# Copyright 2021 The Meson development team # SPDX-license-identifier: Apache-2.0 from __future__ import annotations from ...interpreterbase import ( FeatureBroken, InvalidArguments, MesonOperator, ObjectHolder, noKwargs, noPosargs, typed_operator, ) import typing as T if T.TYPE_CHECKING: # Object holders need the actual interpreter from ...interpreter import Interpreter from ...interpreterbase import TYPE_var, TYPE_kwargs class IntegerHolder(ObjectHolder[int]): def __init__(self, obj: int, interpreter: 'Interpreter') -> None: super().__init__(obj, interpreter) self.methods.update({ 'is_even': self.is_even_method, 'is_odd': self.is_odd_method, 'to_string': self.to_string_method, }) self.trivial_operators.update({ # Arithmetic MesonOperator.UMINUS: (None, lambda x: -self.held_object), MesonOperator.PLUS: (int, lambda x: self.held_object + x), MesonOperator.MINUS: (int, lambda x: self.held_object - x), MesonOperator.TIMES: (int, lambda x: self.held_object * x), # Comparison MesonOperator.EQUALS: (int, lambda x: self.held_object == x), MesonOperator.NOT_EQUALS: (int, lambda x: self.held_object != x), MesonOperator.GREATER: (int, lambda x: self.held_object > x), MesonOperator.LESS: (int, lambda x: self.held_object < x), MesonOperator.GREATER_EQUALS: (int, lambda x: self.held_object >= x), MesonOperator.LESS_EQUALS: (int, lambda x: self.held_object <= x), }) # Use actual methods for functions that require additional checks self.operators.update({ MesonOperator.DIV: self.op_div, MesonOperator.MOD: self.op_mod, }) def display_name(self) -> str: return 'int' def operator_call(self, operator: MesonOperator, other: TYPE_var) -> TYPE_var: if isinstance(other, bool): FeatureBroken.single_use('int operations with non-int', '1.2.0', self.subproject, 'It is not commutative and only worked because of leaky Python abstractions.', location=self.current_node) return super().operator_call(operator, other) @noKwargs @noPosargs def is_even_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> bool: return self.held_object % 2 == 0 @noKwargs @noPosargs def is_odd_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> bool: return self.held_object % 2 != 0 @noKwargs @noPosargs def to_string_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str: return str(self.held_object) @typed_operator(MesonOperator.DIV, int) def op_div(self, other: int) -> int: if other == 0: raise InvalidArguments('Tried to divide by 0') return self.held_object // other @typed_operator(MesonOperator.MOD, int) def op_mod(self, other: int) -> int: if other == 0: raise InvalidArguments('Tried to divide by 0') return self.held_object % other