# Adopted from https://github.com/python/typeshed from _typeshed import ReadableBuffer, StrOrBytesPath, SupportsLenAndGetItem, Unused from collections.abc import Callable, Iterable, Iterator, Mapping from datetime import date, datetime, time from types import TracebackType from typing import Any, Literal, Protocol, SupportsIndex, TypeVar, final, overload from typing_extensions import Self, TypeAlias _T = TypeVar("_T") _CursorT = TypeVar("_CursorT", bound=Cursor) _SqliteData: TypeAlias = str | ReadableBuffer | int | float | None # Data that is passed through adapters can be of any type accepted by an adapter. _AdaptedInputData: TypeAlias = _SqliteData | Any # The Mapping must really be a dict, but making it invariant is too annoying. _Parameters: TypeAlias = SupportsLenAndGetItem[_AdaptedInputData] | Mapping[str, _AdaptedInputData] _Adapter: TypeAlias = Callable[[_T], _SqliteData] _Converter: TypeAlias = Callable[[bytes], Any] paramstyle: str threadsafety: int apilevel: str Date = date Time = time Timestamp = datetime def DateFromTicks(ticks: float) -> Date: ... def TimeFromTicks(ticks: float) -> Time: ... def TimestampFromTicks(ticks: float) -> Timestamp: ... version_info: tuple[int, int, int] sqlite_version_info: tuple[int, int, int] Binary = memoryview # The remaining definitions are imported from _sqlite3. PARSE_COLNAMES: int PARSE_DECLTYPES: int SQLITE_ABORT: int SQLITE_ALTER_TABLE: int SQLITE_ANALYZE: int SQLITE_ATTACH: int SQLITE_AUTH: int SQLITE_BUSY: int SQLITE_CANTOPEN: int SQLITE_CONSTRAINT: int SQLITE_CORRUPT: int SQLITE_CREATE_INDEX: int SQLITE_CREATE_TABLE: int SQLITE_CREATE_TEMP_INDEX: int SQLITE_CREATE_TEMP_TABLE: int SQLITE_CREATE_TEMP_TRIGGER: int SQLITE_CREATE_TEMP_VIEW: int SQLITE_CREATE_TRIGGER: int SQLITE_CREATE_VIEW: int SQLITE_CREATE_VTABLE: int SQLITE_DELETE: int SQLITE_DENY: int SQLITE_DETACH: int SQLITE_DONE: int SQLITE_DROP_INDEX: int SQLITE_DROP_TABLE: int SQLITE_DROP_TEMP_INDEX: int SQLITE_DROP_TEMP_TABLE: int SQLITE_DROP_TEMP_TRIGGER: int SQLITE_DROP_TEMP_VIEW: int SQLITE_DROP_TRIGGER: int SQLITE_DROP_VIEW: int SQLITE_DROP_VTABLE: int SQLITE_EMPTY: int SQLITE_ERROR: int SQLITE_FORMAT: int SQLITE_FULL: int SQLITE_FUNCTION: int SQLITE_IGNORE: int SQLITE_INSERT: int SQLITE_INTERNAL: int SQLITE_INTERRUPT: int SQLITE_IOERR: int SQLITE_LOCKED: int SQLITE_MISMATCH: int SQLITE_MISUSE: int SQLITE_NOLFS: int SQLITE_NOMEM: int SQLITE_NOTADB: int SQLITE_NOTFOUND: int SQLITE_OK: int SQLITE_OPEN_CREATE: int SQLITE_OPEN_FULLMUTEX: int SQLITE_OPEN_MEMORY: int SQLITE_OPEN_NOMUTEX: int SQLITE_OPEN_PRIVATECACHE: int SQLITE_OPEN_READONLY: int SQLITE_OPEN_READWRITE: int SQLITE_OPEN_SHAREDCACHE: int SQLITE_OPEN_URI: int SQLITE_PERM: int SQLITE_PRAGMA: int SQLITE_PROTOCOL: int SQLITE_RANGE: int SQLITE_READ: int SQLITE_READONLY: int SQLITE_RECURSIVE: int SQLITE_REINDEX: int SQLITE_ROW: int SQLITE_SAVEPOINT: int SQLITE_SCHEMA: int SQLITE_SELECT: int SQLITE_TOOBIG: int SQLITE_TRANSACTION: int SQLITE_UPDATE: int adapters: dict[tuple[type[Any], type[Any]], _Adapter[Any]] converters: dict[str, _Converter] sqlite_version: str version: str # Can take or return anything depending on what's in the registry. @overload def adapt(__obj: Any, __proto: Any) -> Any: ... @overload def adapt(__obj: Any, __proto: Any, __alt: _T) -> Any | _T: ... def complete_statement(statement: str) -> bool: ... def connect( database: StrOrBytesPath, timeout: float = ..., detect_types: int = ..., isolation_level: str | None = ..., check_same_thread: bool = ..., factory: type[Connection] | None = ..., cached_statements: int = ..., uri: bool = ..., flags: int = ..., vfs: str | None = ..., ) -> Connection: ... def enable_callback_tracebacks(flag: bool) -> None: ... # takes a pos-or-keyword argument because there is a C wrapper def enable_shared_cache(do_enable: int) -> None: ... def register_adapter(type: type[_T], callable: _Adapter[_T]) -> None: ... def register_converter(typename: str, callable: _Converter) -> None: ... class _AggregateProtocol(Protocol): def step(self, __value: int) -> object: ... def finalize(self) -> int: ... class _SingleParamWindowAggregateClass(Protocol): def step(self, __param: Any) -> object: ... def inverse(self, __param: Any) -> object: ... def value(self) -> _SqliteData: ... def finalize(self) -> _SqliteData: ... class _AnyParamWindowAggregateClass(Protocol): def step(self, *args: Any) -> object: ... def inverse(self, *args: Any) -> object: ... def value(self) -> _SqliteData: ... def finalize(self) -> _SqliteData: ... class _WindowAggregateClass(Protocol): step: Callable[..., object] inverse: Callable[..., object] def value(self) -> _SqliteData: ... def finalize(self) -> _SqliteData: ... class Connection: @property def DataError(self) -> type[DataError]: ... @property def DatabaseError(self) -> type[DatabaseError]: ... @property def Error(self) -> type[Error]: ... @property def IntegrityError(self) -> type[IntegrityError]: ... @property def InterfaceError(self) -> type[InterfaceError]: ... @property def InternalError(self) -> type[InternalError]: ... @property def NotSupportedError(self) -> type[NotSupportedError]: ... @property def OperationalError(self) -> type[OperationalError]: ... @property def ProgrammingError(self) -> type[ProgrammingError]: ... @property def Warning(self) -> type[Warning]: ... @property def in_transaction(self) -> bool: ... isolation_level: str | None # one of '', 'DEFERRED', 'IMMEDIATE' or 'EXCLUSIVE' @property def total_changes(self) -> int: ... row_factory: Any text_factory: Any def __init__( self, database: StrOrBytesPath, timeout: float = ..., detect_types: int = ..., isolation_level: str | None = ..., check_same_thread: bool = ..., factory: type[Connection] | None = ..., cached_statements: int = ..., uri: bool = ..., flags: int = ..., vfi: str | None = ..., ) -> None: ... def close(self) -> None: ... def commit(self) -> None: ... def create_aggregate(self, name: str, n_arg: int, aggregate_class: Callable[[], _AggregateProtocol]) -> None: ... # num_params determines how many params will be passed to the aggregate class. We provide an overload # for the case where num_params = 1, which is expected to be the common case. @overload def create_window_function( self, name: str, n_arg: Literal[1], window_function_class: Callable[[], _SingleParamWindowAggregateClass] | None ) -> None: ... # And for num_params = -1, which means the aggregate must accept any number of parameters. @overload def create_window_function( self, name: str, n_arg: Literal[-1], window_function_class: Callable[[], _AnyParamWindowAggregateClass] | None ) -> None: ... @overload def create_window_function( self, name: str, n_arg: int, window_function_class: Callable[[], _WindowAggregateClass] | None ) -> None: ... def create_collation(self, name: str, callback: Callable[[str, str], int | SupportsIndex] | None) -> None: ... def create_function( self, name: str, narg: int, func: Callable[..., _SqliteData] | None, *, deterministic: bool = False ) -> None: ... @overload def cursor(self, factory: None = None) -> Cursor: ... @overload def cursor(self, factory: Callable[[Connection], _CursorT]) -> _CursorT: ... def execute(self, __sql: str, __parameters: _Parameters = ...) -> Cursor: ... def executemany(self, __sql: str, __parameters: Iterable[_Parameters]) -> Cursor: ... def executescript(self, __sql_script: str) -> Cursor: ... def interrupt(self) -> None: ... def