def __init__(self, Tetris3d):
self.Tetris3d = Tetris3d
self.data = Tetris3d.data
self.time = glutGet(GLUT_ELAPSED_TIME)
self.state = 'mainMenu'
self.menuitem = 'start'
self.texture = Textures()
self.tstring = TextureString(Tetris3d.data)
self.playername = ''
self.planes = {}
self.skins = {}
self.stringPlane = {}
self.textureWidthRatio = 512.0 / 640.0
self.textureHeightRatio = 512.0 / 480.0
self.generateStringTexture('mainMenu')
self.generateStringTexture('gameoverMenu')
self.generateStringTexture('enterName')
self.generateStringTexture('pause')
self.generateStringTexture('play')
self.generateStringTexture('highscore')
self.backgroundTexture = self.texture.createTex(self.data.get('texture/menu/menu.jpg'))
self.stringTexture = self.texture.createTex(self.stringPlane['mainMenu'])
self.planes['0_background'] = {'texture': self.backgroundTexture, 'coord': [16.7, 12.525, 16.6]}
self.planes['1_strings'] = {'texture': self.stringTexture, 'coord': [16.7, 12.525, 16.59]}
self.cubePos = {'mainMenu': { 'start': [4,4.6,0], 'highscore': [10,0.2,0], 'exit': [3,-4,0] },
'gameoverMenu': { 'start': [10.5,2.4,0], 'highscore': [10,-2,0], 'exit': [3,-6.2,0] }}
self.cube = TetrisCube(1, self.cubePos[self.state][self.menuitem])
def update(self):
collision_list = arcade.check_for_collision_with_list(
self, self.level.entities)
for entity in collision_list:
if isinstance(entity, Projectile):
self.hurt(entity.damage, entity.change_x)
player = self.level.player
dist = Maths.manhattan_dist(self.center_x, self.center_y,
player.center_x, player.center_y)
if dist <= self.range:
self.move_to(player)
else:
self.wander()
if self.curr_invis_frame > 0 and self.curr_invis_frame % 12 < 6:
self.texture = Textures.get_texture(15, 15)
else:
self.texture = self.tex
if self.intersects(player):
player.hurt(self.damage, self.change_x)
super().update()
def main():
textures = Textures.Textures(os.path.join(TEXTURES_FOLDER, TEXTURE))
window = Game.Game(textures=textures,
width=800,
height=600,
caption='Pyglet',
resizable=True)
# Hide the mouse cursor and prevent the mouse from leaving the window.
window.set_exclusive_mouse(True)
setup()
pyglet.app.run()
def __init__(self, camera, keyboard):
self.camera = camera
self.keyboard = keyboard
self.width = WIDTH // TILE_SIZE
self.height = HEIGHT // TILE_SIZE
self.tile_list = arcade.SpriteList(use_spatial_hash=True, spatial_hash_cell_size=32, is_static=True)
self.entities = arcade.SpriteList(use_spatial_hash=True, spatial_hash_cell_size=64)
self.particles = arcade.SpriteList(is_static=True)
self.tiles = {}
self.reset = False
self.reset_timer = -1
# for i in range(100):
# ball = Ball(Textures.get_texture(2, 5), 128 * random.random(), 128 * random.random())
# ball.change_x = random.randint(-8, 8)
# ball.change_y = random.randint(-8, 8)
# self.add_entity_to_list(ball, self.entities)
self.player = Player(64, 64, self.keyboard)
self.add_entity_to_list(self.player, self.entities)
self.level_gen = LevelGenerator.LevelGen(self)
self.paused = True
self.difficulty = 1
self.engine = Engine(self.entities, self.tile_list, self, GRAVITY)
self.physics_engine = arcade.PhysicsEnginePlatformer(self.player, self.tile_list, GRAVITY)
self.pause_text = Graphics.create_text_list("Paused", 0, 0, True)
self.game_over_text = Graphics.create_text_list("Game Over :<", 0, 0, True)
self.game_over = False
self.game_over_timer = 0
self.curr_health = self.player.health
self.health_bar = arcade.SpriteList()
for i in range(3):
heart = arcade.Sprite()
heart.center_x = self.player.center_x - TILE_SIZE + i * TILE_SIZE
