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interpreter.py
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interpreter.py
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"""
* Use screengrab to parse different areas of the image for interpretation
*
"""
import screengrab
import time
import pytesseract
import numpy as np
from colormath.color_conversions import convert_color
from colormath.color_objects import sRGBColor, LabColor
from colormath.color_diff import delta_e_cie2000
from PIL import Image, ImageFilter, ImageOps
class interpreter():
# coordinates
Bigblind = (347, 465, 490, 503)
iamback = (518, 475, 600, 495)
totpotb4flop = (497, 198, 547, 214)
totpot = (497, 188, 560, 204)
mainpot = (492, 210, 545, 225)
fold = (372, 475, 420, 492)
call = (495, 475, 590, 492) #and check
raze = (645, 475, 790, 492) #and bet and allin
table = (345, 240, 390, 315)
# card1, card2, button, equity, bet
players = [
[(450, 355, 480, 405), (490, 355, 520, 405), (525, 370, 540, 385), (465, 405, 535, 430), (470, 337, 530, 354)],
[(175, 305, 205, 355), (210, 305, 240, 355), (275, 360, 290, 375), (190, 355, 260, 380), (267, 317, 327, 334)],
[(175, 145, 205, 195), (210, 145, 240, 195), (275, 195, 290, 210), (190, 190, 260, 215), (288, 219, 348, 236)],
[(450, 90, 480, 135), (490, 90, 515, 135), (550, 130, 565, 145), (465, 137, 535, 162), (568, 168, 618, 185)],
[(725, 145, 755, 195), (760, 145, 790, 195), (685, 195, 700, 210), (740, 190, 810, 215), (665, 220, 715, 237)],
[(725, 310, 755, 360), (760, 310, 790, 360), (685, 360, 700, 375), (740, 355, 810, 380), (690, 317, 740, 334)]]
def __init__(self, logger):
self.logger = logger
self.s = screengrab.Screengrab()
while(self.get_state(['', '', [], []])[0] == "Client not open"):
time.sleep(5)
def process_image(self, img_orig, vers):
def binarize_array(image, threshold=200):
"""Binarize a numpy array."""
numpy_array = np.array(image)
for i in range(len(numpy_array)):
for j in range(len(numpy_array[0])):
if numpy_array[i][j] > threshold:
numpy_array[i][j] = 255
else:
numpy_array[i][j] = 0
return Image.fromarray(numpy_array)
# check if cards are folded/present
#nothing to process
img_o = img_orig.load()
# vers 1 is for the table cards and hand cards
if vers == 1:
#check to see if back of card or table
deltacolorO = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x, 15][0] for x in range(5, 15)])/10/255, sum([img_o[x, 15][1] for x in range(5, 15)])/10/255,sum([img_o[x, 15][2] for x in range(5, 15)])/10/255), LabColor), convert_color(sRGBColor(1, 105/255, 0), LabColor))
deltacolorG = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x, 25][0] for x in range(5, 15)])/10/255, sum([img_o[x, 25][1] for x in range(5, 15)])/10/255,sum([img_o[x, 25][2] for x in range(5, 15)])/10/255), LabColor), convert_color(sRGBColor(93/255, 93/255, 93/255), LabColor))
#print(str(deltacolorO) + " - " + str(deltacolorG))
#print(img_o[13, 35])
if deltacolorO<=15 or deltacolorG<=15:
#img_orig.show()
return 'f'
img_temp = img_orig
img_orig = img_orig.crop(box = (0, 0, 35, 35))
lst = []
basewidth = 35
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.ANTIALIAS)
img_resized = binarize_array(img_resized, 200)
img_sharp = img_resized.filter(ImageFilter.SHARPEN)
lst.append(pytesseract.image_to_string(img_resized, 'eng', config='--psm 10 --oem 3 -c tessedit_char_whitelist=23456789JQKA10'))
if (lst[0] == ''):
