adrien/TetrArcade
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compare: adrien:0.5
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adrien:master
adrien:0.6 adrien:0.5 adrien:0.4 adrien:0.3 adrien:0.2 adrien:0.1

77 Commits
59b21145f4 ... 0.5

Author SHA1 Message Date
adrien
6135e24eac black formatting 2019-10-08 01:11:51 +02:00
adrien
ee7e6fcdb9 V0.5 Release 
More compliant with Tetris Guidelines
 2019-10-08 01:10:17 +02:00
adrien
e7f3146e9a Improve T-Spin detection 2019-10-08 01:09:51 +02:00
adrien
deba1a2daf improve T-Spin detection 2019-10-08 01:06:36 +02:00
adrien
c5c21c5017 little improvements 2019-10-08 00:23:56 +02:00
adrien
28a8ea0953 fix bugs introduced in previous commit 2019-10-07 23:28:01 +02:00
adrien
5367e77149 Follow Tetris guidelines (to debug...) 2019-10-07 18:15:47 +02:00
Adrien MALINGREY
af005f72ca Mise à jour de 'README.md' 2019-10-07 09:40:50 +02:00
adrien
363a89a590 V0.4 Exploding lines 2019-10-06 23:11:51 +02:00
adrien
f9c1fe4688 remove no longer necessary const 2019-10-06 18:19:14 +02:00
adrien
a0a414db14 particules! 2019-10-06 17:59:27 +02:00
adrien
4522ac1d4b rename refresh update 2019-10-06 13:42:37 +02:00
adrien
e3e05e87d7 replace mp3 by ogg 2019-10-06 12:57:01 +02:00
adrien
82f2b74e68 fix build-requirements.txt 2019-10-06 12:02:59 +02:00
adrien
504ebf8e51 reset held piece's minoes coord 2019-10-06 11:16:08 +02:00
adrien
4452eb821c refresh on update 2019-10-06 11:12:51 +02:00
adrienmalin
e041a8118a refresh ghost on hold 2019-10-06 10:59:31 +02:00
adrienmalin
0db5dd4d0d move up held in next pieces 2019-10-06 10:57:45 +02:00
adrienmalin
fe69557bc6 improve tetrislogic API 2019-10-06 02:43:38 +02:00
adrienmalin
32bf60313c black 2019-10-06 02:43:19 +02:00
adrien
f013a061b2 fix line remove 2019-10-04 18:03:35 +02:00
adrien
f025ad5fd8 change tetrislogic api 2019-10-04 17:48:47 +02:00
adrien
9a7aead918 fix (at last?) music codec warning 2019-10-04 16:15:54 +02:00
adrien
b173b6ff73 Warn on music codec not found 2019-10-04 16:07:40 +02:00
adrien
ddf7ea0f4e Warn on music codec not found 2019-10-04 15:54:06 +02:00
adrien
d308618556 music warning 2019-10-04 12:51:11 +02:00
adrien
9c77096bfb Don't play music if codec not found 2019-10-04 12:24:49 +02:00
adrienmalin
093264c351 enable level choice 2019-10-04 01:23:47 +02:00
adrienmalin
5b3e6ec931 fix setup.py 2019-10-03 21:34:55 +02:00
adrienmalin
0970e1f6df V0.3 Release 
New musics
Piece lock optimize
 2019-10-03 21:33:39 +02:00
adrien
f48f1fc000 redefine consts in TetrArcade.py 2019-10-03 18:14:07 +02:00
adrienmalin
5f137a62ec V0.2 Release 
Music
Soft drop autorepeat delay set to fall delay / 20
 2019-10-03 01:41:21 +02:00
adrienmalin
ec42f17ca7 soft drop autorepeat delay set to fall delay / 20 2019-10-03 01:32:52 +02:00
adrienmalin
0d6386d22b music! 
change API (pieces are attributes of TetrominoContainers)
 2019-10-03 01:26:31 +02:00
adrienmalin
abaeb3be9a v0.1 release 2019-10-02 23:14:41 +02:00
adrien
dff4ae487a setup.py 2019-10-02 17:19:11 +02:00
adrien
5c830fd828 update setup.py info 2019-10-02 16:44:25 +02:00
adrien
a46c07af8b add start menu shortcut for windows installer 2019-10-02 16:39:37 +02:00
adrien
338371f443 fix resize error since texture use 2019-10-02 16:37:39 +02:00
Adrien MALINGREY
a95463438e Add screenshot 2019-10-02 16:22:16 +02:00
adrien
06fe72d8db Merge branch 'master' of https://git.malingrey.fr/adrien/TetrArcade 2019-10-02 15:44:02 +02:00
adrien
4a69c12349 no python2 2019-10-02 14:51:56 +02:00
Adrien MALINGREY
2bd75be892 Arcade require Python 3.6+ 2019-10-02 13:07:30 +02:00
adrien
3015a36984 case insensitive keyboard conf 2019-10-02 12:36:03 +02:00
adrien
7fc342e061 V0.2-dev 2019-10-02 12:35:35 +02:00
adrien
0e68ea4e51 build-requirements.txt 2019-10-02 12:16:41 +02:00
adrien
b95478ea8d use texture, import from, black 2019-10-02 11:54:50 +02:00
adrienmalin
df8257c4da held mino sprite 2019-10-02 09:00:35 +02:00
adrienmalin
0b3dd847d3 exclude Qt from build 2019-10-02 02:29:00 +02:00
adrienmalin
2a7900586c Autorepeat in conf 2019-10-02 02:28:49 +02:00
adrienmalin
be66bada11 fix build 2019-10-02 01:53:11 +02:00
adrienmalin
02e4aa066d improve build 2019-10-02 01:24:52 +02:00
adrienmalin
5b6cfd6512 move ressources 2019-10-02 01:06:58 +02:00
adrienmalin
f1ffb1a7c6 build 2019-10-02 01:06:33 +02:00
adrienmalin
dda475a584 black 2019-10-02 00:57:19 +02:00
adrienmalin
b8e20199af add bg for held and next 2019-10-02 00:01:02 +02:00
adrienmalin
4c44089f41 fix prelock alpha on hold 2019-10-01 22:10:20 +02:00
adrienmalin
f2bbafeb8b improve lock 2019-10-01 21:46:39 +02:00
adrienmalin
54f2554b2a move consts as class variable to permit override 2019-10-01 21:00:46 +02:00
adrienmalin
5f10bd782e fix test errors 2019-10-01 20:03:37 +02:00
adrienmalin
9aa461fe07 add test 2019-10-01 19:58:39 +02:00
adrienmalin
ca0a18a8c5 fix game over text 2019-10-01 19:51:18 +02:00
adrienmalin
ecd2915b12 fix no alpha change on lock 2019-10-01 19:48:29 +02:00
adrien
ab8afe6fdd Use config file 2019-10-01 18:07:08 +02:00
adrien
fa9a323af1 fix alpha prelock on game over 2019-10-01 12:39:44 +02:00
adrien
c2ec677f3f move high score pickle to tetrislogic 2019-10-01 12:36:00 +02:00
adrien
11c6321f17 move pseudo crypt to tetrislogic 2019-10-01 11:55:08 +02:00
adrien
58a7736d53 serialize persistent high score to be less readable 2019-10-01 10:20:05 +02:00
adrienmalin
578f33ae64 pseudo crypt high score 2019-10-01 09:00:51 +02:00
adrienmalin
00e2adf60c restart prelock 2019-10-01 03:20:54 +02:00
adrienmalin
b1cef21f00 fix fullscreen 2019-10-01 03:14:29 +02:00
adrienmalin
2c4808312f typo 2019-10-01 03:10:09 +02:00
adrienmalin
9db4f4d122 text resize 2019-10-01 03:09:54 +02:00
adrienmalin
850aad353e fix swap 2019-10-01 02:40:34 +02:00
adrienmalin
97b687c085 resize 2019-10-01 02:30:26 +02:00
adrienmalin
a654458610 type 2019-10-01 02:30:15 +02:00
adrienmalin
f7a47efecf random choose shape in tetrislogic 2019-10-01 01:40:25 +02:00
27 changed files with 1080 additions and 637 deletions
Expand all files Collapse all files

18
README.md
View File

@ -2,9 +2,11 @@
Tetris clone made with Python and Arcade graphic library Tetris clone made with Python and Arcade graphic library
![Screenshot](https://malingrey.fr/images/fMd4EseZ/VtwJIMyQ.png)
## Requirements ## Requirements
* [Python](https://www.python.org/) * [Python](https://www.python.org/) 3.6 or later
## Install ## Install
@ -19,3 +21,17 @@ python -m pip install -r requirements.txt
```shell ```shell
python tetrarcade.py python tetrarcade.py
``` ```
## Settings
* Windows: Edit `%appdata%\Tetrarcade\TetrArcade.ini`
* Linux: Edit `~/.local/share/Tetrarcade/TetrArcade.ini`
Use key name from [arcade.key package](http://arcade.academy/arcade.key.html).
## Build
```shell
python -m pip install -r build-requirements.txt
python setup.py bdist
```

