398 lines
16 KiB
Python
398 lines
16 KiB
Python
import copy
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import random
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import pygame
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from typing import List, Tuple
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from pygame import mixer
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from tetris.util import ConfigurationManager
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from tetris.util import Controller
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from typing import TYPE_CHECKING
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if TYPE_CHECKING:
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from tetris.game import Game
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"""
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TODO description
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"""
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class Entity:
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def __init__(self, points: Tuple, color: str, border_color: str = None):
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self.points = points
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self.color = color
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self.border_color = border_color
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self.elapsed_time = 0
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def update(self, elapsed_time: int) -> None:
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self.elapsed_time += elapsed_time
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def draw(self, surface: pygame.Surface) -> None:
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tile_size = ConfigurationManager.get("engine", "tile-size")
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for square in self.points:
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pygame.draw.polygon(surface, pygame.Color(self.color), square, 0)
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if self.border_color:
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pygame.draw.polygon(surface, pygame.Color(self.border_color), square, max(tile_size // 6, 1))
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def collide(self, entity: "Entity") -> bool: # TODO figure out how to do type hint for entity param of type Entity
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for square_one in self.points:
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for square_two in entity.points:
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for i in range(4): # 4 vertices
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if square_one[i][0] == square_two[i][0] and square_one[i][1] == square_two[i][1]:
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return True
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return False
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def _collide(self, points: List) -> bool:
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for square_one in self.points:
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for square_two in points:
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for i in range(4): # 4 vertices
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if square_one[i][0] == square_two[i][0] and square_one[i][1] == square_two[i][1]:
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return True
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return False
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"""
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TODO description
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"""
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class Well(Entity):
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WIDTH = 10 # standard tetris well width, should not be changed
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HEIGHT = 20 # standard tetris well height, should not be changed
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def __init__(self, position: Tuple, color: str, border_color: str):
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super().__init__(self._get_points(position), color, border_color)
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def _get_points(self, position: Tuple) -> List:
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tile_size = ConfigurationManager.get("engine", "tile-size")
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shape = []
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for i in range(self.WIDTH + 2):
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for j in range(self.HEIGHT + 2):
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if i == 0 or i == self.WIDTH + 1:
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shape.append(((i, j), (i + 1, j), (i + 1, j + 1), (i, j + 1)))
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elif j == 0 or j == self.HEIGHT + 1:
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shape.append(((i, j), (i + 1, j), (i + 1, j + 1), (i, j + 1)))
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points = []
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for square in shape:
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sub_points = []
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for vertex in square:
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point = [vertex[0] * tile_size + position[0], vertex[1] * tile_size + position[1]]
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sub_points.append(point)
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points.append(sub_points)
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return points
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'''
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For information on the Tetris piece Tetromino go here:
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https://tetris.fandom.com/wiki/Tetromino
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'''
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class Piece(Entity):
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def __init__(self, shape: Tuple, position: Tuple, color: str, inner_border_color: str, border_color: str):
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super().__init__(self._get_points(shape, position), color, border_color)
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self.inner_border_color = inner_border_color
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self.center = self._get_center(shape, position)
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self.piece_set_sound = mixer.Channel(2)
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self.previous_points = None
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self.previous_center = None
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self.ghost_points = [] # TODO change name
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# Gravity
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self.gravity_time = ConfigurationManager.get("engine", "piece-gravity-time")
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self.current_gravity_time = 0
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self.applying_gravity = True
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# Set
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self.set_time = ConfigurationManager.get("engine", "piece-set-time")
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self.current_set_time = 0
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self.applying_set = False
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def update(self, elapsed_time: int, game: "Game") -> None:
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super().update(elapsed_time)
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tile_size = ConfigurationManager.get("engine", "tile-size")
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if self.applying_gravity:
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self.applying_gravity = self._apply_gravity(elapsed_time, game.well, game.stack)
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self.applying_set = not self.applying_gravity
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"""
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For more information on the piece set logic go here:
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https://strategywiki.org/wiki/Tetris/Features#Lock_delay
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"""
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if self.applying_set:
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self.applying_set = self._apply_set(elapsed_time, game)
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self.applying_gravity = not self.applying_set
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# handle rotation, left and right movement
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if Controller.key_down(pygame.K_SPACE):
