def player_end(): global src # ,character_descs,stage_descs global NEW_GAME, opponent_char, player_char logging.info("[ENTER] player_end") control_success = actions.move_and_leftclick(c(defines.neutral)) src = vision.screen_cap() state_name = vision.get_state_sift(src, state_descs) player_cards = vision.get_playable_cards(src, c(defines.hand_box)) player_ability = vision.color_range_reduced_mids(src, c(defines.reduced_ability_box), color="green") player_minions = vision.color_range_reduced_mids( src, c(defines.reduced_player_minions_box), color="green", min_threshold=37, max_threshold=200 ) player_attack = vision.color_range_reduced_mids(src, c(defines.reduced_player_box), color="green") if ( player_cards == [] and player_ability == [] and player_minions == [] and player_attack == [] and control_success and ( state_name == defines.State.PLAYER or state_name == defines.State.OPPONENT or state_name == defines.State.PLAYER_GREEN ) ): # logging.info("---END TURN---") control_success = actions.move_and_leftclick(c(defines.turn_button)) control_success = actions.move_and_leftclick(c(defines.neutral))
def home(): logging.info("[ENTER] home") if defines.PLAY_PRACTICE: control_success = actions.move_and_leftclick( c(defines.main_menu_practice_button)) else: control_success = actions.move_and_leftclick( c(defines.main_menu_play_button))
def select(): global NEW_GAME, THE_COIN logging.info("[ENTER] select") NEW_GAME = True if defines.MULLIGAN: src = vision.screen_cap() choose_3 = [] choose_4 = [] for box in defines.starting_hand_costs_3: choose_3.append(vision.read_white_data(src, c(box))) for box in defines.starting_hand_costs_4: choose_4.append(vision.read_white_data(src, c(box))) #print choose_3 #print choose_4 return_list = [] if '' not in choose_3: THE_COIN = False for choice in range(0, len(choose_3)): if int(choose_3[choice]) >= 4: coord = defines.starting_hand_costs_3[choice] return_list.append( [coord[2], coord[3]] ) #return the lower right of the detection box which is over the card to click on elif '' not in choose_4: THE_COIN = True for choice in range(0, len(choose_4)): if int(choose_4[choice]) >= 5: coord = defines.starting_hand_costs_4[choice] return_list.append( [coord[2], coord[3]] ) #return the lower right of the detection box which is over the card to click on if int(choose_4[choice]) == 1: coord = defines.starting_hand_costs_4[choice] return_list.append( [coord[2], coord[3]] ) #return the lower right of the detection box which is over the card to click on for coord in return_list: control_success = actions.move_and_leftclick(c(coord)) control_success = actions.move_and_leftclick(c( defines.confirm_hand_button)) control_success = actions.move_and_leftclick(c(defines.neutral))
def select(): global NEW_GAME, THE_COIN logging.info("[ENTER] select") NEW_GAME = True if defines.MULLIGAN: src = vision.screen_cap() choose_3 = [] choose_4 = [] for box in defines.starting_hand_costs_3: choose_3.append(vision.read_white_data(src, c(box))) for box in defines.starting_hand_costs_4: choose_4.append(vision.read_white_data(src, c(box))) # print choose_3 # print choose_4 return_list = [] if "" not in choose_3: THE_COIN = False for choice in range(0, len(choose_3)): if int(choose_3[choice]) >= 4: coord = defines.starting_hand_costs_3[choice] return_list.append( [coord[2], coord[3]] ) # return the lower right of the detection box which is over the card to click on elif "" not in choose_4: THE_COIN = True for choice in range(0, len(choose_4)): if int(choose_4[choice]) >= 5: coord = defines.starting_hand_costs_4[choice] return_list.append( [coord[2], coord[3]] ) # return the lower right of the detection box which is over the card to click on if int(choose_4[choice]) == 1: coord = defines.starting_hand_costs_4[choice] return_list.append( [coord[2], coord[3]] ) # return the lower right of the detection box which is over the card to click on for coord in return_list: control_success = actions.move_and_leftclick(c(coord)) control_success = actions.move_and_leftclick(c(defines.confirm_hand_button)) control_success = actions.move_and_leftclick(c(defines.neutral))
def player_end(): global src #,character_descs,stage_descs global NEW_GAME, opponent_char, player_char logging.info("[ENTER] player_end") control_success = actions.move_and_leftclick(c(defines.neutral)) src = vision.screen_cap() state_name = vision.get_state_sift(src, state_descs) player_cards = vision.get_playable_cards(src, c(defines.hand_box)) player_ability = vision.color_range_reduced_mids( src, c(defines.reduced_ability_box), color='green') player_minions = vision.color_range_reduced_mids( src, c(defines.reduced_player_minions_box), color='green', min_threshold=37, max_threshold=200) player_attack = vision.color_range_reduced_mids( src, c(defines.reduced_player_box), color='green') if player_cards==[] and player_ability ==[] and player_minions ==[] and player_attack ==[] and control_success and (state_name == defines.State.PLAYER or state_name == defines.State.OPPONENT or state_name == defines.State.PLAYER_GREEN): #logging.info("---END TURN---") control_success = actions.move_and_leftclick(c(defines.turn_button)) control_success = actions.move_and_leftclick(c(defines.neutral))
def defeat(): logging.info("[ENTER] defeat") control_success = actions.move_and_leftclick(c(defines.neutral))
def victory(): logging.info("[ENTER] victory") control_success = actions.move_and_leftclick(c(defines.neutral))
