wip

nauka2.py

@@ -1,12 +1,9 @@
-ALPHA = (0, 255, 0)
-
-# Import the pygame module
 import pygame
 import sys
-import os # new code below
-background_image = pygame.image.load("images/tile.jpg")
-# Import pygame.locals for easier access to key coordinates
-# Updated to conform to flake8 and black standards
+import os
+import time
+background_image = pygame.image.load("./images/tile.jpg")
+
 from pygame.locals import (
     K_UP,
     K_DOWN,
@@ -17,64 +14,14 @@ from pygame.locals import (
     QUIT,
 )
 
-# Define constants for the screen width and height
 SCREEN_WIDTH = 564
 SCREEN_HEIGHT = 564
 
-# Define a player object by extending pygame.sprite.Sprite
-# The surface drawn on the screen is now an attribute of 'player'
-# class Player(pygame.sprite.Sprite):
-#     def __init__(self):
-#         super(Player, self).__init__()
-#         self.surf = pygame.Surface((56, 56))#75, 25
-#         self.surf.fill((255, 255, 255))
-#         self.rect = self.surf.get_rect()
-
-
-class Dishes:
-    #to do
-    x=0
-    y=0
-
-    def __int__(self, x, y):
-        self.x = x
-        self.y = y
-
-    def draw(self, surface, image):
-        surface.blit(image, (self.x, self.y))
-
-
-class Clients:
-    #to do
-    x = 0
-    y = 0
-
-    def __int__(self, x, y):
-        self.x = x
-        self.y = y
-
-    def draw(self, surface, image):
-        surface.blit(image, (self.x, self.y))
-
-
-class Kitchen:
-    #to do or delete
-    pass
-
-
-class Order:
-    #to do
-    
-    x = 0
-    y = 0
-    
-
-    def __int__(self, x, y, id):
-        self.x = x
-        self.y = y
-        self.id = id
-    
-
+def draw():
+    screen.blit(background_image, [0, 0])
+    screen.blit(player.surf, player.rect)
+    player_list.draw(screen)
+    pygame.display.flip()
 
 class Player(pygame.sprite.Sprite):
     '''
@@ -90,6 +37,7 @@ class Player(pygame.sprite.Sprite):
         self.images2 = []
         self.images3 = []
         self.images4 = []
+        self.imgList=[]
 
         for i in range(1,5):
             img = pygame.image.load(os.path.join('images','row-4-col-' + str(i) + '.jpg')).convert()
@@ -109,154 +57,89 @@ class Player(pygame.sprite.Sprite):
             self.image = self.images1[0]
             self.rect  = self.image.get_rect()
 
