreterException('Assert message not a string.') if not value: raise InterpreterException('Assert failed: ' + message) def validate_arguments(self, args, argcount, arg_types): if argcount is not None: if argcount != len(args): raise InvalidArguments('Expected %d arguments, got %d.' % (argcount, len(args))) for i in range(min(len(args), len(arg_types))): wanted = arg_types[i] actual = args[i] if wanted is not None: if not isinstance(actual, wanted): raise InvalidArguments('Incorrect argument type.') def func_run_command(self, node, args, kwargs): if len(args) < 1: raise InterpreterException('Not enough arguments') cmd = args[0] cargs = args[1:] srcdir = self.environment.get_source_dir() builddir = self.environment.get_build_dir() m = 'must be a string, or the output of find_program(), files(), or ' \ 'configure_file(); not {!r}' if isinstance(cmd, ExternalProgramHolder): cmd = cmd.held_object else: if isinstance(cmd, mesonlib.File): cmd = cmd.absolute_path(srcdir, builddir) elif not isinstance(cmd, str): raise InterpreterException('First argument ' + m.format(cmd)) # Prefer scripts in the current source directory search_dir = os.path.join(srcdir, self.subdir) prog = ExternalProgram(cmd, silent=True, search_dir=search_dir) if not prog.found(): raise InterpreterException('Program or command {!r} not found' 'or not executable'.format(cmd)) cmd = prog expanded_args = [] for a in mesonlib.flatten(cargs): if isinstance(a, str): expanded_args.append(a) elif isinstance(a, mesonlib.File): expanded_args.append(a.absolute_path(srcdir, builddir)) elif isinstance(a, ExternalProgramHolder): expanded_args.append(a.held_object.get_path()) else: raise InterpreterException('Arguments ' + m.format(a)) in_builddir = kwargs.get('in_builddir', False) if not isinstance(in_builddir, bool): raise InterpreterException('in_builddir must be boolean.') return RunProcess(cmd, expanded_args, srcdir, builddir, self.subdir, get_meson_script(self.environment, 'mesonintrospect'), in_builddir) @stringArgs def func_gettext(self, nodes, args, kwargs): raise InterpreterException('Gettext() function has been moved to module i18n. Import it and use i18n.gettext() instead') def func_option(self, nodes, args, kwargs): raise InterpreterException('Tried to call option() in build description file. All options must be in the option file.') @stringArgs def func_subproject(self, nodes, args, kwargs): if len(args) != 1: raise InterpreterException('Subproject takes exactly one argument') dirname = args[0] return self.do_subproject(dirname, kwargs) def do_subproject(self, dirname, kwargs): if dirname in self.subproject_stack: fullstack = self.subproject_stack + [dirname] incpath = ' => '.join(fullstack) raise InvalidCode('Recursive include of subprojects: %s.' % incpath) if dirname in self.subprojects: return self.subprojects[dirname] subproject_dir_abs = os.path.join(self.environment.get_source_dir(), self.subproject_dir) r = wrap.Resolver(subproject_dir_abs, self.coredata.wrap_mode) try: resolved = r.resolve(dirname) except RuntimeError as e: msg = 'Subproject directory {!r} does not exist and cannot be downloaded:\n{}' raise InterpreterException(msg.format(os.path.join(self.subproject_dir, dirname), e)) subdir = os.path.join(self.subproject_dir, resolved) os.makedirs(os.path.join(self.build.environment.get_build_dir(), subdir), exist_ok=True) self.global_args_frozen = True mlog.log('\nExecuting subproject ', mlog.bold(dirname), '.\n', sep='') subi = Interpreter(self.build, self.backend, dirname, subdir, self.subproject_dir, mesonlib.stringlistify(kwargs.get('default_options', []))) subi.subprojects = self.subprojects subi.subproject_stack = self.subproject_stack + [dirname] current_active = self.active_projectname subi.run() if 'version' in kwargs: pv = subi.project_version wanted = kwargs['version'] if pv == 'undefined' or not mesonlib.version_compare(pv, wanted): raise InterpreterException('Subproject %s version is %s but %s required.' % (dirname, pv, wanted)) self.active_projectname = current_active mlog.log('\nSubproject', mlog.bold(dirname), 'finished.') self.build.subprojects[dirname] = subi.project_version self.subprojects.update(subi.subprojects) self.subprojects[dirname] = SubprojectHolder(subi) self.build_def_files += subi.build_def_files return self.subprojects[dirname] @stringArgs @noKwargs def func_get_option(self, nodes, args, kwargs): if len(args) != 1: raise InterpreterException('Argument required for get_option.') optname = args[0] try: return self.environment.get_coredata().get_builtin_option(optname) except RuntimeError: pass try: return self.environment.coredata.compiler_options[optname].value except KeyError: pass if not coredata.is_builtin_option(optname) and self.is_subproject(): optname = self.subproject + ':' + optname try: return self.environment.coredata.user_options[optname].value except KeyError: pass if optname.endswith('_link_args'): try: lang = optname[:-10] return self.coredata.external_link_args[lang] except KeyError: pass if optname.endswith('_args'): try: lang = optname[:-5] return self.coredata.external_args[lang] except KeyError: pass raise InterpreterException('Tried to access unknown option "%s".' % optname) @noKwargs def func_configuration_data(self, node, args, kwargs): if args: raise InterpreterException('configuration_data takes no arguments') return ConfigurationDataHolder() def parse_default_options(self, default_options): if not isinstance(default_options, list): default_options = [default_options] for option in default_options: if not isinstance(option, str): mlog.debug(option) raise InterpreterException('Default options must be strings') if '=' not in option: raise InterpreterException('All default options must be of type key=value.') key, value = option.split('=', 1) if coredata.is_builtin_option(key): if