mirror of https://github.com/python/cpython
553 lines
20 KiB
Python
553 lines
20 KiB
Python
from __future__ import annotations
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import builtins as bltns
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import functools
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from typing import Any, TypeVar, Literal, TYPE_CHECKING, cast
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from collections.abc import Callable
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import libclinic
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from libclinic import fail
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from libclinic import Sentinels, unspecified, unknown
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from libclinic.codegen import CRenderData, Include, TemplateDict
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from libclinic.function import Function, Parameter
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CConverterClassT = TypeVar("CConverterClassT", bound=type["CConverter"])
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type_checks = {
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'&PyLong_Type': ('PyLong_Check', 'int'),
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'&PyTuple_Type': ('PyTuple_Check', 'tuple'),
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'&PyList_Type': ('PyList_Check', 'list'),
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'&PySet_Type': ('PySet_Check', 'set'),
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'&PyFrozenSet_Type': ('PyFrozenSet_Check', 'frozenset'),
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'&PyDict_Type': ('PyDict_Check', 'dict'),
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'&PyUnicode_Type': ('PyUnicode_Check', 'str'),
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'&PyBytes_Type': ('PyBytes_Check', 'bytes'),
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'&PyByteArray_Type': ('PyByteArray_Check', 'bytearray'),
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}
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def add_c_converter(
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f: CConverterClassT,
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name: str | None = None
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) -> CConverterClassT:
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if not name:
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name = f.__name__
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if not name.endswith('_converter'):
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return f
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name = name.removesuffix('_converter')
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converters[name] = f
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return f
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def add_default_legacy_c_converter(cls: CConverterClassT) -> CConverterClassT:
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# automatically add converter for default format unit
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# (but without stomping on the existing one if it's already
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# set, in case you subclass)
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if ((cls.format_unit not in ('O&', '')) and
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(cls.format_unit not in legacy_converters)):
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legacy_converters[cls.format_unit] = cls
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return cls
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class CConverterAutoRegister(type):
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def __init__(
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cls, name: str, bases: tuple[type[object], ...], classdict: dict[str, Any]
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) -> None:
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converter_cls = cast(type["CConverter"], cls)
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add_c_converter(converter_cls)
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add_default_legacy_c_converter(converter_cls)
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class CConverter(metaclass=CConverterAutoRegister):
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"""
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For the init function, self, name, function, and default
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must be keyword-or-positional parameters. All other
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parameters must be keyword-only.
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"""
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# The C name to use for this variable.
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name: str
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# The Python name to use for this variable.
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py_name: str
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# The C type to use for this variable.
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# 'type' should be a Python string specifying the type, e.g. "int".
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# If this is a pointer type, the type string should end with ' *'.
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type: str | None = None
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# The Python default value for this parameter, as a Python value.
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# Or the magic value "unspecified" if there is no default.
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# Or the magic value "unknown" if this value is a cannot be evaluated
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# at Argument-Clinic-preprocessing time (but is presumed to be valid
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# at runtime).
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default: object = unspecified
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# If not None, default must be isinstance() of this type.
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# (You can also specify a tuple of types.)
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default_type: bltns.type[object] | tuple[bltns.type[object], ...] | None = None
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# "default" converted into a C value, as a string.
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# Or None if there is no default.
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c_default: str | None = None
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# "default" converted into a Python value, as a string.
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# Or None if there is no default.
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py_default: str | None = None
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# The default value used to initialize the C variable when
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# there is no default, but not specifying a default may
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# result in an "uninitialized variable" warning. This can
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# easily happen when using option groups--although
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# properly-written code won't actually use the variable,
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# the variable does get passed in to the _impl. (Ah, if
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# only dataflow analysis could inline the static function!)
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#
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# This value is specified as a string.
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# Every non-abstract subclass should supply a valid value.
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c_ignored_default: str = 'NULL'
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# If true, wrap with Py_UNUSED.
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unused = False
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# The C converter *function* to be used, if any.
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# (If this is not None, format_unit must be 'O&'.)
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converter: str | None = None
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# Should Argument Clinic add a '&' before the name of
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# the variable when passing it into the _impl function?
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impl_by_reference = False
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# Should Argument Clinic add a '&' before the name of
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# the variable when passing it into PyArg_ParseTuple (AndKeywords)?
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parse_by_reference = True
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#############################################################
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#############################################################
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## You shouldn't need to read anything below this point to ##
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## write your own converter functions. ##
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#############################################################
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#############################################################
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# The "format unit" to specify for this variable when
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# parsing arguments using PyArg_ParseTuple (AndKeywords).