-
-
-
-
-
-
-
-
-
-
-
-
-    # Move the sprite based on user keypresses
-    #60
-    def update(self, pressed_keys):
-        #when the update method is called, we will increment the index
-
-
-        #finally we will update the image that will be displayed
-    #    self.image = self.images[self.index]
-        nkey = ''
-        if pressed_keys[K_DOWN]:
-            self.rect.move_ip(0, 56)
-            nkey = 'up'
-            if self.pkey == nkey:
-                self.index += 1
-                if self.index >= 4:
-                    self.index = 0
-
-            else:
-                self.pkey = nkey
-                self.index = 0
-            self.image = self.images1[self.index]
-
-        elif pressed_keys[K_UP]:
-            self.rect.move_ip(0, -56)
-            nkey = 'down'
-            if self.pkey == nkey:
-                self.index += 1
-                if self.index >= 4:
-                    self.index = 0
-            else:
-                self.pkey = nkey
-                self.index = 0
-            self.image = self.images4[self.index]
-
-        elif pressed_keys[K_LEFT]:
-            self.rect.move_ip(-56, 0)
-            nkey = 'left'
-            if self.pkey == nkey:
-                self.image = self.images3[self.index]
-                self.index += 1
-                if self.index >= 4:
-                    self.index = 0
-            else:
-                self.pkey = nkey
-                self.index = 0
-
-        elif pressed_keys[K_RIGHT]:
-            self.rect.move_ip(56, 0)
-            nkey = 'right'
-            if self.pkey == nkey:
-                self.image = self.images2[self.index]
-                self.index += 1
-                if self.index >= 4:
-                    self.index = 0
-            else:
-                self.pkey = nkey
-                self.index = 0
-
-        else:
-            return False
-        #
-        # if self.index >= len(self.images):
-        #     self.index = 0
-        #     if self.pkey == nkey:
-        #         self.image = self.images[self.index]
-        #         self.index += 1
-        #     else:
-        #         self.pkey = nkey
-
-
-       # Keep player on the screen
+    def onScreen(self):
         if self.rect.left < 0:
-            self.rect.left = 0
+            self.rect.left = 27
         if self.rect.right > SCREEN_WIDTH:
-            self.rect.right = SCREEN_WIDTH
+            self.rect.right = SCREEN_WIDTH-28
         if self.rect.top <= 0:
-            self.rect.top = 0
+            self.rect.top = 27
         if self.rect.bottom >= SCREEN_HEIGHT:
-            self.rect.bottom = SCREEN_HEIGHT
+            self.rect.bottom = SCREEN_HEIGHT-28
+
+    def step(self, index, newKey):
+        self.image = self.imgList[index]
+        if newKey == "down":
+            self.rect.move_ip(0,7)
+        elif newKey == 'up':
+            self.rect.move_ip(0, -7)
+        elif newKey == 'left':
+            self.rect.move_ip(-7, 0)
+        elif newKey =='right':
+            self.rect.move_ip(7, 0)
+
+    def same(self, newKey, img):
+        print(self.pkey, "  ", newKey)
+        if self.pkey == newKey:
+            self.move(newKey)
+        else:
+            self.pkey = newKey
+            self.index = 0
+            self.imgList = img
+            self.image = self.imgList[0]
+
+    def move(self, newKey):
+        nextFrame = time.clock()
+        frame = 0
+        i = 0
+        while True:
+            if time.clock() > nextFrame:
+                frame = (frame + 1) % 4
+                nextFrame += 0.1
+                player.step(frame, newKey)
+                draw()
+                i += 1
+                if i >= 8:
+                    self.onScreen()
+                    break
+
+    def update(self, pressed_keys):
+        newKey = ''
+        if pressed_keys[K_DOWN]:
+            newKey = 'down'
+            self.same(newKey, self.images1)
+        elif pressed_keys[K_UP]:
+            newKey = 'up'
+            self.same(newKey, self.images4)
+        elif pressed_keys[K_LEFT]:
+            newKey = 'left'
+            self.same(newKey, self.images3)
+        elif pressed_keys[K_RIGHT]:
+            newKey = 'right'
+            self.same(newKey, self.images2)
 
 
-        #if the index is larger than the total images
-
-        return True
-
-# Initialize pygame
 pygame.init()
 clock = pygame.time.Clock()
-
-# Create the screen object
-# The size is determined by the constant SCREEN_WIDTH and SCREEN_HEIGHT
 screen = pygame.display.set_mode((SCREEN_WIDTH, SCREEN_HEIGHT))
-
-# Instantiate player. Right now, this is just a rectangle.
 player = Player()
-player.rect.x = 25   # go to x
-player.rect.y = 25   # go to y
-
-
-
-
+player.rect.x = 22
+player.rect.y = 22
 player_list = pygame.sprite.Group()
 player_list.add(player)
 
 
-
-# Variable to keep the main loop running
 running = True
-
-# Main loop
 while running:
-    # for loop through the event queue
+
     for event in pygame.event.get():
-        # Check for KEYDOWN event
         if event.type == KEYDOWN:
-            # If the Esc key is pressed, then exit the main loop
             if event.key == K_ESCAPE:
                 running = False
-        # Check for QUIT event. If QUIT, then set running to false.
         elif event.type == QUIT:
             running = False
 
-    # guard = False
-    # while guard is False:
-        # Get the set of keys pressed and check for user input
     pressed_keys = pygame.key.get_pressed()
-        # Update the player sprite based on user keypresses
-    guard = player.update(pressed_keys)
+    player.update(pressed_keys)
 
-    # Fill the screen with black
-    screen.blit(background_image, [0, 0])
-    #screen.fill((0, 0, 0))
-
-    # Draw the player on the screen
-    screen.blit(player.surf, player.rect)
-    player_list.draw(screen) # draw player
-    # Update the display
-    pygame.display.flip()
-    clock.tick(30)
+    draw()