from dataclasses import dataclass from typing import Union from calc.lexer import Token class ParseError(Exception): pass @dataclass class Num: value: Union[int, float] @dataclass class BinOp: op: str left: object right: object @dataclass class Unary: op: str operand: object Node = Union[Num, BinOp, Unary] class _Parser: def __init__(self, tokens: list): self._tokens = tokens self._pos = 0 def _peek(self) -> Token: return self._tokens[self._pos] def _consume(self, kind: str = None) -> Token: tok = self._tokens[self._pos] if kind and tok.kind != kind: raise ParseError(f"expected {kind!r}, got {tok.kind!r} ({tok.value!r})") self._pos += 1 return tok def parse(self) -> Node: if self._peek().kind == 'EOF': raise ParseError("empty input") node = self._expr() if self._peek().kind != 'EOF': tok = self._peek() raise ParseError(f"unexpected token {tok.kind!r} ({tok.value!r})") return node def _expr(self) -> Node: node = self._term() while self._peek().kind in ('PLUS', 'MINUS'): op = self._consume().value node = BinOp(op, node, self._term()) return node def _term(self) -> Node: node = self._unary() while self._peek().kind in ('STAR', 'SLASH'): op = self._consume().value node = BinOp(op, node, self._unary()) return node def _unary(self) -> Node: if self._peek().kind == 'MINUS': self._consume() return Unary('-', self._unary()) return self._primary() def _primary(self) -> Node: tok = self._peek() if tok.kind == 'NUMBER': self._consume() return Num(tok.value) if tok.kind == 'LPAREN': self._consume() node = self._expr() if self._peek().kind != 'RPAREN': raise ParseError(f"unclosed parenthesis, got {self._peek().kind!r}") self._consume() return node raise ParseError(f"unexpected token {tok.kind!r} ({tok.value!r})") def parse(tokens: list) -> Node: return _Parser(tokens).parse()