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dart.py
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import cv2
import cvzone
import random
from Score_board import Scoreboard
from constants import MY_RESOLUTION__X, MY_RESOLUTION__Y, DART_SIZE,DART_SIZE2,DART_SIZE1,CAM_RES,NUMBER_OF_DARTS,WIND_SIZE,DART_BOARD_SIZE,WIND_ACTIVATE
class Dart:
def __init__(self) -> None:
self.number_of_darts=[number for number in range(NUMBER_OF_DARTS)]
self.scoreboard = Scoreboard()
darthit0 = cv2.imread("AIR_DART_2.0/Util(Images)/struck_dart.png",cv2.IMREAD_UNCHANGED)
self.darthit = cv2.resize(darthit0,DART_SIZE2)
self.dartboard0 = cv2.imread("AIR_DART_2.0/Util(Images)/imagedartboard.png",cv2.IMREAD_UNCHANGED)
self.dartboard_pos = ((CAM_RES[0]//2 + DART_BOARD_SIZE[0]//2),(CAM_RES[1]//2 + DART_BOARD_SIZE[1]//2))
self.darthit_number = [1 for number in range(NUMBER_OF_DARTS)]
self.CAPTURED = False
self.number = []
self.allowgrab=True
self.count=-1
self.darts = []
self.resize=1
self.positions=[]
self.WIND_DIRECTION = random.randint(0,1)
self.pos_fall=(0,0)
self.dart_captured_number=-12
self.distance_throw = 0
self.distancediff = 0
self.anti_grav_pointer=10
self.angle_of_throw=0
self.intensity = 3
self.pointer_wind = 0
self.wind_pos=((100,200),(100,200),(100,200),(100,200),(100,200),(500,500),(500,500),(500,500),(500,500),(500,500),(500,200),(500,200),(500,200),(500,200),(500,200))
for i in range(1,NUMBER_OF_DARTS+1):
self.positions.append((int(MY_RESOLUTION__X * 0.05*i), int(MY_RESOLUTION__Y * 0.05)))
self.darthit_pos :int =[(0,0) for number in range(NUMBER_OF_DARTS)]
def dart_display(self,image):
self.count=-1
self.number.clear()
for pos in self.positions:
self.count+=1
self.number.append(self.count)
dart_img = cv2.imread("AIR_DART_2.0/Util(Images)/dart_png.png", cv2.IMREAD_UNCHANGED)
self.dart_img1 = cv2.resize(dart_img, DART_SIZE)
if self.CAPTURED and (self.dart_captured_number == self.count):
self.dart = image
else:
self.dart = cvzone.overlayPNG(image, self.dart_img1, pos)
print(f'no .of darts{self.count}')
return (self.dart,len(self.positions))
def check_movement(self,coord):
if not self.CAPTURED and self.allowgrab:
count=int(-1)
print(len(self.positions))
for pos in self.positions:
count+=1
if pos[0]< coord[0]<pos[0]+ DART_SIZE[0] and pos[1]<coord[1]<pos[1]+DART_SIZE[1] or self.CAPTURED:
self.CAPTURED = True
self.dart_captured_number=count
print(self.dart_captured_number)
print('------------------------------')
return self.CAPTURED
print(self.number)
print(self.CAPTURED)
print(self.dart_captured_number)
if self.CAPTURED and (self.dart_captured_number in self.number) and self.allowgrab:
print("moving dart...........")