def player(): global src global NEW_GAME, opponent_char, player_char, stage, current_decknum logging.info("[ENTER] player") control_success = ( True ) # keep track of whether or not the bot was able to control the mouse. If not the user is attempting to use it actions.pause_pensively(1) if NEW_GAME: src = vision.screen_cap() stage = vision.get_image_info_sift(src, stage_descs, c(defines.stage_box)) NEW_GAME = False # logging.info("------GET MATCH INFO------") src = vision.screen_cap() if player_char == None: try: player_char = vision.get_image_info_sift(src, character_descs, c(defines.player_box)) except: player_char = None if stage == None: try: stage = vision.get_image_info_sift(src, stage_descs, c(defines.stage_box)) except: stage = None # logging.info("---ATTACK WITH CHARACTER---") actions.pause_pensively(0.25) src = vision.screen_cap() player_attack = vision.color_range_reduced_mids(src, c(defines.reduced_player_box), color="green") if player_attack and control_success: control_success = actions.move_and_leftclick(c(defines.neutral_minion)) control_success = actions.move_and_leftclick(c(defines.player_hero)) # actions.move_cursor([player_attack[0][0],player_attack[0][1]+10]) actions.pause_pensively(0.1) src = vision.screen_cap() enemy = [] enemy.extend(vision.color_range_reduced_mids(src, c(defines.reduced_opponent_box1), color="red")) enemy.extend(vision.color_range_reduced_mids(src, c(defines.reduced_opponent_box2), color="red")) enemy_minions = vision.get_taunt_minions(src, c(defines.enemy_minions_box_taunts)) if enemy_minions: e_m = randint(0, len(enemy_minions) - 1) # attack a random taunt minion if enemy_minions: control_success = actions.move_and_leftclick(enemy_minions[e_m]) elif enemy: control_success = actions.move_and_leftclick(c(defines.opponent_hero)) else: # something's wrong, try to attack any minion actions.pause_pensively(6) enemy_minions = vision.color_range_reduced_mids(src, c(defines.reduced_enemy_minions_box), color="red") if enemy_minions: control_success = actions.move_and_leftclick(enemy_minions[0]) control_success = actions.move_and_leftclick(c(defines.neutral)) # logging.info("------PLAY CARDS------") player_cards = vision.get_playable_cards(src, c(defines.hand_box)) player_cards_combo = vision.get_playable_cards(src, c(defines.hand_box), color="yellow") if player_cards_combo and player_char == "rogue": # active combo cards are played before non-combo cards player_cards = player_cards_combo while player_cards and control_success: control_success = actions.move_and_leftclick(player_cards[weighted_randint(len(player_cards))]) actions.move_cursor(c(defines.nuetral_targeting)) src = vision.screen_cap() targeting = vision.color_range_reduced_mids(src, c(defines.nuetral_targeting_box), color="red_targeting") if targeting: if defines.TARGETING[current_decknum] == defines.Target.OPPONENT_HERO: control_success = actions.move_and_leftclick(c(defines.opponent_hero)) if defines.TARGETING[current_decknum] == defines.Target.OPPONENT_HERO: actions.move_and_leftclick(c(defines.play_card[randint(0, len(defines.play_card) - 1)])) actions.move_cursor(c(defines.nuetral_targeting)) src = vision.screen_cap() targeting = vision.color_range_reduced_mids(src, c(defines.nuetral_targeting_box), color="red_targeting") if targeting: if defines.TARGETING[current_decknum] == defines.Target.OPPONENT_HERO: control_success = actions.move_and_leftclick(c(defines.opponent_hero)) control_success = actions.move_and_rightclick(c(defines.neutral_minion)) actions.pause_pensively(1.5) src = vision.screen_cap() player_cards = vision.get_playable_cards(src, c(defines.hand_box)) player_cards_combo = vision.get_playable_cards(src, c(defines.hand_box), color="yellow") if player_cards_combo: # active combo cards are played before non-combo cards player_cards = player_cards_combo if not actions.check_game("Hearthstone"): break # logging.info("------PLAY ABILITY------") actions.pause_pensively(0.50) src = vision.screen_cap() player_ability = vision.color_range_reduced_mids(src, c(defines.reduced_ability_box), color="green") if player_ability and player_char and control_success: if player_char == "mage": control_success = actions.move_and_leftclick(c(defines.player_ability)) control_success = actions.move_and_leftclick(c(defines.opponent_hero)) elif player_char == "priest": control_success = actions.move_and_leftclick(c(defines.player_ability)) control_success = actions.move_and_leftclick(c(defines.player_hero)) else: control_success = actions.move_and_leftclick(c(defines.player_ability)) control_success = actions.move_and_leftclick(c(defines.neutral_minion)) control_success = actions.move_and_rightclick(c(defines.neutral_minion)) actions.pause_pensively(2) player_ability = 0 # logging.info("---ATTACK WITH MINIONS---") src = vision.screen_cap() player_minions = vision.color_range_reduced_mids( src, c(defines.reduced_player_minions_box), color="green", min_threshold=45, max_threshold=200 ) while player_minions and control_success: p_m = False no_enemy_taunts_detected = True min_subset = [False, 99] src = vision.screen_cap() enemy_minions = vision.get_taunt_minions(src, c(defines.enemy_minions_box_taunts)) if enemy_minions: no_enemy_taunts_detected = False if defines.RANDOM_ATTACKS or defines.ref_game_screen_res_list[defines.GAME_SCREEN_RES] == [1400, 1050]: p_m = player_minions[randint(0, len(player_minions) - 1)] # attack with a random minion e_m = enemy_minions[randint(0, len(enemy_minions) - 1)] # attack a random taunt minion else: if control_success: player_minions_data = vision.all_minion_data( src, defines.player_minion_data_split, defines.c(defines.player_minions_box), minions_box_playable=defines.c(defines.reduced_player_minions_box), stage=stage, ) enemy_minions_data = vision.all_minion_data( src, defines.enemy_minion_data_split, defines.c(defines.enemy_minions_box), minions_box_taunts_reduced=c(defines.reduced_enemy_minions_box), minions_box_taunts=defines.c(defines.enemy_minions_box_taunts), stage=stage, reduced_color="red", ) # print '' # for i in