heart.center_y = self.player.center_y - TILE_SIZE * 1.5
heart.texture = Textures.get_texture(4, 9)
self.health_bar.append(heart)
self.setup()
def update(self, delta):
self.level_gen.update()
if not (self.level_gen.generating or self.level_gen.drawing or self.paused or self.game_over):
self.engine.update()
if self.game_over_timer >= 0:
self.game_over_timer -= 1
if self.game_over_timer == 0:
self.game_over = False
self.reset = True
if self.reset_timer >= 0:
self.reset_timer -= 1
if self.reset_timer == 0:
self.reset = True
if self.reset:
self.difficulty += 1
self.reset_level()
self.generate_level(self.player.center_x, self.player.center_y)
self.reset = False
remainder = self.player.health if self.player.health > 0 else 0
for i, health in enumerate(self.health_bar):
health.center_x = self.player.center_x - TILE_SIZE + i * TILE_SIZE
health.center_y = self.player.center_y - TILE_SIZE * 1.5
if self.player.health < self.curr_health:
if remainder >= 3:
health.texture = Textures.get_texture(4, 9)
remainder -= 3
else:
health.texture = Textures.get_texture(4 + 3 - remainder, 9)
remainder = 0
self.curr_health = self.player.health
def __init__(self, x, y, keyboard):
self.keyboard = keyboard
self.movespeed = 2.5
self.jump_height = 4
self.jumping = False
self.max_attack_speed = 12
self.curr_attack_speed = 0
self.attack_dir = 0
self.curr_jump_height = 0
self.min_jump_height = 8
self.max_jump_height = 64
self.walk_count = 0
self.walk_frame_speed = 8
self.not_mirrored = True
self.curr_dash_frame = 0
self.dash_frame_speed = 12
self.dashing = False
self.crawling = False
self.curr_crawl_frame = 0
self.crawl_frame_speed = 16
self.health = 9
self.curr_invis_frame = 0
self.invis_frame = 150
# Textures
self.idle_texture = Textures.get_texture(0, 4)
self.idle_texture_mirrored = Textures.get_texture(0, 5)
self.walking_textures = Textures.get_textures(1, 4, 4)
self.walking_textures_mirrored = Textures.get_textures(1, 5, 4)
self.dash_textures = Textures.get_textures(5, 4, 3)
self.dash_textures_mirrored = Textures.get_textures(5, 5, 3)
self.crawl_textures = Textures.get_textures(7, 4, 4)
self.crawl_textures_mirrored = Textures.get_textures(7, 5, 4)
super().__init__(self.idle_texture, x, y)
class TetrisHUD(GameObject):
def __init__(self, Tetris3d):
self.Tetris3d = Tetris3d
self.data = Tetris3d.data
self.time = glutGet(GLUT_ELAPSED_TIME)
self.state = 'mainMenu'
self.menuitem = 'start'
self.texture = Textures()
self.tstring = TextureString(Tetris3d.data)
self.playername = ''
self.planes = {}
self.skins = {}
self.stringPlane = {}
self.textureWidthRatio = 512.0 / 640.0
self.textureHeightRatio = 512.0 / 480.0
self.generateStringTexture('mainMenu')
self.generateStringTexture('gameoverMenu')
self.generateStringTexture('enterName')
self.generateStringTexture('pause')
self.generateStringTexture('play')
self.generateStringTexture('highscore')
self.backgroundTexture = self.texture.createTex(self.data.get('texture/menu/menu.jpg'))
self.stringTexture = self.texture.createTex(self.stringPlane['mainMenu'])
self.planes['0_background'] = {'texture': self.backgroundTexture, 'coord': [16.7, 12.525, 16.6]}
self.planes['1_strings'] = {'texture': self.stringTexture, 'coord': [16.7, 12.525, 16.59]}
self.cubePos = {'mainMenu': { 'start': [4,4.6,0], 'highscore': [10,0.2,0], 'exit': [3,-4,0] },
'gameoverMenu': { 'start': [10.5,2.4,0], 'highscore': [10,-2,0], 'exit': [3,-6.2,0] }}
self.cube = TetrisCube(1, self.cubePos[self.state][self.menuitem])
def generateStringTexture(self, name):
if self.stringPlane.has_key(name):
del self.stringPlane[name]
