def test_4ocr_valu44(): # ok
log = logging.getLogger(__name__)
mongo = MongoManager()
table_dict = mongo.get_table('GG_6TABLE')
table_scraper = TableScraper(table_dict)
file_name = get_dir(os.path.join('log', 'pics', 'table_b_16.png'))
table_scraper.screenshot = Image.open(file_name)
# table_scraper.crop_from_top_left_corner2(select_table=0)
if is_debug:
# table_scraper.screenshot.save('log/pics/table1.png')
file_name = get_dir(os.path.join('log', 'pics', 'table_label.png'))
save_table_rectangle_cv2(table_scraper.screenshot, table_dict,
file_name)
table_scraper.get_pots()
table_scraper.get_players_funds()
table_scraper.get_player_pots()
log.info(f"{table_scraper.total_pot}")
log.info(f"{table_scraper.current_round_pot}")
log.info(f"{table_scraper.player_funds}")
log.info(f"{table_scraper.player_pots}")
# pytest.assume(table_scraper.total_pot == 4.0)
# assert table_scraper.total_pot == 4.0
# pytest.assume(table_scraper.player_pots == [-1.0, -1.0, -1.0, 0.5, -1.0, 1.0])
pytest.assume(table_scraper.current_round_pot == 2.0)
def prepareImage(img_orig, image_area=None, binarize=True, mode=None):
"""Prepare image for OCR"""
def binarize_array_opencv(image):
"""Binarize image from gray channel with 76 as threshold"""
img = cv2.cvtColor(np.array(image), cv2.COLOR_BGR2RGB)
img = cv2.cvtColor(img, cv2.COLOR_BGR2GRAY)
_, thresh2 = cv2.threshold(img, 0, 255,
cv2.THRESH_BINARY_INV | cv2.THRESH_OTSU)
# _, thresh2 = cv2.threshold(img, 76, 255, cv2.THRESH_BINARY_INV)
return Image.fromarray(thresh2)
# def binarize_array_opencv1(image):
# image = pil_to_cv2(image)
# gray = cv2.cvtColor(image, cv2.COLOR_BGR2GRAY)
# gray = cv2.threshold(gray, 0, 255,
# cv2.THRESH_BINARY_INV | cv2.THRESH_OTSU)[1]
# return Image.fromarray(gray)
basewidth = 300
wpercent = (basewidth / float(img_orig.size[0]))
hsize = int((float(img_orig.size[1]) * float(wpercent)))
img_resized = img_orig.convert('L').resize((basewidth, hsize), Image.LANCZOS)
# if image_area[:15] == 'player_pot_area':
# binarize = False
# log.info(f'The image_area is:{image_area}')
if binarize:
img_resized = binarize_array_opencv(img_resized)
# else:
# img_resized = binarize_array_opencv1(img_resized)
# if mode == 1:
# img_resized = img_resized.filter(ImageFilter.MinFilter)
# log.info(f'Min filter is applied')
# elif mode == 2:
# img_resized = img_resized.filter(ImageFilter.ModeFilter)
# log.info(f'Mode filter is applied')
# elif mode == 3:
# img_resized = img_resized.filter(ImageFilter.MedianFilter)
# log.info(f'Median filter is applied')
# elif mode == 4:
# img_resized = img_resized.filter(ImageFilter.SHARPEN)
# log.info(f'Sharpen filter is applied')
if mode==True:
pics_path = "log/pics"
try:
if not os.path.exists(pics_path):
os.makedirs(pics_path)
except OSError:
log.error("Creation of the directory %s failed" % pics_path)
sys.exit(1)
img_orig.save(get_dir(os.path.join('log', 'pics', image_area + '.png')))
img_resized.save(get_dir(os.path.join('log', 'pics', image_area + '_resized.png')))
log.debug("ocr images prepared")
return img_resized
def test_get_table_delta1():
p = StrategyHandler()
p.read_strategy()
p.read_strategy()
mongo = MongoManager()
table_dict = mongo.get_table('GG_6TABLE')
gui_signals = MagicMock()
gui_signals.select_table = 0 # select table
game_logger = GameLogger()
version = 4.21
log_file = get_dir(os.path.join("log", 'delta.txt'))
f = open(log_file, "a")
f.write("New Project\n")
f.close()
count = 0
while True:
t = TableScreenBased(p, table_dict, gui_signals, game_logger, version)
ready = False
while (not ready):
ready = t.take_screenshot(True, p) and \
t.get_top_left_corner(p, gui_signals) and \
t.get_gg_poker()
log.debug(f"Top left corner: {t.tlc}")
log.debug(f"GG Poker : {t.gg_poker}")
x, y = get_table_delta()
update_delta(x, y)
delta_x = 308 + (t.tlc[0] - t.gg_poker[0])
delta_y = 287 + (t.tlc[1] - t.gg_poker[1])
f = open(log_file, "a")
f.write(f"delta_x, delta_y : {delta_x}, {delta_y} ")
f.write("\n")
f.write("---------------------------------------------------")
f.write("\n")
f.close()
log.debug(f"delta_x, delta_y : {delta_x}, {delta_y} ")
file_name = get_dir(os.path.join('log', 'pics', 'table_update_delta.png'))
file_name1 = get_dir(os.path.join('log', 'pics', 'table_default_delta.png'))
file_name2 = get_dir(os.path.join('log', 'pics', 'table_default_origin.png'))
"""
Move table by delta_x = -8 , delta_y = -5 from config.ini
"""
save_table_rectangle_cv2(t.screenshot, table_dict, file_name)
reset_delta()
save_table_rectangle_cv2(t.screenshot, table_dict, file_name1)
t.screenshot.save(file_name2)
count += 1
if count >=1:
reset_delta()
break
return True
def test_find_backup_image():
p = StrategyHandler()
p.read_strategy()
p.read_strategy()
mongo = MongoManager()
table_dict = mongo.get_table('GG_6TABLE')
gui_signals = MagicMock()
gui_signals.select_table = 0 # select table
game_logger = GameLogger()
version = 4.21
t = TableScreenBased(p, table_dict, gui_signals, game_logger, version)
image_backup = 10
t.current_round_pot = 1
while t.current_round_pot > 0:
try:
file_name = get_dir(os.path.join("log", "pics", 'table_' + str(image_backup) + '.png'))
t.screenshot = Image.open(file_name)
t.get_pots()
if t.current_round_pot < 0:
log.info(f"current_round_pot :{t.current_round_pot}.")
