from __future__ import annotations from calc.parser import Num, BinOp, Unary, Node class EvalError(Exception): pass def evaluate(node: Node) -> int | float: """Walk the AST and return the numeric result.""" if isinstance(node, Num): return node.value if isinstance(node, Unary): val = evaluate(node.operand) if node.op == '-': return -val raise EvalError(f"unknown unary operator: {node.op!r}") if isinstance(node, BinOp): left = evaluate(node.left) right = evaluate(node.right) if node.op == '+': return left + right if node.op == '-': return left - right if node.op == '*': return left * right if node.op == '/': if right == 0: raise EvalError("division by zero") return left / right raise EvalError(f"unknown binary operator: {node.op!r}") raise EvalError(f"unknown node type: {type(node)!r}") def fmt_result(v: int | float) -> str: """Format a result for display. Rule: whole-valued floats (e.g. 2.0 from 4/2) print without a trailing .0; non-whole floats print normally; integers print as integers. """ if isinstance(v, float) and v.is_integer(): return str(int(v)) return str(v)