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# Custom converters should always use the default value of 'O&'.
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format_unit = 'O&'
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# What encoding do we want for this variable? Only used
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# by format units starting with 'e'.
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encoding: str | None = None
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# Should this object be required to be a subclass of a specific type?
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# If not None, should be a string representing a pointer to a
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# PyTypeObject (e.g. "&PyUnicode_Type").
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# Only used by the 'O!' format unit (and the "object" converter).
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subclass_of: str | None = None
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# See also the 'length_name' property.
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# Only used by format units ending with '#'.
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length = False
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# Should we show this parameter in the generated
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# __text_signature__? This is *almost* always True.
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# (It's only False for __new__, __init__, and METH_STATIC functions.)
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show_in_signature = True
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# Overrides the name used in a text signature.
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# The name used for a "self" parameter must be one of
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# self, type, or module; however users can set their own.
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# This lets the self_converter overrule the user-settable
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# name, *just* for the text signature.
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# Only set by self_converter.
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signature_name: str | None = None
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broken_limited_capi: bool = False
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# keep in sync with self_converter.__init__!
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def __init__(self,
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# Positional args:
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name: str,
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py_name: str,
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function: Function,
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default: object = unspecified,
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*, # Keyword only args:
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c_default: str | None = None,
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py_default: str | None = None,
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annotation: str | Literal[Sentinels.unspecified] = unspecified,
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unused: bool = False,
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**kwargs: Any
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) -> None:
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self.name = libclinic.ensure_legal_c_identifier(name)
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self.py_name = py_name
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self.unused = unused
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self._includes: list[Include] = []
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if default is not unspecified:
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if (self.default_type
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and default is not unknown
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and not isinstance(default, self.default_type)
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):
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if isinstance(self.default_type, type):
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types_str = self.default_type.__name__
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else:
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names = [cls.__name__ for cls in self.default_type]
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types_str = ', '.join(names)
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cls_name = self.__class__.__name__
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fail(f"{cls_name}: default value {default!r} for field "
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f"{name!r} is not of type {types_str!r}")
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self.default = default
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if c_default:
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self.c_default = c_default
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if py_default:
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self.py_default = py_default
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if annotation is not unspecified:
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fail("The 'annotation' parameter is not currently permitted.")
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# Make sure not to set self.function until after converter_init() has been called.
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# This prevents you from caching information
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# about the function in converter_init().
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# (That breaks if we get cloned.)
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self.converter_init(**kwargs)
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self.function = function
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# Add a custom __getattr__ method to improve the error message
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# if somebody tries to access self.function in converter_init().
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#
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# mypy will assume arbitrary access is okay for a class with a __getattr__ method,
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# and that's not what we want,
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# so put it inside an `if not TYPE_CHECKING` block
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if not TYPE_CHECKING:
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def __getattr__(self, attr):
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if attr == "function":
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fail(
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f"{self.__class__.__name__!r} object has no attribute 'function'.\n"
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f"Note: accessing self.function inside converter_init is disallowed!"
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)
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return super().__getattr__(attr)
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# this branch is just here for coverage reporting
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else: # pragma: no cover
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pass
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def converter_init(self) -> None:
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pass
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def is_optional(self) -> bool:
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return (self.default is not unspecified)
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def _render_self(self, parameter: Parameter, data: CRenderData) -> None:
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self.parameter = parameter
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name = self.parser_name
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# impl_arguments
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s = ("&" if self.impl_by_reference else "") + name
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data.impl_arguments.append(s)
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if self.length:
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data.impl_arguments.append(self.length_name)
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# impl_parameters
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data.impl_parameters.append(self.simple_declaration(by_reference=self.impl_by_reference))
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if self.length:
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data.impl_parameters.append(f"Py_ssize_t {self.length_name}")
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def _render_non_self(
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self,
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parameter: Parameter,
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data: CRenderData
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) -> None:
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self.parameter = parameter
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name = self.name
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# declarations
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d = self.declaration(in_parser=True)
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data.declarations.append(d)
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# initializers
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initializers = self.initialize()
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if initializers:
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data.initializers.append('/* initializers for ' + name + ' */\n' + initializers.rstrip())
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# modifications
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modifications = self.modify()
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if modifications:
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data.modifications.append('/* modifications for ' + name + ' */\n' + modifications.rstrip())
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# keywords
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if parameter.is_vararg():
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pass
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elif parameter.is_positional_only():
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data.keywords.append('')
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else:
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data.keywords.append(parameter.name)
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# format_units
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if self.is_optional() and '|' not in data.format_units:
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data.format_units.append('|')
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if parameter.is_keyword_only() and '$' not in data.format_units:
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data.format_units.append('$')
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data.format_units.append(self.format_unit)
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# parse_arguments
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self.parse_argument(data.parse_arguments)
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# post_parsing
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if post_parsing := self.post_parsing():
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data.post_parsing.append('/* Post parse cleanup for ' + name + ' */\n' + post_parsing.rstrip() + '\n')
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# cleanup
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cleanup = self.cleanup()
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if cleanup:
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data.cleanup.append('/* Cleanup for ' + name + ' */\n' + cleanup.rstrip() + "\n")
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def render(self, parameter: Parameter, data: CRenderData) -> None:
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"""
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parameter is a clinic.Parameter instance.