break
# log.info(f"Use backup image {image_backup}.")
except:
pass
image_backup -= 1
log.info(f"Use backup image {image_backup}.")
return image_backup
def test_ocr_valu36(): # ok
log = logging.getLogger(__name__)
mongo = MongoManager()
table_dict = mongo.get_table('GG_6TABLE')
table_scraper = TableScraper(table_dict)
table_scraper.screenshot = Image.open(
os.path.join(os.environ['test_test'], '5.png'))
table_scraper.crop_from_top_left_corner2(select_table=2)
if is_debug:
# table_scraper.screenshot.save('log/pics/table1.png')
file_name = get_dir(os.path.join('log', 'pics', 'table_label.png'))
save_table_rectangle_cv2(table_scraper.screenshot, table_dict,
file_name)
table_scraper.get_pots()
table_scraper.get_players_funds()
table_scraper.get_player_pots()
log.info(f"{table_scraper.total_pot}")
log.info(f"{table_scraper.player_funds}")
log.info(f"{table_scraper.player_pots}")
pytest.assume(table_scraper.total_pot == 12.0)
pytest.assume(
table_scraper.player_funds == [145.5, 100.0, 20.0, 18.0, 187.5, 94.5])
pytest.assume(
table_scraper.player_pots == [-1.0, -1.0, -1.0, -1.0, -1.0, -1.0])
def test_ocr_valu22(): # ok
# init_logger(screenlevel=logging.DEBUG, filename='test-ocr', logdir='log')
mongo = MongoManager()
table_dict = mongo.get_table('GG_6TABLE')
table_scraper = TableScraper(table_dict)
table_scraper.screenshot = Image.open(
os.path.join(os.environ['test_test'], '2.png'))
table_scraper.crop_from_top_left_corner2(select_table=3)
if is_debug:
# table_scraper.screenshot.save('log/pics/table1.png')
file_name = get_dir(os.path.join('log', 'pics', 'table_label.png'))
save_table_rectangle_cv2(table_scraper.screenshot, table_dict,
file_name)
table_scraper.get_pots()
table_scraper.get_players_funds()
table_scraper.get_player_pots()
log.info(f"{table_scraper.total_pot}")
log.info(f"{table_scraper.player_funds}")
log.info(f"{table_scraper.player_pots}")
pytest.assume(table_scraper.total_pot == 12.5)
pytest.assume(
table_scraper.player_funds == [154.0, 104.5, 90.0, 95.0, 20.0, 190.0])
pytest.assume(table_scraper.player_pots == [
2.0, 0.5, 10.0, -1.0, -1.0, -1.0
]) # [2.0, 0.5, 10.0, -1.0, 4.0, -1.0]
def test_ocr_valu10(): # ok
log = logging.getLogger(__name__)
mongo = MongoManager()
table_dict = mongo.get_table('GG_6TABLE')
table_scraper = TableScraper(table_dict)
table_scraper.screenshot = Image.open(
os.path.join(os.environ['test_src'], '1.png'))
table_scraper.crop_from_top_left_corner2(select_table=3)
if is_debug:
# table_scraper.screenshot.save('log/pics/table1.png')
file_name = get_dir(os.path.join('log', 'pics', 'table_label.png'))
save_table_rectangle_cv2(table_scraper.screenshot, table_dict,
file_name)
table_scraper.get_pots()
table_scraper.get_players_funds()
table_scraper.get_player_pots()
log.info(f"{table_scraper.total_pot}")
log.info(f"{table_scraper.player_funds}")
log.info(f"{table_scraper.player_pots}")
pytest.assume(table_scraper.total_pot == 5.0) # 73.0
pytest.assume(table_scraper.player_funds == [
25.0, 11.0, 98.0, 188.5, 50.5, 100.0
]) # [29.0, 6.0, 98.0, 108.9, 30.5, 10.0]
pytest.assume(table_scraper.player_pots == [
-1.0, -1.0, 2.0, 2.0, 1.0, -1.0
]) # [-1.0, -1.0, 25.0, -1.0, 1.0, -1.0]
def test_ocr_valu8(): # ok
log = logging.getLogger(__name__)
mongo = MongoManager()
table_dict = mongo.get_table('GG_6TABLE')
table_scraper = TableScraper(table_dict)
table_scraper.screenshot = Image.open(
os.path.join(os.environ['test_src'], '1.png'))
table_scraper.crop_from_top_left_corner2(select_table=0)
if is_debug:
# table_scraper.screenshot.save('log/pics/table1.png')
file_name = get_dir(os.path.join('log', 'pics', 'table_label.png'))
save_table_rectangle_cv2(table_scraper.screenshot, table_dict,
file_name)
table_scraper.get_pots()
table_scraper.get_players_funds()
table_scraper.get_player_pots()
pytest.assume(table_scraper.total_pot == 12.5)
pytest.assume(
table_scraper.player_funds == [23.0, 100.0, 42.0, 23.0, 97.5,
102.0]) # pass
pytest.assume(
table_scraper.player_pots == [-1.0, -1.0, 6.0, -1.0, -1.0,
-1.0]) # Ghost number
def test_ocr_valu6(): # ok
log = logging.getLogger(__name__)
mongo = MongoManager()
table_dict = mongo.get_table('GG_6TABLE')
table_scraper = TableScraper(table_dict)
table_scraper.screenshot = Image.open(
os.path.join(os.environ['test_src1'], '9.png'))
table_scraper.crop_from_top_left_corner2(select_table=0)
if is_debug:
# table_scraper.screenshot.save('log/pics/table1.png')
file_name = get_dir(os.path.join('log', 'pics', 'table_label.png'))
save_table_rectangle_cv2(table_scraper.screenshot, table_dict,
file_name)
table_scraper.get_pots()
table_scraper.get_players_funds()
table_scraper.get_player_pots()
log.info(f"{table_scraper.total_pot}")
log.info(f"{table_scraper.player_funds}")
log.info(f"{table_scraper.player_pots}")
# assert table_scraper.total_pot == 4
pytest.assume(table_scraper.total_pot == 4.0) # 0.4 == 4.0 capture err
pytest.assume(
table_scraper.player_funds == [16.5, 23.5, 225.0, 65.5, 101.5, 100.0])
pytest.assume(
table_scraper.player_pots == [-1.0, 0.5, 1.0, 2.5, -1.0, -1.0])
def test_table_preflop_zenith():
# tlc = get_table_tlc()
# Init table function
p = StrategyHandler()
p.read_strategy()
mongo = MongoManager()
table_dict = mongo.get_table('GG_6TABLE')
gui_signals = MagicMock()
gui_signals.select_table = 0 # select table
game_logger = MagicMock()
version = 4.21
SB = 0.5
prefix = 'e'
t = TableScreenBased(p, table_dict, gui_signals, game_logger, version)
t.screenshot = Image.open(
get_dir(os.path.join('log', 'pics', 'table_' + prefix + '_0.png')))
t.get_dealer_position()
t.get_miss_player()
p_Zenith = CurrentHandPreflopStateZenith()
p_Zenith.reset()
