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# Copyright 2013-2021 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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from __future__ import annotations
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from .. import mparser
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from .exceptions import InvalidCode, InvalidArguments
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from .helpers import flatten, resolve_second_level_holders
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from .operator import MesonOperator
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from ..mesonlib import HoldableObject, MesonBugException
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import textwrap
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import typing as T
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from abc import ABCMeta
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from contextlib import AbstractContextManager
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if T.TYPE_CHECKING:
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from typing_extensions import Protocol
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# Object holders need the actual interpreter
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from ..interpreter import Interpreter
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__T = T.TypeVar('__T', bound='TYPE_var', contravariant=True)
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class OperatorCall(Protocol[__T]):
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def __call__(self, other: __T) -> 'TYPE_var': ...
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TV_fw_var = T.Union[str, int, bool, list, dict, 'InterpreterObject']
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TV_fw_args = T.List[T.Union[mparser.BaseNode, TV_fw_var]]
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TV_fw_kwargs = T.Dict[str, T.Union[mparser.BaseNode, TV_fw_var]]
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TV_func = T.TypeVar('TV_func', bound=T.Callable[..., T.Any])
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TYPE_elementary = T.Union[str, int, bool, T.List[T.Any], T.Dict[str, T.Any]]
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TYPE_var = T.Union[TYPE_elementary, HoldableObject, 'MesonInterpreterObject']
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TYPE_nvar = T.Union[TYPE_var, mparser.BaseNode]
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TYPE_kwargs = T.Dict[str, TYPE_var]
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TYPE_nkwargs = T.Dict[str, TYPE_nvar]
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TYPE_key_resolver = T.Callable[[mparser.BaseNode], str]
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SubProject = T.NewType('SubProject', str)
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class InterpreterObject:
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def __init__(self, *, subproject: T.Optional['SubProject'] = None) -> None:
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self.methods: T.Dict[
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str,
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T.Callable[[T.List[TYPE_var], TYPE_kwargs], TYPE_var]
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] = {}
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self.operators: T.Dict[MesonOperator, 'OperatorCall'] = {}
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self.trivial_operators: T.Dict[
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MesonOperator,
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T.Tuple[
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T.Union[T.Type, T.Tuple[T.Type, ...]],
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'OperatorCall'
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]
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] = {}
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# Current node set during a method call. This can be used as location
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# when printing a warning message during a method call.
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self.current_node: mparser.BaseNode = None
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self.subproject = subproject or SubProject('')
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# Some default operators supported by all objects
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self.operators.update({
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MesonOperator.EQUALS: self.op_equals,
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MesonOperator.NOT_EQUALS: self.op_not_equals,
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})
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# The type of the object that can be printed to the user
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def display_name(self) -> str:
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return type(self).__name__
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def method_call(
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self,
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method_name: str,
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args: T.List[TYPE_var],
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kwargs: TYPE_kwargs
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) -> TYPE_var:
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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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if not getattr(method, 'no-second-level-holder-flattening', False):
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args, kwargs = resolve_second_level_holders(args, kwargs)
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return method(args, kwargs)
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raise InvalidCode(f'Unknown method "{method_name}" in object {self} of type {type(self).__name__}.')
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def operator_call(self, operator: MesonOperator, other: TYPE_var) -> TYPE_var:
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if operator in self.trivial_operators:
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op = self.trivial_operators[operator]
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if op[0] is None and other is not None:
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raise MesonBugException(f'The unary operator `{operator.value}` of {self.display_name()} was passed the object {other} of type {type(other).__name__}')
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if op[0] is not None and not isinstance(other, op[0]):
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raise InvalidArguments(f'The `{operator.value}` operator of {self.display_name()} does not accept objects of type {type(other).__name__} ({other})')
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return op[1](other)
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if operator in self.operators:
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return self.operators[operator](other)
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raise InvalidCode(f'Object {self} of type {self.display_name()} does not support the `{operator.value}` operator.')
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# Default comparison operator support
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def _throw_comp_exception(self, other: TYPE_var, opt_type: str) -> T.NoReturn:
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raise InvalidArguments(textwrap.dedent(
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f'''
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Trying to compare values of different types ({self.display_name()}, {type(other).__name__}) using {opt_type}.
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This was deprecated and undefined behavior previously and is as of 0.60.0 a hard error.
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'''
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))
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def op_equals(self, other: TYPE_var) -> bool:
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# We use `type(...) == type(...)` here to enforce an *exact* match for comparison. We
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# don't want comparisons to be possible where `isinstance(derived_obj, type(base_obj))`
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# would pass because this comparison must never be true: `derived_obj == base_obj`
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if type(self) != type(other):
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self._throw_comp_exception(other, '==')
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return self == other
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def op_not_equals(self, other: TYPE_var) -> bool:
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if type(self) != type(other):
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self._throw_comp_exception(other, '!=')
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return self != other
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class MesonInterpreterObject(InterpreterObject):
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''' All non-elementary objects and non-object-holders should be derived from this '''
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class MutableInterpreterObject:
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''' Dummy class to mark the object type as mutable '''
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HoldableTypes = (HoldableObject, int, bool, str, list, dict)
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TYPE_HoldableTypes = T.Union[TYPE_elementary, HoldableObject]
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InterpreterObjectTypeVar = T.TypeVar('InterpreterObjectTypeVar', bound=TYPE_HoldableTypes)
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class ObjectHolder(InterpreterObject, T.Generic[InterpreterObjectTypeVar]):
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def __init__(self, obj: InterpreterObjectTypeVar, interpreter: 'Interpreter') -> None:
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super().__init__(subproject=interpreter.subproject)
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# This causes some type checkers to assume that obj is a base
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# HoldableObject, not the specialized type, so only do this assert in
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# non-type checking situations
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if not T.TYPE_CHECKING:
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assert isinstance(obj, HoldableTypes), f'This is a bug: Trying to hold object of type `{type(obj).__name__}` that is not in `{HoldableTypes}`'
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self.held_object = obj
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self.interpreter = interpreter
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self.env = self.interpreter.environment
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# Hide the object holder abstraction from the user
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def display_name(self) -> str:
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return type(self.held_object).__name__
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# Override default comparison operators for the held object
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def op_equals(self, other: TYPE_var) -> bool:
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# See the comment from InterpreterObject why we are using `type()` here.
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if type(self.held_object) != type(other):
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self._throw_comp_exception(other, '==')
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return self.held_object == other
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def op_not_equals(self, other: TYPE_var) -> bool:
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if type(self.held_object) != type(other):
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self._throw_comp_exception(other, '!=')
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return self.held_object != other
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def __repr__(self) -> str:
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return f'<[{type(self).__name__}] holds [{type(self.held_object).__name__}]: {self.held_object!r}>'
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class IterableObject(metaclass=ABCMeta):
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'''Base class for all objects that can be iterated over in a foreach loop'''
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def iter_tuple_size(self) -> T.Optional[int]:
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'''Return the size of the tuple for each iteration. Returns None if only a single value is returned.'''
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raise MesonBugException(f'iter_tuple_size not implemented for {self.__class__.__name__}')
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def iter_self(self) -> T.Iterator[T.Union[TYPE_var, T.Tuple[TYPE_var, ...]]]:
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raise MesonBugException(f'iter not implemented for {self.__class__.__name__}')
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def size(self) -> int:
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raise MesonBugException(f'size not implemented for {self.__class__.__name__}')
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class ContextManagerObject(MesonInterpreterObject, AbstractContextManager):
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def __init__(self, subproject: 'SubProject') -> None:
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super().__init__(subproject=subproject)
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