refactoring to game base class

game_base_class.py

@@ -0,0 +1,222 @@
+import pydirectinput
+import random
+import cv2 as cv
+import numpy as np
+from window_capture import WindowCapture
+from vision import Vision
+from config_file import UserConfigs
+
+GREEN = 1
+YELLOW = 2
+RED = 3
+BLUE = 4
+PURPLE = 5
+RAINBOW = 6
+BIGBOMB = 7
+BOMB = 8
+ARROW_DOWN = 9
+ARROW_RIGHT = 10
+ROCK_1 = 11
+ROCK_2 = 12
+ROCK_3 = 13
+BURGER = 14
+PAB1 = 15
+GOLDBAR = 16
+MAGINENT = 21
+CHEMTRANT = 22
+TENESENT = 23
+CIBUTRANT = 24
+ARTISENT = 25
+
+
+class GameBase:
+
+    def __init__(self, overlay):
+        self.overlay = overlay
+
+        self.data_value_grid = np.zeros((8, 14), dtype=int)
+        self.data_coordinates = np.zeros((8, 14), dtype=object)
+        self.observation = np.zeros((8, 14), dtype=int)
+        self.data_score_map = np.zeros((8, 14), dtype=int)
+
+        self.explosives = [RAINBOW, ARROW_RIGHT, ARROW_DOWN, BIGBOMB, BOMB]
+        self.colors = [GREEN, YELLOW, RED, BLUE, MAGINENT, CHEMTRANT, TENESENT, CIBUTRANT, ARTISENT]
+
+        self.next_level = cv.imread("control_elements/next_level.jpg", cv.IMREAD_COLOR)
+        self.next_level_x = cv.imread("control_elements/next_level_x.jpg", cv.IMREAD_COLOR)
+        self.reset_board = cv.imread("control_elements/reset_button.jpg", cv.IMREAD_COLOR)
+        self.reset_confirm = cv.imread("control_elements/reset_confirm.jpg", cv.IMREAD_COLOR)
+
+        self.reset_counter = 0
+
+        # initialize the user-class
+        self.config = UserConfigs()
+        # initialize the StunWindowCapture class
+        self.capture_window = WindowCapture(None, None, self.config)
+        # initialize the StunVision class
+        self.vision_stun = Vision()
+
+    def fill_data_coordinates(self):
+        # 230 to 2110 = 1883 / 14 = 134.5
+        # 60 to 1130 = 1076 / 8 =  134.5
+        dim = 134.5
+        for e in range(0, 8, 1):
+            for i in range(0, 14, 1):
+                self.data_coordinates[e][i] = [i * dim, e * dim, dim, dim]
+
+    def check_for_button_and_execute(self, screen, needle, offset_left=0, offset_down=0):
+        rectangles = self.vision_stun.find(screen, needle, 0.70, 1)
+        if len(rectangles) == 0:
+            return False
+        point = self.vision_stun.get_click_points(rectangles)[0]
+        self.dig_point(point[0] + offset_left, point[1] + offset_down, 500)
+        return True
+
+    def check_for_next_level(self, screen, needle):
+        offset_left = 230
+        offset_down = 58
+        rectangles = self.vision_stun.find(screen, needle, 0.70, 1)
+        if len(rectangles) == 0:
+            return False
+        if self.detonate_explosive_when_stuck(self.observation):
+            return True
+        point = self.vision_stun.get_click_points(rectangles)[0]
+        self.dig_point(point[0] + offset_left, point[1] + offset_down, 500)
+        return True
+
+    def detonate_explosive_when_stuck(self, state):
+        for e in range(0, 8, 1):
+            for i in range(0, 14, 1):
+                for explosive in self.explosives:
+                    if self.local_pos_check(state, e, i, 0, 0, explosive):
+                        src_pt = self.get_click_point(self.data_coordinates[e, i])
+                        if self.local_pos_checks(state, e, i, 1, 0, self.colors):
+                            dest_pt = self.get_click_point(self.data_coordinates[e + 1, i])
+                            self.move_tile(src_pt, dest_pt)
+                            return True
+                        elif self.local_pos_checks(state, e, i, 0, 1, self.colors):
+                            dest_pt = self.get_click_point(self.data_coordinates[e, i + 1])
+                            self.move_tile(src_pt, dest_pt)
+                            return True
+                        elif self.local_pos_checks(state, e, i, -1, 0, self.colors):
+                            dest_pt = self.get_click_point(self.data_coordinates[e - 1, i])
+                            self.move_tile(src_pt, dest_pt)
+                            return True
+                        elif self.local_pos_checks(state, e, i, 0, -1, self.colors):
+                            dest_pt = self.get_click_point(self.data_coordinates[e, i - 1])
+                            self.move_tile(src_pt, dest_pt)
+                            return True
+                        else:
+                            continue
+        return False
+
+    def check_explosives(self, state, e, i):
+        for explosive in self.explosives:
+            if self.local_pos_check(state, e, i, 0, 0, explosive):