776
TetrArcade.py
View File

@ -1,141 +1,212 @@
# -*- coding: utf-8 -*- # -*- coding: utf-8 -*-
import sys import sys
import locale import random
import time
import os
try: try:
import arcade import arcade
except ImportError: except ImportError as e:
sys.exit( sys.exit(
"""This game require arcade library. str(e)
+ """
This game require arcade library.
You can install it with: You can install it with:
python -m pip install --user arcade""" python -m pip install --user arcade"""
) )
import pyglet
import tetrislogic import locale
import time
import os
import itertools
import configparser
from tetrislogic import TetrisLogic, Color, Coord, I_Tetrimino, Movement, AbstractTimer
# Constants # Constants
# Matrix
LINES = 20
COLLUMNS = 10
NEXT_PIECES = 6
# Delays (seconds)
LOCK_DELAY = 0.5
FALL_DELAY = 1
AUTOREPEAT_DELAY = 0.300
AUTOREPEAT_PERIOD = 0.010
PARTICULE_ACCELERATION = 1.1
# Piece init coord
MATRIX_PIECE_COORD = Coord(4, LINES)
NEXT_PIECES_COORDS = [Coord(COLLUMNS + 4, LINES - 4 * n) for n in range(NEXT_PIECES)]
HELD_PIECE_COORD = Coord(-5, LINES)
# Window # Window
WINDOW_WIDTH = 800 WINDOW_WIDTH = 800
WINDOW_HEIGHT = 600 WINDOW_HEIGHT = 600
WINDOW_MIN_WIDTH = 517
WINDOW_MIN_HEIGHT = 388
WINDOW_TITLE = "TETRARCADE" WINDOW_TITLE = "TETRARCADE"
MINO_SIZE = 20 BG_COLOR = (7, 11, 21)
# Delays (seconds) # Delays (seconds)
HIGHLIGHT_TEXT_DISPLAY_DELAY = 0.7 HIGHLIGHT_TEXT_DISPLAY_DELAY = 0.7
# Transparency (0=invisible, 255=opaque) # Transparency (0=invisible, 255=opaque)
NORMAL_ALPHA = 200 NORMAL_ALPHA = 255
PRELOCKED_ALPHA = 100 PRELOCKED_ALPHA = 100
GHOST_ALPHA = 30 GHOST_ALPHA = 30
MATRIX_BG_ALPHA = 100 MATRIX_BG_ALPHA = 100
BAR_ALPHA = 75
# Mino size
MINO_SIZE = 20
MINO_SPRITE_SIZE = 21
if getattr(sys, "frozen", False):
# The application is frozen
PROGRAM_DIR = os.path.dirname(sys.executable)
else:
# The application is not frozen
PROGRAM_DIR = os.path.dirname(__file__)
RESOURCES_DIR = os.path.join(PROGRAM_DIR, "resources")
# Sprites # Sprites
WINDOW_BG_PATH = "images/bg.jpg" IMAGES_DIR = os.path.join(RESOURCES_DIR, "images")
MATRIX_SPRITE_PATH = "images/matrix.png" WINDOW_BG_PATH = os.path.join(IMAGES_DIR, "bg.jpg")
MINOES_SPRITES_PATHS = { MATRIX_BG_PATH = os.path.join(IMAGES_DIR, "matrix.png")
"orange": "images/orange_mino.png", MINOES_SPRITES_PATH = os.path.join(IMAGES_DIR, "minoes.png")
"blue": "images/blue_mino.png", Color.LOCKED = 7
"yellow": "images/yellow_mino.png", MINOES_COLOR_ID = {
"cyan": "images/cyan_mino.png", Color.BLUE: 0,
"green": "images/green_mino.png", Color.CYAN: 1,
"red": "images/red_mino.png", Color.GREEN: 2,
"magenta": "images/magenta_mino.png" Color.MAGENTA: 3,
Color.ORANGE: 4,
Color.RED: 5,
Color.YELLOW: 6,
Color.LOCKED: 7,
} }
TEXTURES = arcade.load_textures(
MINOES_SPRITES_PATH,
((i * MINO_SPRITE_SIZE, 0, MINO_SPRITE_SIZE, MINO_SPRITE_SIZE) for i in range(8)),
)
TEXTURES = {color: TEXTURES[i] for color, i in MINOES_COLOR_ID.items()}
# User profile path # Music
if sys.platform == "win32": MUSIC_DIR = os.path.join(RESOURCES_DIR, "musics")
USER_PROFILE_DIR = os.environ.get("appdata", os.path.expanduser("~\Appdata\Roaming")) MUSICS_PATHS = (entry.path for entry in os.scandir(MUSIC_DIR))
else:
USER_PROFILE_DIR = os.environ.get("XDG_DATA_HOME", os.path.expanduser("~/.local/share"))
USER_PROFILE_DIR = os.path.join(USER_PROFILE_DIR, "TetrArcade")
HIGH_SCORE_PATH = os.path.join(USER_PROFILE_DIR, ".high_score")
# Text # Text
TEXT_COLOR = arcade.color.BUBBLES TEXT_COLOR = arcade.color.BUBBLES
FONT_NAME = os.path.join(RESOURCES_DIR, "fonts/joystix monospace.ttf")
STATS_TEXT_MARGIN = 40
STATS_TEXT_SIZE = 14
STATS_TEXT_WIDTH = 150
HIGHLIGHT_TEXT_COLOR = arcade.color.BUBBLES HIGHLIGHT_TEXT_COLOR = arcade.color.BUBBLES
FONT_NAME = "joystix monospace.ttf" HIGHLIGHT_TEXT_SIZE = 20
TEXT_MARGIN = 40
FONT_SIZE = 16
TEXT_HEIGHT = 20.8
HIGHLIGHT_TEXT_FONT_SIZE = 20
CONTROL_TEXT = """ # User profile path
if sys.platform == "win32":
USER_PROFILE_DIR = os.environ.get(
"appdata", os.path.expanduser("~\Appdata\Roaming")
)
else:
USER_PROFILE_DIR = os.environ.get(
"XDG_DATA_HOME", os.path.expanduser("~/.local/share")
)
USER_PROFILE_DIR = os.path.join(USER_PROFILE_DIR, "TetrArcade")
HIGH_SCORE_PATH = os.path.join(USER_PROFILE_DIR, ".high_score")
CONF_PATH = os.path.join(USER_PROFILE_DIR, "config.ini")
CONTROLS class Texture:
MOVE LEFT ← NORMAL = 0
MOVE RIGHT → LOCKED = 1
SOFT DROP ↓
HARD DROP SPACE
ROTATE CLOCKWISE ↑
ROTATE COUNTER Z
HOLD C
PAUSE ESC
""" class State:
START_TEXT = "TETRARCADE" + CONTROL_TEXT + "PRESS [ENTER] TO START"
PAUSE_TEXT = "PAUSE" + CONTROL_TEXT + "PRESS [ESC] TO RESUME"
STATS_TEXT = """SCORE
HIGH SCORE STARTING = 0
PLAYING = 1
PAUSED = 2
OVER = 3
LEVEL
GOAL class Timer(AbstractTimer):
def __init__(self):
self.tasks = {}
LINES def postpone(self, task, delay):
_task = lambda _: task()
self.tasks[task] = _task
pyglet.clock.schedule_once(_task, delay)
TIME def cancel(self, task):
""" try:
GAME_OVER_TEXT = """GAME _task = self.tasks[task]
OVER except KeyError:
pass
else:
arcade.unschedule(_task)
del self.tasks[task]
PRESS def reset(self, task, delay):
[ENTER] try:
TO PLAY _task = self.tasks[task]
AGAIN""" except KeyError:
_task = lambda _: task()
self.tasks[task] = _task
else:
arcade.unschedule(_task)
pyglet.clock.schedule_once(_task, delay)
class MinoSprite(arcade.Sprite): class MinoSprite(arcade.Sprite):
def __init__(self, mino, window, alpha):
def __init__(self, mino, matrix_bg, alpha): super().__init__()
super().__init__(MINOES_SPRITES_PATHS[mino.color])
self.alpha = alpha self.alpha = alpha
self.matrix_bg = matrix_bg self.window = window
self.append_texture(TEXTURES[mino.color])
self.append_texture(TEXTURES[Color.LOCKED])
self.set_texture(0)
def set_position(self, x, y): def update(self, x, y):
self.left = self.matrix_bg.left + x*MINO_SIZE self.scale = self.window.scale
self.bottom = self.matrix_bg.bottom + y*MINO_SIZE size = MINO_SIZE * self.scale
self.left = self.window.matrix.bg.left + x * size
self.bottom = self.window.matrix.bg.bottom + y * size
class TetrominoSprites(arcade.SpriteList): class MinoesSprites(arcade.SpriteList):
def resize(self, scale):
for sprite in self:
sprite.scale = scale
self.update()
def __init__(self, tetromino, matrix_bg, alpha=NORMAL_ALPHA):
class TetrominoSprites(MinoesSprites):
def __init__(self, tetromino, window, alpha=NORMAL_ALPHA):
super().__init__() super().__init__()
self.tetromino = tetromino self.tetromino = tetromino
self.matrix_bg = matrix_bg self.alpha = alpha
for mino in tetromino: for mino in tetromino:
mino.sprite = MinoSprite(mino, matrix_bg, alpha) mino.sprite = MinoSprite(mino, window, alpha)
self.append(mino.sprite) self.append(mino.sprite)
def update(self): def update(self):
for mino in self.tetromino: for mino in self.tetromino:
coord = mino.coord + self.tetromino.coord coord = mino.coord + self.tetromino.coord
mino.sprite.set_position(coord.x, coord.y) mino.sprite.update(coord.x, coord.y)
super().update()
def set_alpha(self, alpha): def set_texture(self, texture):
for sprite in self: for mino in self.tetromino:
sprite.alpha = alpha mino.sprite.set_texture(texture)
self.update()
class MatrixSprites(arcade.SpriteList): class MatrixSprites(MinoesSprites):
def __init__(self, matrix): def __init__(self, matrix):
super().__init__() super().__init__()
self.matrix = matrix self.matrix = matrix
@ -145,270 +216,451 @@ class MatrixSprites(arcade.SpriteList):
for y, line in enumerate(self.matrix): for y, line in enumerate(self.matrix):
for x, mino in enumerate(line): for x, mino in enumerate(line):
if mino: if mino:
mino.sprite.set_position(x, y) mino.sprite.update(x, y)
self.append(mino.sprite)
super().update() def remove_line(self, y):
for mino in self.matrix[y]:
if mino:
self.remove(mino.sprite)
class TetrArcade(tetrislogic.TetrisLogic, arcade.Window): class TetrArcade(TetrisLogic, arcade.Window):
timer = Timer()
def __init__(self): def __init__(self):
locale.setlocale(locale.LC_ALL, '') locale.setlocale(locale.LC_ALL, "")
self.highlight_texts = [] self.highlight_texts = []
self.tasks = {}
self.KEY_MAP = { self.conf = configparser.ConfigParser()
tetrislogic.State.STARTING: { if self.conf.read(CONF_PATH):
arcade.key.ENTER: self.new_game try:
}, self.load_conf()
tetrislogic.State.PLAYING: { except:
arcade.key.LEFT: self.move_left, self.new_conf()
arcade.key.NUM_4: self.move_left, self.load_conf()
arcade.key.RIGHT: self.move_right, else:
arcade.key.NUM_6: self.move_right, self.new_conf()
arcade.key.SPACE: self.hard_drop, self.load_conf()
arcade.key.NUM_8: self.hard_drop,
arcade.key.DOWN: self.soft_drop,
arcade.key.NUM_2: self.soft_drop,
arcade.key.UP: self.rotate_clockwise,
arcade.key.X: self.rotate_clockwise,
arcade.key.NUM_1: self.rotate_clockwise,
arcade.key.NUM_5: self.rotate_clockwise,
arcade.key.NUM_9: self.rotate_clockwise,
arcade.key.Z: self.rotate_counter,
arcade.key.NUM_3: self.rotate_counter,
arcade.key.NUM_7: self.rotate_counter,
arcade.key.C: self.swap,
arcade.key.MOD_SHIFT: self.swap,
arcade.key.NUM_0: self.swap,
arcade.key.ESCAPE: self.pause,
arcade.key.F1: self.pause,
},
tetrislogic.State.PAUSED: {
arcade.key.ESCAPE: self.resume,
arcade.key.F1: self.resume
},
tetrislogic.State.OVER: {
arcade.key.ENTER: self.new_game
}
}
super().__init__()
super().__init__(LINES, COLLUMNS, NEXT_PIECES)
arcade.Window.__init__( arcade.Window.__init__(
self, self,
width = WINDOW_WIDTH, width=self.init_width,
height = WINDOW_HEIGHT, height=self.init_height,
title = WINDOW_TITLE, title=WINDOW_TITLE,
resizable = False, resizable=True,
antialiasing = False antialiasing=False,
fullscreen=self.init_fullscreen,
) )
center_x = WINDOW_WIDTH / 2 arcade.set_background_color(BG_COLOR)
center_y = WINDOW_HEIGHT / 2 self.set_minimum_size(WINDOW_MIN_WIDTH, WINDOW_MIN_HEIGHT)
self.bg = arcade.Sprite(WINDOW_BG_PATH) self.bg = arcade.Sprite(WINDOW_BG_PATH)
self.bg.center_x = center_x self.matrix.bg = arcade.Sprite(MATRIX_BG_PATH)
self.bg.center_y = center_y self.matrix.bg.alpha = MATRIX_BG_ALPHA
self.matrix_bg = arcade.Sprite(MATRIX_SPRITE_PATH)
self.matrix_bg.alpha = MATRIX_BG_ALPHA
self.matrix_bg.center_x = center_x
self.matrix_bg.center_y = center_y
self.matrix_bg.left = int(self.matrix_bg.left)
self.matrix_bg.top = int(self.matrix_bg.top)
self.matrix.sprites = MatrixSprites(self.matrix) self.matrix.sprites = MatrixSprites(self.matrix)
self.stats_text = arcade.create_text( self.on_resize(self.init_width, self.init_height)
text = STATS_TEXT, self.exploding_minoes = [None for y in range(LINES)]
color = TEXT_COLOR,
font_size = FONT_SIZE, if self.play_music:
font_name = FONT_NAME, try:
anchor_x = 'right' self.music = pyglet.media.Player()
playlist = itertools.cycle(
pyglet.media.load(path) for path in MUSICS_PATHS
)
self.music.queue(playlist)
except:
Warning("Can't play music.")
self.music = None
else:
self.music = None
self.state = State.STARTING
def new_conf(self):
self.conf["WINDOW"] = {
"width": WINDOW_WIDTH,
"height": WINDOW_HEIGHT,
"fullscreen": False,
}
self.conf["KEYBOARD"] = {
"start": "ENTER",
"move left": "LEFT",
"move right": "RIGHT",
"soft drop": "DOWN",
"hard drop": "SPACE",
"rotate clockwise": "UP",
"rotate counter": "Z",
"hold": "C",
"pause": "ESCAPE",
"fullscreen": "F11",
}
self.conf["MUSIC"] = {"play": True}
self.conf["AUTO-REPEAT"] = {"delay": 0.3, "period": 0.01}
self.load_conf()
if not os.path.exists(USER_PROFILE_DIR):
os.makedirs(USER_PROFILE_DIR)
with open(CONF_PATH, "w") as f:
self.conf.write(f)
def load_conf(self):
self.init_width = int(self.conf["WINDOW"]["width"])
self.init_height = int(self.conf["WINDOW"]["height"])
self.init_fullscreen = self.conf["WINDOW"].getboolean("fullscreen")
for action, key in self.conf["KEYBOARD"].items():
self.conf["KEYBOARD"][action] = key.upper()
self.key_map = {
State.STARTING: {
getattr(arcade.key, self.conf["KEYBOARD"]["start"]): self.new_game,
getattr(
arcade.key, self.conf["KEYBOARD"]["fullscreen"]
): self.toggle_fullscreen,
},
State.PLAYING: {
getattr(arcade.key, self.conf["KEYBOARD"]["move left"]): self.move_left,
getattr(
arcade.key, self.conf["KEYBOARD"]["move right"]
): self.move_right,
getattr(arcade.key, self.conf["KEYBOARD"]["soft drop"]): self.soft_drop,
getattr(arcade.key, self.conf["KEYBOARD"]["hard drop"]): self.hard_drop,
getattr(
arcade.key, self.conf["KEYBOARD"]["rotate clockwise"]
): self.rotate_clockwise,
getattr(
arcade.key, self.conf["KEYBOARD"]["rotate counter"]
): self.rotate_counter,
getattr(arcade.key, self.conf["KEYBOARD"]["hold"]): self.hold,
getattr(arcade.key, self.conf["KEYBOARD"]["pause"]): self.pause,
getattr(
arcade.key, self.conf["KEYBOARD"]["fullscreen"]
): self.toggle_fullscreen,
},
State.PAUSED: {
getattr(arcade.key, self.conf["KEYBOARD"]["pause"]): self.resume,
getattr(
arcade.key, self.conf["KEYBOARD"]["fullscreen"]
): self.toggle_fullscreen,
},
State.OVER: {
getattr(arcade.key, self.conf["KEYBOARD"]["start"]): self.new_game,
getattr(
arcade.key, self.conf["KEYBOARD"]["fullscreen"]
): self.toggle_fullscreen,
},
}
self.AUTOREPEAT_DELAY = float(self.conf["AUTO-REPEAT"]["delay"])
self.AUTOREPEAT_PERIOD = float(self.conf["AUTO-REPEAT"]["period"])
controls_text = (
"\n\n\nCONTROLS\n\n"
+ "\n".join(
"{:<16s}{:>6s}".format(key, action)
for key, action in tuple(self.conf["KEYBOARD"].items())
+ (("QUIT", "ALT+F4"),)
)
+ "\n\n\n"
)
self.start_text = (
"TETRARCADE"
+ controls_text
+ "PRESS [{}] TO START".format(self.conf["KEYBOARD"]["start"])
)
self.pause_text = (
"PAUSE"
+ controls_text
+ "PRESS [{}] TO RESUME".format(self.conf["KEYBOARD"]["pause"])
)
self.game_over_text = """GAME
OVER
PRESS
[{}]
TO PLAY
AGAIN""".format(
self.conf["KEYBOARD"]["start"]
) )
def new_game(self): self.play_music = self.conf["MUSIC"].getboolean("play")
def on_new_game(self, next_pieces):
self.highlight_texts = [] self.highlight_texts = []
super().new_game()
def new_tetromino(self):
tetromino = super().new_tetromino()
tetromino.sprites = TetrominoSprites(tetromino, self.matrix_bg)
return tetromino
def new_current(self):
self.matrix.sprites = MatrixSprites(self.matrix) self.matrix.sprites = MatrixSprites(self.matrix)
super().new_current() for piece in next_pieces:
self.ghost.sprites = TetrominoSprites(self.ghost, self.matrix_bg, GHOST_ALPHA) piece.sprites = TetrominoSprites(piece, self)
for tetromino in [self.current, self.ghost] + self.next:
tetromino.sprites.update()
def move(self, movement, prelock=True): if self.music:
moved = super().move(movement, prelock) self.music.seek(0)
if self.current.prelocked: self.music.play()
self.current.sprites.set_alpha(PRELOCKED_ALPHA)
if moved:
change_x = movement.x * MINO_SIZE
change_y = movement.y * MINO_SIZE
self.current.sprites.move(change_x, change_y)
if movement in (tetrislogic.Movement.LEFT, tetrislogic.Movement.RIGHT):
self.ghost.sprites.update()
return moved
def rotate(self, rotation): self.state = State.PLAYING
rotated = super().rotate(rotation)
if rotated:
for tetromino in (self.current, self.ghost):
tetromino.sprites.update()
return rotated
def swap(self): def on_new_level(self, level):
super().swap() self.show_text("LEVEL\n{:n}".format(level))
self.ghost = TetrominoSprites(self.ghost, self.matrix_bg, GHOST_ALPHA)
for tetromino in [self.held, self.current, self.ghost]:
if tetromino:
tetromino.sprites.update()
def lock(self): def on_generation_phase(self, matrix, falling_piece, ghost_piece, next_pieces):
self.current.sprites.update() matrix.sprites.update()
super().lock() falling_piece.sprites = TetrominoSprites(falling_piece, self)
ghost_piece.sprites = TetrominoSprites(ghost_piece, self, GHOST_ALPHA)
next_pieces[-1].sprites = TetrominoSprites(next_pieces[-1], self)
for piece, coord in zip(next_pieces, NEXT_PIECES_COORDS):
piece.coord = coord
def on_falling_phase(self, falling_piece):
falling_piece.sprites.set_texture(Texture.NORMAL)
def on_locked(self, falling_piece):
falling_piece.sprites.set_texture(Texture.LOCKED)
def on_locks_down(self, matrix, falling_piece):
falling_piece.sprites.set_texture(Texture.NORMAL)
for mino in falling_piece:
matrix.sprites.append(mino.sprite)
def on_animate_phase(self, matrix, lines_to_remove):
for y in lines_to_remove:
line_textures = tuple(TEXTURES[mino.color] for mino in matrix[y])
self.exploding_minoes[y] = arcade.Emitter(
center_xy=(matrix.bg.left, matrix.bg.bottom + (y + 0.5) * MINO_SIZE),
emit_controller=arcade.EmitBurst(COLLUMNS),
particle_factory=lambda emitter: arcade.LifetimeParticle(
filename_or_texture=random.choice(line_textures),
change_xy=arcade.rand_in_rect(
(-COLLUMNS * MINO_SIZE, -4 * MINO_SIZE),
2 * COLLUMNS * MINO_SIZE,
