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974 lines
38 KiB
974 lines
38 KiB
# Copyright 2016-2017 The Meson development team |
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# Licensed under the Apache License, Version 2.0 (the "License"); |
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# you may not use this file except in compliance with the License. |
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# You may obtain a copy of the License at |
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# http://www.apache.org/licenses/LICENSE-2.0 |
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# Unless required by applicable law or agreed to in writing, software |
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# distributed under the License is distributed on an "AS IS" BASIS, |
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
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# See the License for the specific language governing permissions and |
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# limitations under the License. |
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# This class contains the basic functionality needed to run any interpreter |
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# or an interpreter-based tool. |
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from . import mparser, mesonlib, mlog |
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from . import environment, dependencies |
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import os, copy, re, types |
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from functools import wraps |
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# Decorators for method calls. |
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def check_stringlist(a, msg='Arguments must be strings.'): |
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if not isinstance(a, list): |
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mlog.debug('Not a list:', str(a)) |
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raise InvalidArguments('Argument not a list.') |
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if not all(isinstance(s, str) for s in a): |
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mlog.debug('Element not a string:', str(a)) |
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raise InvalidArguments(msg) |
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def _get_callee_args(wrapped_args, want_subproject=False): |
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s = wrapped_args[0] |
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n = len(wrapped_args) |
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# Raise an error if the codepaths are not there |
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subproject = None |
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if want_subproject and n == 2: |
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if hasattr(s, 'subproject'): |
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# Interpreter base types have 2 args: self, node |
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node_or_state = wrapped_args[1] |
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# args and kwargs are inside the node |
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args = None |
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kwargs = None |
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subproject = s.subproject |
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elif hasattr(wrapped_args[1], 'subproject'): |
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# Module objects have 2 args: self, interpreter |
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node_or_state = wrapped_args[1] |
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# args and kwargs are inside the node |
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args = None |
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kwargs = None |
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subproject = wrapped_args[1].subproject |
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else: |
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raise AssertionError('Unknown args: {!r}'.format(wrapped_args)) |
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elif n == 3: |
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# Methods on objects (*Holder, MesonMain, etc) have 3 args: self, args, kwargs |
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node_or_state = None # FIXME |
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args = wrapped_args[1] |
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kwargs = wrapped_args[2] |
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if want_subproject: |
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if hasattr(s, 'subproject'): |
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subproject = s.subproject |
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elif hasattr(s, 'interpreter'): |
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subproject = s.interpreter.subproject |
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elif n == 4: |
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# Meson functions have 4 args: self, node, args, kwargs |
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# Module functions have 4 args: self, state, args, kwargs; except, |
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# PythonInstallation methods have self, interpreter, args, kwargs |
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node_or_state = wrapped_args[1] |
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args = wrapped_args[2] |
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kwargs = wrapped_args[3] |
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if want_subproject: |
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if isinstance(s, InterpreterBase): |
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subproject = s.subproject |
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else: |
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subproject = node_or_state.subproject |
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elif n == 5: |
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# Module snippets have 5 args: self, interpreter, state, args, kwargs |
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node_or_state = wrapped_args[2] |
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args = wrapped_args[3] |
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kwargs = wrapped_args[4] |
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if want_subproject: |
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subproject = node_or_state.subproject |
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else: |
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raise AssertionError('Unknown args: {!r}'.format(wrapped_args)) |
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# Sometimes interpreter methods are called internally with None instead of |
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# empty list/dict |
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args = args if args is not None else [] |
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kwargs = kwargs if kwargs is not None else {} |
