import lib.deck.deck as deck import lib.ai.land_ai as ai import pickle import sys if __name__ == '__main__': parser = SafeConfigParser() parser.read('settings.ini') connection = Connection(parser.get('mongodb', 'server')) db = None exec('db = connection.' + parser.get('mongodb', 'db')) net = pickle.load(open(parser.get('land_net', 'brain'))) if '-d' in sys.argv: print "Input deck in the format [count] [card], ^d ends input" d = deck.parse('\n'.join(sys.stdin.readlines())) iv = ai.input_vector(d, db) print('-' * 20) print(iv) print('-' * 20) ai.print_output_vector(net.activate(iv)) exit(0) else: while True: i = raw_input() print net.activate(map(float, i.split(' ')))
exec('db = connection.' + parser.get('mongodb', 'db')) f = open(parser.get('land_net', 'corpus') + '.' + sy.argv[1], 'w')) lim = {'$gt': 8} count_per_type = int(sys.argv[1]) # black = db.decks.find({'Swamp': lim}).limit(count_per_type) # blue = db.decks.find({'Island': lim}).limit(count_per_type) # green = db.decks.find({'Forest': lim}).limit(count_per_type) # red = db.decks.find({'Mountain': lim}).limit(count_per_type) # white = db.decks.find({'Plains': lim}).limit(count_per_type) t = (db.decks.find({e: lim for e in p}).limit(count_per_type) for p in product(ai.__lands__, repeat=2)) cursor = mix(*t) c = 0 for d in cursor: try: i, o = ai.input_vector(d, db), ai.output_vector(d) f.write(ai.export_vector(i) + '|' + ai.export_vector(o) + '\n') print c c += 1 except Exception as e: print e continue f.close()
import lib.ai.land_ai as ai import pickle import sys if __name__ == '__main__': parser = SafeConfigParser() parser.read('settings.ini') connection = Connection(parser.get('mongodb', 'server')) db = None exec('db = connection.' + parser.get('mongodb', 'db')) net = pickle.load(open(parser.get('land_net', 'brain'))) if '-d' in sys.argv: print "Input deck in the format [count] [card], ^d ends input" d = deck.parse('\n'.join(sys.stdin.readlines())) iv = ai.input_vector(d, db) print('-'*20) print(iv) print('-'*20) ai.print_output_vector(net.activate(iv)) exit(0) else: while True: i = raw_input() print net.activate(map(float, i.split(' ')))