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data is a CRenderData instance.
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"""
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self._render_self(parameter, data)
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self._render_non_self(parameter, data)
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@functools.cached_property
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def length_name(self) -> str:
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"""Computes the name of the associated "length" variable."""
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assert self.length is not None
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return self.name + "_length"
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# Why is this one broken out separately?
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# For "positional-only" function parsing,
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# which generates a bunch of PyArg_ParseTuple calls.
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def parse_argument(self, args: list[str]) -> None:
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assert not (self.converter and self.encoding)
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if self.format_unit == 'O&':
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assert self.converter
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args.append(self.converter)
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if self.encoding:
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args.append(libclinic.c_repr(self.encoding))
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elif self.subclass_of:
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args.append(self.subclass_of)
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s = ("&" if self.parse_by_reference else "") + self.parser_name
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args.append(s)
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if self.length:
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args.append(f"&{self.length_name}")
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#
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# All the functions after here are intended as extension points.
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#
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def simple_declaration(
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self,
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by_reference: bool = False,
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*,
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in_parser: bool = False
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) -> str:
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"""
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Computes the basic declaration of the variable.
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Used in computing the prototype declaration and the
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variable declaration.
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"""
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assert isinstance(self.type, str)
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prototype = [self.type]
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if by_reference or not self.type.endswith('*'):
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prototype.append(" ")
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if by_reference:
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prototype.append('*')
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if in_parser:
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name = self.parser_name
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else:
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name = self.name
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if self.unused:
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name = f"Py_UNUSED({name})"
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prototype.append(name)
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return "".join(prototype)
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def declaration(self, *, in_parser: bool = False) -> str:
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"""
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The C statement to declare this variable.
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"""
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declaration = [self.simple_declaration(in_parser=True)]
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default = self.c_default
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if not default and self.parameter.group:
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default = self.c_ignored_default
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if default:
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declaration.append(" = ")
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declaration.append(default)
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declaration.append(";")
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if self.length:
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declaration.append('\n')
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declaration.append(f"Py_ssize_t {self.length_name};")
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return "".join(declaration)
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def initialize(self) -> str:
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"""
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The C statements required to set up this variable before parsing.
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Returns a string containing this code indented at column 0.
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If no initialization is necessary, returns an empty string.
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"""
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return ""
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def modify(self) -> str:
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"""
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The C statements required to modify this variable after parsing.
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Returns a string containing this code indented at column 0.
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If no modification is necessary, returns an empty string.
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"""
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return ""
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def post_parsing(self) -> str:
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"""
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The C statements required to do some operations after the end of parsing but before cleaning up.
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Return a string containing this code indented at column 0.
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If no operation is necessary, return an empty string.
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"""
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return ""
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def cleanup(self) -> str:
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"""
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The C statements required to clean up after this variable.
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Returns a string containing this code indented at column 0.
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If no cleanup is necessary, returns an empty string.
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"""
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return ""
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def pre_render(self) -> None:
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"""
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A second initialization function, like converter_init,
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called just before rendering.
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You are permitted to examine self.function here.