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return s, node_or_state, args, kwargs, subproject |
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def flatten(args): |
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if isinstance(args, mparser.StringNode): |
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return args.value |
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if isinstance(args, (int, str, mesonlib.File, InterpreterObject)): |
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return args |
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result = [] |
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for a in args: |
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if isinstance(a, list): |
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rest = flatten(a) |
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result = result + rest |
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elif isinstance(a, mparser.StringNode): |
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result.append(a.value) |
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else: |
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result.append(a) |
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return result |
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def noPosargs(f): |
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@wraps(f) |
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def wrapped(*wrapped_args, **wrapped_kwargs): |
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args = _get_callee_args(wrapped_args)[2] |
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if args: |
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raise InvalidArguments('Function does not take positional arguments.') |
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return f(*wrapped_args, **wrapped_kwargs) |
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return wrapped |
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def noKwargs(f): |
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@wraps(f) |
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def wrapped(*wrapped_args, **wrapped_kwargs): |
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kwargs = _get_callee_args(wrapped_args)[3] |
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if kwargs: |
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raise InvalidArguments('Function does not take keyword arguments.') |
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return f(*wrapped_args, **wrapped_kwargs) |
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return wrapped |
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def stringArgs(f): |
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@wraps(f) |
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def wrapped(*wrapped_args, **wrapped_kwargs): |
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args = _get_callee_args(wrapped_args)[2] |
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assert(isinstance(args, list)) |
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check_stringlist(args) |
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return f(*wrapped_args, **wrapped_kwargs) |
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return wrapped |
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def noArgsFlattening(f): |
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setattr(f, 'no-args-flattening', True) |
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return f |
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class permittedKwargs: |
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def __init__(self, permitted): |
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self.permitted = permitted |
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def __call__(self, f): |
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@wraps(f) |
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def wrapped(*wrapped_args, **wrapped_kwargs): |
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s, node_or_state, args, kwargs, _ = _get_callee_args(wrapped_args) |
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loc = types.SimpleNamespace() |
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if hasattr(s, 'subdir'): |
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loc.subdir = s.subdir |
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loc.lineno = s.current_lineno |
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elif node_or_state and hasattr(node_or_state, 'subdir'): |
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loc.subdir = node_or_state.subdir |
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loc.lineno = node_or_state.current_lineno |
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else: |
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loc = None |
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for k in kwargs: |
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if k not in self.permitted: |
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mlog.warning('''Passed invalid keyword argument "{}".'''.format(k), location=loc) |
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mlog.warning('This will become a hard error in the future.') |
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return f(*wrapped_args, **wrapped_kwargs) |
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return wrapped |
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class FeatureCheckBase: |
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"Base class for feature version checks" |
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def __init__(self, feature_name, version): |
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self.feature_name = feature_name |
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self.feature_version = version |
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@staticmethod |
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def get_target_version(subproject): |
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# Don't do any checks if project() has not been parsed yet |
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if subproject not in mesonlib.project_meson_versions: |
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return '' |
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return mesonlib.project_meson_versions[subproject] |
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def use(self, subproject): |
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tv = self.get_target_version(subproject) |
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# No target version |
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if tv == '': |
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return |
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# Target version is new enough |
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if mesonlib.version_compare_condition_with_min(tv, self.feature_version): |
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return |
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# Feature is too new for target version, register it |
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if subproject not in self.feature_registry: |