self.subproject != '': continue # Only the master project is allowed to set global options. if not self.environment.had_argument_for(key): self.coredata.set_builtin_option(key, value) # If this was set on the command line, do not override. else: # Option values set with subproject() default_options override those # set in project() default_options. pref = key + '=' for i in self.default_project_options: if i.startswith(pref): option = i break # If we are in a subproject, add the subproject prefix to option # name. if self.subproject != '': option = self.subproject + ':' + option newoptions = [option] + self.environment.cmd_line_options.projectoptions self.environment.cmd_line_options.projectoptions = newoptions # Add options that are only in default_options. for defopt in self.default_project_options: key, value = defopt.split('=') pref = key + '=' for i in default_options: if i.startswith(pref): break else: defopt = self.subproject + ':' + defopt newoptions = [defopt] + self.environment.cmd_line_options.projectoptions self.environment.cmd_line_options.projectoptions = newoptions @stringArgs def func_project(self, node, args, kwargs): if len(args) < 1: raise InvalidArguments('Not enough arguments to project(). Needs at least the project name.') proj_name = args[0] proj_langs = args[1:] if ':' in proj_name: raise InvalidArguments("Project name {!r} must not contain ':'".format(proj_name)) default_options = kwargs.get('default_options', []) if self.environment.first_invocation and (len(default_options) > 0 or len(self.default_project_options) > 0): self.parse_default_options(default_options) if not self.is_subproject(): self.build.project_name = proj_name if os.path.exists(self.option_file): oi = optinterpreter.OptionInterpreter(self.subproject, self.build.environment.cmd_line_options.projectoptions, ) oi.process(self.option_file) self.build.environment.merge_options(oi.options) self.active_projectname = proj_name self.project_version = kwargs.get('version', 'undefined') if self.build.project_version is None: self.build.project_version = self.project_version proj_license = mesonlib.stringlistify(kwargs.get('license', 'unknown')) self.build.dep_manifest[proj_name] = {'version': self.project_version, 'license': proj_license} if self.subproject in self.build.projects: raise InvalidCode('Second call to project().') if not self.is_subproject() and 'subproject_dir' in kwargs: self.subproject_dir = kwargs['subproject_dir'] if 'meson_version' in kwargs: cv = coredata.version pv = kwargs['meson_version'] if not mesonlib.version_compare(cv, pv): raise InterpreterException('Meson version is %s but project requires %s.' % (cv, pv)) self.build.projects[self.subproject] = proj_name mlog.log('Project name: ', mlog.bold(proj_name), sep='') self.add_languages(proj_langs, True) langs = self.coredata.compilers.keys() if 'vala' in langs: if 'c' not in langs: raise InterpreterException('Compiling Vala requires C. Add C to your project languages and rerun Meson.') if not self.is_subproject(): self.check_cross_stdlibs() @stringArgs def func_add_languages(self, node, args, kwargs): return self.add_languages(args, kwargs.get('required', True)) @noKwargs def func_message(self, node, args, kwargs): # reduce arguments again to avoid flattening posargs (posargs, _) = self.reduce_arguments(node.args) if len(posargs) != 1: raise InvalidArguments('Expected 1 argument, got %d' % len(posargs)) arg = posargs[0] if isinstance(arg, list): argstr = stringifyUserArguments(arg) elif isinstance(arg, str): argstr = arg elif isinstance(arg, int): argstr = str(arg) else: raise InvalidArguments('Function accepts only strings, integers, lists and lists thereof.') mlog.log(mlog.bold('Message:'), argstr) @noKwargs def func_error(self, node, args, kwargs): self.validate_arguments(args, 1, [str]) raise InterpreterException('Error encountered: ' + args[0]) def detect_compilers(self, lang, need_cross_compiler): cross_comp = None if lang == 'c': comp = self.environment.detect_c_compiler(False) if need_cross_compiler: cross_comp = self.environment.detect_c_compiler(True) elif lang == 'cpp': comp = self.environment.detect_cpp_compiler(False) if need_cross_compiler: cross_comp = self.environment.detect_cpp_compiler(True) elif lang == 'objc': comp = self.environment.detect_objc_compiler(False) if need_cross_compiler: cross_comp = self.environment.detect_objc_compiler(True) elif lang == 'objcpp': comp = self.environment.detect_objcpp_compiler(False) if need_cross_compiler: cross_comp = self.environment.detect_objcpp_compiler(True) elif lang == 'java': comp = self.environment.detect_java_compiler() if need_cross_compiler: cross_comp = comp # Java is platform independent. elif lang == 'cs': comp = self.environment.detect_cs_compiler() if need_cross_compiler: cross_comp = comp # C# is platform independent. elif lang == 'vala': comp = self.environment.detect_vala_compiler() if need_cross_compiler: cross_comp = comp # Vala compiles to platform-independent C elif lang == 'd': comp = self.environment.detect_d_compiler(False) if need_cross_compiler: cross_comp = self.environment.detect_d_compiler(True) elif lang == 'rust': comp = self.environment.detect_rust_compiler() if need_cross_compiler: cross_comp = comp # FIXME, not correct. elif lang == 'fortran': comp = self.environment.detect_fortran_compiler(False) if need_cross_compiler: cross_comp = self.environment.detect_fortran_compiler(True) elif lang == 'swift': comp = self.environment.detect_swift_compiler() if need_cross_compiler: raise InterpreterException('Cross compilation with Swift is not working yet.') # cross_comp = self.environment.detect_fortran_compiler(True) else: raise InvalidCode('Tried to use unknown language "%s".' % lang) comp.sanity_check(self.environment.get_scratch_dir(), self.environment) self.coredata.compilers[lang] = comp # Native compiler always exist so always add its options. new_options = comp.get_options() if cross_comp is not None: cross_comp.sanity_check(self.environment.get_scratch_dir(), self.environment) self.coredata.cross_compilers[lang] = cross_comp new_options.update(cross_comp.get_options()) optprefix = lang + '_' for i in new_options: if not i.startswith(optprefix): raise InterpreterException('Internal error, %s has incorrect prefix.' % i) cmd_prefix = i + '=' for cmd_arg in self.environment.cmd_line_options.projectoptions: if cmd_arg.startswith(cmd_prefix): value = cmd_arg.split('=', 1)[1] new_options[i].set_value(value) new_options.update(self.coredata.compiler_options) self.coredata.compiler_options = new_options return comp, cross_comp def add_languages(self, args, required): success = True need_cross_compiler = self.environment.is_cross_build() and self.environment.cross_info.need_cross_compiler() for lang in sorted(args, key=compilers.sort_clike): lang = lang.lower() if lang in self.coredata.compilers: comp = self.coredata.compilers[lang] cross_comp = self.coredata.cross_compilers.get(lang, None) else: try: (comp, cross_comp) = self.detect_compilers(lang, need_cross_compiler) except Exception: if not required: mlog.log('Compiler for language', mlog.bold(lang), 'not found.') success = False continue else: raise mlog.log('Native %s compiler: ' % lang, mlog.bold(' '.join(comp.get_exelist())), ' (%s %s)' % (comp.id, comp.version), sep='') if not comp.get_language() in self.coredata.external_args: (preproc_args, compile_args, link_args) = environment.get_args_from_envvars(comp) self.coredata.external_preprocess_args[comp.get_language()] = preproc_args self.coredata.external_args[comp.get_language()] = compile_args self.coredata.external_link_args[comp.get_language()] = link_args self.build.add_compiler(comp) if need_cross_compiler: mlog.log('Cross %s compiler: ' % lang, mlog.bold(' '.join(cross_comp.get_exelist())), ' (%s %s)' % (cross_comp.id, cross_comp.version), sep='') self.build.add_cross_compiler(cross_comp) if self.environment.is_cross_build() and not need_cross_compiler: self.build.add_cross_compiler(comp) self.add_base_options(comp) return success def add_base_options(self, compiler): proj_opt = self.environment.cmd_line_options.projectoptions for optname in compiler.base_options: if optname in self.coredata.base_options: continue oobj = compilers.base_options[optname] for po in proj_opt: if po.startswith(optname + '='): oobj.set_value(po.split('=', 1)[1]) break self.coredata.base_options[optname] = oobj def func_find_program(self, node, args, kwargs): if not args: raise InterpreterException('No program name specified.') required = kwargs.get('required', True) if not isinstance(required, bool): raise InvalidArguments('"required" argument must be a boolean.') # Search for scripts relative to current subdir. # Do not cache found programs because find_program('foobar') # might give different results when run from different source dirs. source_dir = os.path.join(self.environment.get_source_dir(), self.subdir) for exename in args: if isinstance(exename, mesonlib.File): if exename.is_built: search_dir = os.path.join(self.environment.get_build_dir(), exename.subdir) else: search_dir = os.path.join(self.environment.get_source_dir(), exename.subdir) exename = exename.fname elif isinstance(exename, str): search_dir = source_dir else: raise InvalidArguments('find_program only accepts strings and ' 'files, not {!r}'.format(exename)) extprog = dependencies.ExternalProgram(exename, search_dir=search_dir) progobj = ExternalProgramHolder(extprog) if progobj.found(): return progobj if required and not progobj.found(): raise InvalidArguments('Program "%s" not found or not executable' % exename) return progobj def func_find_library(self, node, args, kwargs): mlog.log(mlog.red('DEPRECATION:'), 'find_library() is removed, use the corresponding method in compiler object instead.') def _find_cached_dep(self, name, kwargs): ''' Check that there aren't any mismatches between the cached dep and the wanted dep in terms of version and whether to use a fallback or not. For instance, the cached dep and the wanted dep could have mismatching version requirements. The cached dep did not search for a fallback, but the wanted dep specifies a fallback. There are many more edge-cases. Most cases are (or should be) documented in: `test cases/linuxlike/5 dependency versions/meson.build` ''' # Check if we want this as a cross-dep or a native-dep # FIXME: Not all dependencies support such a distinction right now, # and we repeat this check inside dependencies that do. We need to # consolidate this somehow. is_cross = self.environment.is_cross_build() if 'native' in kwargs and is_cross: want_cross = not kwargs['native'] else: want_cross = is_cross identifier = dependencies.get_dep_identifier(name, kwargs, want_cross) cached_dep = None # Check if we've already searched for and found this dep if identifier in self.coredata.deps: cached_dep = self.coredata.deps[identifier] else: # Check if exactly the same dep with different version requirements # was found already. # We only return early if we find a usable cached dependency since # there might be multiple cached dependencies like this. wanted = identifier[1] for trial, trial_dep in self.coredata.deps.items(): # trial[1], identifier[1] are the version requirements if trial[0] != identifier[0] or trial[2:] != identifier[2:]: continue if trial_dep.found(): found = trial_dep.get_version() if not wanted or mesonlib.version_compare_many(found, wanted)[0]: # We either don't care about the version, or our # version requirements matched the trial dep's version, # and the trial dep was a found dep! return identifier, trial_dep elif not trial[1]: # If the not-found cached dep did not