0

I have created a slider which updates a value for the size of a grid. When I update this value I want the grid size to change to the new updated value but currently it just stays the same as it was before. Is there anyway to change this.

Here are the slider and game loops:

def slider_loop(s,grid_width,grid_height,graph):
s.move()
grid_size = int(slider_value.val)
return grid_size

def game_loop():
done = False # is our program finished running?

global grid_size

current_colour = white # which colour is active

load = False


start = button(screen,75,12.5,100,50,green,bright_green,bright_green, "Start", white)
finish = button(screen,75,87.5,100,50,red,bright_red,bright_red,"Finished",white)
blocked = button(screen,75,162.5,100,50,black,grey,grey,"Blocked",white)
remove = button(screen,75,237.5,100,50,yellow,grey,grey,"Remove",white)
Diagonal = diagonal_button(screen,75,312.5,100,50,white,"Diagonal","Y","N")
cheesy = button(screen,75,387.5,100,50,yellow,grey,grey,"NY Grid size",white)

begin = begin_button(75,537.5,100,50,green, bright_green, "Begin",white)

diagonal_path = False

#main loop
while not done:

    # process all events
    for event in pygame.event.get():
        if event.type == QUIT: # did the user click the 'x' to close the screen
            done = True

        if event.type == MOUSEBUTTONDOWN:
            # get the position of the mouse
            mpos_x, mpos_y = event.pos

            start.clicked   = start.button_on(mpos_x, mpos_y)
            finish.clicked  = finish.button_on(mpos_x, mpos_y)
            blocked.clicked = blocked.button_on(mpos_x, mpos_y)
            remove.clicked = remove.button_on(mpos_x,mpos_y)

            if event.button == 1:
                begin.click(lambda:dijkstra(grid, grid_dictionary, start_node,finish_node))

            #check if diagonal-yes was clicked
            button_x_min, button_y_min, button_width, button_height = 97.5,342.5,15,15
            button_x_max, button_y_max = button_x_min + button_width, button_y_min + button_height
            if button_x_min <= mpos_x <= button_x_max and button_y_min <= mpos_y <= button_y_max:
                Diagonal.clicked1 = True
                Diagonal.clicked2 = False
                diagonal_path = True
                print("click")

            #check if diagonal-no is clicked
            button_x_min, button_y_min, button_width, button_height = 137.5,342.5,15,15
            button_x_max, button_y_max = button_x_min + button_width, button_y_min + button_height
            if button_x_min <= mpos_x <= button_x_max and button_y_min <= mpos_y <= button_y_max:
                Diagonal.clicked2 = True
                Diagonal.clicked1 = False
                diagonal_path = False
                print("click2")

            #check if finish was clicked
            button_x_min, button_y_min, button_width, button_height = 75,87.5,100,50
            button_x_max, button_y_max = button_x_min + button_width, button_y_min + button_height
            if button_x_min <= mpos_x <= button_x_max and button_y_min <= mpos_y <= button_y_max:
                current_colour = red

            # check if start was clicked
            button_x_min, button_y_min, button_width, button_height = 75,12.5,100,50
            button_x_max, button_y_max = button_x_min + button_width, button_y_min + button_height
            if button_x_min <= mpos_x <= button_x_max and button_y_min <= mpos_y <= button_y_max:
                current_colour = green

            # check if blocked was clicked
            button_x_min, button_y_min, button_width, button_height = 75,162.5,100,50
            button_x_max, button_y_max = button_x_min + button_width, button_y_min + button_height
            if button_x_min <= mpos_x <= button_x_max and button_y_min <= mpos_y <= button_y_max:
                current_colour = grey

            # check if remove WAS CLICKED
            button_x_min, button_y_min, button_width, button_height = 75,237.5,100,50
            button_x_max, button_y_max = button_x_min + button_width, button_y_min + button_height
            if button_x_min <= mpos_x <= button_x_max and button_y_min <= mpos_y <= button_y_max:
                current_colour = white


            # calculations for clicking cells

            mpos_x -= distance_from_left # mouse position relative to the upper left cell
            mpos_y -= distance_from_top # ^ same

            col = mpos_x // (grid_width + grid_margin) # which cell is the mouse clicking
            row = mpos_y // (grid_height + grid_margin) # ^ same