5 * MINO_SIZE,
),
lifetime=0.2,
center_xy=arcade.rand_on_line((0, 0), (matrix.bg.width, 0)),
scale=self.scale,
alpha=NORMAL_ALPHA,
change_angle=2,
mutation_callback=self.speed_up_particule,
),
)
def speed_up_particule(self, particule):
particule.change_x *= PARTICULE_ACCELERATION
particule.change_y *= PARTICULE_ACCELERATION
def on_eliminate_phase(self, matrix, lines_to_remove):
for y in lines_to_remove:
matrix.sprites.remove_line(y)
def on_completion_phase(self, pattern_name, pattern_score, nb_combo, combo_score):
if pattern_score:
self.show_text("{:s}\n{:n}".format(pattern_name, pattern_score))
if combo_score:
self.show_text("COMBO x{:n}\n{:n}".format(nb_combo, combo_score))
def on_hold(self, held_piece):
held_piece.coord = HELD_PIECE_COORD
if type(held_piece) == I_Tetrimino:
held_piece.coord += Movement.LEFT
def on_pause(self):
self.state = State.PAUSED
if self.music:
self.music.pause()
def resume(self):
if self.music:
self.music.play()
self.state = State.PLAYING
def on_game_over(self):
self.state = State.OVER
if self.music:
self.music.pause()
def on_key_press(self, key, modifiers): def on_key_press(self, key, modifiers):
for key_or_modifier in (key, modifiers): try:
try: action = self.key_map[self.state][key]
action = self.KEY_MAP[self.state][key_or_modifier] except KeyError:
except KeyError: return
pass else:
else: self.do_action(action)
self.do_action(action)
def on_key_release(self, key, modifiers): def on_key_release(self, key, modifiers):
for key_or_modifier in (key, modifiers): try:
try: action = self.key_map[self.state][key]
action = self.KEY_MAP[self.state][key_or_modifier] except KeyError:
except KeyError: return
pass else:
else: self.remove_action(action)
self.remove_action(action)
def show_text(self, text): def show_text(self, text):
self.highlight_texts.append(text) self.highlight_texts.append(text)
self.restart(self.del_highlight_text, HIGHLIGHT_TEXT_DISPLAY_DELAY) self.timer.postpone(self.del_highlight_text, HIGHLIGHT_TEXT_DISPLAY_DELAY)
def del_highlight_text(self): def del_highlight_text(self):
if self.highlight_texts: if self.highlight_texts:
self.highlight_texts.pop(0) self.highlight_texts.pop(0)
else: else:
self.stop(self.del_highlight_text) self.timer.cancel(self.del_highlight_text)
def on_draw(self): def on_draw(self):
arcade.start_render() arcade.start_render()
self.bg.draw() self.bg.draw()
if self.state in (tetrislogic.State.PLAYING, tetrislogic.State.OVER): if self.state not in (State.STARTING, State.PAUSED):
self.matrix_bg.draw() self.matrix.bg.draw()
self.matrix.sprites.draw() self.matrix.sprites.draw()
for tetromino in [self.held, self.current, self.ghost] + self.next: for tetromino in [
self.held.piece,
self.matrix.piece,
self.matrix.ghost,
] + self.next.pieces:
if tetromino: if tetromino:
tetromino.sprites.draw() tetromino.sprites.draw()
arcade.render_text( t = time.localtime(self.stats.time)
self.stats_text, font_size = STATS_TEXT_SIZE * self.scale
self.matrix_bg.left - TEXT_MARGIN, for y, text in enumerate(
self.matrix_bg.bottom ("TIME", "LINES", "GOAL", "LEVEL", "HIGH SCORE", "SCORE")
) ):
t = time.localtime(self.time) arcade.draw_text(
text=text,
start_x=self.matrix.bg.left
- self.scale * (STATS_TEXT_MARGIN + STATS_TEXT_WIDTH),
start_y=self.matrix.bg.bottom + 1.5 * (2 * y + 1) * font_size,
color=TEXT_COLOR,
font_size=font_size,
align="right",
font_name=FONT_NAME,
anchor_x="left",
)
for y, text in enumerate( for y, text in enumerate(
( (
"{:02d}:{:02d}:{:02d}".format(t.tm_hour - 1, t.tm_min, t.tm_sec),
"{:02d}:{:02d}:{:02d}".format( "{:n}".format(self.stats.lines_cleared),
t.tm_hour-1, t.tm_min, t.tm_sec "{:n}".format(self.stats.goal),
), "{:n}".format(self.stats.level),
"{:n}".format(self.nb_lines_cleared), "{:n}".format(self.stats.high_score),
"{:n}".format(self.goal), "{:n}".format(self.stats.score),
"{:n}".format(self.level),
"{:n}".format(self.high_score),
"{:n}".format(self.score)
) )
): ):
arcade.draw_text( arcade.draw_text(
text = text, text=text,
start_x = self.matrix_bg.left - TEXT_MARGIN, start_x=self.matrix.bg.left - STATS_TEXT_MARGIN * self.scale,
start_y = self.matrix_bg.bottom + 2*y*TEXT_HEIGHT, start_y=self.matrix.bg.bottom + 3 * y * font_size,
color = TEXT_COLOR, color=TEXT_COLOR,
font_size = FONT_SIZE, font_size=font_size,
align = 'right', align="right",
font_name = FONT_NAME, font_name=FONT_NAME,
anchor_x = 'right' anchor_x="right",
) )
for exploding_minoes in self.exploding_minoes:
if exploding_minoes:
exploding_minoes.draw()
highlight_text = { highlight_text = {
tetrislogic.State.STARTING: START_TEXT, State.STARTING: self.start_text,
tetrislogic.State.PLAYING: self.highlight_texts[0] if self.highlight_texts else "", State.PLAYING: self.highlight_texts[0] if self.highlight_texts else "",
tetrislogic.State.PAUSED: PAUSE_TEXT, State.PAUSED: self.pause_text,
tetrislogic.State.OVER: GAME_OVER_TEXT State.OVER: self.game_over_text,
}.get(self.state, "") }.get(self.state, "")
if highlight_text: if highlight_text:
arcade.draw_text( arcade.draw_text(
text = highlight_text, text=highlight_text,
start_x = self.matrix_bg.center_x, start_x=self.matrix.bg.center_x,
start_y = self.matrix_bg.center_y, start_y=self.matrix.bg.center_y,
color = HIGHLIGHT_TEXT_COLOR, color=HIGHLIGHT_TEXT_COLOR,
font_size = HIGHLIGHT_TEXT_FONT_SIZE, font_size=HIGHLIGHT_TEXT_SIZE * self.scale,
align = 'center', align="center",
font_name = FONT_NAME, font_name=FONT_NAME,
anchor_x = 'center', anchor_x="center",
anchor_y = 'center' anchor_y="center",
) )
def on_hide(self):
self.pause()
def toggle_fullscreen(self):
self.set_fullscreen(not self.fullscreen)
def on_resize(self, width, height):
super().on_resize(width, height)
center_x = width / 2
center_y = height / 2
self.scale = min(width / WINDOW_WIDTH, height / WINDOW_HEIGHT)
self.bg.scale = max(width / WINDOW_WIDTH, height / WINDOW_HEIGHT)
self.bg.center_x = center_x
self.bg.center_y = center_y
self.matrix.bg.scale = self.scale
self.matrix.bg.center_x = center_x
self.matrix.bg.center_y = center_y
self.matrix.bg.left = int(self.matrix.bg.left)
self.matrix.bg.top = int(self.matrix.bg.top)
self.matrix.sprites.resize(self.scale)
for tetromino in [
self.held.piece,
self.matrix.piece,
self.matrix.ghost,
] + self.next.pieces:
if tetromino:
tetromino.sprites.resize(self.scale)
def load_high_score(self): def load_high_score(self):
try: try:
with open(HIGH_SCORE_PATH, "r") as f: with open(HIGH_SCORE_PATH, "rb") as f:
self.high_score = int(f.read()) crypted_high_score = f.read()
super().load_high_score(crypted_high_score)
except: except:
self.high_score = 0 self.stats.high_score = 0
def save_high_score(self): def save_high_score(self):
try: try:
if not os.path.exists(USER_PROFILE_DIR): if not os.path.exists(USER_PROFILE_DIR):
os.makedirs(USER_PROFILE_DIR) os.makedirs(USER_PROFILE_DIR)
with open(HIGH_SCORE_PATH, mode='w') as f: with open(HIGH_SCORE_PATH, mode="wb") as f:
f.write(str(self.high_score)) crypted_high_score = super().save_high_score()
f.write(crypted_high_score)
except Exception as e: except Exception as e:
sys.exit( sys.exit(
"""High score: {:n} """High score: {:n}
High score could not be saved: High score could not be saved:
""".format(self.high_score) """.format(
self.high_score
)
+ str(e) + str(e)
) )
def start(self, task, period): def update(self, delta_time):
_task = lambda _: task() for piece in [
self.tasks[task] = _task self.held.piece,
arcade.schedule(_task, period) self.matrix.piece,
self.matrix.ghost,
] + self.next.pieces:
if piece:
piece.sprites.update()
for exploding_minoes in self.exploding_minoes:
if exploding_minoes:
exploding_minoes.update()
def stop(self, task): def on_close(self):
try: self.save_high_score()
_task = self.tasks[task] if self.music:
except KeyError: self.music.pause()
pass super().on_close()
else:
arcade.unschedule(_task)
del self.tasks[task]
def restart(self, task, period):
try:
_task = self.tasks[task]
except KeyError:
_task = lambda _: task()
self.tasks[task] = _task
else:
arcade.unschedule(_task)
arcade.schedule(_task, period)
def main(): def main():
tetrarcade = TetrArcade() try:
arcade.run() TetrArcade()
tetrarcade.save_high_score() arcade.run()
except Exception as e:
sys.exit(e)
if __name__ == "__main__": if __name__ == "__main__":
main() main()