# Specify miss player or calculate through t.get_miss_player().
p_Zenith.miss_player = t.miss_player
p_Zenith.dealer_position = t.dealer_position
p_Zenith.small_blind = SB
p_Zenith.abs_to_rel()
table_preflop_zenith(t, p_Zenith, prefix, -2, 20)
print(p_Zenith.actions)
def test_get_table_delta_rel2():
p = StrategyHandler()
p.read_strategy()
p.read_strategy()
mongo = MongoManager()
table_dict = mongo.get_table('GG_6TABLE')
gui_signals = MagicMock()
gui_signals.select_table = 0 # select table
game_logger = GameLogger()
version = 4.21
log_file = get_dir(os.path.join("log", 'delta.txt'))
f = open(log_file, "a")
f.write("New Project\n")
f.close()
count = 0
prefix = 'e'
while True:
t = TableScreenBased(p, table_dict, gui_signals, game_logger, version)
t.screenshot = Image.open(get_dir(os.path.join('log', 'pics', 'table_' + prefix + '0.png')))
t.get_gg_poker_rel()
x = 308 - t.gg_poker_rel[0]
y = 287 - t.gg_poker_rel[1]
update_delta(x, y) # update delta in config.ini
f = open(log_file, "a")
f.write(f"delta_x, delta_y : {x}, {y} ")
f.write("\n")
f.write("---------------------------------------------------")
f.write("\n")
f.close()
log.debug(f"delta_x, delta_y : {x}, {y} ")
file_name = get_dir(os.path.join('log', 'pics', 'table_update_delta.png'))
file_name1 = get_dir(os.path.join('log', 'pics', 'table_default_delta.png'))
"""
Move table by delta_x = -8 , delta_y = -5 from config.ini
"""
save_table_rectangle_cv2(t.screenshot, table_dict, file_name)
# reset delta to default in config.ini
reset_delta()
save_table_rectangle_cv2(t.screenshot, table_dict, file_name1)
count += 1
if count >=1:
break
return True
def test_label_pos0(): # ok
log = logging.getLogger(__name__)
mongo = MongoManager()
table_dict = mongo.get_table('GG_6TABLE')
table_scraper = TableScraper(table_dict)
prefix = 'b_16'
table_scraper.screenshot = Image.open(get_dir(os.path.join('log', 'pics', 'table_' + prefix + '.png')))
for i in [0]:
for j in [0]:
# table_scraper.crop_from_top_left_corner2(select_table=0)
if is_debug:
file_name = get_dir(os.path.join('log', 'pics', 'table_label_pos_' + str(i) + '_' + str(j) + '.png'))
"""
Move table by delta_x = -8 , delta_y = -5 from config.ini
"""
save_table_rectangle_cv2(table_scraper.screenshot, table_dict, file_name)
return True
def get_screenshot(name, prefix, tlc):
original_screenshot = take_screenshot()
cropped_screenshot = original_screenshot.crop(
scale_convertor1(tlc[0], tlc[1], tlc[0] + 900, tlc[1] + 700, 1.0))
file_name = get_dir(os.path.join("log", "pics", 'table_' + prefix + '_' + name + '.png'))
if os.path.isfile(file_name):
os.remove(file_name)
cropped_screenshot.save(file_name)
log.info(f"{file_name} is saved.")
