def planned_shuffle(d_motor:DispenseStep, p_motor:PushStep, b_motor:BinStep, dispenser:Dispenser, camera:Camera, deck): # Initialize vars dispenser.enable_motor() dispenser.baseline_motor_cur() t_last_dispense = time.time() n_bins = len(cfg.bin_heights_load_mm) cards_in_trash = 0 camera.start_camera() # Generate bin reqs for deck deck.break_into_bins(n_bins=n_bins) def empty_trash(): p_motor.enable() b_motor.unload_bin_pos(n_bins-1) time.sleep(0.1) p_motor.run() p_motor.disable() junk_cards_dispensed = 0 last_card = camera.read_card() while junk_cards_dispensed < cfg.planned_shuffle_timeout: card = camera.read_card() # Determine where to put card. If it is the same as last, it probs failed to dispense if card.rank is None and card.suit is None: bin_index = None elif last_card.rank is card.rank and last_card.suit is card.suit: print('Previous card failed to dispense. Re-dispensing') pass else: bin_index = deck.get_bin(card) last_card = card print(card.rank, card.suit, ":", bin_index) # Handle vars if trash card if bin_index is None: bin_index = n_bins - 1 cards_in_trash += 1 junk_cards_dispensed += 1 # Move to bin location b_motor.load_bin_pos(bin_index) # Dispense card while time.time() < t_last_dispense + cfg.min_time_between_dispenses_s: pass if not dispenser.dispense_card(): raise Exception("Card Jam") t_last_dispense = time.time() # Check for full trash if cards_in_trash >= cfg.max_cards_per_bin: empty_trash() cards_in_trash = 0 # Check for shuffle completion if deck.is_shuffle_complete: return_all_cards(p_motor, b_motor) break else: print("Planned Shuffle Timeout") camera.stop_camera()
def cam_test(): c = Camera() while True: _ = input('Press enter to read card') card = c.read_card(enable_and_disable=True) print(card.rank, card.suit)
def main(): c = Camera() c.start_camera() card = c.read_card() print(card.rank, card.suit) c.stop_camera()