2
build-requirements.txt Normal file
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arcade
cx-freeze

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37
setup.py Normal file
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# -*- coding: utf-8 -*-
import sys
from cx_Freeze import setup, Executable
if sys.platform == "win32":
base = "Win32GUI"
icon = "icon.ico"
else:
base = None
icon = None
excludes = ["tkinter", "PyQt4", "PyQt5", "PySide", "PySide2"]
executable = Executable(
script="TetrArcade.py",
icon=icon,
base=base,
shortcutName="TetrArcade",
shortcutDir="DesktopFolder",
)
options = {
"build_exe": {
"packages": ["arcade", "pyglet"],
"excludes": excludes,
"include_files": "resources",
"silent": True,
}
}
setup(
name="TetrArcade",
version="0.5",
description="Tetris clone",
author="AdrienMalin",
executables=[executable],
options=options,
)

36
test.py Normal file
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# -*- coding: utf-8 -*-
from TetrArcade import TetrArcade, MinoSprite, State
from tetrislogic import Mino, Color, Coord
game = TetrArcade()
game.new_game()
for x in range(game.matrix.collumns):
mino = Mino(Color.ORANGE, Coord(x, 0))
mino.sprite = MinoSprite(mino, game, 200)
game.matrix[0][x] = mino
game.matrix.sprites.append(mino.sprite)
game.move_left()
game.pause()
game.resume()
game.move_right()
game.hold()
game.update(0)
game.on_draw()
game.rotate_clockwise()
game.hold()
game.update(0)
game.on_draw()
game.rotate_counter()
for i in range(22):
game.soft_drop()
game.on_draw()
game.lock_phase()
game.hold()
game.update(0)
game.on_draw()
game.matrix.sprites.update()
game.on_draw()
while game.state != State.OVER:
game.hard_drop()
game.on_draw()

18
tetrislogic/__init__.py
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@ -1,5 +1,15 @@
# -*- coding: utf-8 -*- # -*- coding: utf-8 -*-
from .consts import NB_LINES, NB_COLS, NB_NEXT from .consts import LINES, COLLUMNS, NEXT_PIECES
from .utils import Movement, Rotation from .utils import Movement, Spin, Color, Coord
from .tetromino import Mino, Tetromino from .tetromino import (
from .tetrislogic import TetrisLogic, State, Matrix Mino,
Tetromino,
I_Tetrimino,
J_Tetrimino,
L_Tetrimino,
O_Tetrimino,
S_Tetrimino,
T_Tetrimino,
Z_Tetrimino,
)
from .tetrislogic import TetrisLogic, Matrix, AbstractTimer

31
tetrislogic/consts.py
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# -*- coding: utf-8 -*- # -*- coding: utf-8 -*-
from .utils import Coord from .utils import Coord, T_Spin
# Matrix # Matrix
NB_LINES = 20 LINES = 20
NB_COLS = 10 COLLUMNS = 10
NB_NEXT = 5 NEXT_PIECES = 5
# Delays (seconds) # Delays (seconds)
LOCK_DELAY = 0.5 LOCK_DELAY = 0.5
FALL_DELAY = 1 FALL_DELAY = 1
AUTOREPEAT_DELAY = 0.200 # Official : 0.300 AUTOREPEAT_DELAY = 0.300 # Official : 0.300 s
AUTOREPEAT_PERIOD = 0.010 # Official : 0.010 AUTOREPEAT_PERIOD = 0.010 # Official : 0.010 s
# Piece init coord # Piece init coord
CURRENT_COORD = Coord(4, NB_LINES) MATRIX_PIECE_COORD = Coord(4, LINES)
NEXT_COORDS = [
Coord(NB_COLS+6, NB_LINES-4*n-3) # Scores
for n in range(NB_NEXT) LINES_CLEAR_NAME = "LINES_CLEAR_NAME"
] SCORES = (
HELD_COORD = Coord(-7, NB_LINES-3) {LINES_CLEAR_NAME: "", T_Spin.NONE: 0, T_Spin.MINI: 1, T_Spin.T_SPIN: 4},
HELD_I_COORD = Coord(-7, NB_LINES-3) {LINES_CLEAR_NAME: "SINGLE", T_Spin.NONE: 1, T_Spin.MINI: 2, T_Spin.T_SPIN: 8},
{LINES_CLEAR_NAME: "DOUBLE", T_Spin.NONE: 3, T_Spin.T_SPIN: 12},
{LINES_CLEAR_NAME: "TRIPLE", T_Spin.NONE: 5, T_Spin.T_SPIN: 16},
{LINES_CLEAR_NAME: "TETRIS", T_Spin.NONE: 8},
)

