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https://github.com/python-telegram-bot/python-telegram-bot.git
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594 lines
27 KiB
Python
594 lines
27 KiB
Python
#
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# A library that provides a Python interface to the Telegram Bot API
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# Copyright (C) 2015-2024
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# Leandro Toledo de Souza <devs@python-telegram-bot.org>
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#
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# This program is free software: you can redistribute it and/or modify
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# it under the terms of the GNU Lesser Public License as published by
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# the Free Software Foundation, either version 3 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU Lesser Public License for more details.
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#
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# You should have received a copy of the GNU Lesser Public License
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# along with this program. If not, see [http://www.gnu.org/licenses/].
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import collections.abc
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import inspect
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import re
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import typing
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from collections import defaultdict
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from typing import Any, Iterator, Union
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import telegram
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import telegram.ext
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def _iter_own_public_methods(cls: type) -> Iterator[tuple[str, type]]:
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"""Iterates over methods of a class that are not protected/private,
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not camelCase and not inherited from the parent class.
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Returns pairs of method names and methods.
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This function is defined outside the class because it is used to create class constants.
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"""
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return (
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m
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for m in inspect.getmembers(cls, predicate=inspect.isfunction) # not .ismethod
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if not m[0].startswith("_")
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and m[0].islower() # to avoid camelCase methods
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and m[0] in cls.__dict__ # method is not inherited from parent class
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)
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class AdmonitionInserter:
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"""Class for inserting admonitions into docs of Telegram classes."""
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CLASS_ADMONITION_TYPES = ("use_in", "available_in", "returned_in")
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METHOD_ADMONITION_TYPES = ("shortcuts",)
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ALL_ADMONITION_TYPES = CLASS_ADMONITION_TYPES + METHOD_ADMONITION_TYPES
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FORWARD_REF_PATTERN = re.compile(r"^ForwardRef\('(?P<class_name>\w+)'\)$")
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""" A pattern to find a class name in a ForwardRef typing annotation.
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Class name (in a named group) is surrounded by parentheses and single quotes.
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Note that since we're analyzing argument by argument, the pattern can be strict, with
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start and end markers.
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"""
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FORWARD_REF_SKIP_PATTERN = re.compile(r"^ForwardRef\('DefaultValue\[\w+]'\)$")
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"""A pattern that will be used to skip known ForwardRef's that need not be resolved
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to a Telegram class, e.g.:
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ForwardRef('DefaultValue[None]')
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ForwardRef('DefaultValue[DVValueType]')
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"""
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METHOD_NAMES_FOR_BOT_AND_APPBUILDER: dict[type, str] = {
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cls: tuple(m[0] for m in _iter_own_public_methods(cls)) # m[0] means we take only names
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for cls in (telegram.Bot, telegram.ext.ApplicationBuilder)
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}
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"""A dictionary mapping Bot and ApplicationBuilder classes to their relevant methods that will
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be mentioned in 'Returned in' and 'Use in' admonitions in other classes' docstrings.
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Methods must be public, not aliases, not inherited from TelegramObject.
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"""
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def __init__(self):
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self.admonitions: dict[str, dict[Union[type, collections.abc.Callable], str]] = {
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# dynamically determine which method to use to create a sub-dictionary
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admonition_type: getattr(self, f"_create_{admonition_type}")()
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for admonition_type in self.ALL_ADMONITION_TYPES
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}
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"""Dictionary with admonitions. Contains sub-dictionaries, one per admonition type.
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Each sub-dictionary matches bot methods (for "Shortcuts") or telegram classes (for other
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admonition types) to texts of admonitions, e.g.:
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```
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{
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"use_in": {<class 'telegram._chatinvitelink.ChatInviteLink'>:
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<"Use in" admonition for ChatInviteLink>, ...},
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"available_in": {<class 'telegram._chatinvitelink.ChatInviteLink'>:
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<"Available in" admonition">, ...},
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"returned_in": {...}
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}
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```
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"""
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def insert_admonitions(
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self,
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obj: Union[type, collections.abc.Callable],
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docstring_lines: list[str],
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):
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"""Inserts admonitions into docstring lines for a given class or method.