if name == 'mainMenu':
self.registerString('mainMenu', self.tstring.create('Cubix'), 320, 20, 'center', 1)
self.registerString('mainMenu', self.tstring.create('Start'), 320, 145, 'center', 0.8)
self.registerString('mainMenu', self.tstring.create('Highscores'), 320, 215, 'center', 0.8)
self.registerString('mainMenu', self.tstring.create('Exit'), 320, 290, 'center', 0.8)
elif name == 'gameoverMenu':
self.registerString('gameoverMenu', self.tstring.create('Game Over'), 320, 20, 'center', 1)
self.registerString('gameoverMenu', self.tstring.create('Your Score: ' + str(self.Tetris3d.objects['mainGrid'].score.value)), 320, 120, 'center', 0.35)
self.registerString('gameoverMenu', self.tstring.create('Try Again!'), 320, 180, 'center', 0.8)
self.registerString('gameoverMenu', self.tstring.create('Highscores'), 320, 250, 'center', 0.8)
self.registerString('gameoverMenu', self.tstring.create('Exit'), 320, 320, 'center', 0.8)
elif name == 'enterName':
self.registerString('enterName', self.tstring.create('Game Over'), 320, 20, 'center', 1)
self.registerString('enterName', self.tstring.create('Enter Your Name:'), 320, 120, 'center', 0.4)
self.registerString('enterName', self.tstring.create(self.playername), 320, 215, 'center', 0.5)
elif name == 'pause':
self.registerString('pause', self.tstring.create('Pause'), 320, 180, 'center', 1)
elif name == 'highscore' or name == 'highscoreHighlight':
if name == 'highscoreHighlight' and self.stringPlane.has_key('highscore'):
del self.stringPlane['highscore']
self.registerString('highscore', self.tstring.create('Highscores'), 320, 20, 'center', 1)
self.registerString('highscore', self.tstring.create('Press escape to go back to menu'), 320, 110, 'center', 0.32)
id = self.Tetris3d.objects['mainGrid'].db.getNewestId()
extraSpace = 0
i = 1
for score in self.Tetris3d.objects['mainGrid'].db.getToTen():
if score[2] == id and name == 'highscoreHighlight':
size = 0.5
else:
size = 0.35
nameString = self.tstring.create(score[0])
scoreString = self.tstring.create(str(score[1]))
# To prevent that the name and score overlap each other in the list
if int((nameString.size[0] + scoreString.size[0]) * size) > 540:
ratio = 540.0 / ((nameString.size[0] + scoreString.size[0]) * size)
size *= ratio
self.registerString('highscore', nameString, 50, 120 + 30 * i + extraSpace, 'left', size)
self.registerString('highscore', scoreString, 590, 120 + 30 * i + extraSpace, 'right', size)
if score[2] == id and name == 'highscoreHighlight':
extraSpace = 8
i += 1
elif name == 'play':
self.registerString('play', self.tstring.create('Cubix'), 320, 30, 'left', 1)
self.registerString('play', self.tstring.create('Score:'), 320, 365, 'left', 0.33)
self.registerString('play', self.tstring.create('Level:'), 320, 423, 'left', 0.33)
def registerString(self, skin, image, x, y, align, size):
x = int(x * self.textureWidthRatio)
y = int(y * self.textureHeightRatio)
if not self.stringPlane.has_key(skin):
self.stringPlane[skin] = new('RGBA', (512, 512))
width = int(image.size[0] * size * self.textureWidthRatio)
height = int(image.size[1] * size * self.textureHeightRatio)
image = image.resize((width, height), ANTIALIAS)
posY = y
if align == 'left':
posX = x
elif align == 'right':
posX = x - width
elif align == 'center':
posX = x - (width / 2)
else:
posX = 0
self.stringPlane[skin].paste(image, (posX, posY))
def setState(self, state):
if state == 'mainMenu':
self.state = 'mainMenu'
self.texture.createTex(self.stringPlane['mainMenu'], self.stringTexture)
self.menuitem = 'start'
self.cube.renderPos = self.cubePos[self.state][self.menuitem]
