class TetrisNextCube(GameObject):
def __init__(self, type, position = None, rotation = None):
self.cube = TetrisCube(type, position, rotation)
self.setType(type)
self.time = glutGet(GLUT_ELAPSED_TIME)
def display(self):
self.cube.display()
def setType(self, type):
self.cube.setType(type)
if self.cube.type == 0:
for pos in self.cube.position:
pos[0] += 0.0
pos[1] -= 0.1
if self.cube.type == 1:
for pos in self.cube.position:
pos[0] += 0.5
pos[1] -= 0.2
if self.cube.type == 2:
for pos in self.cube.position:
pos[0] -= 0.5
pos[1] += 0.3
if self.cube.type == 5 or self.cube.type == 6:
for pos in self.cube.position:
pos[0] += 0.5
pos[1] -= 0.5
def __init__(self, Tetris3d, width, height):
self.Tetris3d = Tetris3d
self.grid = []
self.tempGrid = []
self.width = width
self.height = height
self.run = None
self.gameover = 0
self.dropTime = 500
self.db = TetrisDB('score.db')
self.keyDown = { 'key': None, 'time': None }
self.initKeyEvent = None
self.score = TetrisNum(-15,-16.53,0)
self.level = TetrisNum(-15,-19.34,0)
for row in range(self.height):
self.grid.append(self.getEmptyRow())
for row in range(self.height):
temp = []
for column in range(self.width):
temp.append(Cube(1, [1,1,1]))
self.tempGrid.append(temp)
self.tCube = TetrisCube(randrange(0,7), [2.55, 10.5, 16])
self.helperCube = TetrisCube(self.tCube.type, [2.55, 10.5, 16])
self.updateHelperCube()
for color in self.helperCube.colors:
color[0] = 0.2
color[1] = 0.2
color[2] = 0.2
self.cubeTime = glutGet(GLUT_ELAPSED_TIME)
self.completeRows = []
self.tempRows = None
self.nextCube = TetrisNextCube(randrange(0,7), [-13.45, 3.5, 16])
self.blinkTime = 0
self.cheatChangeCube = None
self.cheatHelperCube = None
try:
open('slidecheat')
self.cheatSlideCube = True
except:
self.cheatSlideCube = None
self.blinkCount = 0
for row in range(self.height):
self.completeRows.append(True)
self.level.value = 1
def __init__(self, Tetris3d):
self.Tetris3d = Tetris3d
self.data = Tetris3d.data
self.time = glutGet(GLUT_ELAPSED_TIME)
self.state = 'mainMenu'
self.menuitem = 'start'
self.texture = Textures()
self.tstring = TextureString(Tetris3d.data)
self.playername = ''
self.planes = {}
self.skins = {}
self.stringPlane = {}
self.textureWidthRatio = 512.0 / 640.0
self.textureHeightRatio = 512.0 / 480.0
self.generateStringTexture('mainMenu')
self.generateStringTexture('gameoverMenu')
self.generateStringTexture('enterName')
self.generateStringTexture('pause')
self.generateStringTexture('play')
self.generateStringTexture('highscore')
self.backgroundTexture = self.texture.createTex(self.data.get('texture/menu/menu.jpg'))
self.stringTexture = self.texture.createTex(self.stringPlane['mainMenu'])
self.planes['0_background'] = {'texture': self.backgroundTexture, 'coord': [16.7, 12.525, 16.6]}
self.planes['1_strings'] = {'texture': self.stringTexture, 'coord': [16.7, 12.525, 16.59]}
self.cubePos = {'mainMenu': { 'start': [4,4.6,0], 'highscore': [10,0.2,0], 'exit': [3,-4,0] },
'gameoverMenu': { 'start': [10.5,2.4,0], 'highscore': [10,-2,0], 'exit': [3,-6.2,0] }}
self.cube = TetrisCube(1, self.cubePos[self.state][self.menuitem])
def updateGrid(self):
if type(self.tCube) == types.InstanceType:
if self.cubeTime + self.dropTime < glutGet(GLUT_ELAPSED_TIME):
self.moveVert(1)
self.cubeTime = glutGet(GLUT_ELAPSED_TIME)
elif self.tCube == None:
self.tCube = TetrisCube(self.nextCube.cube.type, [2.55, 10.5, 16])
self.nextCube.setType(randrange(0,7))
self.cubeTime = glutGet(GLUT_ELAPSED_TIME)
elif self.tCube == 'blinkrows':
if self.blinkCount > 0:
if self.blinkTime + (self.dropTime / 8) < glutGet(GLUT_ELAPSED_TIME):
rowNum = 0
for rowStatus in self.completeRows:
if rowStatus == True:
tempRow = self.grid[rowNum]
self.grid[rowNum] = self.tempGrid[rowNum]
self.tempGrid[rowNum] = tempRow
rowNum += 1
self.blinkCount -= 1
self.blinkTime = glutGet(GLUT_ELAPSED_TIME)
else:
if self.cheatHelperCube: addScore = 4
else: addScore = 5
rowNum = 0
for rowStatus in self.completeRows:
if rowStatus == True:
self.grid.pop(rowNum)
self.grid.insert(0, self.getEmptyRow())
addScore *= 2
rowNum += 1
if self.isGridEmpty() == True:
addScore *= 2
self.addScore(addScore)
self.tCube = None
class TetrisHUD(GameObject):
def __init__(self, Tetris3d):
self.Tetris3d = Tetris3d
self.data = Tetris3d.data
self.time = glutGet(GLUT_ELAPSED_TIME)
self.state = 'mainMenu'
self.menuitem = 'start'
self.texture = Textures()
self.tstring = TextureString(Tetris3d.data)
self.playername = ''
self.planes = {}
self.skins = {}
self.stringPlane = {}
self.textureWidthRatio = 512.0 / 640.0
self.textureHeightRatio = 512.0 / 480.0
self.generateStringTexture('mainMenu')
self.generateStringTexture('gameoverMenu')
self.generateStringTexture('enterName')
self.generateStringTexture('pause')
self.generateStringTexture('play')
self.generateStringTexture('highscore')
self.backgroundTexture = self.texture.createTex(self.data.get('texture/menu/menu.jpg'))
self.stringTexture = self.texture.createTex(self.stringPlane['mainMenu'])
self.planes['0_background'] = {'texture': self.backgroundTexture, 'coord': [16.7, 12.525, 16.6]}
self.planes['1_strings'] = {'texture': self.stringTexture, 'coord': [16.7, 12.525, 16.59]}
self.cubePos = {'mainMenu': { 'start': [4,4.6,0], 'highscore': [10,0.2,0], 'exit': [3,-4,0] },
'gameoverMenu': { 'start': [10.5,2.4,0], 'highscore': [10,-2,0], 'exit': [3,-6.2,0] }}
self.cube = TetrisCube(1, self.cubePos[self.state][self.menuitem])
def generateStringTexture(self, name):
if self.stringPlane.has_key(name):
del self.stringPlane[name]
if name == 'mainMenu':
self.registerString('mainMenu', self.tstring.create('Cubix'), 320, 20, 'center', 1)
self.registerString('mainMenu', self.tstring.create('Start'), 320, 145, 'center', 0.8)
self.registerString('mainMenu', self.tstring.create('Highscores'), 320, 215, 'center', 0.8)
self.registerString('mainMenu', self.tstring.create('Exit'), 320, 290, 'center', 0.8)
elif name == 'gameoverMenu':
self.registerString('gameoverMenu', self.tstring.create('Game Over'), 320, 20, 'center', 1)
self.registerString('gameoverMenu', self.tstring.create('Your Score: ' + str(self.Tetris3d.objects['mainGrid'].score.value)), 320, 120, 'center', 0.35)
self.registerString('gameoverMenu', self.tstring.create('Try Again!'), 320, 180, 'center', 0.8)
self.registerString('gameoverMenu', self.tstring.create('Highscores'), 320, 250, 'center', 0.8)
self.registerString('gameoverMenu', self.tstring.create('Exit'), 320, 320, 'center', 0.8)
elif name == 'enterName':
self.registerString('enterName', self.tstring.create('Game Over'), 320, 20, 'center', 1)
self.registerString('enterName', self.tstring.create('Enter Your Name:'), 320, 120, 'center', 0.4)
self.registerString('enterName', self.tstring.create(self.playername), 320, 215, 'center', 0.5)
elif name == 'pause':
self.registerString('pause', self.tstring.create('Pause'), 320, 180, 'center', 1)
elif name == 'highscore' or name == 'highscoreHighlight':
if name == 'highscoreHighlight' and self.stringPlane.has_key('highscore'):
del self.stringPlane['highscore']
self.registerString('highscore', self.tstring.create('Highscores'), 320, 20, 'center', 1)
self.registerString('highscore', self.tstring.create('Press escape to go back to menu'), 320, 110, 'center', 0.32)
id = self.Tetris3d.objects['mainGrid'].db.getNewestId()
extraSpace = 0
i = 1