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**Modifies lines in place**.
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"""
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# A better way would be to copy the lines and return them, but that will not work with
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# docs.auxil.sphinx_hooks.autodoc_process_docstring()
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for admonition_type in self.ALL_ADMONITION_TYPES:
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# If there is no admonition of the given type for the given class or method,
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# continue to the next admonition type, maybe the class/method is listed there.
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if obj not in self.admonitions[admonition_type]:
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continue
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insert_idx = self._find_insert_pos_for_admonition(docstring_lines)
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admonition_lines = self.admonitions[admonition_type][obj].splitlines()
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for idx in range(insert_idx, insert_idx + len(admonition_lines)):
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docstring_lines.insert(idx, admonition_lines[idx - insert_idx])
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def _create_available_in(self) -> dict[type, str]:
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"""Creates a dictionary with 'Available in' admonitions for classes that are available
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in attributes of other classes.
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"""
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# Generate a mapping of classes to ReST links to attributes in other classes that
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# correspond to instances of a given class
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# i.e. {telegram._files.sticker.Sticker: {":attr:`telegram.Message.sticker`", ...}}
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attrs_for_class = defaultdict(set)
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# The following regex is supposed to capture a class name in a line like this:
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# media (:obj:`str` | :class:`telegram.InputFile`): Audio file to send.
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#
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# Note that even if such typing description spans over multiple lines but each line ends
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# with a backslash (otherwise Sphinx will throw an error)
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# (e.g. EncryptedPassportElement.data), then Sphinx will combine these lines into a single
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# line automatically, and it will contain no backslash (only some extra many whitespaces
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# from the indentation).
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attr_docstr_pattern = re.compile(
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r"^\s*(?P<attr_name>[a-z_]+)" # Any number of spaces, named group for attribute
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r"\s?\(" # Optional whitespace, opening parenthesis
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r".*" # Any number of characters (that could denote a built-in type)
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r":class:`.+`" # Marker of a classref, class name in backticks
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r".*\):" # Any number of characters, closing parenthesis, colon.
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# The ^ colon above along with parenthesis is important because it makes sure that
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# the class is mentioned in the attribute description, not in free text.
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r".*$", # Any number of characters, end of string (end of line)
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re.VERBOSE,
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)
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# for properties: there is no attr name in docstring. Just check if there's a class name.
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prop_docstring_pattern = re.compile(r":class:`.+`.*:")
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# pattern for iterating over potentially many class names in docstring for one attribute.
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# Tilde is optional (sometimes it is in the docstring, sometimes not).
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single_class_name_pattern = re.compile(r":class:`~?(?P<class_name>[\w.]*)`")
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classes_to_inspect = inspect.getmembers(telegram, inspect.isclass) + inspect.getmembers(
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telegram.ext, inspect.isclass
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)
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for class_name, inspected_class in classes_to_inspect:
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# We need to make "<class 'telegram._files.sticker.StickerSet'>" into
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# "telegram.StickerSet" because that's the way the classes are mentioned in
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# docstrings.
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name_of_inspected_class_in_docstr = self._generate_class_name_for_link(inspected_class)
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# Parsing part of the docstring with attributes (parsing of properties follows later)
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docstring_lines = inspect.getdoc(inspected_class).splitlines()
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lines_with_attrs = []
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for idx, line in enumerate(docstring_lines):
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if line.strip() == "Attributes:":
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lines_with_attrs = docstring_lines[idx + 1 :]
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break
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for line in lines_with_attrs:
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if not (line_match := attr_docstr_pattern.match(line)):
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continue
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target_attr = line_match.group("attr_name")
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# a typing description of one attribute can contain multiple classes
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for match in single_class_name_pattern.finditer(line):
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name_of_class_in_attr = match.group("class_name")
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# Writing to dictionary: matching the class found in the docstring
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# and its subclasses to the attribute of the class being inspected.
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# The class in the attribute docstring (or its subclass) is the key,
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# ReST link to attribute of the class currently being inspected is the value.