701
tetrislogic/tetrislogic.py
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@ -1,116 +1,367 @@
# -*- coding: utf-8 -*- # -*- coding: utf-8 -*-
from .utils import Coord, Movement, Rotation, T_Spin, Line import pickle
from .tetromino import Tetromino, T
from .utils import Coord, Movement, Spin, T_Spin, T_Slot
from .tetromino import Tetromino, T_Tetrimino
from .consts import ( from .consts import (
NB_LINES, NB_COLS, NB_NEXT, LINES,
LOCK_DELAY, FALL_DELAY, COLLUMNS,
AUTOREPEAT_DELAY, AUTOREPEAT_PERIOD, NEXT_PIECES,
CURRENT_COORD, NEXT_COORDS, HELD_COORD, HELD_I_COORD LOCK_DELAY,
FALL_DELAY,
AUTOREPEAT_DELAY,
AUTOREPEAT_PERIOD,
MATRIX_PIECE_COORD,
SCORES,
LINES_CLEAR_NAME,
) )
LINES_CLEAR_NAME = "LINES_CLEAR_NAME" CRYPT_KEY = 987943759387540938469837689379857347598347598379584857934579343
class State: class AbstractTimer:
def postpone(task, delay):
raise Warning("AbstractTimer.postpone is not implemented.")
STARTING = "STARTING" def cancel(self, task):
PLAYING = "PLAYING" raise Warning("AbstractTimer.stop is not implemented.")
PAUSED = "PAUSED"
OVER = "OVER" def reset(self, task, period):
self.timer.cancel(task)
self.timer.postpone(task, period)
class Matrix(list): class PieceContainer:
def __init__(self):
self.piece = None
class HoldQueue(PieceContainer):
pass
class Matrix(list, PieceContainer):
def __init__(self, lines, collumns):
list.__init__(self)
PieceContainer.__init__(self)
self.lines = lines
self.collumns = collumns
self.ghost = None
def reset(self):
self.clear()
for y in range(self.lines + 3):
self.append_new_line()
def append_new_line(self):
self.append([None for x in range(self.collumns)])
def cell_is_free(self, coord): def cell_is_free(self, coord):
return ( return (
0 <= coord.x < NB_COLS 0 <= coord.x < self.collumns and 0 <= coord.y and not self[coord.y][coord.x]
and 0 <= coord.y )
and not self[coord.y][coord.x]
def space_to_move(self, potential_coord, minoes_coord):
return all(
self.cell_is_free(potential_coord + mino_coord)
for mino_coord in minoes_coord
)
def space_to_fall(self):
return self.space_to_move(
self.piece.coord + Movement.DOWN, (mino.coord for mino in self.piece)
) )
class TetrisLogic(): class NextQueue(PieceContainer):
def __init__(self, nb_pieces):
super().__init__()
self.nb_pieces = nb_pieces
self.pieces = []
def __init__(self):
self.load_high_score()
self.state = State.STARTING
self.matrix = Matrix()
self.next = []
self.current = None
self.ghost = None
self.held = None
self.time = 0
self.autorepeatable_actions = (self.move_left, self.move_right, self.soft_drop)
self.pressed_actions = []
self._score = 0
def get_score(self): class Stats:
def _get_score(self):
return self._score return self._score
def set_score(self, new_score): def _set_score(self, new_score):
self._score = new_score self._score = new_score
if self._score > self.high_score: if self._score > self.high_score:
self.high_score = self._score self.high_score = self._score
score = property(get_score, set_score) score = property(_get_score, _set_score)
def new_game(self): def __init__(self):
self.level = 0 self._score = 0
self.score = 0 self.high_score = 0
self.nb_lines_cleared = 0
self.goal = 0
self.time = 0 self.time = 0
self.pressed_actions = [] def new_game(self, level):
self.auto_repeat = False self.level = level - 1
self.score = 0
self.lines_cleared = 0
self.goal = 0
self.time = 0
self.combo = -1
self.lock_delay = LOCK_DELAY self.lock_delay = LOCK_DELAY
self.fall_delay = FALL_DELAY self.fall_delay = FALL_DELAY
self.matrix.clear()
for y in range(NB_LINES+3):
self.append_new_line_to_matrix()
self.next = [self.new_tetromino() for n in range(NB_NEXT)]
self.held = None
self.state = State.PLAYING
self.start(self.update_time, 1)
self.new_level()
def new_tetromino(self):
return Tetromino()
def append_new_line_to_matrix(self):
self.matrix.append(Line(None for x in range(NB_COLS)))
def new_level(self): def new_level(self):
self.level += 1 self.level += 1
self.goal += 5 * self.level self.goal += 5 * self.level
if self.level <= 20: if self.level <= 20:
self.fall_delay = pow(0.8 - ((self.level-1)*0.007), self.level-1) self.fall_delay = pow(0.8 - ((self.level - 1) * 0.007), self.level - 1)
if self.level > 15: if self.level > 15:
self.lock_delay = 0.5 * pow(0.9, self.level-15) self.lock_delay = 0.5 * pow(0.9, self.level - 15)
self.show_text("LEVEL\n{:n}".format(self.level))
self.restart(self.fall, self.fall_delay)
self.new_current() def update_time(self):
self.time += 1
def new_current(self): def locks_down(self, t_spin, lines_cleared):
self.current = self.next.pop(0) pattern_name = []
self.current.coord = CURRENT_COORD pattern_score = 0
self.ghost = self.current.ghost() combo_score = 0
self.move_ghost()
self.next.append(self.new_tetromino())
self.next[-1].coord = NEXT_COORDS[-1]
for tetromino, coord in zip (self.next, NEXT_COORDS):
tetromino.coord = coord
if not self.can_move( if t_spin:
self.current.coord, pattern_name.append(t_spin)
(mino.coord for mino in self.current) if lines_cleared:
pattern_name.append(SCORES[lines_cleared][LINES_CLEAR_NAME])
self.combo += 1
else:
self.combo = -1
if lines_cleared or t_spin:
pattern_score = SCORES[lines_cleared][t_spin]
self.goal -= pattern_score
pattern_score *= 100 * self.level
pattern_name = "\n".join(pattern_name)
if self.combo >= 1:
combo_score = (20 if lines_cleared == 1 else 50) * self.combo * self.level
self.score += pattern_score + combo_score
return pattern_name, pattern_score, self.combo, combo_score
class TetrisLogic:
# These class attributes can be redefined on inheritance
AUTOREPEAT_DELAY = AUTOREPEAT_DELAY
AUTOREPEAT_PERIOD = AUTOREPEAT_PERIOD
MATRIX_PIECE_COORD = MATRIX_PIECE_COORD
timer = AbstractTimer()
def __init__(self, lines=LINES, collumns=COLLUMNS, next_pieces=NEXT_PIECES):
self.stats = Stats()
self.load_high_score()
self.held = HoldQueue()
self.matrix = Matrix(lines, collumns)
self.next = NextQueue(next_pieces)
self.autorepeatable_actions = (self.move_left, self.move_right, self.soft_drop)
self.pressed_actions = []
def new_game(self, level=1):
self.stats.new_game(level)
self.pressed_actions = []
self.matrix.reset()
self.next.pieces = [Tetromino() for n in range(self.next.nb_pieces)]
self.held.piece = None
self.timer.postpone(self.stats.update_time, 1)
self.on_new_game(self.next.pieces)
self.new_level()
def on_new_game(self, next_pieces):
pass
def new_level(self):
self.stats.new_level()
self.on_new_level(self.stats.level)
self.generation_phase()
def on_new_level(self, level):
pass
# Tetris Engine
def generation_phase(self, held_piece=None):
if not held_piece:
self.matrix.piece = self.next.pieces.pop(0)
self.next.pieces.append(Tetromino())
self.matrix.piece.coord = self.MATRIX_PIECE_COORD
self.matrix.ghost = self.matrix.piece.ghost()
self.refresh_ghost()
# if self.pressed_actions:
# self.timer.postpone(self.repeat_action, self.AUTOREPEAT_DELAY)
self.on_generation_phase(
self.matrix, self.matrix.piece, self.matrix.ghost, self.next.pieces
)
if self.move(Movement.DOWN):
self.falling_phase()
else:
self.game_over()
def refresh_ghost(self):
self.matrix.ghost.coord = self.matrix.piece.coord
for ghost_mino, current_mino in zip(self.matrix.ghost, self.matrix.piece):
ghost_mino.coord = current_mino.coord
while self.matrix.space_to_move(
self.matrix.ghost.coord + Movement.DOWN,
(mino.coord for mino in self.matrix.ghost),
):
self.matrix.ghost.coord += Movement.DOWN
def on_generation_phase(self, matrix, falling_piece, ghost_piece, next_pieces):
pass
def falling_phase(self):
self.timer.cancel(self.lock_phase)
self.timer.cancel(self.locks_down)
self.matrix.piece.locked = False
self.timer.postpone(self.lock_phase, self.stats.fall_delay)
self.on_falling_phase(self.matrix.piece)
def on_falling_phase(self, falling_piece):
pass
def lock_phase(self):
self.move(Movement.DOWN)
def on_locked(self, falling_piece):
pass
def move(self, movement, rotated_coords=None, lock=True):
potential_coord = self.matrix.piece.coord + movement
potential_minoes_coords = rotated_coords or (
mino.coord for mino in self.matrix.piece
)
if self.matrix.space_to_move(potential_coord, potential_minoes_coords):
self.matrix.piece.coord = potential_coord
if rotated_coords:
for mino, coord in zip(self.matrix.piece, rotated_coords):
mino.coord = coord
self.refresh_ghost()
if movement != Movement.DOWN:
self.matrix.piece.rotated_last = False
if self.matrix.space_to_fall():
self.falling_phase()
else:
self.matrix.piece.locked = True
self.on_locked(self.matrix.piece)
self.timer.reset(self.locks_down, self.stats.lock_delay)
return True
else:
return False
def rotate(self, spin):
rotated_coords = tuple(
Coord(spin * mino.coord.y, -spin * mino.coord.x)
for mino in self.matrix.piece
)
for rotation_point, liberty_degree in enumerate(
self.matrix.piece.SRS[spin][self.matrix.piece.orientation], start=1
):
if self.move(liberty_degree, rotated_coords, lock=False):
self.matrix.piece.orientation = (
self.matrix.piece.orientation + spin
) % 4
self.matrix.piece.rotated_last = True
if rotation_point == 5:
self.matrix.piece.rotation_point_5_used = True
return True
else:
return False
def locks_down(self):
# self.timer.cancel(self.repeat_action)
self.timer.cancel(self.lock_phase)
# Game over
if all(
(mino.coord + self.matrix.piece.coord).y >= self.matrix.lines
for mino in self.matrix.piece
): ):
self.game_over() self.game_over()
return
for mino in self.matrix.piece:
coord = mino.coord + self.matrix.piece.coord
if coord.y <= self.matrix.lines + 3:
self.matrix[coord.y][coord.x] = mino
self.on_locks_down(self.matrix, self.matrix.piece)
# Pattern phase
# T-Spin
if type(self.matrix.piece) == T_Tetrimino and self.matrix.piece.rotated_last:
a = self.is_t_slot(T_Slot.A)
b = self.is_t_slot(T_Slot.B)
c = self.is_t_slot(T_Slot.C)
d = self.is_t_slot(T_Slot.D)
if a and b and (c or d):
t_spin = T_Spin.T_SPIN
elif c and d and (a or b):
if self.matrix.piece.rotation_point_5_used:
t_spin = T_Spin.T_SPIN
else:
t_spin = T_Spin.MINI
else:
t_spin = T_Spin.NONE
else:
t_spin = T_Spin.NONE
# Clear complete lines
self.lines_to_remove = []
for y, line in reversed(list(enumerate(self.matrix))):
if all(mino for mino in line):
self.lines_to_remove.append(y)
lines_cleared = len(self.lines_to_remove)
if lines_cleared:
self.stats.lines_cleared += lines_cleared
# Animate phase
self.on_animate_phase(self.matrix, self.lines_to_remove)