return cropped_screenshot
def test_pytesseract_value():
log_file = get_dir(os.path.join("log", "pics", 'pytesseract.txt'))
f = open(log_file, "a")
f.write("New pytesseract\n")
f.close()
name = [
'total_pot_area.png', 'player_pot_area0.png', 'player_pot_area1.png',
'player_pot_area2.png', 'player_pot_area3.png', 'player_pot_area4.png',
'player_pot_area5.png', 'player_funds_area0.png',
'player_funds_area1.png', 'player_funds_area2.png',
'player_funds_area3.png', 'player_funds_area4.png',
'player_funds_area5.png', 'current_round_pot.png'
]
for i in range(14):
lst = []
file_name = get_dir(os.path.join('log', 'pics', name[i]))
img_orig = Image.open(file_name)
is_debug = False
img_resized = prepareImage(img_orig, mode=False)
config_ocr = "--psm 7 --oem 1 -c tessedit_char_whitelist='0123456789.,$£B ' --user-patterns eng.user_patterns"
lst.append(
pytesseract.image_to_string(img_resized, 'eng',
config=config_ocr).strip())
lst.append(
pytesseract.image_to_string(img_resized, 'ocrd',
config=config_ocr).strip())
lst.append(
pytesseract.image_to_string(img_resized, 'deu',
config=config_ocr).strip())
f = open(log_file, "a")
f.write(f'{name[i]} with eng:{lst[-3]}')
f.write("\n")
f.write(f'{name[i]} with ocrd:{lst[-2]}')
f.write("\n")
if is_bb_exist(lst[-1]):
f.write(f'{name[i]} with deu:{lst[-1]}')
else:
f.write(f'{name[i]} with deu: None reporting {lst[-1]}')
f.write("\n")
f.write("---------------------------------------------------")
f.write("\n")
f.close()
def get_screenshot1(n, prefix, tlc):
"""
scheme30: 10*1 + 20*0.1
19:12:29 INFO Finished 'get_screenshot1' in 26.8203 secs
19:12:43 INFO Finished 'test_table_preflopZenith1' in 40.6602 secs
19:12:43 INFO Finished 'test_run' in 40.6652 secs
scheme20: 10*1 + 10*0.1
19:16:16 INFO Finished 'get_screenshot1' in 20.9223 secs
19:16:25 INFO Finished 'test_run' in 30.0056 secs
scheme20: 6*1 + 14*0.1
19:19:44 INFO Finished 'get_screenshot1' in 17.9457 secs
19:19:56 INFO Finished 'test_run' in 30.3717 secs
scheme10: 3*2 + 4*0.1 + 3*2
19:32:30 INFO Finished 'get_screenshot1' in 18.1581 secs
19:32:33 INFO Finished 'test_run' in 21.4130 secs
scheme12: 3*2 + 4*0.1 + 5*1.5
19:38:38 INFO Finished 'get_screenshot1' in 20.4316 secs
19:38:40 INFO Finished 'test_run' in 22.0900 secs
"""
log.debug(f"'{prefix}' daemon starting")
for file_name in glob.glob(get_dir(os.path.join("log", "pics", 'table_' + prefix + '*.png'))):
# file_name = get_dir(os.path.join("log", "pics", 'table_' + str(i) + '.png'))
if os.path.isfile(file_name):
try:
os.remove(file_name)
except PermissionError:
time.sleep(0.5)
try:
os.remove(file_name)
except:
pass
# scheme: 12
for i in range(n):
get_screenshot(str(i), prefix, tlc)
# 8*0.5 + 7*2 = 18 sec
if i % 5 == 0 and i % 5 == 2:
time.sleep(0.1)
else:
time.sleep(1.5)
# # scheme: 20
# for i in range(n):
# get_screenshot(str(i), tlc)
# if i < 6:
# time.sleep(1)
# elif i < 20:
# time.sleep(0.1)
log.debug(f"'{prefix}' Daemon Exiting")
return True
def test_table_screenshot():
tlc = [1529, 377]
"""
p = StrategyHandler()
p.read_strategy()
mongo = MongoManager()
table_dict = mongo.get_table('GG_6TABLE')
gui_signals = MagicMock()
gui_signals.select_table = 0 # select table
game_logger = GameLogger()
t = TableScreenBased(p, table_dict, gui_signals, game_logger, version)
"""
original_screenshot = take_screenshot()
cropped_screenshot = original_screenshot.crop(
scale_convertor1(tlc[0], tlc[1], tlc[0] + 900, tlc[1] + 700, 1.0))
cropped_screenshot.save(get_dir(os.path.join('log', 'pics', 'table_cropped.png')))
def find_backup_image(t):
image_backup = 10
t.current_round_pot = 1
while t.current_round_pot > 0:
file_name = get_dir(os.path.join("log", "pics", 'table_' + str(image_backup) + '.png'))
if os.path.isfile(file_name):
t.screenshot = Image.open(file_name)
t.get_pots()
if t.current_round_pot < 0:
log.debug(f"current_round_pot :{t.current_round_pot}.")
break
# log.info(f"Use backup image {image_backup}.")
image_backup -= 1
if image_backup < 0:
return False
log.debug(f"Use backup image {image_backup}.")
return True
def get_table_cards3(self):
# self.table_cards = []
# img_values_dir = 'C:\\Users\\jinyi\\Desktop\\Poker\\poker\\cards\\values'
# img_suits_dir = 'C:\\Users\\jinyi\\Desktop\\Poker\\poker\\cards\\suits'
img_values_dir = get_dir(os.path.join('cards', 'values'))
img_suits_dir = get_dir(os.path.join('cards', 'suits'))
cardsFound = set()
matchingThreshold = 0.90
allValueMatches = []
maxVal = 0
maxVal1 = 0
card = None
rectangle = [None for _ in range(4)]
config = get_config()
table_size = config['DEFAULT']['table_size']
lower = float(config['DEFAULT']['table' + table_size +
'_lower_boundary'])
upper = float(config['DEFAULT']['table' + table_size +
'_upper_boundary'])
suitRecord = {}
for template_value_path in glob.glob(img_values_dir + "\\*.png"):
value = self.path_leaf(template_value_path)
valueTemplate = cv2.imread(template_value_path)
valueTemplate = cv2.cvtColor(valueTemplate, cv2.COLOR_BGR2GRAY)
valueTemplate = valueTemplate[0:30, 0:20]
(tH, tW) = valueTemplate.shape[:2]
# loop over the scales of the image
# for scale in np.linspace(1, 2.0, 20)[::-1]:
for scale in np.linspace(lower, upper, 3)[::-1]:
# resize the image according to the scale, and keep track
# of the ratio of the resizing
search_area = self.table_dict['table_cards_area']
# cropped_screenshot = self.screenshot.crop(
# (search_area['x1'], search_area['y1'], search_area['x2'], search_area['y2']))
# scale_m = config['DEFAULT']['scale']
# table_size = config['DEFAULT']['table_size']
scale_m = scale_cal(table_size, 'table_cards_area')
rectangle[0], rectangle[1], rectangle[2], rectangle[
3] = scale_convertor2(search_area['x1'], search_area['y1'],
search_area['x2'], search_area['y2'],
scale_m)
cropped_screenshot = self.screenshot.crop(
(rectangle[0], rectangle[1], rectangle[2], rectangle[3]))
original = cv2.cvtColor(np.array(cropped_screenshot),
cv2.COLOR_BGR2GRAY)
# cv2.imshow("Image", original)
# cv2.waitKey(0)
resized = imutils.resize(original,
width=int(original.shape[1] * scale))