for score in self.Tetris3d.objects['mainGrid'].db.getToTen():
if score[2] == id and name == 'highscoreHighlight':
size = 0.5
else:
size = 0.35
nameString = self.tstring.create(score[0])
scoreString = self.tstring.create(str(score[1]))
# To prevent that the name and score overlap each other in the list
if int((nameString.size[0] + scoreString.size[0]) * size) > 540:
ratio = 540.0 / ((nameString.size[0] + scoreString.size[0]) * size)
size *= ratio
self.registerString('highscore', nameString, 50, 120 + 30 * i + extraSpace, 'left', size)
self.registerString('highscore', scoreString, 590, 120 + 30 * i + extraSpace, 'right', size)
if score[2] == id and name == 'highscoreHighlight':
extraSpace = 8
i += 1
elif name == 'play':
self.registerString('play', self.tstring.create('Cubix'), 320, 30, 'left', 1)
self.registerString('play', self.tstring.create('Score:'), 320, 365, 'left', 0.33)
self.registerString('play', self.tstring.create('Level:'), 320, 423, 'left', 0.33)
def registerString(self, skin, image, x, y, align, size):
x = int(x * self.textureWidthRatio)
y = int(y * self.textureHeightRatio)
if not self.stringPlane.has_key(skin):
self.stringPlane[skin] = new('RGBA', (512, 512))
width = int(image.size[0] * size * self.textureWidthRatio)
height = int(image.size[1] * size * self.textureHeightRatio)
image = image.resize((width, height), ANTIALIAS)
posY = y
if align == 'left':
posX = x
elif align == 'right':
posX = x - width
elif align == 'center':
posX = x - (width / 2)
else:
posX = 0
self.stringPlane[skin].paste(image, (posX, posY))
def setState(self, state):
if state == 'mainMenu':
self.state = 'mainMenu'
self.texture.createTex(self.stringPlane['mainMenu'], self.stringTexture)
self.menuitem = 'start'
self.cube.renderPos = self.cubePos[self.state][self.menuitem]
elif state == 'gameoverMenu':
self.state = 'gameoverMenu'
self.generateStringTexture('gameoverMenu')
self.texture.createTex(self.data.get('texture/menu/menu.jpg'), self.backgroundTexture)
self.texture.createTex(self.stringPlane['gameoverMenu'], self.stringTexture)
self.menuitem = 'start'
self.cube.renderPos = self.cubePos[self.state][self.menuitem]
elif state == 'play':
self.state = 'play'
self.Tetris3d.objects['mainGrid'].run = True
self.texture.createTex(self.data.get('texture/menu/front.jpg'), self.backgroundTexture)
self.texture.createTex(self.stringPlane['play'], self.stringTexture)
if self.Tetris3d.objects['mainGrid'].gameover:
self.Tetris3d.objects['mainGrid'].gameover = 0
self.Tetris3d.objects['mainGrid'].clearGrid()
elif state == 'pause':
self.state = 'pause'
self.Tetris3d.objects['mainGrid'].run = None
self.texture.createTex(self.data.get('texture/menu/menu.jpg'), self.backgroundTexture)
self.texture.createTex(self.stringPlane['pause'], self.stringTexture)
elif state == 'highscore':
if self.state == 'enterName':
self.generateStringTexture('highscoreHighlight')
else:
self.generateStringTexture('highscore')
self.state = 'highscore'
self.texture.createTex(self.data.get('texture/menu/highscore.jpg'), self.backgroundTexture)
self.texture.createTex(self.stringPlane['highscore'], self.stringTexture)
elif state == 'enterName':
self.state = 'enterName'
self.generateStringTexture('enterName')
self.texture.createTex(self.data.get('texture/menu/menu.jpg'), self.backgroundTexture)
self.texture.createTex(self.stringPlane['enterName'], self.stringTexture)
def keyboardSpecial(self, key, x, y):
if self.state == 'mainMenu' or self.state == 'gameoverMenu':
if key == 101: # up arrow key
if self.menuitem == 'start': self.menuitem = 'exit'
elif self.menuitem == 'exit': self.menuitem = 'highscore'
elif self.menuitem == 'highscore': self.menuitem = 'start'
elif key == 103: # down arrow key