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try:
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self._resolve_arg_and_add_link(
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arg=name_of_class_in_attr,
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dict_of_methods_for_class=attrs_for_class,
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link=f":attr:`{name_of_inspected_class_in_docstr}.{target_attr}`",
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)
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except NotImplementedError as e:
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raise NotImplementedError(
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"Error generating Sphinx 'Available in' admonition "
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f"(admonition_inserter.py). Class {name_of_class_in_attr} present in "
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f"attribute {target_attr} of class {name_of_inspected_class_in_docstr}"
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f" could not be resolved. {str(e)}"
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)
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# Properties need to be parsed separately because they act like attributes but not
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# listed as attributes.
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properties = inspect.getmembers(inspected_class, lambda o: isinstance(o, property))
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for prop_name, _ in properties:
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# Make sure this property is really defined in the class being inspected.
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# A property can be inherited from a parent class, then a link to it will not work.
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if prop_name not in inspected_class.__dict__:
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continue
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# 1. Can't use typing.get_type_hints because double-quoted type hints
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# (like "Application") will throw a NameError
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# 2. Can't use inspect.signature because return annotations of properties can be
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# hard to parse (like "(self) -> BD").
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# 3. fget is used to access the actual function under the property wrapper
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docstring = inspect.getdoc(getattr(inspected_class, prop_name).fget)
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if docstring is None:
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continue
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first_line = docstring.splitlines()[0]
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if not prop_docstring_pattern.match(first_line):
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continue
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for match in single_class_name_pattern.finditer(first_line):
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name_of_class_in_prop = match.group("class_name")
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# Writing to dictionary: matching the class found in the docstring and its
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# subclasses to the property of the class being inspected.
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# The class in the property docstring (or its subclass) is the key,
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# ReST link to property of the class currently being inspected is the value.
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try:
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self._resolve_arg_and_add_link(
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arg=name_of_class_in_prop,
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dict_of_methods_for_class=attrs_for_class,
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link=f":attr:`{name_of_inspected_class_in_docstr}.{prop_name}`",
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)
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except NotImplementedError as e:
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raise NotImplementedError(
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"Error generating Sphinx 'Available in' admonition "
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f"(admonition_inserter.py). Class {name_of_class_in_prop} present in "
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f"property {prop_name} of class {name_of_inspected_class_in_docstr}"
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f" could not be resolved. {str(e)}"
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)
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return self._generate_admonitions(attrs_for_class, admonition_type="available_in")
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def _create_returned_in(self) -> dict[type, str]:
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"""Creates a dictionary with 'Returned in' admonitions for classes that are returned
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in Bot's and ApplicationBuilder's methods.
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"""
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# Generate a mapping of classes to ReST links to Bot methods which return it,
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# i.e. {<class 'telegram._message.Message'>: {:meth:`telegram.Bot.send_message`, ...}}
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methods_for_class = defaultdict(set)
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for cls, method_names in self.METHOD_NAMES_FOR_BOT_AND_APPBUILDER.items():
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for method_name in method_names:
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sig = inspect.signature(getattr(cls, method_name))
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ret_annot = sig.return_annotation
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method_link = self._generate_link_to_method(method_name, cls)
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try:
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self._resolve_arg_and_add_link(
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arg=ret_annot,
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dict_of_methods_for_class=methods_for_class,
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link=method_link,
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)
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except NotImplementedError as e:
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raise NotImplementedError(
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"Error generating Sphinx 'Returned in' admonition "
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f"(admonition_inserter.py). {cls}, method {method_name}. "
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f"Couldn't resolve type hint in return annotation {ret_annot}. {str(e)}"
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)
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return self._generate_admonitions(methods_for_class, admonition_type="returned_in")
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def _create_shortcuts(self) -> dict[collections.abc.Callable, str]:
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"""Creates a dictionary with 'Shortcuts' admonitions for Bot methods that
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have shortcuts in other classes.