position_captured = self.positions[self.dart_captured_number]
self.positions[self.dart_captured_number] = coord
pos = position_captured
print(self.positions)
if pos[0]< coord[0]<pos[0]+ DART_SIZE[0] and pos[1]<coord[1]<pos[1]+DART_SIZE[1] or self.CAPTURED:
return self.CAPTURED
def moved(self,frame,coord) :
if self.dart_captured_number in self.number and self.allowgrab:
new_pos =(coord[0] - DART_SIZE[0] //2, coord[1] - DART_SIZE[1]//2)
print(self.dart_captured_number)
self.positions[self.dart_captured_number] == new_pos
print(f'lolololol{self.positions}')
image = cvzone.overlayPNG(frame,self.dart_img1,new_pos)
return(image,new_pos)
else:
return(frame,coord)
def dart_removed(self,frame):
self.CAPTURED=False
self.resize=1
for number in self.number:
if self.dart_captured_number == number:
self.pos_fall = self.positions[self.dart_captured_number]
self.number.remove(self.dart_captured_number)
self.positions[number]=[10000,10000]
self.positions.remove(self.positions[number])
print("YES")
print(self.dart_captured_number)
image = cvzone.overlayPNG(frame,self.dart_img1,[1000,1000])
return(image)
def dart_animate(self,frame,pointer_dart,dart_pos):
dart_animate_01 = cv2.imread("AIR_DART_2.0/Util(Images)/dart_animate/Dart_1-rbg.png",cv2.IMREAD_UNCHANGED)
dart_animate_1 = cv2.resize(dart_animate_01 , DART_SIZE)
dart_animate_02 = cv2.imread("AIR_DART_2.0/Util(Images)/dart_animate/Dart_2-rbg.png",cv2.IMREAD_UNCHANGED)
dart_animate_2 = cv2.resize(dart_animate_02 , DART_SIZE)
dart_animate_03 = cv2.imread("AIR_DART_2.0/Util(Images)/dart_animate/Dart_3-rbg.png",cv2.IMREAD_UNCHANGED)
dart_animate_3 = cv2.resize(dart_animate_03 , DART_SIZE)
dart_animate_list = (dart_animate_1,dart_animate_2,dart_animate_3)
self.allowgrab = False
self.DART_RESIZE = int(DART_SIZE[0] * self.resize),int(DART_SIZE[1]*self.resize)
dart_pos1 = (dart_pos[0]-self.DART_RESIZE[0]//2,dart_pos[1]-self.DART_RESIZE[1]//2)
animate_dart = cv2.resize(dart_animate_list[pointer_dart],self.DART_RESIZE)
image = cvzone.overlayPNG(frame ,animate_dart,dart_pos1)
self.resize = self.resize - 0.03
return(image)
def allow_grab(self,allowgrab):
self.allowgrab = allowgrab
def resizing(self,pointer_dart,image,DART_HIT):
print(f'........................{self.positions}')
if self.resize>=0.02:
k=1
if pointer_dart == 3:
pointer_dart=0
if self.positions :
if WIND_ACTIVATE:
self.positions[self.dart_captured_number] = self.wind_blow()
self.positions[self.dart_captured_number] =self.grav1()
image = self.dart_animate(image,pointer_dart,self.positions[self.dart_captured_number])
pointer_dart+=1
self.allowgrab=False
if self.resize<=0.2:
DART_HIT = True
k=0
self.allowgrab = True
self.anti_grav_pointer=10
self.darthit_number[self.dart_captured_number] = 0
self.darthit_pos[self.dart_captured_number]=self.positions[self.dart_captured_number]
return(image , DART_HIT,self.allowgrab,pointer_dart,k)
def captured(self):
return self.CAPTURED
def dart_falling_animate(self,frame,pointer_dart_fall):
dart_fall_01 = cv2.imread("AIR_DART_2.0/Util(Images)/falling_dart1/Untitled_design__2_-removebg-preview.png",cv2.IMREAD_UNCHANGED)
dart_fall_02 = cv2.imread("AIR_DART_2.0/Util(Images)/falling_dart1/Untitled_design__3_-removebg-preview.png",cv2.IMREAD_UNCHANGED)
dart_fall_03 = cv2.imread("AIR_DART_2.0/Util(Images)/falling_dart1/Untitled_design__4_-removebg-preview.png",cv2.IMREAD_UNCHANGED)
dart_fall_04 = cv2.imread("AIR_DART_2.0/Util(Images)/falling_dart1/Untitled_design__5_-removebg-preview.png",cv2.IMREAD_UNCHANGED)