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self.rotate()
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if game.well and self.collide(game.well) or game.stack and self.collide(game.stack):
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self.revert()
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if Controller.key_down(pygame.K_LEFT):
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self.move((-tile_size, 0))
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if game.well and self.collide(game.well) or game.stack and self.collide(game.stack):
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self.revert()
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if Controller.key_down(pygame.K_RIGHT):
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self.move((tile_size, 0))
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if game.well and self.collide(game.well) or game.stack and self.collide(game.stack):
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self.revert()
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# handle soft drop movement
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gravity_time = ConfigurationManager.get("engine", "piece-gravity-time")
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set_time = ConfigurationManager.get("engine", "piece-set-time")
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if Controller.key_pressed(pygame.K_DOWN):
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self.gravity_time = gravity_time // 8
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self.set_time = set_time // 8
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if not Controller.key_pressed(pygame.K_DOWN):
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self.gravity_time = gravity_time
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self.set_time = set_time
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def draw(self, surface: pygame.Surface, well: Well, stack: "Stack") -> None:
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tile_size = ConfigurationManager.get("engine", "tile-size")
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# ghost piece
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for square in self._get_ghost_piece_points(well, stack):
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pygame.draw.polygon(surface, pygame.Color("#FFFFFF"), square, max(tile_size // 6, 1)) # TDOD change white to yaml
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super().draw(surface)
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# inner border piece
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for square in self.points:
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if self.inner_border_color:
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vertex_one = (square[0][0] + (tile_size // 10), square[0][1] + (tile_size // 10))
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vertex_two = (square[1][0] - (tile_size // 10), square[1][1] + (tile_size // 10))
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vertex_three = (square[2][0] - (tile_size // 10), square[2][1] - (tile_size // 10))
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vertex_four = (square[3][0] + (tile_size // 10), square[3][1] - (tile_size // 10))
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new_square = (vertex_one, vertex_two, vertex_three, vertex_four)
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pygame.draw.polygon(surface, pygame.Color(self.inner_border_color), new_square, max(tile_size // 6, 1))
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def move(self, vector: Tuple) -> None:
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self.previous_points = copy.deepcopy(self.points)
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self.previous_center = copy.deepcopy(self.center)
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self.center[0] += vector[0]
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self.center[1] += vector[1]
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for square in self.points:
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for vertex in square:
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vertex[0] += vector[0]
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vertex[1] += vector[1]
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'''
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For more information on a rotation of a piece go here:
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https://gamedev.stackexchange.com/questions/17974/how-to-rotate-blocks-in-tetris
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'''
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def rotate(self) -> None:
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self.previous_points = copy.deepcopy(self.points)
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self.previous_center = copy.deepcopy(self.center)
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new_points = []
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for square in self.points:
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for vertex in square:
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h = vertex[0] - self.center[0]
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k = vertex[1] - self.center[1]
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vertex[0] = (k * -1) + self.center[0]
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vertex[1] = h + self.center[1]
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new_points.append([square[-1]] + square[0:-1])
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self.points = new_points
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def revert(self) -> None:
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if self.previous_points and self.previous_center:
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self.points = self.previous_points
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self.center = self.previous_center
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def _get_points(self, shape: Tuple, position: Tuple) -> List:
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tile_size = ConfigurationManager.get("engine", "tile-size")
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points = []
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for square in shape[:-1]:
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sub_points = []
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for vertex in square:
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point = [vertex[0] * tile_size + position[0], vertex[1] * tile_size + position[1]]
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sub_points.append(point)
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points.append(sub_points)
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return points
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def _get_center(self, shape: Tuple, position: Tuple) -> List:
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tile_size = ConfigurationManager.get("engine", "tile-size")
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center = shape[-1]
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# cast to int and avoid exception from pygame (center can be a floating point)
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return [int(center[0] * tile_size + position[0]), int(center[1] * tile_size + position[1])]
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def _apply_gravity(self, elapsed_time: int, well: Well, stack: "Stack") -> bool:
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tile_size = ConfigurationManager.get("engine", "tile-size")
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self.current_gravity_time += elapsed_time
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if self.current_gravity_time >= self.gravity_time:
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self.current_gravity_time = 0
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if not self._entity_is_below(well) and not self._entity_is_below(stack):
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self.move((0, tile_size))
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else:
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return False
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return True
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def _apply_set(self, elapsed_time: int, game: "Game") -> bool:
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self.current_set_time += elapsed_time
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if self.current_set_time >= self.set_time:
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self.current_set_time = 0
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if self._entity_is_below(game.well) or self._entity_is_below(game.stack):
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self._play_piece_set_sound()
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game.stack.add_piece(self) # TODO do on tetris object level?