open_blob(self, table: str, column: str, row: int, readonly: bool, dbname: str) -> object: ... def rollback(self) -> None: ... def set_authorizer( self, authorizer_callback: Callable[[int, str | None, str | None, str | None, str | None], int] | None ) -> None: ... def set_key(self, key: str) -> None: ... def reset_key(self, key: str) -> None: ... def set_progress_handler(self, progress_handler: Callable[[], int | None] | None, n: int) -> None: ... def set_trace_callback(self, trace_callback: Callable[[str], object] | None) -> None: ... # enable_load_extension and load_extension is not available on python distributions compiled # without sqlite3 loadable extension support. see footnotes https://docs.python.org/3/library/sqlite3.html#f1 def enable_load_extension(self, __enable: bool) -> None: ... def load_extension(self, __name: str) -> None: ... def backup( self, target: Connection, *, pages: int = -1, progress: Callable[[int, int, int], object] | None = None, name: str = "main", sleep: float = 0.25, ) -> None: ... def __call__(self, __sql: str) -> _Statement: ... def __enter__(self) -> Self: ... def __exit__( self, __type: type[BaseException] | None, __value: BaseException | None, __traceback: TracebackType | None ) -> Literal[False]: ... class Cursor(Iterator[Any]): arraysize: int @property def connection(self) -> Connection: ... # May be None, but using | Any instead to avoid slightly annoying false positives. @property def description(self) -> tuple[tuple[str, None, None, None, None, None, None], ...] | Any: ... @property def lastrowid(self) -> int | None: ... row_factory: Callable[[Cursor, Row], object] | None @property def rowcount(self) -> int: ... def __init__(self, __cursor: Connection) -> None: ... def close(self) -> None: ... def execute(self, __sql: str, __parameters: _Parameters = ()) -> Self: ... def executemany(self, __sql: str, __seq_of_parameters: Iterable[_Parameters]) -> Self: ... def executescript(self, __sql_script: str) -> Cursor: ... def fetchall(self) -> list[Any]: ... def fetchmany(self, size: int | None = 1) -> list[Any]: ... # Returns either a row (as created by the row_factory) or None, but # putting None in the return annotation causes annoying false positives. def fetchone(self) -> Any: ... def setinputsizes(self, __sizes: Unused) -> None: ... # does nothing def setoutputsize(self, __size: Unused, __column: Unused = None) -> None: ... # does nothing def __iter__(self) -> Self: ... def __next__(self) -> Any: ... class Error(Exception): ... class DatabaseError(Error): ... class DataError(DatabaseError): ... class IntegrityError(DatabaseError): ... class InterfaceError(Error): ... class InternalError(DatabaseError): ... class NotSupportedError(DatabaseError): ... class OperationalError(DatabaseError): ... OptimizedUnicode = str @final class PrepareProtocol: def __init__(self, *args: object, **kwargs: object) -> None: ... class ProgrammingError(DatabaseError): ... class Row: def __init__(self, __cursor: Cursor, __data: tuple[Any, ...]) -> None: ... def keys(self) -> list[str]: ... @overload def __getitem__(self, __key: int | str) -> Any: ... @overload def __getitem__(self, __key: slice) -> tuple[Any, ...]: ... def __hash__(self) -> int: ... def __iter__(self) -> Iterator[Any]: ... def __len__(self) -> int: ... # These return NotImplemented for anything that is not a Row. def __eq__(self, __value: object) -> bool: ... def __ge__(self, __value: object) -> bool: ... def __gt__(self, __value: object) -> bool: ... def __le__(self, __value: object) -> bool: ... def __lt__(self, __value: object) -> bool: ... def __ne__(self, __value: object) -> bool: ... @final class _Statement: ... class Warning(Exception): ...