from __future__ import annotations import abc import re from typing import ( TYPE_CHECKING, Callable, Literal, ) import numpy as np from pandas._typing import Scalar if TYPE_CHECKING: from pandas import Series class BaseStringArrayMethods(abc.ABC): """ Base class for extension arrays implementing string methods. This is where our ExtensionArrays can override the implementation of Series.str.. We don't expect this to work with 3rd-party extension arrays. * User calls Series.str. * pandas extracts the extension array from the Series * pandas calls ``extension_array._str_(*args, **kwargs)`` * pandas wraps the result, to return to the user. See :ref:`Series.str` for the docstring of each method. """ def _str_getitem(self, key): if isinstance(key, slice): return self._str_slice(start=key.start, stop=key.stop, step=key.step) else: return self._str_get(key) @abc.abstractmethod def _str_count(self, pat, flags: int = 0): pass @abc.abstractmethod def _str_pad( self, width, side: Literal["left", "right", "both"] = "left", fillchar: str = " ", ): pass @abc.abstractmethod def _str_contains( self, pat, case: bool = True, flags: int = 0, na=None, regex: bool = True ): pass @abc.abstractmethod def _str_startswith(self, pat, na=None): pass @abc.abstractmethod def _str_endswith(self, pat, na=None): pass @abc.abstractmethod def _str_replace( self, pat: str | re.Pattern, repl: str | Callable, n: int = -1, case: bool = True, flags: int = 0, regex: bool = True, ): pass @abc.abstractmethod def _str_repeat(self, repeats): pass @abc.abstractmethod def _str_match( self, pat: str, case: bool = True, flags: int = 0, na: Scalar = np.nan ): pass @abc.abstractmethod def _str_fullmatch( self, pat: str | re.Pattern, case: bool = True, flags: int = 0, na: Scalar = np.nan, ): pass @abc.abstractmethod def _str_encode(self, encoding, errors: str = "strict"): pass @abc.abstractmethod def _str_find(self, sub, start: int = 0, end=None): pass @abc.abstractmethod def _str_rfind(self, sub, start: int = 0, end=None): pass @abc.abstractmethod def _str_findall(self, pat, flags: int = 0): pass @abc.abstractmethod def _str_get(self, i): pass @abc.abstractmethod def _str_index(self, sub, start: int = 0, end=None): pass @abc.abstractmethod def _str_rindex(self, sub, start: int = 0, end=None): pass @abc.abstractmethod def _str_join(self, sep): pass @abc.abstractmethod def _str_partition(self, sep, expand): pass @abc.abstractmethod def _str_rpartition(self, sep, expand): pass @abc.abstractmethod def _str_len(self): pass @abc.abstractmethod def _str_slice(self, start=None, stop=None, step=None): pass @abc.abstractmethod def _str_slice_replace(self, start=None, stop=None, repl=None): pass @abc.abstractmethod def _str_translate(self, table): pass @abc.abstractmethod def _str_wrap(self, width, **kwargs): pass @abc.abstractmethod def _str_get_dummies(self, sep: str = "|"): pass @abc.abstractmethod def _str_isalnum(self): pass @abc.abstractmethod def _str_isalpha(self): pass @abc.abstractmethod def _str_isdecimal(self): pass @abc.abstractmethod def _str_isdigit(self): pass @abc.abstractmethod def _str_islower(self): pass @abc.abstractmethod def _str_isnumeric(self): pass @abc.abstractmethod def _str_isspace(self): pass @abc.abstractmethod def _str_istitle(self): pass @abc.abstractmethod def _str_isupper(self): pass @abc.abstractmethod def _str_capitalize(self): pass @abc.abstractmethod def _str_casefold(self): pass @abc.abstractmethod def _str_title(self): pass @abc.abstractmethod def _str_swapcase(self): pass @abc.abstractmethod def _str_lower(self): pass @abc.abstractmethod def _str_upper(self): pass @abc.abstractmethod def _str_normalize(self, form): pass @abc.abstractmethod def _str_strip(self, to_strip=None): pass @abc.abstractmethod def _str_lstrip(self, to_strip=None): pass @abc.abstractmethod def _str_rstrip(self, to_strip=None): pass @abc.abstractmethod def _str_removeprefix(self, prefix: str) -> Series: pass @abc.abstractmethod def _str_removesuffix(self, suffix: str) -> Series: pass @abc.abstractmethod def _str_split( self, pat=None, n=-1, expand: bool = False, regex: bool | None = None ): pass @abc.abstractmethod def _str_rsplit(self, pat=None, n=-1): pass @abc.abstractmethod def _str_extract(self, pat: str, flags: int = 0, expand: bool = True): pass