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self.feature_registry[subproject] = {self.feature_version: set()} |
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register = self.feature_registry[subproject] |
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if self.feature_version not in register: |
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register[self.feature_version] = set() |
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if self.feature_name in register[self.feature_version]: |
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# Don't warn about the same feature multiple times |
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# FIXME: This is needed to prevent duplicate warnings, but also |
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# means we won't warn about a feature used in multiple places. |
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return |
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register[self.feature_version].add(self.feature_name) |
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self.log_usage_warning(tv) |
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@classmethod |
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def report(cls, subproject): |
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if subproject not in cls.feature_registry: |
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return |
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warning_str = cls.get_warning_str_prefix(cls.get_target_version(subproject)) |
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fv = cls.feature_registry[subproject] |
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for version in sorted(fv.keys()): |
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warning_str += '\n * {}: {}'.format(version, fv[version]) |
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mlog.warning(warning_str) |
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def __call__(self, f): |
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@wraps(f) |
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def wrapped(*wrapped_args, **wrapped_kwargs): |
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subproject = _get_callee_args(wrapped_args, want_subproject=True)[4] |
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if subproject is None: |
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raise AssertionError('{!r}'.format(wrapped_args)) |
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self.use(subproject) |
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return f(*wrapped_args, **wrapped_kwargs) |
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return wrapped |
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class FeatureNew(FeatureCheckBase): |
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"""Checks for new features""" |
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# Class variable, shared across all instances |
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# |
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# Format: {subproject: {feature_version: set(feature_names)}} |
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feature_registry = {} |
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@staticmethod |
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def get_warning_str_prefix(tv): |
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return 'Project specifies a minimum meson_version \'{}\' but uses features which were added in newer versions:'.format(tv) |
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def log_usage_warning(self, tv): |
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mlog.warning('Project targetting \'{}\' but tried to use feature introduced ' |
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'in \'{}\': {}'.format(tv, self.feature_version, self.feature_name)) |
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class FeatureDeprecated(FeatureCheckBase): |
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"""Checks for deprecated features""" |
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# Class variable, shared across all instances |
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# |
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# Format: {subproject: {feature_version: set(feature_names)}} |
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feature_registry = {} |
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@staticmethod |
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def get_warning_str_prefix(tv): |
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return 'Deprecated features used:' |
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def log_usage_warning(self, tv): |
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mlog.deprecation('Project targetting \'{}\' but tried to use feature ' |
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'deprecated since \'{}\': {}' |
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''.format(tv, self.feature_version, self.feature_name)) |
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class FeatureCheckKwargsBase: |
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def __init__(self, feature_name, feature_version, kwargs): |
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self.feature_name = feature_name |
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self.feature_version = feature_version |
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self.kwargs = kwargs |
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def __call__(self, f): |
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@wraps(f) |
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def wrapped(*wrapped_args, **wrapped_kwargs): |
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# Which FeatureCheck class to invoke |
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FeatureCheckClass = self.feature_check_class |
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kwargs, subproject = _get_callee_args(wrapped_args, want_subproject=True)[3:5] |
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if subproject is None: |
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raise AssertionError('{!r}'.format(wrapped_args)) |
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for arg in self.kwargs: |
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if arg not in kwargs: |
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continue |
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name = arg + ' arg in ' + self.feature_name |
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FeatureCheckClass(name, self.feature_version).use(subproject) |
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return f(*wrapped_args, **wrapped_kwargs) |
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return wrapped |
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class FeatureNewKwargs(FeatureCheckKwargsBase): |
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feature_check_class = FeatureNew |
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class FeatureDeprecatedKwargs(FeatureCheckKwargsBase): |
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feature_check_class = FeatureDeprecated |
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class InterpreterException(mesonlib.MesonException): |