range(0,len(enemy_minions_data)): # print enemy_minions_data[i] # print "" # for i in range(0,len(player_minions_data)): # print player_minions_data[i] playable_minions = [] for player_minion in player_minions_data: if player_minion["playable"] == True: playable_minions.append(player_minion) if playable_minions == []: break taunt_minions = [] for enemy_minion in enemy_minions_data: if enemy_minion["taunt"] == True: taunt_minions.append(enemy_minion) subsets = [] for L in range(0, len(playable_minions) + 1): for subset in combinations(playable_minions, L): attack_total = 0 for individual in subset: if "attack" in individual: if individual["attack"] != " ": attack_total += int(individual["attack"]) if subset: subsets.append([subset, attack_total]) min_subset = [False, 99] # max_taunt = 0 min_difference = 99 for taunt_minion in taunt_minions: # if taunt_minion['defense']>max_taunt[0]: # max_taunt=taunt_minion['defense'] if "defense" in taunt_minion: if taunt_minion["defense"] == " ": taunt_minion["defense"] = "5" else: taunt_minion["defense"] = "5" for subset in subsets: difference = abs(subset[1] - int(taunt_minion["defense"])) if ( subset[1] >= taunt_minion["defense"] and difference < min_difference and (subset[1] < min_subset[1] or len(subset) < len(min_subset)) ): # attack_total > taunt defense min_subset = subset min_difference = difference p_m = min_subset[0][0]["coord"] e_m = taunt_minion["coord"] if p_m == False: p_m = player_minions[randint(0, len(player_minions) - 1)] # attack with a random minion e_m = enemy_minions[randint(0, len(enemy_minions) - 1)] # attack a random taunt minion # print 'Use subset: ',min_subset else: no_enemy_taunts_detected = True if len(player_minions) > 1: p_m = player_minions[randrange(0, len(player_minions) - 1)] else: p_m = player_minions[0] control_success = actions.move_and_leftclick(p_m) actions.move_cursor( [p_m[0], p_m[1] + int(150 * float(defines.game_screen_res[1]) / float(defines.ref_game_screen_res[1]))] ) actions.pause_pensively(0.2) src = vision.screen_cap() enemy = [] enemy_freeze = None enemy.extend(vision.color_range_reduced_mids(src, c(defines.reduced_opponent_box1), color="red")) enemy.extend(vision.color_range_reduced_mids(src, c(defines.reduced_opponent_box2), color="red")) enemy_freeze = vision.color_range_reduced_mids(src, c(defines.reduced_opponent_box1), color="blue") enemy_minions = vision.get_taunt_minions(src, c(defines.enemy_minions_box_taunts)) if enemy_minions and no_enemy_taunts_detected: # something wrong has happened, try a bunch of stuff control_success = actions.move_and_leftclick(c(defines.opponent_hero)) actions.pause_pensively(2) control_success = actions.move_and_leftclick(p_m) actions.move_cursor( [p_m[0], p_m[1] + int(150 * float(defines.game_screen_res[1]) / float(defines.ref_game_screen_res[1]))] ) actions.pause_pensively(0.2) e_m = enemy_minions[randint(0, len(enemy_minions) - 1)] # attack a random taunt minion control_success = actions.move_and_leftclick(e_m) control_success = actions.move_and_rightclick(c(defines.neutral_minion)) actions.pause_pensively(2.5) elif enemy_minions: control_success = actions.move_and_leftclick(e_m) control_success = actions.move_and_leftclick(c(defines.opponent_hero)) control_success = actions.move_and_rightclick(c(defines.neutral_minion)) actions.pause_pensively(2.5) elif enemy: control_success = actions.move_and_leftclick(c(defines.opponent_hero)) elif enemy_freeze: control_success = actions.move_and_leftclick(c(defines.opponent_hero)) else: # something's wrong, try to attack any minion actions.pause_pensively(6) enemy_minions = vision.color_range_reduced_mids(src, c(defines.reduced_enemy_minions_box), color="red") if enemy_minions: e_m = enemy_minions[randint(0, len(enemy_minions) - 1)] # attack a random taunt minion control_success = actions.move_and_leftclick(e_m) control_success = actions.move_and_rightclick(c(defines.neutral_minion)) actions.pause_pensively(2.5) else: actions.pause_pensively(6) control_success = actions.move_and_rightclick(c(defines.neutral_minion)) src = vision.screen_cap() state_name = vision.get_state_sift( src, state_descs, ignore_list=[ "versus.png", "defeat.png", "finding_opponent.png", "gold.png", "opponent_still_choosing.png", "starting_hand.png", "rank.png", "victory.png", ], ) if state_name == "play": break if not actions.check_game("Hearthstone"): break player_minions = vision.color_range_reduced_mids( src, c(defines.reduced_player_minions_box), color="green", min_threshold=45, max_threshold=200 ) # logging.info("------PLAY INFO CHECK-------") actions.pause_pensively(0.25) src = vision.screen_cap() state_name = vision.get_state_sift(src, state_descs) player_cards = vision.get_playable_cards(src, c(defines.hand_box)) player_ability = vision.color_range_reduced_mids(src, c(defines.reduced_ability_box), color="green") if ( player_ability ): # player ability still shows up even though we've past that section above, chances are the character is wrong try: player_char = vision.get_image_info_sift(src, character_descs, c(defines.player_box)) except: player_char = None player_minions = vision.color_range_reduced_mids( src, c(defines.reduced_player_minions_box), color="green", min_threshold=45, max_threshold=200 ) player_attack = vision.color_range_reduced_mids(src, c(defines.reduced_player_box), color="green") if ( (player_cards == [] and player_ability == [] and player_minions == [] and player_attack == []) or player_cards == None or player_ability == None or player_minions == None or player_attack == None and control_success and ( state_name == defines.State.PLAYER or state_name == defines.State.OPPONENT or state_name == defines.State.PLAYER_GREEN ) ): # logging.info("---END TURN---") control_success = actions.move_and_leftclick(c(defines.neutral)) player_turn_green_check = vision.color_range_reduced_mids(src, c(defines.turn_box), color="green") if player_turn_green_check != [] and player_turn_green_check != None and control_success: control_success = actions.move_and_leftclick(c(defines.turn_button)) control_success = actions.move_and_leftclick(c(defines.neutral)) else: actions.pause_pensively(5) player_end()
