leveledit.py

import pygame
import button
import csv
import pickle

pygame.init()

clock = pygame.time.Clock()
FPS = 60

# game window
SCREEN_WIDTH = 800
SCREEN_HEIGHT = 640
LOWER_MARGIN = 100
SIDE_MARGIN = 300

screen = pygame.display.set_mode((SCREEN_WIDTH + SIDE_MARGIN, SCREEN_HEIGHT + LOWER_MARGIN))
pygame.display.set_caption('Level Editor')

# define game variables
ROWS = 16
MAX_COLS = 150
TILE_SIZE = SCREEN_HEIGHT // ROWS
TILE_TYPES = 21
level = 0
current_tile = 0
scroll_left = False
scroll_right = False
scroll = 0
scroll_speed = 1

# load images
pine1_img = pygame.image.load('img/background/pine1.png').convert_alpha()
pine2_img = pygame.image.load('img/background/pine2.png').convert_alpha()
mountain_img = pygame.image.load('img/background/mountain.png').convert_alpha()
sky_img = pygame.image.load('img/background/sky_cloud.png').convert_alpha()
# store tiles in a list
img_list = []
for x in range(TILE_TYPES):
    img = pygame.image.load(f'img/tile/{x}.png').convert_alpha()
    img = pygame.transform.scale(img, (TILE_SIZE, TILE_SIZE))
    img_list.append(img)

save_img = pygame.image.load('img/save_btn.png').convert_alpha()
load_img = pygame.image.load('img/load_btn.png').convert_alpha()

# define colors
GREEN = (144, 201, 120)
WHITE = (255, 255, 255)
RED = (200, 25, 25)

# define font
font = pygame.font.SysFont('Futura', 30)

# create empty tile list
world_data = []
for row in range(ROWS):
    r = [-1] * MAX_COLS
    world_data.append(r)

# create ground
for tile in range(MAX_COLS):
    world_data[ROWS - 1][tile] = 0


# function for outputting text onto the screen
def draw_text(text, font, text_col, x, y):
    img = font.render(text, True, text_col)
    screen.blit(img, (x, y))


# create function for drawing background
def draw_bg():
    screen.fill(GREEN)
    width = sky_img.get_width()
    for x in range(4):
        screen.blit(sky_img, ((x * width) - scroll * 0.5, 0))
        screen.blit(mountain_img, ((x * width) - scroll * 0.6, SCREEN_HEIGHT - mountain_img.get_height() - 300))
        screen.blit(pine1_img, ((x * width) - scroll * 0.7, SCREEN_HEIGHT - pine1_img.get_height() - 150))
        screen.blit(pine2_img, ((x * width) - scroll * 0.8, SCREEN_HEIGHT - pine2_img.get_height()))


def draw_grid():
    # vertical lines
    for c in range(MAX_COLS + 1):
        pygame.draw.line(screen, WHITE, (c * TILE_SIZE - scroll, 0), (c * TILE_SIZE - scroll, SCREEN_HEIGHT))
        # horizontal lines
    for c in range(ROWS + 1):
        pygame.draw.line(screen, WHITE, (0, c * TILE_SIZE), (SCREEN_WIDTH, c * TILE_SIZE))


# function for drawing the world tiles
def draw_world():
    for y, row in enumerate(world_data):
        for x, tile in enumerate(row):
            if tile >= 0:
                screen.blit(img_list[tile], (x * TILE_SIZE - scroll, y * TILE_SIZE))


# create buttons
save_button = button.Button(SCREEN_WIDTH // 2, SCREEN_HEIGHT + LOWER_MARGIN - 50, save_img, 1)
load_button = button.Button(SCREEN_WIDTH // 2 + 200, SCREEN_HEIGHT + LOWER_MARGIN - 50, load_img, 1)
# make a button list
button_list = []
button_col = 0
button_row = 0
for i in range(len(img_list)):
    tile_button = button.Button(SCREEN_WIDTH + (button_col * 75) + 50, (75 * button_row) + 50, img_list[i], 1)
    button_list.append(tile_button)
    button_col += 1
    if button_col == 3:
        button_row += 1
        button_col = 0

run = True
while run:

    clock.tick(FPS)

    # scroll the map
    if scroll_left == True and scroll > 0:
        scroll -= 5 * scroll_speed
    if scroll_right == True and scroll < (MAX_COLS * TILE_SIZE) - SCREEN_WIDTH:
        scroll += 5 * scroll_speed

    for event in pygame.event.get():
        if event.type == pygame.QUIT:
            run = False
        # keyboard presses
        if event.type == pygame.KEYDOWN:
            if event.key == pygame.K_w:
                level += 1
            if event.key == pygame.K_s and level > 0:
                level -= 1
            if event.key == pygame.K_a:
                scroll_left = True
            if event.key == pygame.K_d:
                scroll_right = True
            if event.key == pygame.K_LSHIFT:
                scroll_speed = 5

        # add new tiles to the screen
        # get mouse position
        pos = pygame.mouse.get_pos()
        x = (pos[0] + scroll) // TILE_SIZE
        y = pos[1] // TILE_SIZE

        # check that the coordinates are within the tile area
        if pos[0] < SCREEN_WIDTH and pos[1] < SCREEN_HEIGHT:
            # update tile value
            if pygame.mouse.get_pressed()[0] == 1:
                if world_data[y][x] != current_tile:
                    world_data[y][x] = current_tile
            if pygame.mouse.get_pressed()[2] == 1:
                world_data[y][x] = -1

        if event.type == pygame.KEYUP:
            if event.key == pygame.K_a:
                scroll_left = False
            if event.key == pygame.K_d:
                scroll_right = False
            if event.key == pygame.K_LSHIFT:
                scroll_speed = 1

    draw_bg()
    draw_grid()
    draw_world()

    draw_text(f'Level: {level}', font, WHITE, 10, SCREEN_HEIGHT + LOWER_MARGIN - 90)
    draw_text('Press W or S to change level', font, WHITE, 10, SCREEN_HEIGHT + LOWER_MARGIN - 60)

    # save and load data
    if save_button.draw(screen):
        # save level data
        with open(f'level{level}_data.csv', 'w', newline='') as csvfile:
            writer = csv.writer(csvfile, delimiter=',')
            for row in world_data:
                writer.writerow(row)
    if load_button.draw(screen):
        #load in level data
        #reset scroll back to the start of the level
        scroll = 0
        with open(f'level{level}_data.csv', newline='') as csvfile:
            reader = csv.reader(csvfile, delimiter=',')
            for x, row in enumerate(reader):
                for y, tile in enumerate(row):
                    world_data[x][y] = int(tile)



    # draw tile panel an tiles
    pygame.draw.rect(screen, GREEN, (SCREEN_WIDTH, 0, SIDE_MARGIN, SCREEN_HEIGHT))

    # choose a tile
    button_count = 0
    for button_count, i in enumerate(button_list):
        if i.draw(screen):
            current_tile = button_count

    # highlight the selected tile
    pygame.draw.rect(screen, RED, button_list[current_tile].rect, 3)

    pygame.display.update()

pygame.quit()