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pass |
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class InvalidCode(InterpreterException): |
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pass |
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class InvalidArguments(InterpreterException): |
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pass |
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class SubdirDoneRequest(BaseException): |
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pass |
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class InterpreterObject: |
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def __init__(self): |
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self.methods = {} |
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def method_call(self, method_name, args, kwargs): |
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if method_name in self.methods: |
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method = self.methods[method_name] |
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if not getattr(method, 'no-args-flattening', False): |
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args = flatten(args) |
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return method(args, kwargs) |
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raise InvalidCode('Unknown method "%s" in object.' % method_name) |
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class MutableInterpreterObject(InterpreterObject): |
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def __init__(self): |
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super().__init__() |
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class Disabler(InterpreterObject): |
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def __init__(self): |
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super().__init__() |
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self.methods.update({'found': self.found_method}) |
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def found_method(self, args, kwargs): |
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return False |
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def is_disabler(i): |
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return isinstance(i, Disabler) |
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def is_disabled(args, kwargs): |
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for i in args: |
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if isinstance(i, Disabler): |
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return True |
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for i in kwargs.values(): |
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if isinstance(i, Disabler): |
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return True |
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if isinstance(i, list): |
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for j in i: |
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if isinstance(j, Disabler): |
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return True |
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return False |
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class InterpreterBase: |
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def __init__(self, source_root, subdir): |
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self.source_root = source_root |
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self.funcs = {} |
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self.builtin = {} |
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self.subdir = subdir |
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self.variables = {} |
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self.argument_depth = 0 |
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self.current_lineno = -1 |
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def load_root_meson_file(self): |
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mesonfile = os.path.join(self.source_root, self.subdir, environment.build_filename) |
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if not os.path.isfile(mesonfile): |
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raise InvalidArguments('Missing Meson file in %s' % mesonfile) |
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with open(mesonfile, encoding='utf8') as mf: |
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code = mf.read() |
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if code.isspace(): |
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raise InvalidCode('Builder file is empty.') |
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assert(isinstance(code, str)) |
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try: |
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self.ast = mparser.Parser(code, self.subdir).parse() |
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except mesonlib.MesonException as me: |
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me.file = environment.build_filename |
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raise me |
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def parse_project(self): |
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""" |
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Parses project() and initializes languages, compilers etc. Do this |
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early because we need this before we parse the rest of the AST. |
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""" |
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self.evaluate_codeblock(self.ast, end=1) |
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def sanity_check_ast(self): |
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if not isinstance(self.ast, mparser.CodeBlockNode): |
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raise InvalidCode('AST is of invalid type. Possibly a bug in the parser.') |
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if not self.ast.lines: |
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raise InvalidCode('No statements in code.') |
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first = self.ast.lines[0] |
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if not isinstance(first, mparser.FunctionNode) or first.func_name != 'project': |
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raise InvalidCode('First statement must be a call to project') |
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def run(self): |
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# Evaluate everything after the first line, which is project() because |
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# we already parsed that in self.parse_project() |
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try: |
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self.evaluate_codeblock(self.ast, start=1) |
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except SubdirDoneRequest: |
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pass |
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def evaluate_codeblock(self, node, start=0, end=None): |
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if node is None: |