            # make sure the user clicked on the grid area
            if row >= 0 and col >= 0:
                try:
                    # calculate the boundaries of the cell
                    cell_x_min, cell_y_min =  col * (grid_height + grid_margin), row * (grid_width + grid_margin)
                    cell_x_max = cell_x_min + grid_width
                    cell_y_max = cell_y_min + grid_height
                    # now we will see if the user clicked the cell or the margin
                    if cell_x_min <= mpos_x <= cell_x_max and cell_y_min <= mpos_y <= cell_y_max:
                        grid[row][col][2] = current_colour if event.button == 1 else white
                    else:
                        # the user has clicked the margin, so we do nothing
                        pass
                except IndexError: # clicked outside of the grid
                    pass           # we will do nothing

            pos = pygame.mouse.get_pos()

            for s in slides:
                if s.button_rect.collidepoint(pos):
                    s.hit = True
        elif event.type == pygame.MOUSEBUTTONUP:
            for s in slides:
                s.hit = False

    # Move slides
    for s in slides:
        if s.hit:
            grid_size = slider_loop(s,grid_width,grid_height,grid)



    node_num = -1
    for row in grid:
        for column in row:
            node_num += 1
            if column[2] == green:
                start_node = node_num
            if column[2] == red:
                finish_node = node_num
            if column[2] == grey:
                blocked_node = node_num
                blocked_nodes.append(blocked_node)

   # grid_dictionary = child_nodes(grid,diagonal_path)

    # drawing
    screen.fill(black)

    menu = pygame.draw.rect(screen, white, [0,0,250,750])

    start.draw_button()
    finish.draw_button()
    blocked.draw_button()
    remove.draw_button()
    Diagonal.draw_button()
    cheesy.draw_button()

    begin.draw()

    load = action_button(75,462.5,100,50,green, bright_green, "load",white,load_menu)
    reset = action_button(75,612.5,100,50,green, bright_green, "reset",white,lambda:reset_grid(grid))
    quit_game = action_button(75,687.5,100,50, black, grey,"Quit", white, quitgame)

    slider_value.draw()

    print(grid_size)
    print(slider_value.val)


    for row in grid:
        for x, y, colour in row:
            pygame.draw.rect(screen, colour, (x, y, grid_width, grid_height))


    pygame.display.flip()

    clock.tick(60)

This section is what starts the loops and calls the original game loop (before any values have been updated)

slider_value = slider("Grid Size",20,50,1,75,387.5)
slides = [slider_value]
grid_size = int(slider_value.val)

grid_margin = 5 # number of pixels between each cell

grid_width = int(700/grid_size)-grid_margin
grid_height = int(700/grid_size)-grid_margin
cell = (grid_width, grid_height)

distance_from_left = 275 # number of pixels between the grid and the left and right of the screen
distance_from_top = 25 # number of pixels between the grid and the top and bottom of the screen

# create the screen and clock
screen_size = [1000,750]
screen = pygame.display.set_mode(screen_size)
pygame.display.set_caption("Djikstra's and A*")
clock = pygame.time.Clock()

# logic goes here
start_node = None
finish_node = None
blocked_nodes = []

    # setting up the grid
    # cells can be accessed by grid[row][col] ie. grid[3][4] is the 3rd row and 4th column
    # each cell contains [x, y, colour]
    # where x is the x position on the screen
    #       y is the y position on the screen
    #       colour is the current colour of the cell

grid = []
for y in range(grid_size):
    row = []
    for x in range(grid_size):
        row.append([x * (grid_width + grid_margin) + distance_from_left, y * (grid_height + grid_margin) + distance_from_top, white])
    grid.append(row)

game_loop()
pygame.quit()
  • 1
    Can you provide a code example? – one stevy boi Apr 13 at 12:18
  • If you want to tie logic to setting up a variable value, you can use a setter. If you want something to change when something change you're looking for observer pattern. And finally show a code example – geckos Apr 13 at 12:32
  • Please provide a MCVE. Your code is not complete. You do not show what is grid or slider_value for example. – Valentino Apr 13 at 12:40

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Browse other questions tagged or ask your own question.