lst.append(pytesseract.image_to_string(img_sharp, 'eng', config='--psm 10 --oem 3 -c tessedit_char_whitelist=23456789JQKA10'))
#fixes a bug where some spades cards can be interpreted as having a trailing zero
if (len(lst[0])>=2 and not lst[0] == '10'):
if (lst[0][0] in"23456789JQKA"):
lst[0] = lst[0][0]
self.logger.debug(lst)
while '' in lst:
lst.remove('')
# figure out the suit based on color
if not lst == []:
if lst[0] == '10':
lst[0] = "T"
#print(deltacolorW)
if img_temp.size[0] > 40:
deltacolorC = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x, 50][0] for x in range(20, 28)])/8/255, sum([img_o[x, 50][1] for x in range(20, 28)])/8/255,sum([img_o[x, 50][2] for x in range(20, 28)])/8/255), LabColor), convert_color(sRGBColor(50/255, 160/255, 40/255), LabColor))
print(deltacolorC)
if deltacolorC < 25:
return lst[0] + "c"
deltacolorC = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x, 50][0] for x in range(20, 28)])/8/255, sum([img_o[x, 50][1] for x in range(20, 28)])/8/255, sum([img_o[x, 50][2] for x in range(20, 28)])/8/255), LabColor), convert_color(sRGBColor(0, 0, 0), LabColor))
print('hi')
if deltacolorC < 30:
return lst[0] + "s"
deltacolorC = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x, 50][0] for x in range(20, 28)])/8/255, sum([img_o[x, 50][1] for x in range(20, 28)])/8/255, sum([img_o[x, 50][2] for x in range(20, 28)])/8/255), LabColor), convert_color(sRGBColor(0, 138/255, 207/255), LabColor))
if deltacolorC < 20:
return lst[0] + "d"
deltacolorC = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x, 50][0] for x in range(20, 28)])/8/255, sum([img_o[x, 50][1] for x in range(20, 28)])/8/255, sum([img_o[x, 50][2] for x in range(20, 28)])/8/255), LabColor), convert_color(sRGBColor(200/255, 0, 0), LabColor))
if deltacolorC < 20:
return lst[0] + "h"
else:
#otherwise it is a handcard
deltacolorC = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x, 36][0] for x in range(20, 28)])/8/255, sum([img_o[x, 36][1] for x in range(20, 28)])/8/255, sum([img_o[x, 36][2] for x in range(20, 28)])/8/255), LabColor), convert_color(sRGBColor(50/255, 160/255, 40/255), LabColor))
if deltacolorC < 25:
return lst[0] + "c"
deltacolorC = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x, 36][0] for x in range(20, 28)])/8/255, sum([img_o[x, 36][1] for x in range(20, 28)])/8/255, sum([img_o[x, 36][2] for x in range(20, 28)])/8/255), LabColor), convert_color(sRGBColor(0, 0, 0), LabColor))
print(deltacolorC)
if deltacolorC < 35:
return lst[0] + "s"
deltacolorC = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x, 36][0] for x in range(20, 28)])/8/255, sum([img_o[x, 36][1] for x in range(20, 28)])/8/255, sum([img_o[x, 36][2] for x in range(20, 28)])/8/255), LabColor), convert_color(sRGBColor(0, 136/255, 207/255), LabColor))
if deltacolorC < 25:
return lst[0] + "d"
deltacolorC = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x, 36][0] for x in range(20, 28)])/8/255, sum([img_o[x, 36][1] for x in range(20, 28)])/8/255, sum([img_o[x, 36][2] for x in range(20, 28)])/8/255), LabColor), convert_color(sRGBColor(200/255, 0, 0), LabColor))
if deltacolorC < 20:
return lst[0] + "h"
#img_resized.show()
return 'fail'
# vers 2 is for the button
if vers == 2:
img_o = img_orig.load()
deltacolorC = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x, 10][0] for x in range(0, 9)])/255, sum([img_o[x, 10][1] for x in range(0, 9)])/255, sum([img_o[x, 10][2] for x in range(0, 9)])/255), LabColor), convert_color(sRGBColor(1, 1, 1), LabColor))