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return |
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if not isinstance(node, mparser.CodeBlockNode): |
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e = InvalidCode('Tried to execute a non-codeblock. Possibly a bug in the parser.') |
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e.lineno = node.lineno |
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e.colno = node.colno |
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raise e |
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statements = node.lines[start:end] |
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i = 0 |
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while i < len(statements): |
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cur = statements[i] |
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try: |
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self.current_lineno = cur.lineno |
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self.evaluate_statement(cur) |
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except Exception as e: |
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if not hasattr(e, 'lineno'): |
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e.lineno = cur.lineno |
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e.colno = cur.colno |
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e.file = os.path.join(self.subdir, 'meson.build') |
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raise e |
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i += 1 # In THE FUTURE jump over blocks and stuff. |
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def evaluate_statement(self, cur): |
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if isinstance(cur, mparser.FunctionNode): |
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return self.function_call(cur) |
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elif isinstance(cur, mparser.AssignmentNode): |
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return self.assignment(cur) |
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elif isinstance(cur, mparser.MethodNode): |
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return self.method_call(cur) |
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elif isinstance(cur, mparser.StringNode): |
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return cur.value |
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elif isinstance(cur, mparser.BooleanNode): |
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return cur.value |
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elif isinstance(cur, mparser.IfClauseNode): |
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return self.evaluate_if(cur) |
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elif isinstance(cur, mparser.IdNode): |
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return self.get_variable(cur.value) |
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elif isinstance(cur, mparser.ComparisonNode): |
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return self.evaluate_comparison(cur) |
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elif isinstance(cur, mparser.ArrayNode): |
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return self.evaluate_arraystatement(cur) |
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elif isinstance(cur, mparser.DictNode): |
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return self.evaluate_dictstatement(cur) |
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elif isinstance(cur, mparser.NumberNode): |
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return cur.value |
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elif isinstance(cur, mparser.AndNode): |
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return self.evaluate_andstatement(cur) |
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elif isinstance(cur, mparser.OrNode): |
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return self.evaluate_orstatement(cur) |
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elif isinstance(cur, mparser.NotNode): |
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return self.evaluate_notstatement(cur) |
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elif isinstance(cur, mparser.UMinusNode): |
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return self.evaluate_uminusstatement(cur) |
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elif isinstance(cur, mparser.ArithmeticNode): |
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return self.evaluate_arithmeticstatement(cur) |
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elif isinstance(cur, mparser.ForeachClauseNode): |
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return self.evaluate_foreach(cur) |
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elif isinstance(cur, mparser.PlusAssignmentNode): |
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return self.evaluate_plusassign(cur) |
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elif isinstance(cur, mparser.IndexNode): |
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return self.evaluate_indexing(cur) |
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elif isinstance(cur, mparser.TernaryNode): |
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return self.evaluate_ternary(cur) |
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elif self.is_elementary_type(cur): |
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return cur |
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else: |
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raise InvalidCode("Unknown statement.") |
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def evaluate_arraystatement(self, cur): |
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(arguments, kwargs) = self.reduce_arguments(cur.args) |
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if len(kwargs) > 0: |
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raise InvalidCode('Keyword arguments are invalid in array construction.') |
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return arguments |
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@FeatureNew('dict', '0.47.0') |
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def evaluate_dictstatement(self, cur): |
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(arguments, kwargs) = self.reduce_arguments(cur.args) |
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assert (not arguments) |
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return kwargs |
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def evaluate_notstatement(self, cur): |
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v = self.evaluate_statement(cur.value) |
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if not isinstance(v, bool): |
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raise InterpreterException('Argument to "not" is not a boolean.') |
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return not v |
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def evaluate_if(self, node): |
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assert(isinstance(node, mparser.IfClauseNode)) |
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for i in node.ifs: |