dart_fall_05 = cv2.imread("AIR_DART_2.0/Util(Images)/falling_dart1/Untitled_design__6_-removebg-preview.png",cv2.IMREAD_UNCHANGED)
dart_fall_06 = cv2.imread("AIR_DART_2.0/Util(Images)/falling_dart1/Untitled_design__7_-removebg-preview.png",cv2.IMREAD_UNCHANGED)
dart_fall_1 = cv2.resize(dart_fall_01 , DART_SIZE1)
dart_fall_2 = cv2.resize(dart_fall_02 , DART_SIZE1)
dart_fall_3 = cv2.resize(dart_fall_03 , DART_SIZE1)
dart_fall_4 = cv2.resize(dart_fall_04 , DART_SIZE1)
dart_fall_5 = cv2.resize(dart_fall_05 , DART_SIZE1)
dart_fall_6 = cv2.resize(dart_fall_06 , DART_SIZE1)
self.pos_fall = (self.pos_fall[0],self.pos_fall[1]+25)
falling_dart_list = (dart_fall_1,dart_fall_2,dart_fall_3,dart_fall_4,dart_fall_5,dart_fall_6)
f_dart = falling_dart_list[pointer_dart_fall]
image = cvzone.overlayPNG(frame,f_dart,self.pos_fall)
print("sdhifshdfshdlfhslfshdlfshflshdlfksdhflskfj")
return(image,self.pos_fall)
def dart_falling(self,image,pointer_dart_falling,DART_FALLING,p):
if self.pos_fall[1]<=1000 :
p=True
pointer_dart_falling+=1
if pointer_dart_falling==6:
pointer_dart_falling=0
image,self.pos_fall = self.dart_falling_animate(image,pointer_dart_falling)
return (image,pointer_dart_falling,DART_FALLING,p)
else:
p=False
return (image,pointer_dart_falling,DART_FALLING,p)
def grav2(self,distance_throw,distancediff,angle_of_throw):
self.distance_throw = distance_throw
self.distancediff = distancediff
self.angle_of_throw = angle_of_throw
def grav1(self):
if self.distancediff >45 :
if self.distance_throw>260:
if self.angle_of_throw>190:
if self.anti_grav_pointer>1 :
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] -15 )
self.anti_grav_pointer-=1
return(pos)
elif self.angle_of_throw>100:
if self.anti_grav_pointer>1 :
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] -10 )
self.anti_grav_pointer-=1
return(pos)
elif self.angle_of_throw<50:
if self.anti_grav_pointer>1 :
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] -8 )
self.anti_grav_pointer-=1
return(pos)
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] +3 )
return(pos)
elif self.distance_throw >150:
if self.angle_of_throw>190:
if self.anti_grav_pointer>1 :
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] -12 )
self.anti_grav_pointer-=1
return(pos)
if self.angle_of_throw>100:
if self.anti_grav_pointer>1 :
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] -7 )
self.anti_grav_pointer-=1
return(pos)
if self.angle_of_throw<50:
if self.anti_grav_pointer>1 :
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] -5 )
self.anti_grav_pointer-=1
return(pos)
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] +3 )
return(pos)
elif self.distancediff>35 :
if self.distance_throw>260:
if self.angle_of_throw>190:
if self.anti_grav_pointer>1 :
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] -10 )
self.anti_grav_pointer-=1
return(pos)
if self.angle_of_throw>100:
if self.anti_grav_pointer>1 :
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] -7 )
self.anti_grav_pointer-=1
return(pos)
if self.angle_of_throw<50:
if self.anti_grav_pointer>1 :
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] -5 )
self.anti_grav_pointer-=1
return(pos)
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] +3 )
return(pos)
elif self.distance_throw >150:
if self.angle_of_throw>190:
if self.anti_grav_pointer>1 :
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] -8 )