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game.current_piece = None # TODO turn into a method
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else:
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return False
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return True
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def _mimic_move(self, vector: Tuple) -> List:
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mimic_points = copy.deepcopy(self.points)
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for square in mimic_points:
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for vertex in square:
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vertex[0] += vector[0]
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vertex[1] += vector[1]
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return mimic_points
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def _play_piece_set_sound(self) -> None:
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piece_set_sound_file = ConfigurationManager.get("sound", "piece-set")
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self.piece_set_sound.play(mixer.Sound(piece_set_sound_file))
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def _entity_is_below(self, entity: Entity) -> bool:
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tile_size = ConfigurationManager.get("engine", "tile-size")
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mimic_points = self._mimic_move((0, tile_size))
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return entity and entity._collide(mimic_points)
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def _get_ghost_piece_points(self, well: Well, stack: "Stack") -> List:
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tile_size = ConfigurationManager.get("engine", "tile-size")
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prior_points = []
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current_points = copy.deepcopy(self.points)
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while not well._collide(current_points) and not stack._collide(current_points):
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prior_points = copy.deepcopy(current_points)
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for square in current_points:
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for vertex in square:
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vertex[1] += 1 * tile_size
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return prior_points
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# shape attributes
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I_SHAPE = (((0, 0), (1, 0), (1, 1), (0, 1)), ((1, 0), (2, 0), (2, 1), (1, 1)), ((2, 0), (3, 0), (3, 1), (2, 1)), ((3, 0), (4, 0), (4, 1), (3, 1)), (2, 0))
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J_SHAPE = (((0, 0), (1, 0), (1, 1), (0, 1)), ((1, 0), (2, 0), (2, 1), (1, 1)), ((2, 0), (3, 0), (3, 1), (2, 1)), ((2, 1), (3, 1), (3, 2), (2, 2)), (1.5, 0.5))
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L_SHAPE = (((0, 0), (1, 0), (1, 1), (0, 1)), ((1, 0), (2, 0), (2, 1), (1, 1)), ((2, 0), (3, 0), (3, 1), (2, 1)), ((0, 1), (1, 1), (1, 2), (0, 2)), (1.5, 0.5))
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O_SHAPE = (((0, 0), (1, 0), (1, 1), (0, 1)), ((1, 0), (2, 0), (2, 1), (1, 1)), ((1, 1), (2, 1), (2, 2), (1, 2)), ((0, 1), (1, 1), (1, 2), (0, 2)), (1, 1))
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S_SHAPE = (((0, 1), (1, 1), (1, 2), (0, 2)), ((1, 0), (2, 0), (2, 1), (1, 1)), ((1, 1), (2, 1), (2, 2), (1, 2)), ((2, 0), (3, 0), (3, 1), (2, 1)), (1.5, 0.5))
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T_SHAPE = (((0, 0), (1, 0), (1, 1), (0, 1)), ((1, 0), (2, 0), (2, 1), (1, 1)), ((1, 1), (2, 1), (2, 2), (1, 2)), ((2, 0), (3, 0), (3, 1), (2, 1)), (1.5, 0.5))
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Z_SHAPE = (((0, 0), (1, 0), (1, 1), (0, 1)), ((1, 0), (2, 0), (2, 1), (1, 1)), ((1, 1), (2, 1), (2, 2), (1, 2)), ((2, 1), (3, 1), (3, 2), (2, 2)), (1.5, 0.5))
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"""
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TODO description
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"""
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class Stack(Entity):
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def __init__(self, color: str, border_color: str):
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super().__init__([], color, border_color)
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self.rows_completed_count = 0
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self.row_completion_sound = mixer.Channel(1)
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def update(self, elapsed_time: int) -> None:
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super().update(elapsed_time)
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self.rows_completed_count += self._complete_rows()
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def add_piece(self, piece: Piece) -> None:
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self.points += piece.points
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# TODO refactor into multiple functions
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def _complete_rows(self) -> int:
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squares_by_row = {}
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for square in self.points:
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top_left_vertex = square[0]
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if top_left_vertex[1] not in squares_by_row:
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squares_by_row[top_left_vertex[1]] = []