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result = self.evaluate_statement(i.condition) |
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if is_disabler(result): |
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return result |
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if not(isinstance(result, bool)): |
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raise InvalidCode('If clause {!r} does not evaluate to true or false.'.format(result)) |
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if result: |
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self.evaluate_codeblock(i.block) |
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return |
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if not isinstance(node.elseblock, mparser.EmptyNode): |
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self.evaluate_codeblock(node.elseblock) |
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def validate_comparison_types(self, val1, val2): |
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if type(val1) != type(val2): |
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return False |
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return True |
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def evaluate_comparison(self, node): |
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val1 = self.evaluate_statement(node.left) |
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if is_disabler(val1): |
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return val1 |
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val2 = self.evaluate_statement(node.right) |
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if is_disabler(val2): |
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return val2 |
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valid = self.validate_comparison_types(val1, val2) |
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# Ordering comparisons of different types isn't allowed since PR #1810 |
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# (0.41.0). Since PR #2884 we also warn about equality comparisons of |
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# different types, which will one day become an error. |
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if not valid and (node.ctype == '==' or node.ctype == '!='): |
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mlog.warning('''Trying to compare values of different types ({}, {}) using {}. |
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The result of this is undefined and will become a hard error in a future Meson release.''' |
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.format(type(val1).__name__, type(val2).__name__, node.ctype), location=node) |
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if node.ctype == '==': |
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return val1 == val2 |
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elif node.ctype == '!=': |
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return val1 != val2 |
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elif not valid: |
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raise InterpreterException( |
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'Values of different types ({}, {}) cannot be compared using {}.'.format(type(val1).__name__, |
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type(val2).__name__, |
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node.ctype)) |
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elif not self.is_elementary_type(val1): |
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raise InterpreterException('{} can only be compared for equality.'.format(node.left.value)) |
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elif not self.is_elementary_type(val2): |
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raise InterpreterException('{} can only be compared for equality.'.format(node.right.value)) |
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elif node.ctype == '<': |
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return val1 < val2 |
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elif node.ctype == '<=': |
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return val1 <= val2 |
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elif node.ctype == '>': |
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return val1 > val2 |
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elif node.ctype == '>=': |
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return val1 >= val2 |
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else: |
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raise InvalidCode('You broke my compare eval.') |
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|
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def evaluate_andstatement(self, cur): |
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l = self.evaluate_statement(cur.left) |
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if is_disabler(l): |
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return l |
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if not isinstance(l, bool): |
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raise InterpreterException('First argument to "and" is not a boolean.') |
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if not l: |
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return False |
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r = self.evaluate_statement(cur.right) |
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if is_disabler(r): |
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return r |
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if not isinstance(r, bool): |
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raise InterpreterException('Second argument to "and" is not a boolean.') |
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return r |
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|
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def evaluate_orstatement(self, cur): |
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l = self.evaluate_statement(cur.left) |
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if is_disabler(l): |
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return l |
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if not isinstance(l, bool): |
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raise InterpreterException('First argument to "or" is not a boolean.') |
|
if l: |
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return True |
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r = self.evaluate_statement(cur.right) |
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if is_disabler(r): |
|
return r |
|
if not isinstance(r, bool): |
|
raise InterpreterException('Second argument to "or" is not a boolean.') |
|
return r |
|
|
|
def evaluate_uminusstatement(self, cur): |
|
v = self.evaluate_statement(cur.value) |
|
if is_disabler(v): |
|
return v |
|
if not isinstance(v, int): |
|
raise InterpreterException('Argument to negation is not an integer.') |
|
return -v |
|
|
|
def evaluate_arithmeticstatement(self, cur): |
|
l = self.evaluate_statement(cur.left) |
|
if is_disabler(l): |
|
return l |
|
r = self.evaluate_statement(cur.right) |
|
if is_disabler(r): |
|
return r |