have any version # requirements, this probably means the external dependency # cannot be found. cached_dep = trial_dep break # There's a subproject fallback specified for this not-found dependency # which might provide it, so we must check it. if cached_dep and not cached_dep.found() and 'fallback' in kwargs: return identifier, None # Either no cached deps matched the dep we're looking for, or some # not-found cached dep matched and there is no fallback specified. # Either way, we're done. return identifier, cached_dep def func_dependency(self, node, args, kwargs): self.validate_arguments(args, 1, [str]) name = args[0] if '<' in name or '>' in name or '=' in name: raise InvalidArguments('Characters <, > and = are forbidden in dependency names. To specify' 'version\n requirements use the \'version\' keyword argument instead.') identifier, cached_dep = self._find_cached_dep(name, kwargs) if cached_dep: if kwargs.get('required', True) and not cached_dep.found(): m = 'Dependency {!r} was already checked and was not found' raise DependencyException(m.format(name)) dep = cached_dep else: # We need to actually search for this dep exception = None dep = None # If the dependency has already been configured, possibly by # a higher level project, try to use it first. if 'fallback' in kwargs: dirname, varname = self.get_subproject_infos(kwargs) if dirname in self.subprojects: subproject = self.subprojects[dirname] try: # Never add fallback deps to self.coredata.deps return subproject.get_variable_method([varname], {}) except KeyError: pass # Search for it outside the project if not dep: try: dep = dependencies.find_external_dependency(name, self.environment, kwargs) except DependencyException as e: exception = e pass # Search inside the projects list if not dep or not dep.found(): if 'fallback' in kwargs: fallback_dep = self.dependency_fallback(name, kwargs) if fallback_dep: # Never add fallback deps to self.coredata.deps since we # cannot cache them. They must always be evaluated else # we won't actually read all the build files. return fallback_dep if not dep: raise exception self.coredata.deps[identifier] = dep return DependencyHolder(dep) def get_subproject_infos(self, kwargs): fbinfo = kwargs['fallback'] check_stringlist(fbinfo) if len(fbinfo) != 2: raise InterpreterException('Fallback info must have exactly two items.') return fbinfo def dependency_fallback(self, name, kwargs): if self.coredata.wrap_mode in (WrapMode.nofallback, WrapMode.nodownload): mlog.log('Not looking for a fallback subproject for the dependency', mlog.bold(name), 'because:\nAutomatic wrap-based fallback ' 'dependency downloading is disabled.') return None dirname, varname = self.get_subproject_infos(kwargs) # Try to execute the subproject try: sp_kwargs = {} try: sp_kwargs['default_options'] = kwargs['default_options'] except KeyError: pass self.do_subproject(dirname, sp_kwargs) # Invalid code is always an error except InvalidCode: raise # If the subproject execution failed in a non-fatal way, don't raise an # exception; let the caller handle things. except: mlog.log('Also couldn\'t find a fallback subproject in', mlog.bold(os.path.join(self.subproject_dir, dirname)), 'for the dependency', mlog.bold(name)) return None try: dep = self.subprojects[dirname].get_variable_method([varname], {}) except KeyError: if kwargs.get('required', True): m = 'Fallback variable {!r} in the subproject {!r} does not exist' raise DependencyException(m.format(varname, dirname)) # If the dependency is not required, don't raise an exception mlog.log('Also couldn\'t find the dependency', mlog.bold(name), 'in the fallback subproject', mlog.bold(os.path.join(self.subproject_dir, dirname))) return None if not isinstance(dep, DependencyHolder): raise InvalidCode('Fallback variable {!r} in the subproject {!r} is ' 'not a dependency object.'.format(varname, dirname)) # Check if the version of the declared dependency matches what we want if 'version' in kwargs: wanted = kwargs['version'] found = dep.version_method([], {}) if found == 'undefined' or not mesonlib.version_compare(found, wanted): mlog.log('Subproject', mlog.bold(dirname), 'dependency', mlog.bold(varname), 'version is', mlog.bold(found), 'but', mlog.bold(wanted), 'is required.') return None mlog.log('Found a', mlog.green('fallback'), 'subproject', mlog.bold(os.path.join(self.subproject_dir, dirname)), 'for', mlog.bold(name)) return dep def func_executable(self, node, args, kwargs): return self.build_target(node, args, kwargs, ExecutableHolder) def func_static_lib(self, node, args, kwargs): return self.build_target(node, args, kwargs, StaticLibraryHolder) def func_shared_lib(self, node, args, kwargs): return self.build_target(node, args, kwargs, SharedLibraryHolder) def func_shared_module(self, node, args, kwargs): return self.build_target(node, args, kwargs, SharedModuleHolder) def func_library(self, node, args, kwargs): if self.coredata.get_builtin_option('default_library') == 'shared': return self.func_shared_lib(node, args, kwargs) return self.func_static_lib(node, args, kwargs) def func_jar(self, node, args, kwargs): return self.build_target(node, args, kwargs, JarHolder) def func_build_target(self, node, args, kwargs): if 'target_type' not in kwargs: raise InterpreterException('Missing target_type keyword argument') target_type = kwargs.pop('target_type') if target_type == 'executable': return self.func_executable(node, args, kwargs) elif target_type == 'shared_library': return self.func_shared_lib(node, args, kwargs) elif target_type == 'static_library': return self.func_static_lib(node, args, kwargs) elif target_type == 'library': return self.func_library(node, args, kwargs) elif target_type == 'jar': return self.func_jar(node, args, kwargs) else: raise InterpreterException('Unknown target_type.') def func_vcs_tag(self, node, args, kwargs): if 'input' not in kwargs or 'output' not in kwargs: raise InterpreterException('Keyword arguments input and output must exist') fallback = kwargs.pop('fallback', self.project_version) if not isinstance(fallback, str): raise InterpreterException('Keyword argument fallback must be a string.') replace_string = kwargs.pop('replace_string', '@VCS_TAG@') regex_selector = '(.