def home(): logging.info("[ENTER] home") if defines.PLAY_PRACTICE: control_success = actions.move_and_leftclick(c(defines.main_menu_practice_button)) else: control_success = actions.move_and_leftclick(c(defines.main_menu_play_button))
def run(self): self.new_state = 0 self.old_state = 0 self.queue.put("Starting bot") wait_count = 0 previous_hour = 99 wait_for_start_time = True defines.set_defines() next_img = vision.imread('images//next.png') match_coord_next = [0, 0] while (not self.stopped()): #timing controls current_hour = int(strftime("%X")[:2]) if current_hour == 0: current_hour = 24 if current_hour == defines.STOP_HOUR and defines.STOP_HOUR != 0 and ( self.new_state == defines.State.PLAY or self.new_state == defines.State.HOME): if defines.STOP_HOUR >= 12 and defines.STOP_HOUR != 24: am_or_pm = 'pm' else: am_or_pm = 'am' time_to_stop = defines.STOP_HOUR % 12 if time_to_stop == 0: time_to_stop = 12 wait_for_start_time = True self.queue.put("stopped at %s o'clock %s" % (time_to_stop, am_or_pm)) if not wait_for_start_time: #check if battle net is running and Hearthstone is running and shown if actions.check_bnet("Battle.net"): if actions.check_game("Hearthstone") == False: self.new_state = defines.State.DESKTOP else: update_resolutions() try: src = vision.screen_cap() state_name = vision.get_state_sift( src, state_descs) if state_name != None: self.new_state = defines.state_dict[state_name] else: self.new_state = defines.State.DESKTOP if self.new_state == self.old_state and ( self.new_state == defines.State.PLAY or self.new_state == defines.State.HOME): #Might have been a connection error. self.queue.put( "Must enable at least one custom deck in Options!" ) control_success = actions.move_and_leftclick( c(defines.error_1)) control_success = actions.move_and_leftclick( c(defines.error_2)) control_success = actions.move_and_leftclick( c(defines.neutral)) if self.new_state == defines.State.PLAY and self.old_state == defines.State.QUEUE: self.new_state = defines.State.VERSUS except: self.queue.put( "Error: Invalid state, starting the bot again may help" ) self.stop() else: self.queue.put( "Error: Battle.net may not be running, please start Battle.net" ) self.stop() #check and reroll 40 gold quests once per day at reroll time if defines.REROLL_QUESTS: time_str = strftime("%X", localtime()) if int(time_str[:2]) != previous_hour and ( self.new_state == defines.State.HOME or self.new_state == defines.State.PLAY) and not self.stopped(): self.queue.put('checking quests') control_success = actions.move_and_leftclick( c(defines.play_back_button)) actions.pause_pensively(3) control_success = actions.move_and_leftclick( c(defines.play_back_button)) actions.pause_pensively(3) control_success = actions.move_and_leftclick( c(defines.play_back_button)) actions.pause_pensively(3) control_success = actions.move_and_leftclick( c(defines.quest_button)) actions.pause_pensively(3) src = vision.screen_cap() if '40' in vision.read_white_data( src, c(defines.quest_box_1)): #vision.imwrite('reroll_before.png',src) control_success = actions.move_and_leftclick( c(defines.reroll_quest_button_1)) #vision.imwrite('reroll_after.png',src) if '40' in vision.read_white_data( src, c(defines.quest_box_2)): control_success = actions.move_and_leftclick( c(defines.reroll_quest_button_2)) if '40' in vision.read_white_data( src, c(defines.quest_box_3)): control_success = actions.move_and_leftclick( c(defines.reroll_quest_button_3)) control_success = actions.move_and_leftclick( c(defines.main_menu_nuetral)) self.new_state = defines.State.HOME previous_hour = int(time_str[:2]) src = vision.screen_cap() self.queue.put(self.state_desc[self.new_state]) #check if waiting for a long time, try clicking just in case if self.state_desc[ self.new_state] == 'waiting' or self.state_desc[ self. new_state] == 'finding opponent' or self.state_desc[ self. new_state] == 'home screen' or self.state_desc[ self.new_state] == 'select_deck': if wait_count >= 5: control_success = actions.move_and_leftclick( c(defines.main_screen_splash)) wait_count = 0 else: wait_count += 1 if self.new_state != defines.State.DESKTOP and not self.stopped( ): states[self.new_state]() elif self.new_state == defines.State.DESKTOP and not self.stopped( ): #on the desktop for some reason, try to start the game or reshow the window if it's already running actions.pause_pensively(1) if not self.stopped(): actions.restart_game() update_resolutions() control_success = actions.move_and_leftclick( c(defines.neutral)) self.old_state = self.new_state else: if defines.START_HOUR >= 12 and defines.START_HOUR != 24: am_or_pm = 'pm' else: am_or_pm = 'am' time_to_start = defines.START_HOUR % 12 if time_to_start == 0: time_to_start = 12 current_hour = int(strftime("%X")[:2]) if current_hour == 0: current_hour = 24 modified_stop_hour = defines.STOP_HOUR if defines.START_HOUR > defines.STOP_HOUR: modified_stop_hour += 24 #STOP_HOUR is desired by the player to be the next day if defines.START_HOUR == current_hour or defines.START_HOUR == 0 or defines.START_HOUR < current_hour < modified_stop_hour: wait_for_start_time = False else: self.queue.put("waiting for %s o'clock %s" % (time_to_start, am_or_pm)) if actions.game_running("Hearthstone") == True: actions.close_game_window("Hearthstone") actions.pause_pensively(60) #check for splash screens src = vision.screen_cap() _, match_coord_next = vision.calc_sift(src, next_img, ratio=0.2) if match_coord_next != [0, 0]: brown_box = (match_coord_next[0] - 50, match_coord_next[1] - 40, match_coord_next[0] + 50, match_coord_next[1] + 40) data = vision.read_brown_text(src, brown_box) if 'Next' in data or 'Done' in data: control_success = actions.move_and_leftclick( match_coord_next) self.queue.put('splash screen') actions.pause_pensively(2) else: match_coord_next = [0, 0]