+                dest_pt = self.get_click_point(self.data_coordinates[e, i])
+                if self.local_pos_checks(state, e, i, 1, 0, self.explosives):
+                    src_pt = self.get_click_point(self.data_coordinates[e + 1, i])
+                    self.move_tile(src_pt, dest_pt)
+                elif self.local_pos_checks(state, e, i, 0, 1, self.explosives):
+                    src_pt = self.get_click_point(self.data_coordinates[e, i + 1])
+                    self.move_tile(src_pt, dest_pt)
+                elif self.local_pos_checks(state, e, i, -1, 0, self.explosives):
+                    src_pt = self.get_click_point(self.data_coordinates[e - 1, i])
+                    self.move_tile(src_pt, dest_pt)
+                elif self.local_pos_checks(state, e, i, 0, -1, self.explosives):
+                    src_pt = self.get_click_point(self.data_coordinates[e, i - 1])
+                    self.move_tile(src_pt, dest_pt)
+                else:
+                    continue
+                return True
+            else:
+                continue
+        return False
+
+    def is_direction_in_bounce_and_same_color(self, state, loc, color):
+        x, y = loc
+        if x <= 7 and x >= 0 and y <= 13 and y >= 0:
+            if state[x, y] == color:
+                return 1
+        return 0
+
+    def local_pos_check(self, state, e, i, e_check, i_check, needle):
+        if e + e_check >= 0 and e + e_check <= 7 and i + i_check >= 0 and i + i_check <= 13:
+            if state[e + e_check, i + i_check] == needle:
+                return True
+            else:
+                return False
+
+    def local_pos_checks(self, state, e, i, e_check, i_check, needles):
+        if e + e_check >= 0 and e + e_check <= 7 and i + i_check >= 0 and i + i_check <= 13:
+            for needle in needles:
+                if state[e + e_check, i + i_check] == needle:
+                    return True
+                else:
+                    continue
+        return False
+
+    def get_click_point(self, rectangle):
+        # Loop over all the rectangles
+        x, y, w, h = rectangle
+        # Determine the center position
+        center_x = x + int(w / 2)
+        center_y = y + int(h / 2)
+        # Save the points
+        return int(center_x), int(center_y)
+
+    def move_tile(self, point_source, point_dest):
+        offset_left = 230
+        offset_down = 58
+        pydirectinput.moveTo(point_source[0] + offset_left, point_source[1] + offset_down)
+        # pydirectinput.moveTo(0,0)
+        pydirectinput.mouseDown()
+        w = random.randint(25, 50)
+        cv.waitKey(100 + w)
+        pydirectinput.moveTo(point_dest[0] + offset_left, point_dest[1] + offset_down)
+        pydirectinput.mouseUp()
+        cv.waitKey(400 + w)
+
+    def check_for_button_and_click_it(self, button_url):
+        screenshot = self.capture_window.get_screenshot()
+        # gray = cv.cvtColor(screenshot, cv.COLOR_BGR2GRAY)
+        # thresh = cv.threshold(gray, 0, 255, cv.THRESH_BINARY_INV + cv.THRESH_OTSU)[1]
+        # gray_needle = cv.cvtColor(cv.imread(button_url, cv.IMREAD_UNCHANGED), cv.COLOR_BGR2GRAY)
+        # thresh_needle = cv.threshold(gray_needle, 0, 255, cv.THRESH_BINARY_INV + cv.THRESH_OTSU)[1]
+        needle = cv.imread(button_url, cv.IMREAD_UNCHANGED)
+        # rectangles = self.vision_stun.find(thresh, thresh_needle, 0.4, 1)
+        rectangles = self.vision_stun.find(screenshot, needle, 0.7, 1)
+
+        if len(rectangles) == 1:
+            pointis = self.vision_stun.get_click_points(rectangles)
+            for pointi in pointis:
+                self.dig_point(pointi[0], pointi[1], 150)
+
+    def dig_point(self, point1, point2, dig_time):
+        pydirectinput.moveTo(point1, point2)
+        cv.waitKey(dig_time)
+        pydirectinput.mouseDown()
+        w = random.randint(50, 100)
+        cv.waitKey(w)
+        pydirectinput.mouseUp()
+
+    def move_to(self, x, y):
+        point_src = (1113, 598)
+        pydirectinput.moveTo(point_src[0], point_src[1])
+        pydirectinput.mouseDown()
+        w = random.randint(1, 100)
+        cv.waitKey(150 + w)
+        pydirectinput.moveTo(x, y)
+        pydirectinput.mouseUp()
+        cv.waitKey(500 + w)
+
+    def point_in_rect(self, point):
+        for e in range(0, 8, 1):
+            for i in range(0, 14, 1):
+                x1, y1, w, h = self.data_coordinates[e][i]
+                x2, y2 = x1 + w, y1 + h
+                x, y = point
+                if x1 < x and x < x2:
+                    if y1 < y and y < y2:
+                        return e, i
+        return None, None