*)' # default regex selector for custom command: use complete output vcs_cmd = kwargs.get('command', None) if vcs_cmd and not isinstance(vcs_cmd, list): vcs_cmd = [vcs_cmd] source_dir = os.path.normpath(os.path.join(self.environment.get_source_dir(), self.subdir)) if vcs_cmd: # Is the command an executable in path or maybe a script in the source tree? vcs_cmd[0] = shutil.which(vcs_cmd[0]) or os.path.join(source_dir, vcs_cmd[0]) else: vcs = mesonlib.detect_vcs(source_dir) if vcs: mlog.log('Found %s repository at %s' % (vcs['name'], vcs['wc_dir'])) vcs_cmd = vcs['get_rev'].split() regex_selector = vcs['rev_regex'] else: vcs_cmd = [' '] # executing this cmd will fail in vcstagger.py and force to use the fallback string # vcstagger.py parameters: infile, outfile, fallback, source_dir, replace_string, regex_selector, command... kwargs['command'] = [sys.executable, self.environment.get_build_command(), '--internal', 'vcstagger', '@INPUT0@', '@OUTPUT0@', fallback, source_dir, replace_string, regex_selector] + vcs_cmd kwargs.setdefault('build_always', True) return self.func_custom_target(node, [kwargs['output']], kwargs) @stringArgs def func_custom_target(self, node, args, kwargs): if len(args) != 1: raise InterpreterException('custom_target: Only one positional argument is allowed, and it must be a string name') name = args[0] tg = CustomTargetHolder(build.CustomTarget(name, self.subdir, kwargs), self) self.add_target(name, tg.held_object) return tg def func_run_target(self, node, args, kwargs): global run_depr_printed if len(args) > 1: if not run_depr_printed: mlog.log(mlog.red('DEPRECATION'), 'positional version of run_target is deprecated, use the keyword version instead.') run_depr_printed = True if 'command' in kwargs: raise InterpreterException('Can not have command both in positional and keyword arguments.') all_args = args[1:] deps = [] elif len(args) == 1: if 'command' not in kwargs: raise InterpreterException('Missing "command" keyword argument') all_args = kwargs['command'] if not isinstance(all_args, list): all_args = [all_args] deps = kwargs.get('depends', []) if not isinstance(deps, list): deps = [deps] else: raise InterpreterException('Run_target needs at least one positional argument.') cleaned_args = [] for i in mesonlib.flatten(all_args): try: i = i.held_object except AttributeError: pass if not isinstance(i, (str, build.BuildTarget, build.CustomTarget, dependencies.ExternalProgram, mesonlib.File)): mlog.debug('Wrong type:', str(i)) raise InterpreterException('Invalid argument to run_target.') cleaned_args.append(i) name = args[0] if not isinstance(name, str): raise InterpreterException('First argument must be a string.') cleaned_deps = [] for d in deps: try: d = d.held_object except AttributeError: pass if not isinstance(d, (build.BuildTarget, build.CustomTarget)): raise InterpreterException('Depends items must be build targets.') cleaned_deps.append(d) command = cleaned_args[0] cmd_args = cleaned_args[1:] tg = RunTargetHolder(name, command, cmd_args, cleaned_deps, self.subdir) self.add_target(name, tg.held_object) return tg def func_generator(self, node, args, kwargs): gen = GeneratorHolder(self, args, kwargs) self.generators.append(gen) return gen def func_benchmark(self, node, args, kwargs): self.add_test(node, args, kwargs, False) def func_test(self, node, args, kwargs): self.add_test(node, args, kwargs, True) def unpack_env_kwarg(self, kwargs): envlist = kwargs.get('env', EnvironmentVariablesHolder()) if isinstance(envlist, EnvironmentVariablesHolder): env = envlist.held_object else: if not isinstance(envlist, list): envlist = [envlist] env = {} for e in envlist: if '=' not in e: raise InterpreterException('Env var definition must be of type key=val.') (k, val) = e.split('=', 1) k = k.strip() val = val.strip() if ' ' in k: raise InterpreterException('Env var key must not have spaces in it.') env[k] = val return env def add_test(self, node, args, kwargs, is_base_test): if len(args) != 2: raise InterpreterException('Incorrect number of arguments') if not isinstance(args[0], str): raise InterpreterException('First argument of test must be a string.') if not isinstance(args[1], (ExecutableHolder, JarHolder, ExternalProgramHolder)): raise InterpreterException('Second argument must be executable.') par = kwargs.get('is_parallel', True) if not isinstance(par, bool): raise InterpreterException('Keyword argument is_parallel must be a boolean.') cmd_args = kwargs.get('args', []) if not isinstance(cmd_args, list): cmd_args = [cmd_args] for i in cmd_args: if not isinstance(i, (str, mesonlib.File, TargetHolder)): raise InterpreterException('Command line arguments must be strings, files or targets.') env = self.unpack_env_kwarg(kwargs) should_fail = kwargs.get('should_fail', False) if not isinstance(should_fail, bool): raise InterpreterException('Keyword argument should_fail must be a boolean.') timeout = kwargs.get('timeout', 30) if 'workdir' in kwargs: workdir = kwargs['workdir'] if not isinstance(workdir, str): raise InterpreterException('Workdir keyword argument must be a string.') if not os.path.isabs(workdir): raise InterpreterException('Workdir keyword argument must be an absolute path.') else: workdir = None if not isinstance(timeout, int): raise InterpreterException('Timeout must be an integer.') suite = [] for s in mesonlib.stringlistify(kwargs.get('suite', '')): if len(s) > 0: s = ':' + s if