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meson/mesonbuild/interpreter/primitives/string.py

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interpreter: Introduce StringHolder Another commit in my quest to rid InterpreterBase from all higher level object processing logic. Additionally, there is a a logic change here, since `str.join` now uses varargs and can now accept more than one argument (and supports list flattening).
3 years ago
# Copyright 2021 The Meson development team
# SPDX-license-identifier: Apache-2.0
import re
from pathlib import PurePath
import typing as T
from ...mesonlib import version_compare
from ...interpreterbase import (
ObjectHolder,
MesonOperator,
FeatureNew,
typed_operator,
noKwargs,
noPosargs,
typed_pos_args,
TYPE_var,
TYPE_kwargs,
InvalidArguments,
)
if T.TYPE_CHECKING:
# Object holders need the actual interpreter
from ...interpreter import Interpreter
class StringHolder(ObjectHolder[str]):
def __init__(self, obj: str, interpreter: 'Interpreter') -> None:
super().__init__(obj, interpreter)
self.methods.update({
'contains': self.contains_method,
'startswith': self.startswith_method,
'endswith': self.endswith_method,
'format': self.format_method,
'join': self.join_method,
'replace': self.replace_method,
'split': self.split_method,
'strip': self.strip_method,
'substring': self.substring_method,
'to_int': self.to_int_method,
'to_lower': self.to_lower_method,
'to_upper': self.to_upper_method,
'underscorify': self.underscorify_method,
'version_compare': self.version_compare_method,
})
self.trivial_operators.update({
# Arithmetic
MesonOperator.PLUS: (str, lambda x: self.held_object + x),
# Comparison
MesonOperator.EQUALS: (str, lambda x: self.held_object == x),
MesonOperator.NOT_EQUALS: (str, lambda x: self.held_object != x),
MesonOperator.GREATER: (str, lambda x: self.held_object > x),
MesonOperator.LESS: (str, lambda x: self.held_object < x),
MesonOperator.GREATER_EQUALS: (str, lambda x: self.held_object >= x),
MesonOperator.LESS_EQUALS: (str, lambda x: self.held_object <= x),
})
# Use actual methods for functions that require additional checks
self.operators.update({
MesonOperator.DIV: self.op_div,
})
def display_name(self) -> str:
return 'str'
@noKwargs
@typed_pos_args('str.contains', str)
def contains_method(self, args: T.Tuple[str], kwargs: TYPE_kwargs) -> bool:
return self.held_object.find(args[0]) >= 0
@noKwargs
@typed_pos_args('str.startswith', str)
def startswith_method(self, args: T.Tuple[str], kwargs: TYPE_kwargs) -> bool:
return self.held_object.startswith(args[0])
@noKwargs
@typed_pos_args('str.endswith', str)
def endswith_method(self, args: T.Tuple[str], kwargs: TYPE_kwargs) -> bool:
return self.held_object.endswith(args[0])
@noKwargs
@typed_pos_args('str.format', varargs=object)
def format_method(self, args: T.Tuple[T.List[object]], kwargs: TYPE_kwargs) -> str:
arg_strings: T.List[str] = []
for arg in args[0]:
if isinstance(arg, bool): # Python boolean is upper case.
arg = str(arg).lower()
arg_strings.append(str(arg))
def arg_replace(match: T.Match[str]) -> str:
idx = int(match.group(1))
if idx >= len(arg_strings):
raise InvalidArguments(f'Format placeholder @{idx}@ out of range.')
return arg_strings[idx]
return re.sub(r'@(\d+)@', arg_replace, self.held_object)
@noKwargs
@typed_pos_args('str.join', varargs=str)
def join_method(self, args: T.Tuple[T.List[str]], kwargs: TYPE_kwargs) -> str:
return self.held_object.join(args[0])
@noKwargs
@typed_pos_args('str.replace', str, str)
def replace_method(self, args: T.Tuple[str, str], kwargs: TYPE_kwargs) -> str:
return self.held_object.replace(args[0], args[1])
@noKwargs
@typed_pos_args('str.split', optargs=[str])
def split_method(self, args: T.Tuple[T.Optional[str]], kwargs: TYPE_kwargs) -> T.List[str]:
return self.held_object.split(args[0])
@noKwargs
@typed_pos_args('str.strip', optargs=[str])
def strip_method(self, args: T.Tuple[T.Optional[str]], kwargs: TYPE_kwargs) -> str:
return self.held_object.strip(args[0])
@noKwargs
@typed_pos_args('str.substring', optargs=[int, int])
def substring_method(self, args: T.Tuple[T.Optional[int], T.Optional[int]], kwargs: TYPE_kwargs) -> str:
start = args[0] if args[0] is not None else 0
end = args[1] if args[1] is not None else len(self.held_object)
return self.held_object[start:end]
@noKwargs
@noPosargs
def to_int_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> int:
try:
return int(self.held_object)
except ValueError:
raise InvalidArguments(f'String {self.held_object!r} cannot be converted to int')
@noKwargs
@noPosargs
def to_lower_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
return self.held_object.lower()
@noKwargs
@noPosargs
def to_upper_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
return self.held_object.upper()
@noKwargs
@noPosargs
def underscorify_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
return re.sub(r'[^a-zA-Z0-9]', '_', self.held_object)
@noKwargs
@typed_pos_args('str.version_compare', str)
def version_compare_method(self, args: T.Tuple[str], kwargs: TYPE_kwargs) -> bool:
return version_compare(self.held_object, args[0])
@FeatureNew('/ with string arguments', '0.49.0')
@typed_operator(MesonOperator.DIV, str)
def op_div(self, other: str) -> str:
return (PurePath(self.held_object) / other).as_posix()
class MesonVersionString(str):
pass
class MesonVersionStringHolder(StringHolder):
@noKwargs
@typed_pos_args('str.version_compare', str)
def version_compare_method(self, args: T.Tuple[str], kwargs: TYPE_kwargs) -> bool:
self.interpreter.tmp_meson_version = args[0]
return version_compare(self.held_object, args[0])