r = resized.shape[1] / float(original.shape[1])
# if the resized image is smaller than the template, then break
# from the loop
if resized.shape[0] < tH or resized.shape[1] < tW:
break
valueMatches, maxVal, maxLoc = templateMatching.getMatches(
resized, valueTemplate, 0.92)
valueMatches = map(
lambda match: {
'topLeft': (match[0], match[1]),
'name': value
}, valueMatches)
for valueMatch in valueMatches:
tcl = valueMatch['topLeft']
searchArea = resized[(tcl[1] + 0 - 30):(tcl[1] + 90 - 30 +
50),
(tcl[0] - 5 - 20):(tcl[0] + 60 - 20 +
50)]
# cv2.imshow("Image", searchArea)
# cv2.waitKey(0)
for template_suit_path in glob.glob(img_suits_dir +
"\\*.png"):
suit = self.path_leaf(template_suit_path)
suitTemplate = cv2.imread(template_suit_path)
suitTemplate = cv2.cvtColor(suitTemplate,
cv2.COLOR_BGR2GRAY)
(sH, sW) = suitTemplate.shape[:2]
if searchArea.shape[0] < sH or searchArea.shape[1] < sW:
break
_, maxVal1, _ = templateMatching.getMatches(
searchArea, suitTemplate, matchingThreshold)
suitRecord[suit] = maxVal1
bestSuit = 'spade'
if searchArea.shape[0] < sH or searchArea.shape[1] < sW:
break
for template_suit_path in glob.glob(img_suits_dir +
"\\*.png"):
suit = self.path_leaf(template_suit_path)
if suitRecord[suit] >= suitRecord[bestSuit]:
bestSuit = suit
card = value[0] + bestSuit[0].upper()
if suitRecord[bestSuit] > 0.90:
cardsFound.add(card)
if self.found[card] is None or maxVal > self.found[card][0] or suitRecord[bestSuit] > \
self.found[card][1]:
self.found[card] = (maxVal, suitRecord[bestSuit],
maxLoc, r)
if self.found[card] is None or self.found[card][0] == 0:
continue
self.table_cards = list(cardsFound)
print(self.found)
return True
def is_new_action(self, t):
"""
if there is pot change for player in game, returns True.
"""
# t.get_pots() # update current_round_pot and total_pot
# # Prepare to check Active player abs
# t.get_players_in_game()
# t.get_player_pots(skip=[])
# t.get_my_cards3()
self.is_my_turn = t.is_my_turn()
# self.players_in_game_abs = t.players_in_game
is_zero_covered = is_template_in_search_area(t.table_dict,
t.screenshot,
'covered_card',
'covered_card_area',
t.scale_defaults, str(0))
# To use in Round test.
is_bb_covered = is_template_in_search_area(t.table_dict, t.screenshot,
'covered_card',
'covered_card_area',
t.scale_defaults, str(5))
self_logger.debug(f"player 0 is covered card {is_zero_covered}")
self_logger.debug(f"player 5 is covered card {is_bb_covered}")
if not self.is_my_turn and not is_zero_covered:
try:
index = self.players_in_game_abs.index(0)
self.players_in_game_abs.pop(index)
except:
pass
if not is_bb_covered:
try:
index = self.players_in_game_abs.index(5)
self.players_in_game_abs.pop(index)
except:
pass
# Update player in game with now_player_order.
self.update_player_in_game(t)
if len(self.players_in_game_abs1) == 0:
self_logger.info(f"There is no Players in game for this Preflop.")
return False
self.player_pots = t.player_pots
# test active player abs and rels
if self.is_my_turn:
self.active_player_abs = 0
self.active_player_rel = self.find_rel_pos(self.active_player_abs)
self.current_active_player = self.player_round[
self.active_player_rel]
else:
self_logger.info(
f"players in game rel: {self.players_in_game_rel}")
self_logger.info(
f"players in game abs1: {self.players_in_game_abs1}")
if not self.get_active_player_abs():
self_logger.info(f'No active player')
return False
self.active_player_rel = self.find_rel_pos(self.active_player_abs)
self.current_active_player = self.player_round[
self.active_player_rel]
self_logger.info(f'active player abs: {self.active_player_abs}')
self_logger.info(f'active player rels: {self.active_player_rel}')
self_logger.info(
f'current active player: {self.current_active_player}')
# Get current Round
if self.get_round_status():
self_logger.info(f'round: {self.round}')
self_logger.info(f'Now Player Order: {self.now_player_order}')
else:
self_logger.info(f'Failed to check round status.')
return False
# Get player action:
if self.round == 1:
tmp = 0
else:
tmp = self.max_player
if self.now_player_order > self.active_player_rel + tmp:
self_logger.info(f'It is up-to-date')
self_logger.info(f" actions: {self.actions}")
return False
while self.now_player_order <= self.active_player_rel + tmp:
t.get_pots2("total_pot_area")
self.now_player_order_abs = self.find_abs_pos(
self.now_player_order)
self_logger.debug(
f"-----------Debug log---------------------------------")
self_logger.debug(f'round: {self.round}')
self_logger.debug(f'dealer: {self.dealer_position}')
self_logger.debug(f"total_pot: {t.total_pot} ")
self_logger.debug(f"now_player_order: {self.now_player_order}")
self_logger.debug(
f"now_player_order_abs: {self.now_player_order_abs}")
t.get_player_pots_nn(self.now_player_order_abs)
self_logger.debug(
f"current_pot: {t.player_pots[self.now_player_order_abs]}")
self_logger.debug(
f"players_in_game_abs1: {self.players_in_game_abs1}")
self_logger.debug(f'current_round_pot: {t.current_round_pot}')
self_logger.debug(f'self.last_image_pots: {self.last_image_pots}')
self_logger.debug(f'self.player_pots: {self.player_pots}')
self_logger.debug(f'SB: {self.small_blind}')
self_logger.debug(f"--------------------------------------------")
# handle players not in game
if self.now_player_order_abs not in self.players_in_game_abs1:
self_logger.debug(
f"before go into next stage {self.now_player_order_abs} not in {self.players_in_game_abs1}"
)
self.action = self.player_round[self.now_player_order %
self.max_player] + '_' + 'fold'
self.actions[self.now_player_order] = self.action
self.now_player_order += 1
if is_debug:
t.screenshot.save(
get_dir(
os.path.join(
'log', 'pics',
str(self.dealer_position) + '_' + self.action +
'.png')))
continue
# handle players in game.
if t.total_pot == 1.0 + self.small_blind:
if t.player_pots[self.now_player_order_abs] <= 1:
self_logger.debug(
f"before go into nex stage {t.total_pot} == 1.5,{t.player_pots[self.now_player_order_abs]} <= 1"
)
if t.current_round_pot > 0:
self_logger.info(f"all actions are completed.")