self.is_subproject(): suite.append(self.subproject.replace(' ', '_').replace(':', '_') + s) else: suite.append(self.build.project_name.replace(' ', '_').replace(':', '_') + s) t = Test(args[0], suite, args[1].held_object, par, cmd_args, env, should_fail, timeout, workdir) if is_base_test: self.build.tests.append(t) mlog.debug('Adding test "', mlog.bold(args[0]), '".', sep='') else: self.build.benchmarks.append(t) mlog.debug('Adding benchmark "', mlog.bold(args[0]), '".', sep='') def func_install_headers(self, node, args, kwargs): source_files = self.source_strings_to_files(args) h = Headers(source_files, kwargs) self.build.headers.append(h) return h @stringArgs def func_install_man(self, node, args, kwargs): m = Man(self.subdir, args, kwargs) self.build.man.append(m) return m @noKwargs def func_subdir(self, node, args, kwargs): self.validate_arguments(args, 1, [str]) if '..' in args[0]: raise InvalidArguments('Subdir contains ..') if self.subdir == '' and args[0] == self.subproject_dir: raise InvalidArguments('Must not go into subprojects dir with subdir(), use subproject() instead.') prev_subdir = self.subdir subdir = os.path.join(prev_subdir, args[0]) if os.path.isabs(subdir): raise InvalidArguments('Subdir argument must be a relative path.') absdir = os.path.join(self.environment.get_source_dir(), subdir) symlinkless_dir = os.path.realpath(absdir) if symlinkless_dir in self.visited_subdirs: raise InvalidArguments('Tried to enter directory "%s", which has already been visited.' % subdir) self.visited_subdirs[symlinkless_dir] = True self.subdir = subdir os.makedirs(os.path.join(self.environment.build_dir, subdir), exist_ok=True) buildfilename = os.path.join(self.subdir, environment.build_filename) self.build_def_files.append(buildfilename) absname = os.path.join(self.environment.get_source_dir(), buildfilename) if not os.path.isfile(absname): self.subdir = prev_subdir raise InterpreterException('Non-existent build file {!r}'.format(buildfilename)) with open(absname, encoding='utf8') as f: code = f.read() assert(isinstance(code, str)) try: codeblock = mparser.Parser(code, self.subdir).parse() except mesonlib.MesonException as me: me.file = buildfilename raise me self.evaluate_codeblock(codeblock) self.subdir = prev_subdir def _get_kwarg_install_mode(self, kwargs): if 'install_mode' not in kwargs: return None install_mode = [] mode = mesonlib.typeslistify(kwargs.get('install_mode', []), (str, int)) for m in mode: # We skip any arguments that are set to `false` if m is False: m = None install_mode.append(m) if len(install_mode) > 3: raise InvalidArguments('Keyword argument install_mode takes at ' 'most 3 arguments.') if len(install_mode) > 0 and install_mode[0] is not None and \ not isinstance(install_mode[0], str): raise InvalidArguments('Keyword argument install_mode requires the ' 'permissions arg to be a string or false') return FileMode(*install_mode) def func_install_data(self, node, args, kwargs): kwsource = mesonlib.stringlistify(kwargs.get('sources', [])) raw_sources = args + kwsource sources = [] source_strings = [] for s in raw_sources: if isinstance(s, mesonlib.File): sources.append(s) else: source_strings.append(s) sources += self.source_strings_to_files(source_strings) install_dir = kwargs.get('install_dir', None) if not isinstance(install_dir, (str, type(None))): raise InvalidArguments('Keyword argument install_dir not a string.') install_mode = self._get_kwarg_install_mode(kwargs) data = DataHolder(build.Data(sources, install_dir, install_mode)) self.build.data.append(data.held_object) return data @stringArgs def func_install_subdir(self, node, args, kwargs): if len(args) != 1: raise InvalidArguments('Install_subdir requires exactly one argument.') if 'install_dir' not in kwargs: raise InvalidArguments('Missing keyword argument install_dir') install_dir = kwargs['install_dir'] if not isinstance(install_dir, str): raise InvalidArguments('Keyword argument install_dir not a string.') install_mode = self._get_kwarg_install_mode(kwargs) idir = InstallDir(self.subdir, args[0], install_dir, install_mode) self.build.install_dirs.append(idir) return idir def func_configure_file(self, node, args, kwargs): if len(args) > 0: raise InterpreterException("configure_file takes only keyword arguments.") if 'output' not in kwargs: raise InterpreterException('Required keyword argument "output" not defined.') if 'configuration' in kwargs and 'command' in kwargs: raise InterpreterException('Must not specify both "configuration" ' 'and "command" keyword arguments since ' 'they are mutually exclusive.') # Validate input inputfile = None ifile_abs = None if 'input' in kwargs: inputfile = kwargs['input'] if isinstance(inputfile, list): if len(inputfile) != 1: m = "Keyword argument 'input' requires exactly one file" raise InterpreterException(m) inputfile = inputfile[0] if not isinstance(inputfile, (str, mesonlib.File)): raise InterpreterException('Input must be a string or a file') if isinstance(inputfile, str): inputfile = os.path.join(self.subdir, inputfile) ifile_abs = os.path.join(self.environment.source_dir, inputfile) else: ifile_abs = inputfile.absolute_path(self.environment.source_dir, self.environment.build_dir) inputfile = inputfile.relative_name() elif 'command' in kwargs and '@INPUT@' in kwargs['command']: raise InterpreterException('@INPUT@ used as command argument, but no input file specified.') # Validate output output = kwargs['output'] if not isinstance(output, str): raise InterpreterException('Output file name must be a string') if os.path.split(output)[0] != '': raise InterpreterException('Output file name must not contain a subdirectory.') (ofile_path, ofile_fname) = os.path.split(os.path.join(self.subdir, output)) ofile_abs = os.path.join(self.environment.build_dir, ofile_path, ofile_fname) if 