elif state == 'gameoverMenu':
self.state = 'gameoverMenu'
self.generateStringTexture('gameoverMenu')
self.texture.createTex(self.data.get('texture/menu/menu.jpg'), self.backgroundTexture)
self.texture.createTex(self.stringPlane['gameoverMenu'], self.stringTexture)
self.menuitem = 'start'
self.cube.renderPos = self.cubePos[self.state][self.menuitem]
elif state == 'play':
self.state = 'play'
self.Tetris3d.objects['mainGrid'].run = True
self.texture.createTex(self.data.get('texture/menu/front.jpg'), self.backgroundTexture)
self.texture.createTex(self.stringPlane['play'], self.stringTexture)
if self.Tetris3d.objects['mainGrid'].gameover:
self.Tetris3d.objects['mainGrid'].gameover = 0
self.Tetris3d.objects['mainGrid'].clearGrid()
elif state == 'pause':
self.state = 'pause'
self.Tetris3d.objects['mainGrid'].run = None
self.texture.createTex(self.data.get('texture/menu/menu.jpg'), self.backgroundTexture)
self.texture.createTex(self.stringPlane['pause'], self.stringTexture)
elif state == 'highscore':
if self.state == 'enterName':
self.generateStringTexture('highscoreHighlight')
else:
self.generateStringTexture('highscore')
self.state = 'highscore'
self.texture.createTex(self.data.get('texture/menu/highscore.jpg'), self.backgroundTexture)
self.texture.createTex(self.stringPlane['highscore'], self.stringTexture)
elif state == 'enterName':
self.state = 'enterName'
self.generateStringTexture('enterName')
self.texture.createTex(self.data.get('texture/menu/menu.jpg'), self.backgroundTexture)
self.texture.createTex(self.stringPlane['enterName'], self.stringTexture)
def keyboardSpecial(self, key, x, y):
if self.state == 'mainMenu' or self.state == 'gameoverMenu':
if key == 101: # up arrow key
if self.menuitem == 'start': self.menuitem = 'exit'
elif self.menuitem == 'exit': self.menuitem = 'highscore'
elif self.menuitem == 'highscore': self.menuitem = 'start'
elif key == 103: # down arrow key
if self.menuitem == 'start': self.menuitem = 'highscore'
elif self.menuitem == 'highscore': self.menuitem = 'exit'
elif self.menuitem == 'exit': self.menuitem = 'start'
self.cube.renderPos = self.cubePos[self.state][self.menuitem]
def keyboard(self, key, x, y):
if self.state == 'mainMenu' or self.state == 'gameoverMenu':
if ord(key) == 27: # key = esc
sys.exit()
if ord(key) == 13: # key = enter
if self.menuitem == 'start':
self.setState('play')
elif self.menuitem == 'highscore':
self.setState('highscore')
elif self.menuitem == 'exit':
sys.exit()
elif self.state == 'highscore':
if ord(key) == 27: # key = esc
self.setState('mainMenu')
elif self.state == 'enterName':
if self.tstring.data.has_key(key) and len(self.playername) < 13:
self.playername += key
elif ord(key) == 8: # key = backspace
self.playername = self.playername[:-1]
self.generateStringTexture('enterName')
self.texture.createTex(self.stringPlane['enterName'], self.stringTexture)
if ord(key) == 13 and len(self.playername) != 0: # key = enter
self.Tetris3d.objects['mainGrid'].db.addScore(unicode(self.playername), self.Tetris3d.objects['mainGrid'].score.getValue())
self.setState('highscore')
elif ord(key) == 27: # key = esc
self.setState('mainMenu')
elif self.state == 'pause':
if key == 'p':
self.setState('play')
if ord(key) == 27: # key = esc
self.Tetris3d.objects['mainGrid'].gameOver()
elif self.state == 'play':
if key == 'p':
self.setState('pause')
if ord(key) == 27: # key = esc
self.Tetris3d.objects['mainGrid'].gameOver()
def display(self):
for name, plane in self.planes.iteritems():
x = plane['coord'][0]
y = plane['coord'][1]