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"""
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# pattern for looking for calls to Bot methods only
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bot_method_pattern = re.compile(
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r"""\s* # any number of whitespaces
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(?<=return\sawait\sself\.get_bot\(\)\.) # lookbehind
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\w+ # the method name we are looking for, letters/underscores
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(?=\() # lookahead: opening bracket before the args of the method start
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""",
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re.VERBOSE,
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)
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# Generate a mapping of methods of classes to links to Bot methods which they are shortcuts
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# for, i.e. {<function Bot.send_voice at ...>: {:meth:`telegram.User.send_voice`, ...}
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shortcuts_for_bot_method = defaultdict(set)
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# inspect methods of all telegram classes for return statements that indicate
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# that this given method is a shortcut for a Bot method
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for class_name, cls in inspect.getmembers(telegram, predicate=inspect.isclass):
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# no need to inspect Bot's own methods, as Bot can't have shortcuts in Bot
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if cls is telegram.Bot:
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continue
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for method_name, method in _iter_own_public_methods(cls):
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# .getsourcelines() returns a tuple. Item [1] is an int
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for line in inspect.getsourcelines(method)[0]:
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if not (bot_method_match := bot_method_pattern.search(line)):
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continue
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bot_method = getattr(telegram.Bot, bot_method_match.group())
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link_to_shortcut_method = self._generate_link_to_method(method_name, cls)
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shortcuts_for_bot_method[bot_method].add(link_to_shortcut_method)
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return self._generate_admonitions(shortcuts_for_bot_method, admonition_type="shortcuts")
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def _create_use_in(self) -> dict[type, str]:
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"""Creates a dictionary with 'Use in' admonitions for classes whose instances are
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accepted as arguments for Bot's and ApplicationBuilder's methods.
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"""
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# Generate a mapping of classes to links to Bot methods which accept them as arguments,
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# i.e. {<class 'telegram._inline.inlinequeryresult.InlineQueryResult'>:
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# {:meth:`telegram.Bot.answer_inline_query`, ...}}
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methods_for_class = defaultdict(set)
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for cls, method_names in self.METHOD_NAMES_FOR_BOT_AND_APPBUILDER.items():
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for method_name in method_names:
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method_link = self._generate_link_to_method(method_name, cls)
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sig = inspect.signature(getattr(cls, method_name))
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parameters = sig.parameters
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for param in parameters.values():
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try:
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self._resolve_arg_and_add_link(
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arg=param.annotation,
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dict_of_methods_for_class=methods_for_class,
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link=method_link,
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)
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except NotImplementedError as e:
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raise NotImplementedError(
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"Error generating Sphinx 'Use in' admonition "
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f"(admonition_inserter.py). {cls}, method {method_name}, parameter "
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f"{param}: Couldn't resolve type hint {param.annotation}. {str(e)}"
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)
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return self._generate_admonitions(methods_for_class, admonition_type="use_in")
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@staticmethod
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def _find_insert_pos_for_admonition(lines: list[str]) -> int:
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"""Finds the correct position to insert the class admonition and returns the index.
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The admonition will be insert above "See also", "Examples:", version added/changed notes
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and args, whatever comes first.
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If no key phrases are found, the admonition will be inserted at the very end.
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"""
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for idx, value in list(enumerate(lines)):
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if (
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value.startswith(".. seealso:")
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# The docstring contains heading "Examples:", but Sphinx will have it converted
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# to ".. admonition: Examples":
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or value.startswith(".. admonition:: Examples")
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or value.startswith(".. version")
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# The space after ":param" is important because docstring can contain ":paramref:"
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# in its plain text in the beginning of a line (e.g. ExtBot):
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or value.startswith(":param ")
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# some classes (like "Credentials") have no params, so insert before attrs:
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or value.startswith(".. attribute::")
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):
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return idx
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return len(lines) - 1
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def _generate_admonitions(
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self,
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attrs_or_methods_for_class: dict[type, set[str]],
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admonition_type: str,
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) -> dict[type, str]:
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"""Generates admonitions of a given type.
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Takes a dictionary of classes matched to ReST links to methods or attributes, e.g.:
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```
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{<class 'telegram._files.sticker.StickerSet'>:
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[":meth: `telegram.Bot.get_sticker_set`", ...]}.
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```
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Returns a dictionary of classes matched to full admonitions, e.g.
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for `admonition_type` "returned_in" (note that title and CSS class are generated
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automatically):
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```
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{<class 'telegram._files.sticker.StickerSet'>:
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".. admonition:: Returned in:
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:class: returned-in
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:meth: `telegram.Bot.get_sticker_set`"}.