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"""
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pass
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def bad_argument(self, displayname: str, expected: str, *, limited_capi: bool, expected_literal: bool = True) -> str:
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assert '"' not in expected
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if limited_capi:
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if expected_literal:
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return (f'PyErr_Format(PyExc_TypeError, '
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f'"{{{{name}}}}() {displayname} must be {expected}, not %T", '
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f'{{argname}});')
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else:
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return (f'PyErr_Format(PyExc_TypeError, '
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f'"{{{{name}}}}() {displayname} must be %s, not %T", '
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f'"{expected}", {{argname}});')
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else:
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if expected_literal:
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expected = f'"{expected}"'
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self.add_include('pycore_modsupport.h', '_PyArg_BadArgument()')
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return f'_PyArg_BadArgument("{{{{name}}}}", "{displayname}", {expected}, {{argname}});'
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def format_code(self, fmt: str, *,
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argname: str,
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bad_argument: str | None = None,
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bad_argument2: str | None = None,
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**kwargs: Any) -> str:
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if '{bad_argument}' in fmt:
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if not bad_argument:
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raise TypeError("required 'bad_argument' argument")
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fmt = fmt.replace('{bad_argument}', bad_argument)
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if '{bad_argument2}' in fmt:
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if not bad_argument2:
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raise TypeError("required 'bad_argument2' argument")
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fmt = fmt.replace('{bad_argument2}', bad_argument2)
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return fmt.format(argname=argname, paramname=self.parser_name, **kwargs)
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def use_converter(self) -> None:
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"""Method called when self.converter is used to parse an argument."""
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pass
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def parse_arg(self, argname: str, displayname: str, *, limited_capi: bool) -> str | None:
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if self.format_unit == 'O&':
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self.use_converter()
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return self.format_code("""
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if (!{converter}({argname}, &{paramname})) {{{{
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goto exit;
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}}}}
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""",
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argname=argname,
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converter=self.converter)
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if self.format_unit == 'O!':
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cast = '(%s)' % self.type if self.type != 'PyObject *' else ''
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if self.subclass_of in type_checks:
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typecheck, typename = type_checks[self.subclass_of]
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return self.format_code("""
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if (!{typecheck}({argname})) {{{{
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{bad_argument}
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goto exit;
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}}}}
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{paramname} = {cast}{argname};
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""",
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argname=argname,
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bad_argument=self.bad_argument(displayname, typename, limited_capi=limited_capi),
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typecheck=typecheck, typename=typename, cast=cast)
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return self.format_code("""
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if (!PyObject_TypeCheck({argname}, {subclass_of})) {{{{
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{bad_argument}
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goto exit;
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}}}}
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{paramname} = {cast}{argname};
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""",
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argname=argname,
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bad_argument=self.bad_argument(displayname, '({subclass_of})->tp_name',
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expected_literal=False, limited_capi=limited_capi),
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subclass_of=self.subclass_of, cast=cast)
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if self.format_unit == 'O':
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cast = '(%s)' % self.type if self.type != 'PyObject *' else ''
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return self.format_code("""
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{paramname} = {cast}{argname};
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""",
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argname=argname, cast=cast)
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return None
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def set_template_dict(self, template_dict: TemplateDict) -> None:
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pass
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@property
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def parser_name(self) -> str:
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if self.name in libclinic.CLINIC_PREFIXED_ARGS: # bpo-39741
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return libclinic.CLINIC_PREFIX + self.name
|
|
else:
|
|
return self.name
|
|
|
|
def add_include(self, name: str, reason: str,
|
|
*, condition: str | None = None) -> None:
|
|
include = Include(name, reason, condition)
|
|
self._includes.append(include)
|
|
|
|
def get_includes(self) -> list[Include]:
|
|
return self._includes
|
|
|
|
|
|
ConverterType = Callable[..., CConverter]
|
|
ConverterDict = dict[str, ConverterType]
|
|
|
|
# maps strings to callables.
|
|
# these callables must be of the form:
|
|
# def foo(name, default, *, ...)
|
|
# The callable may have any number of keyword-only parameters.
|
|
# The callable must return a CConverter object.
|
|
# The callable should not call builtins.print.
|
|
converters: ConverterDict = {}
|
|
|
|
# maps strings to callables.
|
|
# these callables follow the same rules as those for "converters" above.
|
|
# note however that they will never be called with keyword-only parameters.
|
|
legacy_converters: ConverterDict = {}
|
|
|
|
|
|
def add_legacy_c_converter(
|
|
format_unit: str,
|
|
**kwargs: Any
|
|
) -> Callable[[CConverterClassT], CConverterClassT]:
|
|
def closure(f: CConverterClassT) -> CConverterClassT:
|
|
added_f: Callable[..., CConverter]
|
|
if not kwargs:
|
|
added_f = f
|
|
else:
|
|
added_f = functools.partial(f, **kwargs)
|
|
if format_unit:
|
|
legacy_converters[format_unit] = added_f
|
|
return f
|
|
return closure
|