|
|
|
if cur.operation == 'add': |
|
try: |
|
return l + r |
|
except Exception as e: |
|
raise InvalidCode('Invalid use of addition: ' + str(e)) |
|
elif cur.operation == 'sub': |
|
if not isinstance(l, int) or not isinstance(r, int): |
|
raise InvalidCode('Subtraction works only with integers.') |
|
return l - r |
|
elif cur.operation == 'mul': |
|
if not isinstance(l, int) or not isinstance(r, int): |
|
raise InvalidCode('Multiplication works only with integers.') |
|
return l * r |
|
elif cur.operation == 'div': |
|
if not isinstance(l, int) or not isinstance(r, int): |
|
raise InvalidCode('Division works only with integers.') |
|
return l // r |
|
elif cur.operation == 'mod': |
|
if not isinstance(l, int) or not isinstance(r, int): |
|
raise InvalidCode('Modulo works only with integers.') |
|
return l % r |
|
else: |
|
raise InvalidCode('You broke me.') |
|
|
|
def evaluate_ternary(self, node): |
|
assert(isinstance(node, mparser.TernaryNode)) |
|
result = self.evaluate_statement(node.condition) |
|
if is_disabler(result): |
|
return result |
|
if not isinstance(result, bool): |
|
raise InterpreterException('Ternary condition is not boolean.') |
|
if result: |
|
return self.evaluate_statement(node.trueblock) |
|
else: |
|
return self.evaluate_statement(node.falseblock) |
|
|
|
def evaluate_foreach(self, node): |
|
assert(isinstance(node, mparser.ForeachClauseNode)) |
|
items = self.evaluate_statement(node.items) |
|
|
|
if isinstance(items, list): |
|
if len(node.varnames) != 1: |
|
raise InvalidArguments('Foreach on array does not unpack') |
|
varname = node.varnames[0].value |
|
if is_disabler(items): |
|
return items |
|
for item in items: |
|
self.set_variable(varname, item) |
|
self.evaluate_codeblock(node.block) |
|
elif isinstance(items, dict): |
|
if len(node.varnames) != 2: |
|
raise InvalidArguments('Foreach on dict unpacks key and value') |
|
if is_disabler(items): |
|
return items |
|
for key, value in items.items(): |
|
self.set_variable(node.varnames[0].value, key) |
|
self.set_variable(node.varnames[1].value, value) |
|
self.evaluate_codeblock(node.block) |
|
else: |
|
raise InvalidArguments('Items of foreach loop must be an array or a dict') |
|
|
|
def evaluate_plusassign(self, node): |
|
assert(isinstance(node, mparser.PlusAssignmentNode)) |
|
varname = node.var_name |
|
addition = self.evaluate_statement(node.value) |
|
if is_disabler(addition): |
|
self.set_variable(varname, addition) |
|
return |
|
# Remember that all variables are immutable. We must always create a |
|
# full new variable and then assign it. |
|
old_variable = self.get_variable(varname) |
|
if isinstance(old_variable, str): |
|
if not isinstance(addition, str): |
|
raise InvalidArguments('The += operator requires a string on the right hand side if the variable on the left is a string') |
|
new_value = old_variable + addition |
|
elif isinstance(old_variable, int): |
|
if not isinstance(addition, int): |
|
raise InvalidArguments('The += operator requires an int on the right hand side if the variable on the left is an int') |
|
new_value = old_variable + addition |
|
elif not isinstance(old_variable, list): |
|
raise InvalidArguments('The += operator currently only works with arrays, strings or ints ') |
|
# Add other data types here. |
|
else: |
|
if isinstance(addition, list): |
|
new_value = old_variable + addition |
|
else: |
|
new_value = old_variable + [addition] |
|
self.set_variable(varname, new_value) |
|
|
|
def evaluate_indexing(self, node): |
|
assert(isinstance(node, mparser.IndexNode)) |
|
iobject = self.evaluate_statement(node.iobject) |
|
if is_disabler(iobject): |
|
return iobject |
|
if not hasattr(iobject, '__getitem__'): |
|
raise InterpreterException( |
|
'Tried to index an object that doesn\'t support indexing.') |
|
index = self.evaluate_statement(node.index) |
|
|
|
if isinstance(iobject, dict): |
|
if not isinstance(index, str): |
|
raise InterpreterException('Key is not a string') |
|
try: |
|
return iobject[index] |
|
except KeyError: |
|
raise InterpreterException('Key %s is not in dict' % index) |
|
else: |
|
if not isinstance(index, int): |
|
raise InterpreterException('Index value is not an integer.') |
|
try: |
|
return iobject[index] |
|
except IndexError: |
|
raise InterpreterException('Index %d out of bounds of array of size %d.' % (index, len(iobject))) |
|
|
|
def function_call(self, node): |
|
func_name = node.func_name |
|
(posargs, kwargs) = self.reduce_arguments(node.args) |
|
if is_disabled(posargs, kwargs): |
|
return Disabler() |
|
if func_name in self.funcs: |
|
func = self.funcs[func_name] |
|
if not getattr(func, 'no-args-flattening', False): |
|
posargs = flatten(posargs) |
|
|
|
return func(node, posargs, kwargs) |
|
else: |
|
self.unknown_function_called(func_name) |
|
|
|
def method_call(self, node): |
|
invokable = node.source_object |
|
if isinstance(invokable, mparser.IdNode): |
|
object_name = invokable.value |
|
obj = self.get_variable(object_name) |
|
else: |
|
obj = self.evaluate_statement(invokable) |
|
method_name = node.name |
|
args = node.args |
|
if isinstance(obj, str): |
|
return self.string_method_call(obj, method_name, args) |
|
if isinstance(obj, bool): |
|
return self.bool_method_call(obj, method_name, args) |
|
if isinstance(obj, int): |
|
return self.int_method_call(obj, method_name, args) |
|
if isinstance(obj, list): |
|
return self.array_method_call(obj, method_name, args) |
|
if isinstance(obj, dict): |
|
return self.dict_method_call(obj, method_name, args) |
|
if isinstance(obj, mesonlib.File): |
|
raise InvalidArguments('File object "%s" is not callable.' % obj) |
|
if not isinstance(obj, InterpreterObject): |
|
raise InvalidArguments('Variable "%s" is not callable.' % object_name) |
|
(args, kwargs) = self.reduce_arguments(args) |
|
# Special case. This is the only thing you can do with a disabler |
|
# object. Every other use immediately returns the disabler object. |
|
if isinstance(obj, Disabler) and method_name == 'found': |
|
return False |
|
if is_disabled(args, kwargs): |
|
return Disabler() |
|
if method_name == 'extract_objects': |
|
self.validate_extraction(obj.held_object) |
|
return obj.method_call(method_name, args, kwargs) |
|
|
|
def bool_method_call(self, obj, method_name, args): |
|
(posargs, kwargs) = self.reduce_arguments(args) |
|
if is_disabled(posargs, kwargs): |
|
return Disabler() |
|
if method_name == 'to_string': |
|
if not posargs: |
|
if obj: |
|
return 'true' |
|
else: |
|
return 'false' |
|
elif len(posargs) == 2 and isinstance(posargs[0], str) and isinstance(posargs[1], str): |
|
if obj: |
|
return posargs[0] |
|
else: |
|
return posargs[1] |
|
else: |
|
raise InterpreterException('bool.to_string() must have either no arguments or exactly two string arguments that signify what values to return for true and false.') |
|
elif method_name == 'to_int': |
|
if obj: |
|
return 1 |
|
else: |
|
return 0 |
|
else: |
|
raise InterpreterException('Unknown method "%s" for a boolean.' % method_name) |
|
|
|
def int_method_call(self, obj, method_name, args): |
|
(posargs, kwargs) = self.reduce_arguments(args) |
|
if is_disabled(posargs, kwargs): |
|
return Disabler() |
|
if method_name == 'is_even': |
|
if not posargs: |
|
return obj % 2 == 0 |
|
else: |
|
raise InterpreterException('int.is_even() must have no arguments.') |
|
elif method_name == 'is_odd': |
|
if not posargs: |
|
return obj % 2 != 0 |