z = plane['coord'][2]
glEnable (GL_BLEND)
glBlendFunc (GL_SRC_ALPHA,GL_ONE_MINUS_SRC_ALPHA)
glEnable(GL_TEXTURE_2D)
glBindTexture(GL_TEXTURE_2D, plane['texture'])
glBegin(GL_QUADS)
glTexCoord2f(1.0, 0.0); glVertex3f(-x, -y, z) # Bottom Right
glTexCoord2f(0.0, 0.0); glVertex3f( x, -y, z) # Bottom Left
glTexCoord2f(0.0, 1.0); glVertex3f( x, y, z) # Top Left
glTexCoord2f(1.0, 1.0); glVertex3f(-x, y, z) # Top Right
glEnd()
glDisable(GL_TEXTURE_2D)
glDisable(GL_BLEND)
if self.state == 'mainMenu' or self.state == 'gameoverMenu':
glPushMatrix()
glScaled(0.2,0.2,0.2)
glTranslated(0,0,-0.2)
self.cube.display()
glPopMatrix()
def update(self, delay):
if self.time + 1000 < glutGet(GLUT_ELAPSED_TIME) and (self.state == 'mainMenu' or self.state == 'gameoverMenu'):
new = randrange(0,6)
if new >= self.cube.type:
self.cube.setType(new + 1)
else:
self.cube.setType(new)
if self.cube.type == 0:
for pos in self.cube.position:
pos[0] += 0.5
elif self.cube.type == 2:
for pos in self.cube.position:
pos[1] += 0.5
elif self.cube.type == 3 or self.cube.type == 4:
for pos in self.cube.position:
pos[0] -= 0.5
elif self.cube.type == 5 or self.cube.type == 6:
for pos in self.cube.position:
pos[1] -= 0.5
self.time = glutGet(GLUT_ELAPSED_TIME)
class Player:
screen_pos_x = config.screen_width
screen_pos_y = config.screen_height
player_png = Textures.loadTxt("player", "player")
can_jump = True
jump_count = 44
already_digged = False
can_dig_left = False
can_dig_right = False
clicked_mouse = False
is_falling = False
left_wall = False
right_wall = False
POS_ON_SCREEN_X = 32 * config.screen_width // 64 - 16
POS_ON_SCREEN_Y = 32 * config.screen_height // 64
def __init__(self, terrain):
self.player_name = "SKR"
self.position = [terrain.world_size_x * 32 // 2 + 16, 64 * 32 + 32]
self.block_x = self.position[0] // 32
self.block_y = self.position[1] // 32 - 1
def drawNickname(self, window):
Inventory.Inventory.gui_handler.drawText(window, config.screen_width//2 - (len(self.player_name) * 4),
config.screen_height//2 - 16, self.player_name)
def update_current_block(self):
if self.position[0] % 32 != 0:
self.block_x = self.position[0] // 32
if self.position[1] % 32 != 0:
self.block_y = self.position[1] // 32
def clicked_block(self):
mouse_pos = pygame.mouse.get_pos()
dif_x = mouse_pos[0] - (self.POS_ON_SCREEN_X + 16)
dif_y = mouse_pos[1] - (self.POS_ON_SCREEN_Y + 32)
if not self.right_wall:
clicked_block_x = self.block_x + (dif_x + self.position[0] % 32) // 32
else:
clicked_block_x = self.block_x + dif_x // 32 + 1
if self.position[1] % 32 != 0:
clicked_block_y = self.block_y + (dif_y + self.position[1] % 32) // 32
else:
clicked_block_y = self.block_y + dif_y // 32 + 1
return clicked_block_x, clicked_block_y
def jump(self):
if self.jump_count > 0:
self.jump_count -= 2
self.position[1] -= 2
else:
self.is_falling = True
self.can_jump = True
self.jump_count = 44
def start_fall(self, terrain):
if self.position[1] % 32 == 0 and terrain.terrain[self.block_y + 1][self.block_x].transparent:
self.is_falling = True
def fall(self, terrain):
if self.is_falling:
self.position[1] += 2
if self.position[1] % 32 == 0:
self.is_falling = False
self.start_fall(terrain)
def dig(self, terrain, events, eq):
for event in events:
if event.type == pygame.MOUSEBUTTONDOWN and event.button == 1:
clicked_block = self.clicked_block()
if clicked_block is not None:
rel_blocks_x = clicked_block[0] - self.block_x
rel_blocks_y = clicked_block[1] - self.block_y
if terrain.terrain[clicked_block[1]][clicked_block[0]].breakable:
if (rel_blocks_x == 0 and (rel_blocks_y == 1 or rel_blocks_y == -1)) \