# Eliminate phase
self.on_eliminate_phase(self.matrix, self.lines_to_remove)
for y in self.lines_to_remove:
self.matrix.pop(y)
self.matrix.append_new_line()
# Completion phase
pattern_name, pattern_score, nb_combo, combo_score = self.stats.locks_down(
t_spin, lines_cleared
)
self.on_completion_phase(pattern_name, pattern_score, nb_combo, combo_score)
if self.stats.goal <= 0:
self.new_level()
else:
self.generation_phase()
def on_locks_down(self, matrix, falling_piece):
pass
def on_animate_phase(self, matrix, lines_to_remove):
pass
def on_eliminate_phase(self, matrix, lines_to_remove):
pass
def on_completion_phase(self, pattern_name, pattern_score, nb_combo, combo_score):
pass
# Actions
def move_left(self): def move_left(self):
self.move(Movement.LEFT) self.move(Movement.LEFT)
@ -119,263 +370,98 @@ class TetrisLogic():
self.move(Movement.RIGHT) self.move(Movement.RIGHT)
def rotate_clockwise(self): def rotate_clockwise(self):
self.rotate(Rotation.CLOCKWISE) self.rotate(Spin.CLOCKWISE)
def rotate_counter(self): def rotate_counter(self):
self.rotate(Rotation.COUNTER) self.rotate(Spin.COUNTER)
def move_ghost(self):
self.ghost.coord = self.current.coord
for ghost_mino, current_mino in zip(self.ghost, self.current):
ghost_mino.coord = current_mino.coord
while self.can_move(
self.ghost.coord + Movement.DOWN,
(mino.coord for mino in self.ghost)
):
self.ghost.coord += Movement.DOWN
def soft_drop(self): def soft_drop(self):
moved = self.move(Movement.DOWN) moved = self.move(Movement.DOWN)
if moved: if moved:
self.score += 1 self.stats.score += 1
return moved return moved
def hard_drop(self): def hard_drop(self):
while self.move(Movement.DOWN, prelock=False): self.timer.cancel(self.lock_phase)
self.score += 2 self.timer.cancel(self.locks_down)
self.lock() while self.move(Movement.DOWN, lock=False):
self.stats.score += 2
self.locks_down()
def fall(self): def hold(self):
self.move(Movement.DOWN) if not self.matrix.piece.hold_enabled:
def move(self, movement, prelock=True):
potential_coord = self.current.coord + movement
if self.can_move(
potential_coord,
(mino.coord for mino in self.current)
):
if self.current.prelocked:
self.restart(self.lock, self.lock_delay)
self.current.coord = potential_coord
if not movement == Movement.DOWN:
self.current.last_rotation_point = None
self.move_ghost()
return True
else:
if (
prelock and not self.current.prelocked
and movement == Movement.DOWN
):
self.current.prelocked = True
self.start(self.lock, self.lock_delay)
return False
def rotate(self, rotation):
rotated_coords = tuple(
Coord(rotation*mino.coord.y, -rotation*mino.coord.x)
for mino in self.current
)
for rotation_point, liberty_degree in enumerate(
self.current.SRS[rotation][self.current.orientation],
start = 1
):
potential_coord = self.current.coord + liberty_degree
if self.can_move(potential_coord, rotated_coords):
if self.current.prelocked:
self.restart(self.lock, self.lock_delay)
self.current.coord = potential_coord
for mino, coord in zip(self.current, rotated_coords):
mino.coord = coord
self.current.orientation = (
(self.current.orientation + rotation) % 4
)
self.current.last_rotation_point = rotation_point
self.move_ghost()
return True
else:
return False
SCORES = (
{LINES_CLEAR_NAME: "", T_Spin.NONE: 0, T_Spin.MINI: 1, T_Spin.T_SPIN: 4},
{LINES_CLEAR_NAME: "SINGLE", T_Spin.NONE: 1, T_Spin.MINI: 2, T_Spin.T_SPIN: 8},
{LINES_CLEAR_NAME: "DOUBLE", T_Spin.NONE: 3, T_Spin.T_SPIN: 12},
{LINES_CLEAR_NAME: "TRIPLE", T_Spin.NONE: 5, T_Spin.T_SPIN: 16},
{LINES_CLEAR_NAME: "TETRIS", T_Spin.NONE: 8}
)
def lock(self):
# Piece unlocked
if self.can_move(
self.current.coord + Movement.DOWN,
(mino.coord for mino in self.current)
):
return return
# Start lock self.matrix.piece.hold_enabled = False
self.current.prelocked = False self.timer.cancel(self.lock_phase)
self.stop(self.lock) self.matrix.piece, self.held.piece = self.held.piece, self.matrix.piece
if self.pressed_actions:
self.auto_repeat = False
self.restart(self.repeat_action, AUTOREPEAT_DELAY)
# Game over for mino, coord in zip(self.held.piece, self.held.piece.MINOES_COORDS):
if all( mino.coord = coord
(mino.coord + self.current.coord).y >= NB_LINES
for mino in self.current
):
self.game_over()
return
# T-Spin self.on_hold(self.held.piece)
if ( self.generation_phase(self.matrix.piece)
type(self.current) == T
and self.current.last_rotation_point is not None
):
a = self.is_t_slot(0)
b = self.is_t_slot(1)
c = self.is_t_slot(3)
d = self.is_t_slot(2)
if self.current.last_rotation_point == 5 or (
a and b and (c or d)
):
t_spin = T_Spin.T_SPIN
elif c and d and (a or b):
t_spin = T_Spin.MINI
else:
t_spin = T_Spin.NONE
else:
t_spin = T_Spin.NONE
for mino in self.current: def on_hold(self, held_piece):
coord = mino.coord + self.current.coord pass
del(mino.coord)
if coord.y <= NB_LINES+3:
self.matrix[coord.y][coord.x] = mino
# Clear complete lines T_SLOT_COORDS = (Coord(-1, 1), Coord(1, 1), Coord(-1, 1), Coord(-1, -1))
nb_lines_cleared = 0
for y, line in reversed(list(enumerate(self.matrix))):
if all(mino for mino in line):
nb_lines_cleared += 1
self.matrix.pop(y)
self.append_new_line_to_matrix()
if nb_lines_cleared:
self.nb_lines_cleared += nb_lines_cleared
# Scoring
lock_strings = []
lock_score = 0
if t_spin:
lock_strings.append(t_spin)
if nb_lines_cleared:
lock_strings.append(self.SCORES[nb_lines_cleared][LINES_CLEAR_NAME])
self.combo += 1
else:
self.combo = -1
if nb_lines_cleared or t_spin:
ds = self.SCORES[nb_lines_cleared][t_spin]
self.goal -= ds
ds *= 100 * self.level
lock_score += ds
lock_strings.append(str(ds))
self.show_text("\n".join(lock_strings))
if self.combo >= 1:
ds = (20 if nb_lines_cleared==1 else 50) * self.combo * self.level
lock_score += ds
self.show_text("COMBO x{:n}\n{:n}".format(self.combo, ds))
self.score += lock_score
if self.goal <= 0:
self.new_level()
else:
self.new_current()
def can_move(self, potential_coord, minoes_coords):
return all(
self.matrix.cell_is_free(potential_coord+mino_coord)
for mino_coord in minoes_coords
)
T_SLOT_COORDS = (
Coord(-1, 1),
Coord( 1, 1),
Coord(-1, 1),
Coord(-1, -1)
)
def is_t_slot(self, n): def is_t_slot(self, n):
t_slot_coord = self.current.coord + self.T_SLOT_COORDS[ t_slot_coord = (
(self.current.orientation + n) % 4 self.matrix.piece.coord
] + self.T_SLOT_COORDS[(self.matrix.piece.orientation + n) % 4]
)
return not self.matrix.cell_is_free(t_slot_coord) return not self.matrix.cell_is_free(t_slot_coord)
def swap(self):
if self.current.hold_enabled:
self.current.hold_enabled = False
self.current.prelocked = False
self.stop(self.lock)
self.current, self.held = self.held, self.current
if self.held.__class__ == Tetromino.I:
self.held.coord = HELD_I_COORD
else:
self.held.coord = HELD_COORD
for mino, coord in zip(self.held, self.held.MINOES_COORDS):
mino.coord = coord
if self.current:
self.current.coord = CURRENT_COORD
self.ghost = self.current.ghost()
self.move_ghost()
else:
self.new_current()
def pause(self): def pause(self):
self.state = State.PAUSED
self.stop_all() self.stop_all()
self.pressed_actions = [] self.pressed_actions = []
self.auto_repeat = False self.timer.cancel(self.repeat_action)
self.stop(self.repeat_action) self.on_pause()
def on_pause(self):
pass
def resume(self): def resume(self):
self.state = State.PLAYING self.timer.postpone(self.lock_phase, self.stats.fall_delay)
self.start(self.fall, self.fall_delay) if self.matrix.piece.locked:
if self.current.prelocked: self.timer.postpone(self.locks_down, self.stats.lock_delay)
self.start(self.lock, self.lock_delay) self.timer.postpone(self.stats.update_time, 1)
self.start(self.update_time, 1) self.on_resume()
def on_resume(self):
pass
def game_over(self): def game_over(self):
self.state = State.OVER
self.stop_all() self.stop_all()
self.save_high_score() self.save_high_score()
self.on_game_over()
def on_game_over(self):
pass
def stop_all(self): def stop_all(self):
self.stop(self.fall) self.timer.cancel(self.lock_phase)
self.stop(self.lock) self.timer.cancel(self.locks_down)
self.stop(self.update_time) self.timer.cancel(self.stats.update_time)
def update_time(self):
self.time += 1
def do_action(self, action): def do_action(self, action):
action() action()
if action in self.autorepeatable_actions: if action in self.autorepeatable_actions:
self.auto_repeat = False
self.pressed_actions.append(action) self.pressed_actions.append(action)
self.restart(self.repeat_action, AUTOREPEAT_DELAY) if action == self.soft_drop:
delay = self.stats.fall_delay / 20
else:
delay = self.AUTOREPEAT_DELAY
self.timer.reset(self.repeat_action, delay)
def repeat_action(self): def repeat_action(self):
if self.pressed_actions: if not self.pressed_actions:
self.pressed_actions[-1]() return
if not self.auto_repeat:
self.auto_repeat = True self.pressed_actions[-1]()
self.restart(self.repeat_action, AUTOREPEAT_PERIOD) self.timer.postpone(self.repeat_action, self.AUTOREPEAT_PERIOD)
else:
self.auto_repeat = False
self.stop(self.repeat_action)
def remove_action(self, action): def remove_action(self, action):
if action in self.autorepeatable_actions: if action in self.autorepeatable_actions:
@ -388,27 +474,18 @@ class TetrisLogic():
print(text) print(text)
raise Warning("TetrisLogic.show_text not implemented.") raise Warning("TetrisLogic.show_text not implemented.")
def load_high_score(self): def load_high_score(self, crypted_high_score=None):
self.high_score = 0 if crypted_high_score:
raise Warning( crypted_high_score = int(pickle.loads(crypted_high_score))
"""TetrisLogic.load_high_score not implemented. self.stats.high_score = crypted_high_score ^ CRYPT_KEY
else:
raise Warning(
"""TetrisLogic.load_high_score not implemented.
High score is set to 0""" High score is set to 0"""
) )
self.stats.high_score = 0
def save_high_score(self): def save_high_score(self):
print("High score: {:n}".format(self.high_score)) crypted_high_score = self.stats.high_score ^ CRYPT_KEY
raise Warning( crypted_high_score = pickle.dumps(crypted_high_score)
"""TetrisLogic.save_high_score not implemented. return crypted_high_score
High score is not saved"""
)
def start(task, period):
raise Warning("TetrisLogic.start is not implemented.")
def stop(self, task):
raise Warning("TetrisLogic.stop is not implemented.")
def restart(self, task, period):
self.stop(task)
self.start(task, period)