self_logger.debug(
f"before go into nex stage t.current_round_pot > 0"
)
call = self.get_max_bet_value(self.now_player_order)
self.action = self.player_round[
self.now_player_order %
self.max_player] + '_' + str(call)
self.actions[self.now_player_order] = self.action
return False
break
# self.action = self.player_round[self.now_player_order % self.max_player] + '_' + 'fold'
# # Remove from players in game.
# index = t.players_in_game.index(self.now_player_order_abs)
# self.players_in_game_abs.pop(index)
# self.actions[self.now_player_order] = self.action
# self.now_player_order += 1
# self_logger.info(f"action: {self.action}")
elif t.total_pot > 1.0 + self.small_blind:
t.get_player_pots_nn(self.now_player_order_abs)
# 1st round
if self.now_player_order < self.max_player:
current_pot = t.player_pots[self.now_player_order_abs]
if t.current_round_pot > 0:
self_logger.debug(
f"self.now_player_order < self.max_player and t.current_round_pot > 0"
)
# if max value is -1 and number_of_player == n, call = total_pot // n.
call = self.get_max_bet_value(self.now_player_order)
if call < 0:
sys.exit()
#call = t.total_pot // len(self.players_in_game_abs1)
self.action = self.player_round[
self.now_player_order %
self.max_player] + '_' + str(call)
self.actions[self.now_player_order] = self.action
self.now_player_order += 1
continue
elif current_pot == 1:
# self.action = self.player_round[self.now_player_order % self.max_player] + '_' + 'fold'
# # Remove from players in game.
# index = t.players_in_game.index(self.now_player_order_abs)
# self.players_in_game_abs.pop(index)
self_logger.debug(
f"before go into nex stage current_pot == 1")
if self.now_player_order != self.bb_rel:
self.action = self.player_round[
self.now_player_order %
self.max_player] + '_' + str(1.0)
self.actions[self.now_player_order] = self.action
self.now_player_order += 1
continue
else:
break
# if is_debug:
# t.screenshot.save(
# get_dir(os.path.join('log', 'pics',
# str(self.dealer_position) + '_' + self.action + '.png')))
elif current_pot > 1 and t.current_round_pot < 0:
self_logger.debug(
f"before go into nex stage t.player_pots[self.now_player_order_abs] > 1"
)
self.action = self.player_round[
self.now_player_order %
self.max_player] + '_' + str(
t.player_pots[self.now_player_order_abs])
self.actions[self.now_player_order] = self.action
self.now_player_order += 1
if is_debug:
t.screenshot.save(
get_dir(
os.path.join(
'log', 'pics',
str(self.dealer_position) + '_' +
self.action + '.png')))
else:
self_logger.debug(
f" current_pot < 1 and t.current_round_pot < 0")
break
# 2nd round
elif self.now_player_order >= self.max_player:
pre_pot = float(
self.actions[self.now_player_order %
self.max_player].split('_')[1])
current_pot = t.player_pots[self.now_player_order_abs]
if t.current_round_pot > 0:
self_logger.info(f"all actions are completed.")
self_logger.debug(
f"before go into nex stage t.current_round_pot > 0"
)
call = self.get_max_bet_value(self.now_player_order)
if call < 0:
return False
self.action = self.player_round[
self.now_player_order %
self.max_player] + '_' + str(call)
self.actions[self.now_player_order] = self.action
return False
if current_pot < 0 and t.current_round_pot < 0:
self_logger.debug(
f"before go into nex stage current_pot < 0 and t.current_round_pot < 0"
)
break
# Check in another image.
if current_pot == pre_pot:
self_logger.debug(
f"before go into nex stage current_pot == pre_pot")
break
# pots are distributed and transfered to next game.
if current_pot < pre_pot and current_pot > 0:
self_logger.info(f"all actions are completed.")
self_logger.debug(
f"before go into nex stage current_pot < pre_pot and current_pot > 0"
)
return False
self.action = self.player_round[
self.now_player_order %
self.max_player] + '_' + str(current_pot)
self.actions[self.now_player_order] = self.action
self.now_player_order += 1
if is_debug:
t.screenshot.save(
get_dir(
os.path.join(
'log', 'pics',
str(self.dealer_position) + '_' +
self.action + '.png')))
# self_logger.info(f"action: {self.action}")
elif t.total_pot == 1.0:
# sb fold and BB win the pot.
if self.now_player_order == self.max_player - 2: # SB
self_logger.debug(
f"t.total_pot == 1.0: and self.now_player_order == self.max_player - 2"
)
self.action = self.player_round[
self.now_player_order % self.max_player] + '_' + 'fold'
self.actions[self.now_player_order] = self.action
self.now_player_order += 1
elif self.now_player_order == self.max_player - 1: # BB
self_logger.debug(
f"t.total_pot == 1.0: and self.now_player_order == self.max_player - 1"
)
self.action = self.player_round[
self.now_player_order % self.max_player] + '_' + '1.0'
self.actions[self.now_player_order] = self.action
self.now_player_order += 1
return True
else:
return True
else:
self_logger.info(f'There is err, total_pot: {t.total_pot}')