'configuration' in kwargs: conf = kwargs['configuration'] if not isinstance(conf, ConfigurationDataHolder): raise InterpreterException('Argument "configuration" is not of type configuration_data') mlog.log('Configuring', mlog.bold(output), 'using configuration') if inputfile is not None: # Normalize the path of the conffile to avoid duplicates # This is especially important to convert '/' to '\' on Windows conffile = os.path.normpath(inputfile) if conffile not in self.build_def_files: self.build_def_files.append(conffile) os.makedirs(os.path.join(self.environment.build_dir, self.subdir), exist_ok=True) mesonlib.do_conf_file(ifile_abs, ofile_abs, conf.held_object) else: mesonlib.dump_conf_header(ofile_abs, conf.held_object) conf.mark_used() elif 'command' in kwargs: # We use absolute paths for input and output here because the cwd # that the command is run from is 'unspecified', so it could change. # Currently it's builddir/subdir for in_builddir else srcdir/subdir. if ifile_abs: values = mesonlib.get_filenames_templates_dict([ifile_abs], [ofile_abs]) else: values = mesonlib.get_filenames_templates_dict(None, [ofile_abs]) # Substitute @INPUT@, @OUTPUT@, etc here. cmd = mesonlib.substitute_values(kwargs['command'], values) mlog.log('Configuring', mlog.bold(output), 'with command') res = self.func_run_command(node, cmd, {'in_builddir': True}) if res.returncode != 0: raise InterpreterException('Running configure command failed.\n%s\n%s' % (res.stdout, res.stderr)) else: raise InterpreterException('Configure_file must have either "configuration" or "command".') idir = kwargs.get('install_dir', None) if isinstance(idir, str): cfile = mesonlib.File.from_built_file(ofile_path, ofile_fname) self.build.data.append(build.Data([cfile], idir)) return mesonlib.File.from_built_file(self.subdir, output) @stringArgs def func_include_directories(self, node, args, kwargs): src_root = self.environment.get_source_dir() build_root = self.environment.get_build_dir() absbase_src = os.path.join(src_root, self.subdir) absbase_build = os.path.join(build_root, self.subdir) for a in args: if a.startswith(src_root): raise InvalidArguments('''Tried to form an absolute path to a source dir. You should not do that but use relative paths instead. To get include path to any directory relative to the current dir do incdir = include_directories(dirname) After this incdir will contain both the current source dir as well as the corresponding build dir. It can then be used in any subdirectory and Meson will take care of all the busywork to make paths work. Dirname can even be '.' to mark the current directory. Though you should remember that the current source and build directories are always put in the include directories by default so you only need to do include_directories('.') if you intend to use the result in a different subdirectory. ''') absdir_src = os.path.join(absbase_src, a) absdir_build = os.path.join(absbase_build, a) if not os.path.isdir(absdir_src) and not os.path.isdir(absdir_build): raise InvalidArguments('Include dir %s does not exist.' % a) is_system = kwargs.get('is_system', False) if not isinstance(is_system, bool): raise InvalidArguments('Is_system must be boolean.') i = IncludeDirsHolder(build.IncludeDirs(self.subdir, args, is_system)) return i @stringArgs def func_add_test_setup(self, node, args, kwargs): if len(args) != 1: raise InterpreterException('Add_test_setup needs one argument for the setup name.') setup_name = args[0] if re.fullmatch('[_a-zA-Z][_0-9a-zA-Z]*', setup_name) is None: raise InterpreterException('Setup name may only contain alphanumeric characters.') try: inp = kwargs.get('exe_wrapper', []) if not isinstance(inp, list): inp = [inp] exe_wrapper = [] for i in inp: if hasattr(i, 'held_object'): i = i.held_object if isinstance(i, str): exe_wrapper.append(i) elif isinstance(i, dependencies.ExternalProgram): if not i.found(): raise InterpreterException('Tried to use non-found executable.') exe_wrapper += i.get_command() else: raise InterpreterException('Exe wrapper can only contain strings or external binaries.') except KeyError: exe_wrapper = None gdb = kwargs.get('gdb', False) if not isinstance(gdb, bool): raise InterpreterException('Gdb option must be a boolean') timeout_multiplier = kwargs.get('timeout_multiplier', 1) if not isinstance(timeout_multiplier, int): raise InterpreterException('Timeout multiplier must be a number.') env = self.unpack_env_kwarg(kwargs) setupobj = build.TestSetup(exe_wrapper=exe_wrapper, gdb=gdb, timeout_multiplier=timeout_multiplier, env=env) if self.subproject == '': # Dunno what we should do with subprojects really. Let's start simple # and just use the master project ones. self.build.test_setups[setup_name] = setupobj @stringArgs def func_add_global_arguments(self, node, args, kwargs): self.add_global_arguments(node, self.build.global_args, args, kwargs) @stringArgs def func_add_global_link_arguments(self, node, args, kwargs): self.add_global_arguments(node, self.build.global_link_args, args, kwargs) @stringArgs def func_add_project_arguments(self, node, args, kwargs): self.add_project_arguments(node, self.build.projects_args, args, kwargs) @stringArgs def func_add_project_link_arguments(self, node, args, kwargs): self.add_project_arguments(node, self.build.projects_link_args, args, kwargs) def add_global_arguments(self, node, argsdict, args, kwargs): if self.subproject != '': msg = 'Function \'{}\' cannot be used in subprojects because ' \ 'there is no way to make that reliable.\nPlease only call ' \ 'this if is_subproject() returns false. Alternatively, ' \ 'define a variable that\ncontains your language-specific ' \ 'arguments and add it to the appropriate *_args kwarg ' \ 'in each target.'