|
else: |
|
raise InterpreterException('int.is_odd() must have no arguments.') |
|
elif method_name == 'to_string': |
|
if not posargs: |
|
return str(obj) |
|
else: |
|
raise InterpreterException('int.to_string() must have no arguments.') |
|
else: |
|
raise InterpreterException('Unknown method "%s" for an integer.' % method_name) |
|
|
|
@staticmethod |
|
def _get_one_string_posarg(posargs, method_name): |
|
if len(posargs) > 1: |
|
m = '{}() must have zero or one arguments' |
|
raise InterpreterException(m.format(method_name)) |
|
elif len(posargs) == 1: |
|
s = posargs[0] |
|
if not isinstance(s, str): |
|
m = '{}() argument must be a string' |
|
raise InterpreterException(m.format(method_name)) |
|
return s |
|
return None |
|
|
|
def string_method_call(self, obj, method_name, args): |
|
(posargs, kwargs) = self.reduce_arguments(args) |
|
if is_disabled(posargs, kwargs): |
|
return Disabler() |
|
if method_name == 'strip': |
|
s = self._get_one_string_posarg(posargs, 'strip') |
|
if s is not None: |
|
return obj.strip(s) |
|
return obj.strip() |
|
elif method_name == 'format': |
|
return self.format_string(obj, args) |
|
elif method_name == 'to_upper': |
|
return obj.upper() |
|
elif method_name == 'to_lower': |
|
return obj.lower() |
|
elif method_name == 'underscorify': |
|
return re.sub(r'[^a-zA-Z0-9]', '_', obj) |
|
elif method_name == 'split': |
|
s = self._get_one_string_posarg(posargs, 'split') |
|
if s is not None: |
|
return obj.split(s) |
|
return obj.split() |
|
elif method_name == 'startswith' or method_name == 'contains' or method_name == 'endswith': |
|
s = posargs[0] |
|
if not isinstance(s, str): |
|
raise InterpreterException('Argument must be a string.') |
|
if method_name == 'startswith': |
|
return obj.startswith(s) |
|
elif method_name == 'contains': |
|
return obj.find(s) >= 0 |
|
return obj.endswith(s) |
|
elif method_name == 'to_int': |
|
try: |
|
return int(obj) |
|
except Exception: |
|
raise InterpreterException('String {!r} cannot be converted to int'.format(obj)) |
|
elif method_name == 'join': |
|
if len(posargs) != 1: |
|
raise InterpreterException('Join() takes exactly one argument.') |
|
strlist = posargs[0] |
|
check_stringlist(strlist) |
|
return obj.join(strlist) |
|
elif method_name == 'version_compare': |
|
if len(posargs) != 1: |
|
raise InterpreterException('Version_compare() takes exactly one argument.') |
|
cmpr = posargs[0] |
|
if not isinstance(cmpr, str): |
|
raise InterpreterException('Version_compare() argument must be a string.') |
|
return mesonlib.version_compare(obj, cmpr) |
|
raise InterpreterException('Unknown method "%s" for a string.' % method_name) |
|
|
|
def unknown_function_called(self, func_name): |
|
raise InvalidCode('Unknown function "%s".' % func_name) |
|
|
|
def array_method_call(self, obj, method_name, args): |
|
(posargs, kwargs) = self.reduce_arguments(args) |
|
if is_disabled(posargs, kwargs): |
|
return Disabler() |
|
if method_name == 'contains': |
|
return self.check_contains(obj, posargs) |
|
elif method_name == 'length': |
|
return len(obj) |
|
elif method_name == 'get': |
|
index = posargs[0] |
|
fallback = None |
|
if len(posargs) == 2: |
|
fallback = posargs[1] |
|
elif len(posargs) > 2: |
|
m = 'Array method \'get()\' only takes two arguments: the ' \ |
|
'index and an optional fallback value if the index is ' \ |
|
'out of range.' |
|
raise InvalidArguments(m) |
|
if not isinstance(index, int): |
|
raise InvalidArguments('Array index must be a number.') |
|
if index < -len(obj) or index >= len(obj): |
|
if fallback is None: |
|
m = 'Array index {!r} is out of bounds for array of size {!r}.' |
|
raise InvalidArguments(m.format(index, len(obj))) |
|
return fallback |
|
return obj[index] |
|
m = 'Arrays do not have a method called {!r}.' |
|
raise InterpreterException(m.format(method_name)) |
|
|
|
def dict_method_call(self, obj, method_name, args): |
|
(posargs, kwargs) = self.reduce_arguments(args) |
|
if is_disabled(posargs, kwargs): |
|
return Disabler() |
|
|
|
if method_name in ('has_key', 'get'): |
|
if method_name == 'has_key': |
|
if len(posargs) != 1: |
|
raise InterpreterException('has_key() takes exactly one argument.') |
|
else: |
|
if len(posargs) not in (1, 2): |
|
raise InterpreterException('get() takes one or two arguments.') |
|
|
|
key = posargs[0] |
|
if not isinstance(key, (str)): |
|
raise InvalidArguments('Dictionary key must be a string.') |
|
|
|
has_key = key in obj |
|
|
|
if method_name == 'has_key': |
|
return has_key |
|
|
|
if has_key: |
|
return obj[key] |
|
|
|
if len(posargs) == 2: |
|
return posargs[1] |
|
|
|
raise InterpreterException('Key {!r} is not in the dictionary.'.format(key)) |
|
|
|
if method_name == 'keys': |
|
if len(posargs) != 0: |
|
raise InterpreterException('keys() takes no arguments.') |
|
return list(obj.keys()) |
|
|
|
raise InterpreterException('Dictionaries do not have a method called "%s".' % method_name) |
|
|
|
def reduce_arguments(self, args): |
|
assert(isinstance(args, mparser.ArgumentNode)) |
|
if args.incorrect_order(): |
|
raise InvalidArguments('All keyword arguments must be after positional arguments.') |
|
self.argument_depth += 1 |
|
reduced_pos = [self.evaluate_statement(arg) for arg in args.arguments] |
|
reduced_kw = {} |
|
for key in args.kwargs.keys(): |
|
if not isinstance(key, str): |
|
raise InvalidArguments('Keyword argument name is not a string.') |
|
a = args.kwargs[key] |
|
reduced_kw[key] = self.evaluate_statement(a) |
|
self.argument_depth -= 1 |
|
return reduced_pos, reduced_kw |
|
|
|
def assignment(self, node): |
|
assert(isinstance(node, mparser.AssignmentNode)) |
|
if self.argument_depth != 0: |
|
raise InvalidArguments('''Tried to assign values inside an argument list. |
|
To specify a keyword argument, use : instead of =.''') |
|
var_name = node.var_name |
|
if not isinstance(var_name, str): |
|
raise InvalidArguments('Tried to assign value to a non-variable.') |
|
value = self.evaluate_statement(node.value) |
|
if not self.is_assignable(value): |
|
raise InvalidCode('Tried to assign an invalid value to variable.') |
|
# For mutable objects we need to make a copy on assignment |
|
if isinstance(value, MutableInterpreterObject): |
|
value = copy.deepcopy(value) |
|
self.set_variable(var_name, value) |
|
return None |
|
|
|
def set_variable(self, varname, variable): |
|
if variable is None: |
|
raise InvalidCode('Can not assign None to variable.') |
|
if not isinstance(varname, str): |
|
raise InvalidCode('First argument to set_variable must be a string.') |
|
if not self.is_assignable(variable): |
|
raise InvalidCode('Assigned value not of assignable type.') |
|
if re.match('[_a-zA-Z][_0-9a-zA-Z]*$', varname) is None: |
|
raise InvalidCode('Invalid variable name: ' + varname) |
|
if varname in self.builtin: |
|
raise InvalidCode('Tried to overwrite internal variable "%s"' % varname) |
|
self.variables[varname] = variable |
|
|
|
def get_variable(self, varname): |
|
if varname in self.builtin: |
|
return self.builtin[varname] |
|
if varname in self.variables: |
|
return self.variables[varname] |
|
raise InvalidCode('Unknown variable "%s".' % varname) |
|
|
|
def is_assignable(self, value): |
|
return isinstance(value, (InterpreterObject, dependencies.Dependency, |
|
str, int, list, dict, mesonlib.File)) |
|
|
|
def is_elementary_type(self, v): |
|
return isinstance(v, (int, float, str, bool, list))
|
|
|