def summ_tables(add=20, summ=20): logger.debug("creating 20+20") summs_deck = flash_card_deck() print("test", summs_deck) for i in range(1, add + 1): for j in range(1, summ + 1): summs_deck.add_q_n_a("%s + %s" % (i, j), "%s" % (i + j), 15) return summs_deck
def add_mult_tables(mul=6, mult=6, previous_deck=None): """ creates or add new tables Q&A """ if not previous_deck: previous_deck = flash_card_deck() for i in range(1, mul + 1): for j in range(1, mul + 1): previous_deck.add_q_n_a("%s · %s" % (i, j), "%s" % (i * j), 10) return previous_deck
def add_div_tables(previous_deck=None, mul=10, mult=10): """ create or add new divisions to deck """ if not previous_deck: previous_deck = flash_card_deck() qna = [] for i in range(1, mul + 1): for j in range(1, mul + 1): qna.append(("%s ÷ %s" % (i * j, j), "%s" % (i))) random.shuffle(qna) for q, a in qna: previous_deck.add_q_n_a(q, a, 10) return previous_deck
def number_bound(min_total=10, max_total=100): """ generates number bound with sums between min_total and max_total """ logger.debug("creating 20+20") summs_deck = flash_card_deck() print("test", summs_deck) for i in range(min_total, max_total + 1): for j in range(min_total, max_total + 1): if (i + j) > min_total and (i + j) < max_total: summs_deck.add_q_n_a("%s + %s" % (i, j), "%s" % (i + j), 15) return summs_deck
qna.append(("%s ÷ %s" % (i * j, j), "%s" % (i))) random.shuffle(qna) for q, a in qna: previous_deck.add_q_n_a(q, a, 10) return previous_deck def summ_tables(deck=None, add=5, summ=5): logger.debug("creating summs tables") qna = [] for i in range(1, add + 1): for j in range(1, summ + 1): qna.append(("%s + %s" % (i, j), "%s" % (i + j))) random.shuffle(qna) for q, a in qna: deck.add_q_n_a(q, a, 15) print(deck) return deck logger = logging.getLogger() if __name__ == "__main__": logger.debug("MAIN") deck = flash_card_deck("/var/www/DrillMaster/DrillMaster/Anthony.json") print(10, deck.json) deck = summ_tables(deck, 5, 5) print(deck) print(deck.json) deck.save_hdd()