| |
| import re |
| import math |
| import operator |
| from typing import List, Dict, Optional |
| from contextlib import contextmanager |
| import signal |
| from functools import reduce |
| from fractions import Fraction |
|
|
|
|
| |
| @contextmanager |
| def timeout(duration: int = 1): |
| def handler(signum, frame): |
| raise TimeoutError(f"Timeout after {duration}s") |
|
|
| signal.signal(signal.SIGALRM, handler) |
| signal.alarm(duration) |
| try: |
| yield |
| finally: |
| signal.alarm(0) |
|
|
|
|
| |
| def safe_eval(expr: str) -> Optional[float]: |
| expr = expr.strip().replace(",", "").replace("^", "**") |
|
|
| |
| if ".." in expr or "__" in expr: |
| return None |
| if re.search(r'\.\w', expr) and not re.search(r'\d\.', expr): |
| return None |
|
|
| |
| if "**" in expr: |
| try: |
| _, exp_str = expr.split("**", 1) |
| exp = float(re.split(r'[\s+\-*/)]', exp_str)[0]) |
| if abs(exp) > 20: |
| return None |
| except: |
| pass |
|
|
| |
| sci_match = re.search(r'\d+e[+\-]?\d+', expr, re.IGNORECASE) |
| if sci_match: |
| try: |
| exp = int(re.search(r'e([+\-]?\d+)', sci_match.group(0), re.IGNORECASE).group(1)) |
| if abs(exp) > 50: |
| return None |
| except: |
| return None |
|
|
| |
| if "/" in expr and not re.search(r'//', expr): |
| try: |
| parts = [p.strip() for p in expr.split("/", 1)] |
| if len(parts) == 2 and parts[0].isdigit() and parts[1].isdigit(): |
| return float(Fraction(int(parts[0]), int(parts[1]))) |
| except: |
| pass |
|
|
| |
| expr = expr.replace("%", " % ") |
|
|
| if not re.match(r'^[0-9+\-*/().%\s\*\^]+$', expr): |
| return None |
|
|
| try: |
| with timeout(1): |
| result = eval(expr, {"__builtins__": {}}) |
| return float(result) |
| except: |
| return None |
|
|
|
|
| |
| def extract_calc(text: str) -> Optional[str]: |
| match = re.search(r'<<([^>]*)(?:>>|$)', text) |
| if not match: |
| return None |
| expr = match.group(1).strip() |
| return expr if expr else None |
|
|
|
|
| |
| def substitute_variables(expr: str, context: Dict[str, float]) -> str: |
| for var in sorted(context.keys(), key=len, reverse=True): |
| expr = re.sub(rf'\b{re.escape(var)}\b', str(context[var]), expr) |
| return expr |
|
|
|
|
| |
| def parse_nested_func(expr: str, allowed_funcs: set = None) -> Optional[float]: |
| if allowed_funcs is None: |
| allowed_funcs = {"sqrt", "log", "pow", "max", "min", "abs", "sin", "cos", "tan", "exp"} |
|
|
| def eval_inner(inner: str) -> float: |
| inner = inner.strip() |
| if inner.startswith("(") and inner.endswith(")"): |
| inner = inner[1:-1] |
| return parse_nested_func(inner, allowed_funcs) or safe_eval(inner) or 0.0 |
|
|
| match = re.match(r'^([a-zA-Z_]\w*)\((.+)\)$', expr.strip()) |
| if not match: |
| return None |
| func_name, args_str = match.groups() |
|
|
| if func_name not in allowed_funcs: |
| return None |
|
|
| |
| args = [] |
| depth = 0 |
| current = "" |
| for char in args_str: |
| if char == "," and depth == 0: |
| args.append(current) |
| current = "" |
| else: |
| current += char |
| if char == "(": depth += 1 |
| if char == ")": depth -= 1 |
| if current: |
| args.append(current) |
|
|
| try: |
| arg_vals = [eval_inner(a) for a in args] |
|
|
| |
| if func_name == "pow" and len(arg_vals) >= 2 and abs(arg_vals[1]) > 20: |
| return None |
| if func_name == "exp" and arg_vals and abs(arg_vals[0]) > 20: |
| return None |
|
|
| func_map = { |
| "sqrt": lambda x: math.sqrt(x[0]), |
| "log": lambda x: math.log(x[0], x[1]) if len(x) > 1 else math.log(x[0]), |
| "pow": lambda x: x[0] ** x[1], |
| "max": lambda x: max(x), |
| "min": lambda x: min(x), |
| "abs": lambda x: abs(x[0]), |
| "sin": lambda x: math.sin(x[0]), |
| "cos": lambda x: math.cos(x[0]), |
| "tan": lambda x: math.tan(x[0]), |
| "exp": lambda x: math.exp(x[0]), |
| } |
| return func_map[func_name](arg_vals) |
| except: |
| return None |
|
|
|
|
| |
| def parse_range(range_str: str) -> List[float]: |
| match = re.match(r'(-?\d+)\.\.(-?\d+)', range_str.strip()) |
| if not match: |
| return [] |
| start, end = map(int, match.groups()) |
| step = 1 if start <= end else -1 |
| return list(range(start, end + step, step)) |
|
|
|
|
| def evaluate_sequence(expr: str) -> Optional[float]: |
| match = re.match(r'(sum|prod|mean)\((.*)\)', expr.replace(" ", "")) |
| if not match: |
| return None |
| op, args_str = match.groups() |
|
|
| def parse_arg(arg: str): |
| arg = arg.strip() |
| if ".." in arg: |
| return parse_range(arg) |
| val = parse_nested_func(arg) or safe_eval(arg) |
| return [val] if val is not None else [] |
|
|
| args = [] |
| depth = 0 |
| current = "" |
| for char in args_str: |
| if char == "," and depth == 0: |
| args.extend(parse_arg(current)) |
| current = "" |
| else: |
| current += char |
| if char == "(": depth += 1 |
| if char == ")": depth -= 1 |
| if current: |
| args.extend(parse_arg(current)) |
|
|
| if not args: |
| return None |
|
|
| if op == "sum": return sum(args) |
| if op == "prod": return reduce(operator.mul, args, 1) |
| if op == "mean": return sum(args) / len(args) |
| return None |
|
|
|
|
| |
| def calculate(expr: str, context: Dict[str, float] = None) -> Optional[str]: |
| if context is None: |
| context = {} |
| expr = substitute_variables(expr, context) |
|
|
| seq = evaluate_sequence(expr) |
| if seq is not None: |
| return f"{expr}={seq}>>" |
|
|
| func = parse_nested_func(expr) |
| if func is not None: |
| return f"{expr}={func}>>" |
|
|
| basic = safe_eval(expr) |
| if basic is not None: |
| return f"{expr}={basic}>>" |
|
|
| return None |
|
|
|
|
| |
| def use_calculator(text: str, context: Dict[str, float] = None) -> Optional[str]: |
| expr = extract_calc(text) |
| if not expr: |
| return None |
| return calculate(expr, context) |
|
|