if self.menuitem == 'start': self.menuitem = 'highscore'
elif self.menuitem == 'highscore': self.menuitem = 'exit'
elif self.menuitem == 'exit': self.menuitem = 'start'
self.cube.renderPos = self.cubePos[self.state][self.menuitem]
def keyboard(self, key, x, y):
if self.state == 'mainMenu' or self.state == 'gameoverMenu':
if ord(key) == 27: # key = esc
sys.exit()
if ord(key) == 13: # key = enter
if self.menuitem == 'start':
self.setState('play')
elif self.menuitem == 'highscore':
self.setState('highscore')
elif self.menuitem == 'exit':
sys.exit()
elif self.state == 'highscore':
if ord(key) == 27: # key = esc
self.setState('mainMenu')
elif self.state == 'enterName':
if self.tstring.data.has_key(key) and len(self.playername) < 13:
self.playername += key
elif ord(key) == 8: # key = backspace
self.playername = self.playername[:-1]
self.generateStringTexture('enterName')
self.texture.createTex(self.stringPlane['enterName'], self.stringTexture)
if ord(key) == 13 and len(self.playername) != 0: # key = enter
self.Tetris3d.objects['mainGrid'].db.addScore(unicode(self.playername), self.Tetris3d.objects['mainGrid'].score.getValue())
self.setState('highscore')
elif ord(key) == 27: # key = esc
self.setState('mainMenu')
elif self.state == 'pause':
if key == 'p':
self.setState('play')
if ord(key) == 27: # key = esc
self.Tetris3d.objects['mainGrid'].gameOver()
elif self.state == 'play':
if key == 'p':
self.setState('pause')
if ord(key) == 27: # key = esc
self.Tetris3d.objects['mainGrid'].gameOver()
def display(self):
for name, plane in self.planes.iteritems():
x = plane['coord'][0]
y = plane['coord'][1]
z = plane['coord'][2]
glEnable (GL_BLEND)
glBlendFunc (GL_SRC_ALPHA,GL_ONE_MINUS_SRC_ALPHA)
glEnable(GL_TEXTURE_2D)
glBindTexture(GL_TEXTURE_2D, plane['texture'])
glBegin(GL_QUADS)
glTexCoord2f(1.0, 0.0); glVertex3f(-x, -y, z) # Bottom Right
glTexCoord2f(0.0, 0.0); glVertex3f( x, -y, z) # Bottom Left
glTexCoord2f(0.0, 1.0); glVertex3f( x, y, z) # Top Left
glTexCoord2f(1.0, 1.0); glVertex3f(-x, y, z) # Top Right
glEnd()
glDisable(GL_TEXTURE_2D)
glDisable(GL_BLEND)
if self.state == 'mainMenu' or self.state == 'gameoverMenu':
glPushMatrix()
glScaled(0.2,0.2,0.2)
glTranslated(0,0,-0.2)
self.cube.display()
glPopMatrix()
def update(self, delay):
if self.time + 1000 < glutGet(GLUT_ELAPSED_TIME) and (self.state == 'mainMenu' or self.state == 'gameoverMenu'):
new = randrange(0,6)
if new >= self.cube.type:
self.cube.setType(new + 1)
else:
self.cube.setType(new)
if self.cube.type == 0:
for pos in self.cube.position:
pos[0] += 0.5
elif self.cube.type == 2:
for pos in self.cube.position:
pos[1] += 0.5
elif self.cube.type == 3 or self.cube.type == 4:
for pos in self.cube.position:
pos[0] -= 0.5
elif self.cube.type == 5 or self.cube.type == 6:
for pos in self.cube.position:
pos[1] -= 0.5
self.time = glutGet(GLUT_ELAPSED_TIME)
class TetrisGrid(GameObject):
def __init__(self, Tetris3d, width, height):
self.Tetris3d = Tetris3d
self.grid = []
self.tempGrid = []
self.width = width
self.height = height
self.run = None
self.gameover = 0
self.dropTime = 500
self.db = TetrisDB('score.db')
self.keyDown = { 'key': None, 'time': None }
self.initKeyEvent = None
self.score = TetrisNum(-15,-16.53,0)
self.level = TetrisNum(-15,-19.34,0)
for row in range(self.height):
self.grid.append(self.getEmptyRow())
for row in range(self.height):
temp = []
for column in range(self.width):
temp.append(Cube(1, [1,1,1]))
self.tempGrid.append(temp)
self.tCube = TetrisCube(randrange(0,7), [2.55, 10.5, 16])
self.helperCube = TetrisCube(self.tCube.type, [2.55, 10.5, 16])
self.updateHelperCube()
for color in self.helperCube.colors:
color[0] = 0.2