def rank(): logging.info("[ENTER] rank") control_success = actions.move_and_leftclick(c(defines.main_screen_splash)) control_success = actions.move_and_leftclick(c(defines.neutral))
def error(): logging.info("[ENTER] error") control_success = actions.move_and_leftclick(c(defines.error_1)) control_success = actions.move_and_leftclick(c(defines.error_2))
def player(): global src global NEW_GAME, opponent_char, player_char, stage, current_decknum logging.info("[ENTER] player") control_success = True #keep track of whether or not the bot was able to control the mouse. If not the user is attempting to use it actions.pause_pensively(1) if NEW_GAME: src = vision.screen_cap() stage = vision.get_image_info_sift(src, stage_descs, c(defines.stage_box)) NEW_GAME = False #logging.info("------GET MATCH INFO------") src = vision.screen_cap() if player_char == None: try: player_char = vision.get_image_info_sift(src, character_descs, c(defines.player_box)) except: player_char = None if stage == None: try: stage = vision.get_image_info_sift(src, stage_descs, c(defines.stage_box)) except: stage = None #logging.info("---ATTACK WITH CHARACTER---") actions.pause_pensively(0.25) src = vision.screen_cap() player_attack = vision.color_range_reduced_mids( src, c(defines.reduced_player_box), color='green') if player_attack and control_success: control_success = actions.move_and_leftclick(c(defines.neutral_minion)) control_success = actions.move_and_leftclick(c(defines.player_hero)) #actions.move_cursor([player_attack[0][0],player_attack[0][1]+10]) actions.pause_pensively(0.1) src = vision.screen_cap() enemy = [] enemy.extend( vision.color_range_reduced_mids(src, c(defines.reduced_opponent_box1), color='red')) enemy.extend( vision.color_range_reduced_mids(src, c(defines.reduced_opponent_box2), color='red')) enemy_minions = vision.get_taunt_minions( src, c(defines.enemy_minions_box_taunts)) if enemy_minions: e_m = randint(0, len(enemy_minions) - 1) #attack a random taunt minion if enemy_minions: control_success = actions.move_and_leftclick(enemy_minions[e_m]) elif enemy: control_success = actions.move_and_leftclick( c(defines.opponent_hero)) else: #something's wrong, try to attack any minion actions.pause_pensively(6) enemy_minions = vision.color_range_reduced_mids( src, c(defines.reduced_enemy_minions_box), color='red') if enemy_minions: control_success = actions.move_and_leftclick(enemy_minions[0]) control_success = actions.move_and_leftclick(c(defines.neutral)) #logging.info("------PLAY CARDS------") player_cards = vision.get_playable_cards(src, c(defines.hand_box)) player_cards_combo = vision.get_playable_cards(src, c(defines.hand_box), color='yellow') if player_cards_combo and player_char == 'rogue': #active combo cards are played before non-combo cards player_cards = player_cards_combo while player_cards and control_success: control_success = actions.move_and_leftclick( player_cards[weighted_randint(len(player_cards))]) actions.move_cursor(c(defines.nuetral_targeting)) src = vision.screen_cap() targeting = vision.color_range_reduced_mids( src, c(defines.nuetral_targeting_box), color='red_targeting') if targeting: if defines.TARGETING[ current_decknum] == defines.Target.OPPONENT_HERO: control_success = actions.move_and_leftclick( c(defines.opponent_hero)) if defines.TARGETING[current_decknum] == defines.Target.OPPONENT_HERO: actions.move_and_leftclick( c(defines.play_card[randint(0, len(defines.play_card) - 1)])) actions.move_cursor(c(defines.nuetral_targeting)) src = vision.screen_cap() targeting = vision.color_range_reduced_mids( src, c(defines.nuetral_targeting_box), color='red_targeting') if targeting: if defines.TARGETING[ current_decknum] == defines.Target.OPPONENT_HERO: control_success = actions.move_and_leftclick( c(defines.opponent_hero)) control_success = actions.move_and_rightclick(c( defines.neutral_minion)) actions.pause_pensively(1.5) src = vision.screen_cap() player_cards = vision.get_playable_cards(src, c(defines.hand_box)) player_cards_combo = vision.get_playable_cards(src, c(defines.hand_box), color='yellow') if player_cards_combo: #active combo cards are played before non-combo cards player_cards = player_cards_combo if not actions.check_game('Hearthstone'): break #logging.info("------PLAY ABILITY------") actions.pause_pensively(0.50) src = vision.screen_cap() player_ability = vision.color_range_reduced_mids( src, c(defines.reduced_ability_box), color='green') if player_ability and player_char and control_success: if player_char == 'mage': control_success = actions.move_and_leftclick( c(defines.player_ability)) control_success = actions.move_and_leftclick( c(defines.opponent_hero)) elif player_char == 'priest': control_success = actions.move_and_leftclick( c(defines.player_ability)) control_success = actions.move_and_leftclick(c( defines.player_hero)) else: control_success = actions.move_and_leftclick( c(defines.player_ability)) control_success = actions.move_and_leftclick( c(defines.neutral_minion)) control_success = actions.move_and_rightclick( c(defines.neutral_minion)) actions.pause_pensively(2) player_ability = 0 #logging.info("---ATTACK WITH MINIONS---") src = vision.screen_cap() player_minions = vision.color_range_reduced_mids( src, c(defines.reduced_player_minions_box), color='green', min_threshold=45, max_threshold=200) while