59
tetrislogic/tetromino.py
View File

@ -1,17 +1,16 @@
# -*- coding: utf-8 -*- # -*- coding: utf-8 -*-
import random import random
from .utils import Coord, Rotation from .utils import Coord, Spin, Color
class Mino: class Mino:
def __init__(self, color, coord): def __init__(self, color, coord):
self.color = color self.color = color
self.coord = coord self.coord = coord
class MetaTetromino(type): class MetaTetromino(type):
def __init__(cls, name, bases, dct): def __init__(cls, name, bases, dct):
super().__init__(name, bases, dct) super().__init__(name, bases, dct)
Tetromino.shapes.append(cls) Tetromino.shapes.append(cls)
@ -29,17 +28,17 @@ class Tetromino:
return cls.random_bag.pop()() return cls.random_bag.pop()()
class AbstractTetromino(list): class TetrominoBase(list):
# Super rotation system # Super rotation system
SRS = { SRS = {
Rotation.CLOCKWISE: ( Spin.CLOCKWISE: (
(Coord(0, 0), Coord(-1, 0), Coord(-1, 1), Coord(0, -2), Coord(-1, -2)), (Coord(0, 0), Coord(-1, 0), Coord(-1, 1), Coord(0, -2), Coord(-1, -2)),
(Coord(0, 0), Coord(1, 0), Coord(1, -1), Coord(0, 2), Coord(1, 2)), (Coord(0, 0), Coord(1, 0), Coord(1, -1), Coord(0, 2), Coord(1, 2)),
(Coord(0, 0), Coord(1, 0), Coord(1, 1), Coord(0, -2), Coord(1, -2)), (Coord(0, 0), Coord(1, 0), Coord(1, 1), Coord(0, -2), Coord(1, -2)),
(Coord(0, 0), Coord(-1, 0), Coord(-1, -1), Coord(0, -2), Coord(-1, 2)), (Coord(0, 0), Coord(-1, 0), Coord(-1, -1), Coord(0, -2), Coord(-1, 2)),
), ),
Rotation.COUNTER: ( Spin.COUNTER: (
(Coord(0, 0), Coord(1, 0), Coord(1, 1), Coord(0, -2), Coord(1, -2)), (Coord(0, 0), Coord(1, 0), Coord(1, 1), Coord(0, -2), Coord(1, -2)),
(Coord(0, 0), Coord(1, 0), Coord(1, -1), Coord(0, 2), Coord(1, 2)), (Coord(0, 0), Coord(1, 0), Coord(1, -1), Coord(0, 2), Coord(1, 2)),
(Coord(0, 0), Coord(-1, 0), Coord(-1, 1), Coord(0, -2), Coord(-1, -2)), (Coord(0, 0), Coord(-1, 0), Coord(-1, 1), Coord(0, -2), Coord(-1, -2)),
@ -48,41 +47,39 @@ class AbstractTetromino(list):
} }
def __init__(self): def __init__(self):
super().__init__( super().__init__(Mino(self.MINOES_COLOR, coord) for coord in self.MINOES_COORDS)
Mino(self.MINOES_COLOR, coord)
for coord in self.MINOES_COORDS
)
self.orientation = 0 self.orientation = 0
self.last_rotation_point = None self.rotated_last = False
self.rotation_point_5_used = False
self.hold_enabled = True self.hold_enabled = True
self.prelocked = False
def ghost(self): def ghost(self):
return self.__class__() return type(self)()
class O(AbstractTetromino, metaclass=MetaTetromino):
class O_Tetrimino(TetrominoBase, metaclass=MetaTetromino):
SRS = { SRS = {
Rotation.CLOCKWISE: (tuple(), tuple(), tuple(), tuple()), Spin.CLOCKWISE: (tuple(), tuple(), tuple(), tuple()),
Rotation.COUNTER: (tuple(), tuple(), tuple(), tuple()), Spin.COUNTER: (tuple(), tuple(), tuple(), tuple()),
} }
MINOES_COORDS = (Coord(0, 0), Coord(1, 0), Coord(0, 1), Coord(1, 1)) MINOES_COORDS = (Coord(0, 0), Coord(1, 0), Coord(0, 1), Coord(1, 1))
MINOES_COLOR = "yellow" MINOES_COLOR = Color.YELLOW
def rotate(self, direction): def rotate(self, direction):
return False return False
class I(AbstractTetromino, metaclass=MetaTetromino): class I_Tetrimino(TetrominoBase, metaclass=MetaTetromino):
SRS = { SRS = {
Rotation.CLOCKWISE: ( Spin.CLOCKWISE: (
(Coord(1, 0), Coord(-1, 0), Coord(2, 0), Coord(-1, -1), Coord(2, 2)), (Coord(1, 0), Coord(-1, 0), Coord(2, 0), Coord(-1, -1), Coord(2, 2)),
(Coord(0, -1), Coord(-1, -1), Coord(2, -1), Coord(-1, 1), Coord(2, -2)), (Coord(0, -1), Coord(-1, -1), Coord(2, -1), Coord(-1, 1), Coord(2, -2)),
(Coord(-1, 0), Coord(1, 0), Coord(-2, 0), Coord(1, 1), Coord(-2, -2)), (Coord(-1, 0), Coord(1, 0), Coord(-2, 0), Coord(1, 1), Coord(-2, -2)),
(Coord(0, -1), Coord(1, 1), Coord(-2, 1), Coord(1, -1), Coord(-2, 2)), (Coord(0, -1), Coord(1, 1), Coord(-2, 1), Coord(1, -1), Coord(-2, 2)),
), ),
Rotation.COUNTER: ( Spin.COUNTER: (
(Coord(0, -1), Coord(-1, -1), Coord(2, -1), Coord(-1, 1), Coord(2, -2)), (Coord(0, -1), Coord(-1, -1), Coord(2, -1), Coord(-1, 1), Coord(2, -2)),
(Coord(-1, 0), Coord(1, 0), Coord(-2, 0), Coord(1, 1), Coord(-2, -2)), (Coord(-1, 0), Coord(1, 0), Coord(-2, 0), Coord(1, 1), Coord(-2, -2)),
(Coord(0, 1), Coord(1, 1), Coord(-2, 1), Coord(1, -1), Coord(-2, 2)), (Coord(0, 1), Coord(1, 1), Coord(-2, 1), Coord(1, -1), Coord(-2, 2)),
@ -90,34 +87,34 @@ class I(AbstractTetromino, metaclass=MetaTetromino):
), ),
} }
MINOES_COORDS = (Coord(-1, 0), Coord(0, 0), Coord(1, 0), Coord(2, 0)) MINOES_COORDS = (Coord(-1, 0), Coord(0, 0), Coord(1, 0), Coord(2, 0))
MINOES_COLOR = "cyan" MINOES_COLOR = Color.CYAN
class T(AbstractTetromino, metaclass=MetaTetromino): class T_Tetrimino(TetrominoBase, metaclass=MetaTetromino):
MINOES_COORDS = (Coord(-1, 0), Coord(0, 0), Coord(0, 1), Coord(1, 0)) MINOES_COORDS = (Coord(-1, 0), Coord(0, 0), Coord(0, 1), Coord(1, 0))
MINOES_COLOR = "magenta" MINOES_COLOR = Color.MAGENTA
class L(AbstractTetromino, metaclass=MetaTetromino): class L_Tetrimino(TetrominoBase, metaclass=MetaTetromino):
MINOES_COORDS = (Coord(-1, 0), Coord(0, 0), Coord(1, 0), Coord(1, 1)) MINOES_COORDS = (Coord(-1, 0), Coord(0, 0), Coord(1, 0), Coord(1, 1))
MINOES_COLOR = "orange" MINOES_COLOR = Color.ORANGE
class J(AbstractTetromino, metaclass=MetaTetromino): class J_Tetrimino(TetrominoBase, metaclass=MetaTetromino):
MINOES_COORDS = (Coord(-1, 1), Coord(-1, 0), Coord(0, 0), Coord(1, 0)) MINOES_COORDS = (Coord(-1, 1), Coord(-1, 0), Coord(0, 0), Coord(1, 0))
MINOES_COLOR = "blue" MINOES_COLOR = Color.BLUE
class S(AbstractTetromino, metaclass=MetaTetromino): class S_Tetrimino(TetrominoBase, metaclass=MetaTetromino):
MINOES_COORDS = (Coord(-1, 0), Coord(0, 0), Coord(0, 1), Coord(1, 1)) MINOES_COORDS = (Coord(-1, 0), Coord(0, 0), Coord(0, 1), Coord(1, 1))
MINOES_COLOR = "green" MINOES_COLOR = Color.GREEN
class Z(AbstractTetromino, metaclass=MetaTetromino): class Z_Tetrimino(TetrominoBase, metaclass=MetaTetromino):
MINOES_COORDS = (Coord(-1, 1), Coord(0, 1), Coord(0, 0), Coord(1, 0)) MINOES_COORDS = (Coord(-1, 1), Coord(0, 1), Coord(0, 0), Coord(1, 0))
MINOES_COLOR = "red" MINOES_COLOR = Color.RED

37
tetrislogic/utils.py
View File

@ -1,34 +1,47 @@
# -*- coding: utf-8 -*- # -*- coding: utf-8 -*-
class Coord: class Coord:
def __init__(self, x, y): def __init__(self, x, y):
self.x = x self.x = x
self.y = y self.y = y
def __add__(self, other): def __add__(self, other):
return Coord(self.x+other.x, self.y+other.y) return Coord(self.x + other.x, self.y + other.y)
class Movement: class Movement:
LEFT = Coord(-1, 0) LEFT = Coord(-1, 0)
RIGHT = Coord( 1, 0) RIGHT = Coord(1, 0)
DOWN = Coord( 0, -1) DOWN = Coord(0, -1)
class Rotation: class Spin:
CLOCKWISE = 1 CLOCKWISE = 1
COUNTER = -1 COUNTER = -1
class T_Spin: class T_Spin:
NONE = "" NONE = ""
MINI = "MINI\nT-SPIN" MINI = "MINI\nT-SPIN"
T_SPIN = "T-SPIN" T_SPIN = "T-SPIN"
class Line(list): class T_Slot:
pass
A = 0
B = 1
C = 3
D = 2
class Color:
BLUE = 0
CYAN = 1
GREEN = 2
MAGENTA = 3
ORANGE = 4
RED = 5
YELLOW = 6