color[1] = 0.2
color[2] = 0.2
self.cubeTime = glutGet(GLUT_ELAPSED_TIME)
self.completeRows = []
self.tempRows = None
self.nextCube = TetrisNextCube(randrange(0,7), [-13.45, 3.5, 16])
self.blinkTime = 0
self.cheatChangeCube = None
self.cheatHelperCube = None
try:
open('slidecheat')
self.cheatSlideCube = True
except:
self.cheatSlideCube = None
self.blinkCount = 0
for row in range(self.height):
self.completeRows.append(True)
self.level.value = 1
def update(self, delay):
if self.run:
self.keyEvents()
self.stickCube()
self.completeRow()
self.updateGrid()
self.updateHelperCube()
def display(self):
if self.run == True:
rowPos = 0
for row in self.grid:
colPos = 0
for cube in row:
if cube:
glPushMatrix()
glTranslated(2.55, 10.5, 0)
glTranslated((self.width - colPos - 1) * 1.1, -rowPos * 1.1, 16)
cube.display()
glPopMatrix()
colPos += 1
rowPos += 1
if type(self.tCube) == types.InstanceType:
self.tCube.display()
if self.cheatHelperCube:
self.helperCube.display()
self.score.display()
self.level.display()
self.nextCube.display()
def getEmptyRow(self):
row = []
for col in range(self.width):
row.append(None)
return row
def clearGrid(self):
for row in range(self.height):
for col in range(self.width):
self.grid[row][col] = None
self.score.value = 0
self.level.value = 1
self.nextCube.setType(randrange(0,7))
self.tCube.setType(randrange(0,7))
self.dropTime = 500
def keyboard(self, key, x, y):
if self.run:
if ord(key) == 32 and type(self.tCube) == types.InstanceType: # spacebar
while not self.checkCollision():
self.moveVert(1)
if self.cheatSlideCube == True:
self.cubeTime = glutGet(GLUT_ELAPSED_TIME)
else:
self.cubeTime -= self.dropTime
if ord(key) > ord('0') and ord(key) < ord('8') and self.cheatChangeCube == True and type(self.tCube) == types.InstanceType:
self.tCube.setType(ord(key) - ord('8'))
def keyboardSpecial(self, key, x, y):
if self.run:
# cube thingy
if key == 100: # left arrow key
self.moveHoriz(1)
self.initKeyEvent = True
self.keyDown['key'] = 'left'
self.keyDown['time'] = glutGet(GLUT_ELAPSED_TIME)
if key == 102: # right arrow key
self.moveHoriz(-1)
self.initKeyEvent = True
self.keyDown['key'] = 'right'
self.keyDown['time'] = glutGet(GLUT_ELAPSED_TIME)
if key == 103: # down arrow key
self.moveVert(1)
self.initKeyEvent = True
self.keyDown['key'] = 'down'
self.keyDown['time'] = glutGet(GLUT_ELAPSED_TIME)
if key == 101: # up arrow key
self.rotate()
self.initKeyEvent = True
self.keyDown['key'] = 'up'
self.keyDown['time'] = glutGet(GLUT_ELAPSED_TIME)
#cube thingy
def keyboardSpecialUp(self, key, x, y):
if self.run:
if key == 100 and self.keyDown['key'] == 'left': # left arrow key
self.keyDown['key'] = None
self.keyDown['time'] = None
if key == 102 and self.keyDown['key'] == 'right': # right arrow key
self.keyDown['key'] = None
self.keyDown['time'] = None
if key == 103 and self.keyDown['key'] == 'down': # down arrow key
self.keyDown['key'] = None
self.keyDown['time'] = None
if key == 101 and self.keyDown['key'] == 'up': # up arrow key
self.keyDown['key'] = None
self.keyDown['time'] = None
def keyEvents(self):
if self.keyDown['key'] != None:
key = self.keyDown['key']
time = self.keyDown['time']
if self.initKeyEvent == True:
halt = 140
else:
halt = 35
if time + halt < glutGet(GLUT_ELAPSED_TIME):
if key == 'left':
self.moveHoriz(1)
elif key == 'right':
self.moveHoriz(-1)
elif key == 'down':
self.moveVert(1)
elif key == 'up':
self.rotate()
self.initKeyEvent = None
self.keyDown['time'] = glutGet(GLUT_ELAPSED_TIME)
def stickCube(self):
if self.cubeTime + self.dropTime < glutGet(GLUT_ELAPSED_TIME) and type(self.tCube) == types.InstanceType:
if self.checkCollision():