return False
# all player have same pots. Transfer to next game stage.
# if max(t.player_pots) != min([t.player_pots[i] for i in t.players_in_game]):
# self_logger.info(f"use_backup_image")
# self.use_backup_image = True
return True
def get_my_cards3(self):
"""Get my cards"""
for card in self.hand:
self.hand[card] = 0
self.my_cards = []
img_values_dir = get_dir(os.path.join('cards', 'values'))
img_suits_dir = get_dir(os.path.join('cards', 'suits_mycard'))
cardsFound = set()
matchingThreshold = 0.90
rectangle = [None for _ in range(4)]
config = get_config()
table_size = config['DEFAULT']['table_size']
lower = float(config['DEFAULT']['table' + table_size +
'_lower_boundary'])
upper = float(config['DEFAULT']['table' + table_size +
'_upper_boundary'])
suitRecord = {}
angleList = [-5, 5]
for angle in angleList:
for template_value_path in glob.glob(img_values_dir + "\\*.png"):
value = self.path_leaf(template_value_path)
valueTemplate = cv2.imread(template_value_path)
valueTemplate = cv2.cvtColor(valueTemplate, cv2.COLOR_BGR2GRAY)
valueTemplate = valueTemplate[0:30, 0:20]
(tH, tW) = valueTemplate.shape[:2]
# loop over the scales of the image
for scale in np.linspace(lower, upper, 3)[::-1]:
search_area = self.table_dict['my_right_card_area']
scale_m = scale_cal(table_size, 'my_right_card_area')
rectangle[0], rectangle[1], rectangle[2], rectangle[
3] = scale_convertor2(search_area['x1'],
search_area['y1'],
search_area['x2'],
search_area['y2'], scale_m)
cropped_screenshot = self.screenshot.crop(
(rectangle[0], rectangle[1], rectangle[2],
rectangle[3]))
original = cv2.cvtColor(np.array(cropped_screenshot),
cv2.COLOR_BGR2GRAY)
resized = imutils.resize(original,
width=int(original.shape[1] *
scale))
r = resized.shape[1] / float(original.shape[1])
if resized.shape[0] < tH or resized.shape[1] < tW:
break
valueTemplateRotP5 = self.getRotImage(angle, valueTemplate)
valueMatches, maxVal, maxLoc = templateMatching.getMatches(
resized, valueTemplateRotP5, 0.92)
valueMatches = map(
lambda match: {
'topLeft': (match[0], match[1]),
'name': value
}, valueMatches)
for valueMatch in valueMatches:
tcl = valueMatch['topLeft']
# cv2.imshow("Image", resized)
# cv2.waitKey(0)
searchArea = resized[(tcl[1] + 0 - 30):(tcl[1] + 90 -
30 + 50),
(tcl[0] - 5 - 20):(tcl[0] + 60 -
20)]
# cv2.imshow("Image", searchArea)
# cv2.waitKey(0)
for template_suit_path in glob.glob(img_suits_dir +
"\\*.png"):
suit = self.path_leaf(template_suit_path)
suitTemplate = cv2.imread(template_suit_path)
suitTemplate = cv2.cvtColor(
suitTemplate, cv2.COLOR_BGR2GRAY)
(sH, sW) = suitTemplate.shape[:2]
if searchArea.shape[0] < sH or searchArea.shape[
1] < sW:
break
_, maxVal1, _ = templateMatching.getMatches(
searchArea, suitTemplate, matchingThreshold)
suitRecord[suit] = maxVal1
bestSuit = 'spadeR'
if searchArea.shape[0] < sH or searchArea.shape[1] < sW:
break
for template_suit_path in glob.glob(img_suits_dir +
"\\*.png"):
suit = self.path_leaf(template_suit_path)
if suitRecord[suit] >= suitRecord[bestSuit]:
bestSuit = suit
card = value[0] + bestSuit[0].upper()
if suitRecord[bestSuit] > 0.90:
cardsFound.add(card)
self.hand[card] += 1
if self.found[card] is None or maxVal > self.found[card][0] or suitRecord[bestSuit] > \
self.found[card][1]:
self.found[card] = (maxVal, suitRecord[bestSuit],
maxLoc, r)
if self.found[card] is None or self.found[card][0] == 0:
continue
while len(cardsFound) > 2:
minValue = 10000
minCard = ''
for card in cardsFound:
if self.hand[card] <= minValue:
minValue = self.hand[card]
minCard = card
# print("remove redundant card", minCard)
cardsFound.remove(minCard)
self.my_cards = list(cardsFound)
print(self.found)
return True
def table_preflop_zenith(t, p_Zenith, prefix, start, end):
log.debug("Non-daemon starting")
# # Update basic information.
# t.screenshot = get_screenshot('cropped', tlc)
# 1st= 0.6, 2nd=2.0, 3rd=0.6
time.sleep(3.2)
# Find image with players in game.
for i in range(start + 2, end):
# 1st= 0.6, 2nd=2.0, 3rd=0.6
# time.sleep(3.2)
file_name = get_dir(os.path.join("log", "pics", 'table_' + prefix + '_' + str(i) + '.png'))
while not os.path.isfile(file_name):
time.sleep(0.5)
t.screenshot = Image.open(file_name)
# If it is flop stage, check next image.
t.get_pots2("current_round_pot")
if t.current_round_pot > 0:
continue
t.get_players_in_game()
if len(t.players_in_game) > 1:
log.info(f"Players in game: {t.players_in_game} and start from: {i} and {file_name}")
p_Zenith.players_in_game_abs = t.players_in_game
start = i
break
# Exit if consume all images.
if len(t.players_in_game) < 2 and i == end - 1:
log.debug(f"Non-daemon Exiting prefix: {prefix} by len(t.players_in_game) < 2 and i == end - 1")
return True
t.get_dealer_position()
p_Zenith.dealer_position = t.dealer_position
# p_Zenith.abs_to_rel()
t.get_pots()
# exclude = set(range(6)) - set(t.players_in_game)
# t.get_player_pots(skip=list(exclude))
t.get_player_pots()
p_Zenith.player_pots = t.player_pots
# Update again for missed player.
p_Zenith.update_miss_player()
log.info(f"miss player:{p_Zenith.miss_player}")
p_Zenith.abs_to_rel()
for i in range(start, end):
file_name = get_dir(os.path.join("log", "pics", 'table_' + prefix + '_' + str(i) + '.png'))
log.debug(f"Start to analyze table :{file_name}")
