from __future__ import annotations from collections import deque import io from typing import ( Callable, Deque, Generator, TypeVar, Generic, Union, Iterable, ) class ParseError(Exception): pass class ParseEOF(ParseError): """End of Stream.""" class Awaitable: __slots__: list[str] = [] class _Read(Awaitable): __slots__ = ["remaining"] def __init__(self, count: int) -> None: self.remaining = count def __repr__(self) -> str: return f"_ReadBytes({self.remaining})" class _Read1(Awaitable): __slots__: list[str] = [] class _ReadUntil(Awaitable): __slots__ = ["sep", "max_bytes"] def __init__(self, sep: str, max_bytes: int | None = None) -> None: self.sep = sep self.max_bytes = max_bytes class _PeekBuffer(Awaitable): __slots__: list[str] = [] T = TypeVar("T") TokenCallback = Callable[[T], None] class Parser(Generic[T]): read = _Read read1 = _Read1 read_until = _ReadUntil peek_buffer = _PeekBuffer def __init__(self) -> None: self._buffer = io.StringIO() self._eof = False self._tokens: Deque[T] = deque() self._gen = self.parse(self._tokens.append) self._awaiting: Union[Awaitable, T] = next(self._gen) @property def is_eof(self) -> bool: return self._eof def reset(self) -> None: self._gen = self.parse(self._tokens.append) self._awaiting = next(self._gen) def feed(self, data: str) -> Iterable[T]: if self._eof: raise ParseError("end of file reached") from None if not data: self._eof = True try: self._gen.send(self._buffer.getvalue()) except StopIteration: raise ParseError("end of file reached") from None while self._tokens: yield self._tokens.popleft() self._buffer.truncate(0) return _buffer = self._buffer pos = 0 tokens = self._tokens popleft = tokens.popleft data_size = len(data) while tokens: yield popleft() while pos < data_size or isinstance(self._awaiting, _PeekBuffer): _awaiting = self._awaiting if isinstance(_awaiting, _Read1): self._awaiting = self._gen.send(data[pos : pos + 1]) pos += 1 elif isinstance(_awaiting, _PeekBuffer): self._awaiting = self._gen.send(data[pos:]) elif isinstance(_awaiting, _Read): remaining = _awaiting.remaining chunk = data[pos : pos + remaining] chunk_size = len(chunk) pos += chunk_size _buffer.write(chunk) remaining -= chunk_size if remaining: _awaiting.remaining = remaining else: _awaiting = self._gen.send(_buffer.getvalue()) _buffer.truncate(0) elif isinstance(_awaiting, _ReadUntil): chunk = data[pos:] _buffer.write(chunk) sep = _awaiting.sep sep_index = _buffer.getvalue().find(sep) if sep_index == -1: pos += len(chunk) if ( _awaiting.max_bytes is not None and _buffer.tell() > _awaiting.max_bytes ): self._gen.throw(ParseError(f"expected {sep}")) else: sep_index += len(sep) if ( _awaiting.max_bytes is not None and sep_index > _awaiting.max_bytes ): self._gen.throw(ParseError(f"expected {sep}")) data = _buffer.getvalue()[sep_index:] pos = 0 self._awaiting = self._gen.send(_buffer.getvalue()[:sep_index]) _buffer.truncate(0) while tokens: yield popleft() def parse(self, on_token: Callable[[T], None]) -> Generator[Awaitable, str, None]: return yield if __name__ == "__main__": data = "Where there is a Will there is a way!" class TestParser(Parser[str]): def parse( self, on_token: Callable[[str], None] ) -> Generator[Awaitable, str, None]: while True: data = yield self.read1() if not data: break on_token(data) test_parser = TestParser() import time for n in range(0, len(data), 5): for token in test_parser.feed(data[n : n + 5]): print(token) for token in test_parser.feed(""): print(token)