if (deltacolorC > 75):
# lst = []
# basewidth = 15
# 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.ANTIALIAS)
# img_resized = binarize_array(img_resized, 90)
# lst.append(pytesseract.image_to_string(img_resized, 'eng', config='--psm 10 --oem 3 -c tessedit_char_whitelist=D'))
# return lst[0]
return 'D'
return ''
# processing for "waiting for BB" image
if vers == 3:
lst = []
basewidth = 125
img_orig = img_orig.crop(box = (380, 465, 460, 500))
img_orig = ImageOps.invert(img_orig)
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.ANTIALIAS)
img_resized = binarize_array(img_resized, 65)
lst.append(pytesseract.image_to_string(img_resized, 'eng', config='--psm 6 --oem 3 -c tessedit_char_whitelist=Waitforbglnd'))
return lst[0]
# processing for bet values ()
if vers == 4:
lst = []
basewidth = 50
img_orig = ImageOps.invert(img_orig)
img_o = img_orig.load()
deltacolorC = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x, 10][0] for x in range(0, 9)])/255, sum([img_o[x, 10][1] for x in range(0, 9)])/255, sum([img_o[x, 10][2] for x in range(0, 9)])/255), LabColor), convert_color(sRGBColor(1, 1, 1), LabColor))
#check to see if a bet is even on the table before processing an image
if (deltacolorC < 79):
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.ANTIALIAS)
img_resized = binarize_array(img_resized, 130)
#img_resized.show()
#img_med = img_resized.filter(ImageFilter.MedianFilter)
#img_sharp = img_resized.filter(ImageFilter.SHARPEN)
lst.append(pytesseract.image_to_string(img_resized, 'eng', config='--psm 6 --oem 3 -c tessedit_char_whitelist=0123456789.$'))
# if (lst[0] == ''):
# lst.append(pytesseract.image_to_string(img_sharp, 'eng', config='--psm 6 --oem 3 -c tessedit_char_whitelist=Waitforbglnd'))
#print(img_o)
#print(deltacolorC)
if('$' in lst[0]):
return lst[0][lst[0].find("$"):]
return lst[0]
return ''
#processing for fold, call, raze
if vers == 5:
lst = []
basewidth = 125
img_orig = ImageOps.invert(img_orig)
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.ANTIALIAS)
img_resized = binarize_array(img_resized, 170)
#img_resized.show()
lst.append(pytesseract.image_to_string(img_resized, 'eng', config='--psm 6 --oem 3 -c tessedit_char_whitelist=BTCALRISEHKNFOD$0123456789.'))
#print(lst[0])
if("FOLD" in lst[0] or "FOL" in lst[0]):
return("Fold", True)
if("CALL" in lst[0]):
return ("Call - "+lst[0][lst[0].find("$"):], True)
if("CHECK" in lst[0]):
return ("Check", True)
if("RAISE" in lst[0]):
return ("Raise - "+lst[0][lst[0].find("$"):], True)
if("ALL" in lst[0] or "IN" in lst[0]):
return("All-in", True)
if("BET" in lst[0]):
return("Bet - "+lst[0][lst[0].find("$"):], True)
return '_'
if vers == 6:
lst = []
basewidth = 50
img_o = img_orig.load()
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.ANTIALIAS)
img_resized = binarize_array(img_resized, 150)
#img_resized.show()
#img_med = img_resized.filter(ImageFilter.MedianFilter)
#img_sharp = img_resized.filter(ImageFilter.SHARPEN)
lst.append(pytesseract.image_to_string(img_resized, 'eng', config='--psm 6 --oem 3 -c tessedit_char_whitelist=0123456789.$'))
# if (lst[0] == ''):
# lst.append(pytesseract.image_to_string(img_sharp, 'eng', config='--psm 6 --oem 3 -c tessedit_char_whitelist=Waitforbglnd'))
#print(img_o)
#print(deltacolorC)
if('$' in lst[0]):
return lst[0][lst[0].find("$"):]
return lst[0]
if vers == 7:
#img_orig.show()