self.anti_grav_pointer-=1
return(pos)
if self.angle_of_throw>100:
if self.anti_grav_pointer>1 :
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] -5 )
self.anti_grav_pointer-=1
return(pos)
if self.angle_of_throw<50:
if self.anti_grav_pointer>1 :
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] -3 )
self.anti_grav_pointer-=1
return(pos)
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] +3 )
return(pos)
elif self.distancediff >25:
if self.distance_throw>260:
if self.angle_of_throw>190:
if self.anti_grav_pointer>1 :
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] -7 )
self.anti_grav_pointer-=1
return(pos)
if self.angle_of_throw>100:
if self.anti_grav_pointer>1 :
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] -5 )
self.anti_grav_pointer-=1
return(pos)
if self.angle_of_throw<50:
if self.anti_grav_pointer>1 :
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] -2 )
self.anti_grav_pointer-=1
return(pos)
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] +3 )
return(pos)
elif self.distance_throw >150:
if self.angle_of_throw>190:
if self.anti_grav_pointer>1 :
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] -6 )
self.anti_grav_pointer-=1
return(pos)
if self.angle_of_throw>100:
if self.anti_grav_pointer>1 :
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] -4 )
self.anti_grav_pointer-=1
return(pos)
if self.angle_of_throw<50:
if self.anti_grav_pointer>1 :
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] -1 )
self.anti_grav_pointer-=1
return(pos)
pos =(self.positions[self.dart_captured_number][0],self.positions[self.dart_captured_number][1] +3 )
return(pos)
def wind_blow(self):
if self.WIND_DIRECTION == 0:
pos =(self.positions[self.dart_captured_number][0] -self.intensity ,self.positions[self.dart_captured_number][1] )
return pos
if self.WIND_DIRECTION == 1:
pos =(self.positions[self.dart_captured_number][0] +self.intensity ,self.positions[self.dart_captured_number][1] )
return pos
def wind_animate(self,image):
wind01 = cv2.imread("AIR_DART_2.0/Util(Images)/windblow/windblow1.png",cv2.IMREAD_UNCHANGED)
wind02 = cv2.imread("AIR_DART_2.0/Util(Images)/windblow/windblow2.png",cv2.IMREAD_UNCHANGED)
wind03 = cv2.imread("AIR_DART_2.0/Util(Images)/windblow/windblow3.png",cv2.IMREAD_UNCHANGED)
wind1 = cv2.resize(wind01 , WIND_SIZE)
wind2 = cv2.resize(wind02 , WIND_SIZE)
wind3 = cv2.resize(wind03 , WIND_SIZE)
wind_list = (wind1,wind1,wind1,wind1,wind1,wind2,wind2,wind2,wind2,wind2,wind3,wind3,wind3,wind3,wind3)
self.pointer_wind+=1
if self.pointer_wind ==15:
self.pointer_wind =0
print(self.pointer_wind)
image1 = cvzone.overlayPNG(image,wind_list[self.pointer_wind],self.wind_pos[self.pointer_wind])
return image1
def dart_board(self,image):
image = cvzone.overlayPNG(image,self.dartboard0,((CAM_RES[0]//2 - DART_BOARD_SIZE[0]//2),(CAM_RES[1]//2 - DART_BOARD_SIZE[1]//2)))
return image
def dart_hit(self,image):
score = 0
for number in self.number_of_darts:
if self.darthit_number[number] == 0:
print(f"number............{number}")
if self.scoreboard.in_dart_board(self.darthit_pos[number]):
score = score + self.scoreboard.score
image = cvzone.overlayPNG(image,self.darthit,((self.darthit_pos[number][0] - DART_SIZE2[0]//2),(self.darthit_pos[number][1] - DART_SIZE2[1]//2)))
return (image,score)
def set_bg(self,image):
bg_image = cv2.imread("AIR_DART_2.0/Util(Images)/blackbg.png",cv2.IMREAD_UNCHANGED)
bg_image1 = cv2.resize(bg_image,CAM_RES)
return bg_image1