.format(node.func_name) raise InvalidCode(msg) frozen = self.project_args_frozen or self.global_args_frozen self.add_arguments(node, argsdict, frozen, args, kwargs) def add_project_arguments(self, node, argsdict, args, kwargs): if self.subproject not in argsdict: argsdict[self.subproject] = {} self.add_arguments(node, argsdict[self.subproject], self.project_args_frozen, args, kwargs) def add_arguments(self, node, argsdict, args_frozen, args, kwargs): if args_frozen: msg = 'Tried to use \'{}\' after a build target has been declared.\n' \ 'This is not permitted. Please declare all ' \ 'arguments before your targets.'.format(node.func_name) raise InvalidCode(msg) if 'language' not in kwargs: raise InvalidCode('Missing language definition in {}'.format(node.func_name)) for lang in mesonlib.stringlistify(kwargs['language']): lang = lang.lower() argsdict[lang] = argsdict.get(lang, []) + args def func_environment(self, node, args, kwargs): return EnvironmentVariablesHolder() @stringArgs @noKwargs def func_join_paths(self, node, args, kwargs): return os.path.join(*args).replace('\\', '/') def run(self): super().run() mlog.log('Build targets in project:', mlog.bold(str(len(self.build.targets)))) def source_strings_to_files(self, sources): results = [] for s in sources: if isinstance(s, (mesonlib.File, GeneratedListHolder, CustomTargetHolder)): pass elif isinstance(s, str): s = mesonlib.File.from_source_file(self.environment.source_dir, self.subdir, s) else: raise InterpreterException("Source item is not string or File-type object.") results.append(s) return results def add_target(self, name, tobj): if name == '': raise InterpreterException('Target name must not be empty.') if name in coredata.forbidden_target_names: raise InvalidArguments('Target name "%s" is reserved for Meson\'s internal use. Please rename.' % name) # To permit an executable and a shared library to have the # same name, such as "foo.exe" and "libfoo.a". idname = tobj.get_id() if idname in self.build.targets: raise InvalidCode('Tried to create target "%s", but a target of that name already exists.' % name) self.build.targets[idname] = tobj if idname not in self.coredata.target_guids: self.coredata.target_guids[idname] = str(uuid.uuid4()).upper() def build_target(self, node, args, kwargs, targetholder): if not args: raise InterpreterException('Target does not have a name.') name = args[0] sources = args[1:] if self.environment.is_cross_build(): if kwargs.get('native', False): is_cross = False else: is_cross = True else: is_cross = False try: kw_src = self.flatten(kwargs['sources']) if not isinstance(kw_src, list): kw_src = [kw_src] except KeyError: kw_src = [] sources += kw_src sources = self.source_strings_to_files(sources) objs = self.flatten(kwargs.get('objects', [])) kwargs['dependencies'] = self.flatten(kwargs.get('dependencies', [])) if 'extra_files' in kwargs: ef = kwargs['extra_files'] if not isinstance(ef, list): ef = [ef] kwargs['extra_files'] = self.source_strings_to_files(ef) if not isinstance(objs, list): objs = [objs] self.check_sources_exist(os.path.join(self.source_root, self.subdir), sources) if targetholder is ExecutableHolder: targetclass = build.Executable elif targetholder is SharedLibraryHolder: targetclass = build.SharedLibrary elif targetholder is SharedModuleHolder: targetclass = build.SharedModule elif targetholder is StaticLibraryHolder: targetclass = build.StaticLibrary elif targetholder is JarHolder: targetclass = build.Jar else: mlog.debug('Unknown target type:', str(targetholder)) raise RuntimeError('Unreachable code') target = targetclass(name, self.subdir, self.subproject, is_cross, sources, objs, self.environment, kwargs) if is_cross: self.add_cross_stdlib_info(target) l = targetholder(target, self) self.add_target(name, l.held_object) self.project_args_frozen = True return l def get_used_languages(self, target): result = {} for i in target.sources: for lang, c in self.build.compilers.items(): if c.can_compile(i): result[lang] = True break return result def add_cross_stdlib_info(self, target): for l in self.get_used_languages(target): if self.environment.cross_info.has_stdlib(l) \ and self.subproject != self.environment.cross_info.get_stdlib(l)[0]: target.add_deps(self.build.cross_stdlibs[l]) def check_sources_exist(self, subdir, sources): for s in sources: if not isinstance(s, str): continue # This means a generated source and they always exist. fname = os.path.join(subdir, s) if not os.path.isfile(fname): raise InterpreterException('Tried to add non-existing source file %s.' % s) def format_string(self, templ, args): templ = self.to_native(templ) if isinstance(args, mparser.ArgumentNode): args = args.arguments for (i, arg) in enumerate(args): arg = self.to_native(self.evaluate_statement(arg)) if isinstance(arg, bool): # Python boolean is upper case. arg = str(arg).lower() templ = templ.replace('@{}@'.format(i), str(arg)) return templ # Only permit object extraction from the same subproject def validate_extraction(self, buildtarget): if not self.subdir.startswith(self.subproject_dir): if buildtarget.subdir.startswith(self.subproject_dir): raise InterpreterException('Tried to extract objects from a subproject target.') else: if not buildtarget.subdir.startswith(self.subproject_dir): raise InterpreterException('Tried to extract objects from the main project from a subproject.') if self.subdir.split('/')[1] != buildtarget.subdir.split('/')[1]: raise InterpreterException('Tried to extract objects from a different subproject.') def check_contains(self, obj, args): if len(args) != 1: raise InterpreterException('Contains method takes exactly one argument.') item = args[0] for element in obj: if isinstance(element, list): found = self.check_contains(element, args) if found: return True try: if element == item: return True except Exception: pass return False def is_subproject(self): return self.subproject != ''