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```
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"""
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if admonition_type not in self.ALL_ADMONITION_TYPES:
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raise TypeError(f"Admonition type {admonition_type} not supported.")
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admonition_for_class = {}
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for cls, attrs in attrs_or_methods_for_class.items():
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if cls is telegram.ext.ApplicationBuilder:
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# ApplicationBuilder is only used in and returned from its own methods,
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# so its page needs no admonitions.
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continue
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attrs = sorted(attrs)
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# e.g. for admonition type "use_in" the title will be "Use in" and CSS class "use-in".
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admonition = f"""
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.. admonition:: {admonition_type.title().replace("_", " ")}
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:class: {admonition_type.replace("_", "-")}
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"""
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if len(attrs) > 1:
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for target_attr in attrs:
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admonition += "\n * " + target_attr
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else:
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admonition += f"\n {attrs[0]}"
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admonition += "\n " # otherwise an unexpected unindent warning will be issued
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admonition_for_class[cls] = admonition
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return admonition_for_class
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@staticmethod
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def _generate_class_name_for_link(cls: type) -> str:
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"""Generates class name that can be used in a ReST link."""
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# Check for potential presence of ".ext.", we will need to keep it.
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ext = ".ext" if ".ext." in str(cls) else ""
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return f"telegram{ext}.{cls.__name__}"
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def _generate_link_to_method(self, method_name: str, cls: type) -> str:
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"""Generates a ReST link to a method of a telegram class."""
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|
|
|
return f":meth:`{self._generate_class_name_for_link(cls)}.{method_name}`"
|
|
|
|
@staticmethod
|
|
def _iter_subclasses(cls: type) -> Iterator:
|
|
return (
|
|
# exclude private classes
|
|
c
|
|
for c in cls.__subclasses__()
|
|
if not str(c).split(".")[-1].startswith("_")
|
|
)
|
|
|
|
def _resolve_arg_and_add_link(
|
|
self,
|
|
arg: Any,
|
|
dict_of_methods_for_class: defaultdict,
|
|
link: str,
|
|
) -> None:
|
|
"""A helper method. Tries to resolve the arg into a valid class. In case of success,
|
|
adds the link (to a method, attribute, or property) for that class' and its subclasses'
|
|
sets of links in the dictionary of admonitions.
|
|
|
|
**Modifies dictionary in place.**
|
|
"""
|
|
for cls in self._resolve_arg(arg):
|
|
# When trying to resolve an argument from args or return annotation,
|
|
# the method _resolve_arg returns None if nothing could be resolved.
|
|
# Also, if class was resolved correctly, "telegram" will definitely be in its str().
|
|
if cls is None or "telegram" not in str(cls):
|
|
continue
|
|
|
|
dict_of_methods_for_class[cls].add(link)
|
|
|
|
for subclass in self._iter_subclasses(cls):
|
|
dict_of_methods_for_class[subclass].add(link)
|
|
|
|
def _resolve_arg(self, arg: Any) -> Iterator[Union[type, None]]:
|
|
"""Analyzes an argument of a method and recursively yields classes that the argument
|
|
or its sub-arguments (in cases like Union[...]) belong to, if they can be resolved to
|
|
telegram or telegram.ext classes.
|
|
|
|
Raises `NotImplementedError`.
|
|
"""
|
|
|
|
origin = typing.get_origin(arg)
|
|
|
|
if (
|
|
origin in (collections.abc.Callable, typing.IO)
|
|
or arg is None
|
|
# no other check available (by type or origin) for these:
|
|
or str(type(arg)) in ("<class 'typing._SpecialForm'>", "<class 'ellipsis'>")
|
|
):