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if square not in squares_by_row[top_left_vertex[1]]:
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squares_by_row[top_left_vertex[1]].append(square)
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squares_to_exclude = []
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rows_completed = []
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for key in squares_by_row:
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if len(squares_by_row[key]) == Well.WIDTH:
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squares_to_exclude += squares_by_row[key]
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rows_completed.append(key)
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if len(squares_to_exclude) == 0:
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return 0
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self._play_row_completion_sound()
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tile_size = ConfigurationManager.get("engine", "tile-size")
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new_points = []
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for square in self.points:
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if square not in squares_to_exclude:
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for vertex in square:
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distance_to_move = 0
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for row_completed in rows_completed:
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if vertex[1] <= row_completed:
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distance_to_move += 1
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vertex[1] += tile_size * distance_to_move
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new_points.append(square)
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self.points = new_points
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return len(rows_completed)
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def _play_row_completion_sound(self) -> None:
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row_completion_sound_file = ConfigurationManager.get("sound", "row-completion")
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self.row_completion_sound.play(mixer.Sound(row_completion_sound_file))
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"""
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TODO description
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"""
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class PieceGenerator:
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_bucket = []
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@classmethod
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def get_piece(cls, position: Tuple) -> Piece:
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if len(cls._bucket) == 0:
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cls._generate_bucket()
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base_color, inner_border_color, border_color = cls._get_piece_color()
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return Piece(cls._get_piece_shape(cls._bucket.pop()), position, base_color, inner_border_color, border_color)
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@classmethod
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def _generate_bucket(cls) -> None:
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piece_types = list(range(7))
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while len(cls._bucket) != 7:
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random_number = random.randint(0, 6 - len(cls._bucket))
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cls._bucket.append(piece_types.pop(random_number))
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def _get_piece_shape(piece_number: int) -> Tuple:
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if piece_number == 0:
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return Piece.I_SHAPE
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if piece_number == 1:
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return Piece.J_SHAPE
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if piece_number == 2:
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return Piece.L_SHAPE
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if piece_number == 3:
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return Piece.O_SHAPE
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if piece_number == 4:
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return Piece.S_SHAPE
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if piece_number == 5:
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return Piece.T_SHAPE
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if piece_number == 6:
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return Piece.Z_SHAPE
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return None
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def _get_piece_color() -> Tuple:
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random_number = random.randint(1, 3)
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base_color = ConfigurationManager.get("color", "piece-" + str(random_number))
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inner_border_color = None if random_number != 3 else ConfigurationManager.get("color", "piece-inner-border-1")
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border_color = ConfigurationManager.get("color", "piece-border-1")
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return (base_color, inner_border_color, border_color) |