import json import re import subprocess from typing import Dict from pathlib import Path DATA_FILE = Path('endgame-data.json') if not DATA_FILE.exists(): DATA_FILE.write_text('{}') with open(DATA_FILE, 'r') as f: DATA: Dict = json.loads(f.read()) def analyze_game(game_id: int): probabilities = {} for deck_size in range(1, 16): try: result = subprocess.run(['./endgame-analyzer', '-g', str(game_id), '-d', str(deck_size), '-i', '0'], stdout=subprocess.PIPE, timeout=30) except subprocess.TimeoutExpired: return probabilities output = result.stdout.decode('utf-8') m = re.search('Probability with optimal play: .*/.* ~ ([0-9.]+)', output) if not m: raise ValueError("Invalid program output: {}".format(output)) probabilities[str(deck_size)] = m.group(1) return probabilities def full_analyze_game(game_id: int): probabilities = {} try: result = subprocess.run(['./endgame-analyzer', '-g', str(game_id), '-d', str(deck_size), '-i', '0', '--all-clues', '-r'], stdout=subprocess.PIPE, timeout=180) except subproces.TimeoutExpired: return probabilities output = result.stdout.decode('utf-8') for m in re.finditer('Probability with (\d+) cards left in deck and (\d) clues (+|-\d): .*/.* ~ ([0-9.]+)', output): probabilities[m.group(1)][m.group(3)] = m.group(4) return probabilities def full_analyze_game_cached(game_id: int): cached = DATA.get('all', {}).get(str(game_id), None) if cached is not None: return cached result = full_analyze_game(game_id) DATA['all'][game_id] = result save_cache() return result def analyze_game_cached(game_id: int): cached = DATA['normal'].get(str(game_id), None) if cached is not None: return cached result = analyze_game(game_id) DATA['normal'][game_id] = result save_cache() return result def save_cache(): with open(DATA_FILE, 'w') as f: f.writelines(json.dumps(DATA, indent=2))