# Update players in game with low time cost.
t.get_players_in_game()
p_Zenith.players_in_game_abs = t.players_in_game
# try:
# t.screenshot = Image.open(file_name)
# except FileNotFoundError:
# try:
# time.sleep(0.5)
# t.screenshot = Image.open(file_name)
# except FileNotFoundError:
# try:
# time.sleep(0.5)
# t.screenshot = Image.open(file_name)
# except FileNotFoundError:
# pass
while not os.path.isfile(file_name):
time.sleep(0.5)
t.screenshot = Image.open(file_name)
p_Zenith.file_name = file_name
# log.debug(f"now_player_order:{p_Zenith.now_player_order}")
t.get_pots2("current_round_pot")
# exclude = set(range(6)) - set([now_player_order_abs])
# t.get_player_pots(skip=list(exclude))
log.debug(f"prepared")
log.debug(f"current_round_pot :{t.current_round_pot}")
if not t.is_dealer_changed(p_Zenith.dealer_position):
log.debug(f"Dealer position changed.")
break
if t.current_round_pot < 0: # gamestaget: preflop
# Process preflop status.
# ready = preflop_state_Zenith.get_players_status(t)
ready = p_Zenith.get_players_status(t)
log.debug(f"--------------------------------------")
log.debug(f"p_Zenith.now_player_order : {p_Zenith.now_player_order}")
log.debug(f"p_Zenith.actions : {p_Zenith.actions}")
log.debug(f"--------------------------------------")
# if file_name is None:
# sys.exit()
# p_Zenith.file_name = file_name
elif t.current_round_pot > 0:
ready = p_Zenith.get_players_status(t)
if not ready:
# if file_name is None:
# sys.exit()
# p_Zenith.file_name = file_name
break
continue
if len(p_Zenith.players_in_game_abs1) == 0:
break
log.debug("Non-daemon Exiting")
return True
def test_run():
"""
Zenith test methodlogy:
1. test by test_run() for multiple games.
2. Locate each err game and
3. test by test_table_preflop_zenith()
parameter: SB= , table name=
"""
log_file = get_dir(os.path.join("log", 'jobs.txt'))
f = open(log_file, "a")
f.write("New Project\n")
f.close()
table_name = "NLH Gold 12 - $1 / $2"
tlc = get_table_tlc1(table_name)
# x, y = get_table_delta()
# update_delta(x, y)
# Init table function
p = StrategyHandler()
p.read_strategy()
mongo = MongoManager()
table_dict = mongo.get_table('GG_6TABLE')
gui_signals = MagicMock()
gui_signals.select_table = 0 # select table
game_logger = MagicMock()
version = 4.21
SB = 0.5
# miss_player = [1]
prefix = ''
p_Zenith = CurrentHandPreflopStateZenith()
jobs = []
thread_ready = True
count = 0
while True:
t = TableScreenBased(p, table_dict, gui_signals, game_logger, version)
while thread_ready:
if p_Zenith.dealer_position is not None:
# Get new dealer pos.
t.screenshot = get_screenshot('cropped', 'temp', tlc)
t.get_dealer_position()
t.get_miss_player()
# Compare with previous handled dealer.
if p_Zenith.dealer_position != t.dealer_position:
p_Zenith.reset()
p_Zenith.miss_player = t.miss_player
p_Zenith.dealer_position = t.dealer_position
p_Zenith.small_blind = SB
p_Zenith.abs_to_rel()
break
time.sleep(0.5)
else:
# Initialize 1st table information.
t.screenshot = get_screenshot('cropped', 'temp', tlc)
t.get_dealer_position()
p_Zenith.dealer_position = -1
# d = threading.Thread(name='t_take_screenshots', target=get_screenshot1,
# args=[20, prefix, tlc]) # 12 for test, 18 for backup
# d.daemon = True
# t1 = threading.Thread(name='t_run_preflopZenith1', target=table_preflop_zenith,
# args=[t, p_Zenith, prefix, 0, 20]) # if preflop finished, break.
if thread_ready:
if count == 0:
prefix = 'a'
elif count == 1:
prefix = 'b'
elif count == 2:
prefix = 'c'
elif count == 3:
prefix = 'd'
elif count == 4:
prefix = 'e'
log.debug(f"count:{count} and prefix: {prefix}")
for file_name in glob.glob(
get_dir(
os.path.join("log", "pics",
'table_' + prefix + '*.png'))):
# file_name = get_dir(os.path.join("log", "pics", 'table_' + str(i) + '.png'))
if os.path.isfile(file_name):
try:
log.info(f"Remove {prefix} files")
os.remove(file_name)
except PermissionError:
time.sleep(0.5)
try:
os.remove(file_name)
except:
pass
d = threading.Thread(name='t_take_screenshots',
target=get_screenshot1,
args=[20, prefix,
tlc]) # 12 for test, 18 for backup
d.daemon = True
t1 = threading.Thread(name='t_run_preflopZenith1',
target=table_preflop_zenith,
args=[t, p_Zenith, prefix, 0,
20]) # if preflop finished, break.
thread_ready = False
d.start()
t1.start()
d.join(
0.1) # after the non-daemon stops, daemon wait for 2 sec only.
t1.join()
if not (t1.is_alive() or d.is_alive()):
thread_ready = True
count += 1
jobs.append({
'dealer': p_Zenith.dealer_position,
# 'miss_player': p_Zenith.miss_player,
'last file_name': p_Zenith.file_name,
'actions': p_Zenith.actions
})
f = open(log_file, "a")
f.write(str({'dealer': p_Zenith.dealer_position}))
f.write("\n")
f.write(str({'last file_name': p_Zenith.file_name}))
f.write("\n")
f.write(str({'actions': p_Zenith.actions}))
f.write("\n")
f.write("---------------------------------------------------")
f.write("\n")
f.close()
p_Zenith.reset()
if len(jobs) == 5: break
# Plot out job result.
# reset_delta()
for i in range(5):
print(jobs[i])
f.close()