|
|
pass
|
|
|
|
# RECURSIVE CALLS
|
|
# for cases like Union[Sequence....
|
|
elif origin in (
|
|
Union,
|
|
collections.abc.Coroutine,
|
|
collections.abc.Sequence,
|
|
):
|
|
for sub_arg in typing.get_args(arg):
|
|
yield from self._resolve_arg(sub_arg)
|
|
|
|
elif isinstance(arg, typing.TypeVar):
|
|
# gets access to the "bound=..." parameter
|
|
yield from self._resolve_arg(arg.__bound__)
|
|
# END RECURSIVE CALLS
|
|
|
|
elif isinstance(arg, typing.ForwardRef):
|
|
m = self.FORWARD_REF_PATTERN.match(str(arg))
|
|
# We're sure it's a ForwardRef, so, unless it belongs to known exceptions,
|
|
# the class must be resolved.
|
|
# If it isn't resolved, we'll have the program throw an exception to be sure.
|
|
try:
|
|
cls = self._resolve_class(m.group("class_name"))
|
|
except AttributeError:
|
|
# skip known ForwardRef's that need not be resolved to a Telegram class
|
|
if self.FORWARD_REF_SKIP_PATTERN.match(str(arg)):
|
|
pass
|
|
else:
|
|
raise NotImplementedError(f"Could not process ForwardRef: {arg}")
|
|
else:
|
|
yield cls
|
|
|
|
# For custom generics like telegram.ext._application.Application[~BT, ~CCT, ~UD...].
|
|
# This must come before the check for isinstance(type) because GenericAlias can also be
|
|
# recognized as type if it belongs to <class 'types.GenericAlias'>.
|
|
elif str(type(arg)) in (
|
|
"<class 'typing._GenericAlias'>",
|
|
"<class 'types.GenericAlias'>",
|
|
"<class 'typing._LiteralGenericAlias'>",
|
|
):
|
|
if "telegram" in str(arg):
|
|
# get_origin() of telegram.ext._application.Application[~BT, ~CCT, ~UD...]
|
|
# will produce <class 'telegram.ext._application.Application'>
|
|
yield origin
|
|
|
|
elif isinstance(arg, type):
|
|
if "telegram" in str(arg):
|
|
yield arg
|
|
|
|
# For some reason "InlineQueryResult", "InputMedia" & some others are currently not
|
|
# recognized as ForwardRefs and are identified as plain strings.
|
|
elif isinstance(arg, str):
|
|
# args like "ApplicationBuilder[BT, CCT, UD, CD, BD, JQ]" can be recognized as strings.
|
|
# Remove whatever is in the square brackets because it doesn't need to be parsed.
|
|
arg = re.sub(r"\[.+]", "", arg)
|
|
|
|
cls = self._resolve_class(arg)
|
|
# Here we don't want an exception to be thrown since we're not sure it's ForwardRef
|
|
if cls is not None:
|
|
yield cls
|
|
|
|
else:
|
|
raise NotImplementedError(
|
|
f"Cannot process argument {arg} of type {type(arg)} (origin {origin})"
|
|
)
|
|
|
|
@staticmethod
|
|
def _resolve_class(name: str) -> Union[type, None]:
|
|
"""The keys in the admonitions dictionary are not strings like "telegram.StickerSet"
|
|
but classes like <class 'telegram._files.sticker.StickerSet'>.
|
|
|
|
This method attempts to resolve a PTB class from a name that does or does not
|
|
contain the word 'telegram', e.g.
|
|
<class 'telegram._files.sticker.StickerSet'> from "telegram.StickerSet" or "StickerSet".
|
|
|
|
Returns a class on success, :obj:`None` if nothing could be resolved.
|
|
"""
|
|
|
|
for option in (
|
|
name,
|
|
f"telegram.{name}",
|
|
f"telegram.ext.{name}",
|
|
f"telegram.ext.filters.{name}",
|
|
):
|
|
try:
|
|
return eval(option)
|
|
# NameError will be raised if trying to eval just name and it doesn't work, e.g.
|
|
# "Name 'ApplicationBuilder' is not defined".
|
|
# AttributeError will be raised if trying to e.g. eval f"telegram.{name}" when the
|
|
# class denoted by `name` actually belongs to `telegram.ext`:
|
|
# "module 'telegram' has no attribute 'ApplicationBuilder'".
|
|
# If neither option works, this is not a PTB class.
|
|
except (NameError, AttributeError):
|
|
continue
|
|
|
|
|
|
if __name__ == "__main__":
|
|
# just try instantiating for debugging purposes
|
|
AdmonitionInserter()
|