deltacolorC = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x, 500][0] for x in range(535, 544)])/9/255, sum([img_o[x, 500][1] for x in range(535, 544)])/9/255, sum([img_o[x, 500][2] for x in range(535, 544)])/9/255), LabColor), convert_color(sRGBColor(1, 1, 1), LabColor))
if(deltacolorC == 0):
return "BACK"
def get_state(self, prev_state):
"""
Get the current state of the game
input : nothing
output: tuple containing the current state and a boolean representing the expectation of a client response
(state, expecting_response)
"""
# 1: check if game client is open
img = self.screenshot()
if(img == ''):
return ("Client not open.|", False, [], [])
# 2: check if waiting for blind/just joined table
# replace this with just checking if folded. They're essentially the same thing
# val = self.process_image(img, 3)
# if ('wait' in val or 'for' in val or 'blind' in val or 'big' in val):
# return ("Waiting for BB.|", False, [], [])
# check if player is back
bak = self.process_image(img, 7)
if("BACK" == bak):
return ("I Am Back|", False, [], [])
pl0 = self.get_playern(0, img)
# 3: check if folded ()
if('f' in pl0 or 'fail' in pl0):
print(pl0)
return ("Folded. Waiting for next hand.|", False, [], [])
# 3: preround betting - (cards in hand, no flop)
# check if state changed by comparing table cards to pseudotable cards
pseudotable = self.get_pseudo_card(img)
table = prev_state[2] if len(pseudotable) == len(prev_state[2]) else self.get_table_cards(img)
if('f' in table or 'fail' in table):
#self.logger.error("Table card could not be read. Waiting 1 second and trying again")
time.sleep(1)
img = self.screenshot()
table = self.get_table_cards(img)
if('fail' in table or 'f' in table):
return ("Aborting|", True, [], pl0, [])
fld = self.process_image(img.crop(self.fold), 5) #fold
cx = self.process_image(img.crop(self.call), 5) #check and call
bet = self.process_image(img.crop(self.raze), 5) #bet raise and allin
turn = fld[0] + '|' + cx[0] + '|' + bet[0]
print(turn)
if(len(table) == 0):
pot = self.process_image(img.crop(self.totpotb4flop), 4)
print(pot)
if(turn == '_|_|_'):
return ("Prebetting|", False, table, pl0, [pot])
return ("Prebetting|"+turn, True, table, pl0, [pot])
pot = self.process_image(img.crop(self.totpot), 4)
mainpot = self.process_image(img.crop(self.mainpot), 4)
# 4: flop - (three cards on table)
if(len(table) == 3):
if(turn == '_|_|_'):
return ("Flop|", False, table, pl0, [pot, mainpot])
return ('Flop|'+turn, True, table, pl0, [pot, mainpot])
# 5: turn - (four cards on table)
if(len(table) == 4):
if(turn == '_|_|_'):
return ("Turn|", False, table, pl0, [pot, mainpot])
return ('Turn|'+turn, True, table, pl0, [pot, mainpot])
# 6: river - (5 cards on table)
if(len(table) == 5):
if(turn == '_|_|_'):
return ("River|", False, table, pl0, [pot, mainpot])
return ('River|'+turn, True, table, pl0, [pot, mainpot])
return("Aborting|", True, table, pl0, [pot, mainpot])
def get_playern(self, n, img):
playern = []
# get card 1
c = img.crop(box = self.players[n][0])
playern.append(self.process_image(c, 1))
# get card 2
c = img.crop(box = self.players[n][1])
playern.append(self.process_image(c, 1))
# get button
c = img.crop(box = self.players[n][2])
playern.append(self.process_image(c, 2))
# get bet amount
c = img.crop(box = self.players[n][4])
playern.append(self.process_image(c, 4))
if(n == 0):
# get starting equity
c = img.crop(box = self.players[n][3])
#c.show()
playern.append(self.process_image(c, 6))