or (rel_blocks_y == 0 and (rel_blocks_x == 1 or rel_blocks_x == -1)) \
or (rel_blocks_y == -1 and rel_blocks_x == -1
and (terrain.terrain[clicked_block[1] + 1][clicked_block[0]].transparent
or terrain.terrain[clicked_block[1]][clicked_block[0] + 1].transparent)) \
or (rel_blocks_y == -1 and rel_blocks_x == 1
and (terrain.terrain[clicked_block[1] + 1][clicked_block[0]].transparent
or terrain.terrain[clicked_block[1]][clicked_block[0] - 1].transparent)) \
or (rel_blocks_y == 1 and rel_blocks_x == -1
and (terrain.terrain[clicked_block[1] - 1][clicked_block[0]].transparent
or terrain.terrain[clicked_block[1]][clicked_block[0] + 1].transparent)) \
or (rel_blocks_y == 1 and rel_blocks_x == 1
and (terrain.terrain[clicked_block[1] - 1][clicked_block[0]].transparent
or terrain.terrain[clicked_block[1]][clicked_block[0] - 1].transparent)):
if terrain.terrain[clicked_block[1]][clicked_block[0]].collectable:
# eq.set_slot(terrain.terrain[clicked_block[1]][clicked_block[0]].type)
eq.bar.container.addItem(terrain.terrain[clicked_block[1]][clicked_block[0]].type, 1,
(0, 0))
terrain.terrain[clicked_block[1]][clicked_block[0]] = Sky()
def place_block(self, terrain, events, eq):
for event in events:
if event.type == pygame.MOUSEBUTTONDOWN and event.button == 3 and eq.bar.container.content[eq.picked_slot].item != "empty":
clicked_block = self.clicked_block()
if clicked_block is not None:
rel_blocks_x = clicked_block[0] - self.block_x
rel_blocks_y = clicked_block[1] - self.block_y
if terrain.terrain[clicked_block[1]][clicked_block[0]].transparent:
if (rel_blocks_x == 0 and (rel_blocks_y == 1 or rel_blocks_y == -1)) \
or (rel_blocks_y == 0 and (rel_blocks_x == 1 or rel_blocks_x == -1)) \
or (rel_blocks_y == -1 and rel_blocks_x == -1
and (terrain.terrain[clicked_block[1] + 1][clicked_block[0]].transparent
or terrain.terrain[clicked_block[1]][clicked_block[0] + 1].transparent)) \
or (rel_blocks_y == -1 and rel_blocks_x == 1
and (terrain.terrain[clicked_block[1] + 1][clicked_block[0]].transparent
or terrain.terrain[clicked_block[1]][clicked_block[0] - 1].transparent)) \
or (rel_blocks_y == 1 and rel_blocks_x == -1
and (terrain.terrain[clicked_block[1] - 1][clicked_block[0]].transparent
or terrain.terrain[clicked_block[1]][clicked_block[0] + 1].transparent)) \
or (rel_blocks_y == 1 and rel_blocks_x == 1
and (terrain.terrain[clicked_block[1] - 1][clicked_block[0]].transparent
or terrain.terrain[clicked_block[1]][clicked_block[0] - 1].transparent)):
terrain.terrain[clicked_block[1]][clicked_block[0]] = \
blocks[eq.bar.container.content[eq.picked_slot].item]()
eq.bar.container.takeItem(1, (0, eq.picked_slot))
def move(self, events, terrain, eq):
#handling toggleable keys
for event in events:
if event.type == pygame.KEYDOWN:
if event.key == pygame.K_e:
eq.eq_opened = not eq.eq_opened
if event.key == pygame.K_c:
eq.crafting_opened = not eq.crafting_opened
#handling keys held continuously
keys = pygame.key.get_pressed()
if keys[pygame.K_a]:
if (self.position[0] % 32 != 0 or terrain.terrain[self.block_y][self.block_x - 1].transparent
or self.right_wall and terrain.terrain[self.block_y][self.block_x].transparent
and not (self.left_wall and keys[pygame.K_d])):
self.position[0] -= 1
elif not self.right_wall:
self.left_wall = True
if keys[pygame.K_d]:
if (self.position[0] % 32 != 0 or terrain.terrain[self.block_y][self.block_x + 1].transparent
or (self.left_wall and not keys[pygame.K_a])) \
and terrain.terrain[self.block_y][self.block_x].transparent:
self.position[0] += 1
elif not self.left_wall:
self.right_wall = True
if (keys[pygame.K_w] or keys[pygame.K_SPACE]) and self.can_jump and not self.is_falling:
if terrain.terrain[self.block_y - 1][self.block_x].transparent:
self.can_jump = False
#some other stuff idk not my code lmao
if not self.can_jump:
self.jump()
if self.position[0] % 32 != 0:
self.left_wall = False
self.right_wall = False
self.start_fall(terrain)
self.fall(terrain)
def update(self, events, terrain, eq):
self.move(events, terrain, eq)
self.update_current_block()
self.dig(terrain, events, eq)
self.place_block(terrain, events, eq)
def draw(self, window):
window.blit(self.player_png, (self.POS_ON_SCREEN_X, self.POS_ON_SCREEN_Y))
self.drawNickname(window)
def __init__(self, x, y):
super().__init__(Textures.get_texture(4, 9), x, y)
def update(self):
speed_mult = 1
if self.keyboard.is_pressed("sprint"):
speed_mult = 2
if self.keyboard.is_pressed("dash"):
if not self.dashing:
self.change_y += 2
self.dashing = True
if self.keyboard.is_pressed("l"):
pass
# self.level.reset = True
if self.keyboard.is_pressed("down"):
self.change_y -= 0.1
self.crawling = True
speed_mult *= 0.5
else:
self.crawling = False
if self.keyboard.is_pressed("attack"):
if self.curr_attack_speed == 0:
extra_y_dir = 0
if self.keyboard.is_pressed("up"):
extra_y_dir = 4
elif self.keyboard.is_pressed("down"):
extra_y_dir = -4
attack_x = (self.change_x) * 4
attack_y = (self.change_y + extra_y_dir) * 3
attack_angle = int(
math.atan2(attack_y, attack_x) / math.pi * 180)
card = Projectile(
Textures.SPRITESHEET[3 + int((attack_angle % 360) / 45) +
16], self.center_x, self.center_y,
attack_x, attack_y)
self.level.add_entity_to_list(card, self.level.entities)
self.curr_attack_speed = self.max_attack_speed
Sounds.play(Sounds.SHOOT)
if self.curr_attack_speed > 0:
self.curr_attack_speed -= 1
if self.keyboard.is_pressed("jump"):
if self.level.physics_engine.can_jump(1):
# if self.level.engine.can_jump(self, 1):
if not self.jumping:
Sounds.play(Sounds.JUMP)
self.level.physics_engine.jump(self.jump_height)
self.jumping = True
# elif self.level.engine.can_jump(self, -1):
elif self.level.physics_engine.can_jump(-1):
self.jumping = False
self.curr_jump_height = 0
if self.curr_jump_height > self.max_jump_height:
self.jumping = False
self.curr_jump_height = 0
elif self.curr_jump_height >= self.min_jump_height:
self.jumping = False
self.curr_jump_height = 0
if self.jumping:
self.change_y = self.jump_height
self.curr_jump_height += self.jump_height
if self.keyboard.is_pressed("left"):
self.change_x = -self.movespeed * speed_mult
elif self.keyboard.is_pressed("right"):
self.change_x = self.movespeed * speed_mult
else:
if self.change_x > 1:
self.change_x -= 1
self.not_mirrored = True
elif self.change_x < -1:
self.change_x += 1
self.not_mirrored = False
else:
self.change_x = 0
if self.dashing:
if self.change_x > 0:
self.change_x = self.movespeed * speed_mult * 1.5
elif self.change_x < 0:
self.change_x = -self.movespeed * speed_mult * 1.5
self.curr_dash_frame += 1
if self.curr_dash_frame >= self.dash_frame_speed * len(
self.dash_textures):
self.curr_dash_frame = 0
self.dashing = False
elif self.crawling:
self.curr_crawl_frame += 1
if self.curr_crawl_frame >= self.crawl_frame_speed * len(
self.crawl_textures):
self.curr_crawl_frame = 0
else:
self.walk_count += 1
if self.walk_count >= len(
self.walking_textures) * self.walk_frame_speed:
self.walk_count = 0
if self.curr_invis_frame > 0 and self.curr_invis_frame % 12 < 6:
self.texture = Textures.get_texture(15, 15)
elif self.change_x > 0:
if self.dashing:
self.texture = self.dash_textures[self.curr_dash_frame //
self.dash_frame_speed]
elif self.crawling:
self.texture = self.crawl_textures[self.curr_crawl_frame //
self.crawl_frame_speed]
else:
self.texture = self.walking_textures[self.walk_count //
self.walk_frame_speed]
# self.player_dir = True
elif self.change_x < 0:
if self.dashing:
self.texture = self.dash_textures_mirrored[
self.curr_dash_frame // self.dash_frame_speed]
elif self.crawling:
self.texture = self.crawl_textures_mirrored[
self.curr_crawl_frame // self.crawl_frame_speed]
else:
self.texture = self.walking_textures_mirrored[
self.walk_count // self.walk_frame_speed]
# self.player_dir = False
else:
if self.not_mirrored:
if self.crawling:
self.texture = self.crawl_textures[0]
else:
self.texture = self.idle_texture
else:
if self.crawling:
self.texture = self.crawl_textures_mirrored[0]
else:
self.texture = self.idle_texture_mirrored
super().update()
def drawRoom(self, room):
room_x = int(room.x * ROOM_WIDTH)
room_y = int(room.y * ROOM_HEIGHT)
for x in range(0, 3):
for y in range(0, 3):
template = ROOM_TEMPLATES[2]
neighbor_rooms = {}
for direction in DIRS:
neighbor = self.rooms.get((room.x + direction[0], room.y + direction[1]))
if neighbor is not None:
neighbor_rooms[direction] = neighbor
left = neighbor_rooms.get((-1, 0)) is not None
bottom = neighbor_rooms.get((0, -1)) is not None
top = neighbor_rooms.get((0, 1)) is not None
right = neighbor_rooms.get((1, 0)) is not None
if y == 0:
if x == 1:
if bottom:
template = getRandTemplate(BOTTOM_OPEN)
else:
template = getRandTemplate(BOTTOM)
elif x == 0:
template = getRandTemplate(BOTTOM_LEFT)
elif x == 2:
template = getRandTemplate(BOTTOM_RIGHT)
elif y == 1:
if x == 0:
if left:
template = EMPTY
else:
template = MIDDLE_LEFT[0]
elif x == 1:
template = MIDDLE_CENTER[0]
elif x == 2:
if right:
template = EMPTY
else:
template = MIDDLE_RIGHT[0]
elif y == 2:
if x == 1:
if top:
template = getRandTemplate(TOP_OPEN)
else:
template = TOP[0]
elif x == 0:
template = TOP_LEFT[0]
elif x == 2:
template = TOP_RIGHT[0]
drawTemplate(
self.level,
room_x + x * TEMPLATE_WIDTH,
room_y + y * TEMPLATE_HEIGHT,
template)
difficulty = self.level.difficulty
while difficulty > 0:
if room.type == START_ROOM:
break
if room.type == BOSS_ROOM:
entity_x = (room_x + ROOM_WIDTH / 2) * TILE_SIZE
entity_y = (room_y + ROOM_HEIGHT / 2) * TILE_SIZE
boss = Boss(entity_x, entity_y, self.level.difficulty)
self.level.add_entity_to_list(boss, self.level.entities)
difficulty -= 5
else:
enemy_type = random.randint(0, 2)
entity_x = random.randrange(room_x + 1, room_x + ROOM_WIDTH - 1)
entity_y = random.randrange(room_y + 1, room_y + ROOM_HEIGHT - 1)
tries = 0
while self.level.get_tile(entity_x, entity_y) or tries < 5:
entity_x = random.randrange(room_x + 1, room_x + ROOM_WIDTH - 1)
entity_y = random.randrange(room_y + 1, room_y + ROOM_HEIGHT - 1)
tries += 1
entity_x *= TILE_SIZE
entity_y *= TILE_SIZE
if enemy_type == 0:
slem = Slime(Textures.get_texture(3, 2), entity_x, entity_y, self.level.difficulty)
self.level.add_entity_to_list(slem, self.level.entities)
difficulty -= 1
elif enemy_type == 1:
enemy = Enemy(Textures.get_texture(0, 2), entity_x, entity_y, self.level.difficulty)
self.level.add_entity_to_list(enemy, self.level.entities)
difficulty -= 1
else:
spiky_ball = SpikyBall(entity_x, entity_y, self.level.difficulty)
self.level.add_entity_to_list(spiky_ball, self.level.entities)
difficulty -= 1
def __init__(self, x, y, difficulty):
super().__init__(Textures.get_texture(1, 1), x, y, difficulty)
self.movespeed = 1 + difficulty * 0.2
self.damage = 2