player_minions and control_success: p_m = False no_enemy_taunts_detected = True min_subset = [False, 99] src = vision.screen_cap() enemy_minions = vision.get_taunt_minions( src, c(defines.enemy_minions_box_taunts)) if enemy_minions: no_enemy_taunts_detected = False if defines.RANDOM_ATTACKS or defines.ref_game_screen_res_list[ defines.GAME_SCREEN_RES] == [1400, 1050]: p_m = player_minions[randint(0, len(player_minions) - 1)] #attack with a random minion e_m = enemy_minions[randint(0, len(enemy_minions) - 1)] #attack a random taunt minion else: if control_success: player_minions_data = vision.all_minion_data( src, defines.player_minion_data_split, defines.c(defines.player_minions_box), minions_box_playable=defines.c( defines.reduced_player_minions_box), stage=stage) enemy_minions_data = vision.all_minion_data( src, defines.enemy_minion_data_split, defines.c(defines.enemy_minions_box), minions_box_taunts_reduced=c( defines.reduced_enemy_minions_box), minions_box_taunts=defines.c( defines.enemy_minions_box_taunts), stage=stage, reduced_color='red') #print '' #for i in range(0,len(enemy_minions_data)): # print enemy_minions_data[i] #print "" #for i in range(0,len(player_minions_data)): # print player_minions_data[i] playable_minions = [] for player_minion in player_minions_data: if player_minion['playable'] == True: playable_minions.append(player_minion) if playable_minions == []: break taunt_minions = [] for enemy_minion in enemy_minions_data: if enemy_minion['taunt'] == True: taunt_minions.append(enemy_minion) subsets = [] for L in range(0, len(playable_minions) + 1): for subset in combinations(playable_minions, L): attack_total = 0 for individual in subset: if 'attack' in individual: if individual['attack'] != ' ': attack_total += int( individual['attack']) if subset: subsets.append([subset, attack_total]) min_subset = [False, 99] #max_taunt = 0 min_difference = 99 for taunt_minion in taunt_minions: #if taunt_minion['defense']>max_taunt[0]: # max_taunt=taunt_minion['defense'] if 'defense' in taunt_minion: if taunt_minion['defense'] == ' ': taunt_minion['defense'] = '5' else: taunt_minion['defense'] = '5' for subset in subsets: difference = abs(subset[1] - int(taunt_minion['defense'])) if subset[1] >= taunt_minion[ 'defense'] and difference < min_difference and ( subset[1] < min_subset[1] or len(subset) < len(min_subset) ): #attack_total > taunt defense min_subset = subset min_difference = difference p_m = min_subset[0][0]['coord'] e_m = taunt_minion['coord'] if p_m == False: p_m = player_minions[randint( 0, len(player_minions) - 1)] #attack with a random minion e_m = enemy_minions[randint( 0, len(enemy_minions) - 1)] #attack a random taunt minion #print 'Use subset: ',min_subset else: no_enemy_taunts_detected = True if len(player_minions) > 1: p_m = player_minions[randrange(0, len(player_minions) - 1)] else: p_m = player_minions[0] control_success = actions.move_and_leftclick(p_m) actions.move_cursor([ p_m[0], p_m[1] + int(150 * float(defines.game_screen_res[1]) / float(defines.ref_game_screen_res[1])) ]) actions.pause_pensively(0.2) src = vision.screen_cap() enemy = [] enemy_freeze = None enemy.extend( vision.color_range_reduced_mids(src, c(defines.reduced_opponent_box1), color='red')) enemy.extend( vision.color_range_reduced_mids(src, c(defines.reduced_opponent_box2), color='red')) enemy_freeze = vision.color_range_reduced_mids( src, c(defines.reduced_opponent_box1), color='blue') enemy_minions = vision.get_taunt_minions( src, c(defines.enemy_minions_box_taunts)) if enemy_minions and no_enemy_taunts_detected: #something wrong has happened, try a bunch of stuff control_success = actions.move_and_leftclick( c(defines.opponent_hero)) actions.pause_pensively(2) control_success = actions.move_and_leftclick(p_m) actions.move_cursor([ p_m[0], p_m[1] + int(150 * float(defines.game_screen_res[1]) / float(defines.ref_game_screen_res[1])) ]) actions.pause_pensively(0.2) e_m = enemy_minions[randint(0, len(enemy_minions) - 1)] #attack a random taunt minion control_success = actions.move_and_leftclick(e_m) control_success = actions.move_and_rightclick( c(defines.neutral_minion)) actions.pause_pensively(2.5) elif enemy_minions: control_success = actions.move_and_leftclick(e_m) control_success = actions.move_and_leftclick( c(defines.opponent_hero)) control_success = actions.move_and_rightclick( c(defines.neutral_minion)) actions.pause_pensively(2.5) elif enemy: control_success = actions.move_and_leftclick( c(defines.opponent_hero)) elif enemy_freeze: control_success = actions.move_and_leftclick( c(defines.opponent_hero)) else: #something's wrong, try to attack any minion actions.pause_pensively(6) enemy_minions = vision.color_range_reduced_mids( src, c(defines.reduced_enemy_minions_box), color='red') if enemy_minions: e_m = enemy_minions[randint(0, len(enemy_minions) - 1)] #attack a random taunt minion control_success = actions.move_and_leftclick(e_m) control_success = actions.move_and_rightclick( c(defines.neutral_minion)) actions.pause_pensively(2.5) else: actions.pause_pensively(6) control_success = actions.move_and_rightclick(c( defines.neutral_minion)) src = vision.screen_cap() state_name = vision.get_state_sift( src, state_descs, ignore_list=[ 'versus.png', 'defeat.png', 'finding_opponent.png', 'gold.png', 'opponent_still_choosing.png', 'starting_hand.png', 'rank.png', 'victory.png' ]) if state_name == 'play': break if not actions.check_game('Hearthstone'): break player_minions = vision.color_range_reduced_mids( src, c(defines.reduced_player_minions_box), color='green', min_threshold=45, max_threshold=200) #logging.info("------PLAY INFO CHECK-------") actions.pause_pensively(0.25) src = vision.screen_cap() state_name = vision.get_state_sift(src, state_descs) player_cards = vision.get_playable_cards(src, c(defines.hand_box)) player_ability = vision.color_range_reduced_mids( src, c(defines.reduced_ability_box), color='green') if player_ability: #player ability still shows up even though we've past that section above, chances are the character is wrong try: player_char = vision.get_image_info_sift(src, character_descs, c(defines.player_box)) except: player_char = None player_minions = vision.color_range_reduced_mids( src, c(defines.reduced_player_minions_box), color='green', min_threshold=45, max_threshold=200) player_attack = vision.color_range_reduced_mids( src, c(defines.reduced_player_box), color='green') if ( player_cards == [] and player_ability == [] and player_minions == [] and player_attack == [] ) or player_cards == None or player_ability == None or player_minions == None or player_attack == None and control_success and ( state_name == defines.State.PLAYER or state_name == defines.State.OPPONENT or state_name == defines.State.PLAYER_GREEN): #logging.info("---END TURN---") control_success = actions.move_and_leftclick(c(defines.neutral)) player_turn_green_check = vision.color_range_reduced_mids( src, c(defines.turn_box), color='green') if player_turn_green_check != [] and player_turn_green_check != None and control_success: control_success = actions.move_and_leftclick(c( defines.turn_button)) control_success = actions.move_and_leftclick(c(defines.neutral)) else: actions.pause_pensively(5) player_end()
def play(): global stage_char, player_char, current_decknum logging.info("[ENTER] play") stage_char = None player_char = None src = vision.screen_cap() read_box = c(defines.state_box[defines.State.PLAY]) data = vision.read_white_text(src, read_box) #print data if 'Play' in data: if defines.PLAY_PRACTICE: control_success = actions.move_and_leftclick( c(defines.play_back_button)) actions.pause_pensively(1) control_success = actions.move_and_leftclick( c(defines.play_back_button)) actions.pause_pensively(1) control_success = actions.move_and_leftclick( c(defines.play_back_button)) actions.pause_pensively(1) else: if len(defines.DECKS_TO_USE): control_success = actions.move_and_leftclick( c(defines.custom_decks_arrow)) if defines.PLAY_RANKED: control_success = actions.move_and_leftclick( c(defines.ranked_button)) else: control_success = actions.move_and_leftclick( c(defines.casual_button)) current_decknum = defines.DECKS_TO_USE[randint( 0, len(defines.DECKS_TO_USE) - 1)] control_success = actions.move_and_leftclick( c(defines.deck_locations[current_decknum])) control_success = actions.move_and_leftclick( c(defines.play_button)) actions.pause_pensively(0.5) elif 'Practice' in data or 'Adventure' in data or 'Naxxramas' in data: control_success = actions.move_and_leftclick( c(defines.adventure_practice_button)) actions.pause_pensively(1) control_success = actions.move_and_leftclick(c(defines.play_button)) actions.pause_pensively(1) if len(defines.DECKS_TO_USE): control_success = actions.move_and_leftclick( c(defines.custom_decks_arrow)) current_decknum = defines.DECKS_TO_USE[randint( 0, len(defines.DECKS_TO_USE) - 1)] control_success = actions.move_and_leftclick( c(defines.deck_locations[current_decknum])) control_success = actions.move_and_leftclick(c( defines.play_button)) actions.pause_pensively(0.5) random_coord = [ randint(defines.practice_opponent_box[0], defines.practice_opponent_box[2]), randint(defines.practice_opponent_box[1], defines.practice_opponent_box[3]) ] control_success = actions.move_and_leftclick(c(random_coord)) actions.pause_pensively(0.5) control_success = actions.move_and_leftclick(c( defines.play_button))
def run(self): self.new_state = 0 self.old_state = 0 self.queue.put("Starting bot") wait_count = 0 previous_hour = 99 wait_for_start_time = True defines.set_defines() next_img = vision.imread("images//next.png") match_coord_next = [0, 0] while not self.stopped(): # timing controls current_hour = int(strftime("%X")[:2]) if current_hour == 0: current_hour = 24 if ( current_hour == defines.STOP_HOUR and defines.STOP_HOUR != 0 and (self.new_state == defines.State.PLAY or self.new_state == defines.State.HOME) ): if defines.STOP_HOUR >= 12 and defines.STOP_HOUR != 24: am_or_pm = "pm" else: am_or_pm = "am" time_to_stop = defines.STOP_HOUR % 12 if time_to_stop == 0: time_to_stop = 12 wait_for_start_time = True self.queue.put("stopped at %s o'clock %s" % (time_to_stop, am_or_pm)) if not wait_for_start_time: # check if battle net is running and Hearthstone is running and shown if actions.check_bnet("Battle.net"): if actions.check_game("Hearthstone") == False: self.new_state = defines.State.DESKTOP else: update_resolutions() try: src = vision.screen_cap() state_name = vision.get_state_sift(src, state_descs) if state_name != None: self.new_state = defines.state_dict[state_name] else: self.new_state = defines.State.DESKTOP if self.new_state == self.old_state and ( self.new_state == defines.State.PLAY or self.new_state == defines.State.HOME ): # Might have been a connection error. self.queue.put("Must enable at least one custom deck in Options!") control_success = actions.move_and_leftclick(c(defines.error_1)) control_success = actions.move_and_leftclick(c(defines.error_2)) control_success = actions.move_and_leftclick(c(defines.neutral)) if self.new_state == defines.State.PLAY and self.old_state == defines.State.QUEUE: self.new_state = defines.State.VERSUS except: self.queue.put("Error: Invalid state, starting the bot again may help") self.stop() else: self.queue.put("Error: Battle.net may not be running, please start Battle.net") self.stop() # check and reroll 40 gold quests once per day at reroll time if defines.REROLL_QUESTS: time_str = strftime("%X", localtime()) if ( int(time_str[:2]) != previous_hour and (self.new_state == defines.State.HOME or self.new_state == defines.State.PLAY) and not self.stopped() ): self.queue.put("checking quests") control_success = actions.move_and_leftclick(c(defines.play_back_button)) actions.pause_pensively(3) control_success = actions.move_and_leftclick(c(defines.play_back_button)) actions.pause_pensively(3) control_success = actions.move_and_leftclick(c(defines.play_back_button)) actions.pause_pensively(3) control_success = actions.move_and_leftclick(c(defines.quest_button)) actions.pause_pensively(3) src = vision.screen_cap() if "40" in vision.read_white_data(src, c(defines.quest_box_1)): # vision.imwrite('reroll_before.png',src) control_success = actions.move_and_leftclick(c(defines.reroll_quest_button_1)) # vision.imwrite('reroll_after.png',src) if "40" in vision.read_white_data(src, c(defines.quest_box_2)): control_success = actions.move_and_leftclick(c(defines.reroll_quest_button_2)) if "40" in vision.read_white_data(src, c(defines.quest_box_3)): control_success = actions.move_and_leftclick(c(defines.reroll_quest_button_3)) control_success = actions.move_and_leftclick(c(defines.main_menu_nuetral)) self.new_state = defines.State.HOME previous_hour = int(time_str[:2]) src = vision.screen_cap() self.queue.put(self.state_desc[self.new_state]) # check if waiting for a long time, try clicking just in case if ( self.state_desc[self.new_state] == "waiting" or self.state_desc[self.new_state] == "finding opponent" or self.state_desc[self.new_state] == "home screen" or self.state_desc[self.new_state] == "select_deck" ): if wait_count >= 5: control_success = actions.move_and_leftclick(c(defines.main_screen_splash)) wait_count = 0 else: wait_count += 1 if self.new_state != defines.State.DESKTOP and not self.stopped(): states[self.new_state]() elif self.new_state == defines.State.DESKTOP and not self.stopped(): # on the desktop for some reason, try to start the game or reshow the window if it's already running actions.pause_pensively(1) if not self.stopped(): actions.restart_game() update_resolutions() control_success = actions.move_and_leftclick(c(defines.neutral)) self.old_state = self.new_state else: if defines.START_HOUR >= 12 and defines.START_HOUR != 24: am_or_pm = "pm" else: am_or_pm = "am" time_to_start = defines.START_HOUR % 12 if time_to_start == 0: time_to_start = 12 current_hour = int(strftime("%X")[:2]) if current_hour == 0: current_hour = 24 modified_stop_hour = defines.STOP_HOUR if defines.START_HOUR > defines.STOP_HOUR: modified_stop_hour += 24 # STOP_HOUR is desired by the player to be the next day if ( defines.START_HOUR == current_hour or defines.START_HOUR == 0 or defines.START_HOUR < current_hour < modified_stop_hour ): wait_for_start_time = False else: self.queue.put("waiting for %s o'clock %s" % (time_to_start, am_or_pm)) if actions.game_running("Hearthstone") == True: actions.close_game_window("Hearthstone") actions.pause_pensively(60) # check for splash screens src = vision.screen_cap() _, match_coord_next = vision.calc_sift(src, next_img, ratio=0.2) if match_coord_next != [0, 0]: brown_box = ( match_coord_next[0] - 50, match_coord_next[1] - 40, match_coord_next[0] + 50, match_coord_next[1] + 40, ) data = vision.read_brown_text(src, brown_box) if "Next" in data or "Done" in data: control_success = actions.move_and_leftclick(match_coord_next) self.queue.put("splash screen") actions.pause_pensively(2) else: match_coord_next = [0, 0]
def versus(): logging.info("[ENTER] versus") control_success = actions.move_and_leftclick(c(defines.neutral)) actions.pause_pensively(10)
def play(): global stage_char, player_char, current_decknum logging.info("[ENTER] play") stage_char = None player_char = None src = vision.screen_cap() read_box = c(defines.state_box[defines.State.PLAY]) data = vision.read_white_text(src, read_box) # print data if "Play" in data: if defines.PLAY_PRACTICE: control_success = actions.move_and_leftclick(c(defines.play_back_button)) actions.pause_pensively(1) control_success = actions.move_and_leftclick(c(defines.play_back_button)) actions.pause_pensively(1) control_success = actions.move_and_leftclick(c(defines.play_back_button)) actions.pause_pensively(1) else: if len(defines.DECKS_TO_USE): control_success = actions.move_and_leftclick(c(defines.custom_decks_arrow)) if defines.PLAY_RANKED: control_success = actions.move_and_leftclick(c(defines.ranked_button)) else: control_success = actions.move_and_leftclick(c(defines.casual_button)) current_decknum = defines.DECKS_TO_USE[randint(0, len(defines.DECKS_TO_USE) - 1)] control_success = actions.move_and_leftclick(c(defines.deck_locations[current_decknum])) control_success = actions.move_and_leftclick(c(defines.play_button)) actions.pause_pensively(0.5) elif "Practice" in data or "Adventure" in data or "Naxxramas" in data: control_success = actions.move_and_leftclick(c(defines.adventure_practice_button)) actions.pause_pensively(1) control_success = actions.move_and_leftclick(c(defines.play_button)) actions.pause_pensively(1) if len(defines.DECKS_TO_USE): control_success = actions.move_and_leftclick(c(defines.custom_decks_arrow)) current_decknum = defines.DECKS_TO_USE[randint(0, len(defines.DECKS_TO_USE) - 1)] control_success = actions.move_and_leftclick(c(defines.deck_locations[current_decknum])) control_success = actions.move_and_leftclick(c(defines.play_button)) actions.pause_pensively(0.5) random_coord = [ randint(defines.practice_opponent_box[0], defines.practice_opponent_box[2]), randint(defines.practice_opponent_box[1], defines.practice_opponent_box[3]), ] control_success = actions.move_and_leftclick(c(random_coord)) actions.pause_pensively(0.5) control_success = actions.move_and_leftclick(c(defines.play_button))