print("---------------------------------------------------------")
print(playern[-1])
print("---------------------------------------------------------")
return playern
def get_players(self, img):
# get the state of each player and return it as a string
# card, card, button, bet, equity (if bot)
players = [self.get_playern(x, img) for x in range(0,6)]
for i in players:
print(i[0])
print(i[1])
print(i[2])
print(i[3])
return players
def get_table_cards(self, img):
cards = []
for i in range(5):
t = (self.table[0] + 60*i, self.table[1], self.table[2]+ 60*i, self.table[3])
c = img.crop(box = t)
#c.show()
cards.append(self.process_image(c, 1))
while 'f' in cards:
cards.remove('f')
if ('fail' in cards):
img.save(cards[0]+cards[1]+'.png')
return cards
def get_pseudo_card(self, img):
cards = []
for i in range(5):
t = (self.table[0] + 60*i, self.table[1], self.table[2]+ 60*i, self.table[3])
c = img.crop(box = t)
img_o = c.load()
deltacolorC = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x, 0][0] for x in range(0, 9)])/9/255, sum([img_o[x, 0][1] for x in range(0, 9)])/9/255, sum([img_o[x, 0][2] for x in range(0, 9)])/9/255), LabColor), convert_color(sRGBColor(1, 1, 1), LabColor))
if(deltacolorC == 0):
cards.append(1)
return cards
def is_animating(self, img):
# Given an image, check if it is animating by checking the colors of various card locations
# Check Table
for i in range(5):
t = (self.table[0] + 60*i, self.table[1], self.table[2]+ 60*i, self.table[3])
c = img.crop(box = t)
img_o = c.load()
deltacolorC = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x, 0][0] for x in range(18, 27)])/9/255, sum([img_o[x, 0][1] for x in range(18, 27)])/9/255, sum([img_o[x, 0][2] for x in range(18, 27)])/9/255), LabColor), convert_color(sRGBColor(1, 1, 1), LabColor))
deltacolorG = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x, 0][0] for x in range(18, 27)])/9/255, sum([img_o[x, 0][1] for x in range(18, 27)])/9/255, sum([img_o[x, 0][2] for x in range(18, 27)])/9/255), LabColor), convert_color(sRGBColor(68/255, 68/255, 68/255), LabColor))
if(not deltacolorC < 1 and not deltacolorG < 3.5):
return True
pl0 = self.players[0]
img_o = img.crop(pl0[0]).load()
deltacolorC = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x + 2, 2][0] for x in range(10, 19)])/9/255, sum([img_o[x + 2, 2][1] for x in range(10, 19)])/9/255, sum([img_o[x + 2, 2][2] for x in range(10, 19)])/9/255), LabColor), convert_color(sRGBColor(1, 1, 1), LabColor))
deltacolorG = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x + 2, 2][0] for x in range(10, 19)])/9/255, sum([img_o[x + 2, 2][1] for x in range(10, 19)])/9/255, sum([img_o[x + 2, 2][2] for x in range(10, 19)])/9/255), LabColor), convert_color(sRGBColor(68/255, 68/255, 68/255), LabColor))
deltacolorF = delta_e_cie2000(convert_color(sRGBColor(sum([img_o[x + 2, 2][0] for x in range(10, 19)])/9/255, sum([img_o[x + 2, 2][1] for x in range(10, 19)])/9/255, sum([img_o[x + 2, 2][2] for x in range(10, 19)])/9/255), LabColor), convert_color(sRGBColor(161/255, 161/255, 161/255), LabColor))
if(not deltacolorC < 1 and not deltacolorG < 1 and not deltacolorF < 1):
return True
return False
def screenshot(self):
ss = self.s.screenshot()
# if screenshot failed, tried to make foreground and try again
while ss == '':
ss = self.s.screenshot()
if(self.is_animating(ss)):
#ss.show()
#print("The image is currently in an animation")
self.screenshot()
return ss