if self.tCube.position[0][0] == 0 and self.tCube.position[0][1] == self.tCube.types[self.tCube.type][0][1]:
self.gameOver()
for row, col in self.tCube.position:
self.grid[row][self.width - 1 - col] = Cube(1, self.tCube.getColor())
self.tCube = None
def checkCollision(self, cube = None):
if cube == None: cube = self.tCube
for row, col in cube.position:
if (row + 1 >= self.height) or (self.grid[row + 1][self.width - 1 - col]):
return True
return None
def completeRow(self):
if self.tCube == None:
for rowNumber in range(20):
self.completeRows[rowNumber] = True
rowNumber = 0
for row in self.grid:
if row.count(None) > 0:
self.completeRows[rowNumber] = None
rowNumber += 1
if self.completeRows.count(True) > 0:
self.tCube = 'blinkrows'
self.blinkCount = 6
def updateGrid(self):
if type(self.tCube) == types.InstanceType:
if self.cubeTime + self.dropTime < glutGet(GLUT_ELAPSED_TIME):
self.moveVert(1)
self.cubeTime = glutGet(GLUT_ELAPSED_TIME)
elif self.tCube == None:
self.tCube = TetrisCube(self.nextCube.cube.type, [2.55, 10.5, 16])
self.nextCube.setType(randrange(0,7))
self.cubeTime = glutGet(GLUT_ELAPSED_TIME)
elif self.tCube == 'blinkrows':
if self.blinkCount > 0:
if self.blinkTime + (self.dropTime / 8) < glutGet(GLUT_ELAPSED_TIME):
rowNum = 0
for rowStatus in self.completeRows:
if rowStatus == True:
tempRow = self.grid[rowNum]
self.grid[rowNum] = self.tempGrid[rowNum]
self.tempGrid[rowNum] = tempRow
rowNum += 1
self.blinkCount -= 1
self.blinkTime = glutGet(GLUT_ELAPSED_TIME)
else:
if self.cheatHelperCube: addScore = 4
else: addScore = 5
rowNum = 0
for rowStatus in self.completeRows:
if rowStatus == True:
self.grid.pop(rowNum)
self.grid.insert(0, self.getEmptyRow())
addScore *= 2
rowNum += 1
if self.isGridEmpty() == True:
addScore *= 2
self.addScore(addScore)
self.tCube = None
def updateHelperCube(self):
if type(self.tCube) != types.InstanceType:
return
update = None
cube = 0
for pos in self.helperCube.position:
if pos[1] != self.tCube.position[cube][1]:
update = True
elif pos[0] == self.tCube.position[cube][0] and pos[1] == self.tCube.position[cube][1]:
update = True
cube += 1
if self.helperCube.type != self.tCube.type:
update = True
if update:
self.helperCube.setType(self.tCube.type)
for cube in range(len(self.helperCube.position)):
self.helperCube.position[cube][0] = self.tCube.position[cube][0]
self.helperCube.position[cube][1] = self.tCube.position[cube][1]
drop = True
while drop:
if self.checkCollision(self.helperCube):
drop = None
else:
for pos in self.helperCube.position:
pos[0] += 1
def isGridEmpty(self):
if self.grid[self.height - 1].count(None) == self.width:
return True
else:
return None
def gameOver(self):
scores = self.db.getToTen()
self.run = None
self.gameover = 1
if (len(scores) == 10 and self.score.getValue() < scores[9][1]) or (self.score.getValue() == 0):
self.Tetris3d.objects['TetrisHUD'].setState('gameoverMenu')
else:
self.Tetris3d.objects['TetrisHUD'].setState('enterName')
def addScore(self, score):
self.score.add(score)
if self.score.value >= 250 * self.level.value:
self.level.add(1)
self.dropTime -= 25
if self.dropTime < 100:
self.dropTime = 100
# cube movement
def moveHoriz(self, length):
if type(self.tCube) == types.InstanceType:
move = True
for row, col in self.tCube.position:
if (col + length < 0) or (col + length >= self.width):
move = None
elif self.grid[row][self.width - 1 - col - length]:
move = None
#test border
if move:
for pos in self.tCube.position:
pos[1] += length
def moveVert(self, length):
if type(self.tCube) == types.InstanceType:
move = True
for row, col in self.tCube.position:
if row + length >= self.height:
move = None
elif self.grid[row + length][self.width - 1 - col]:
move = None
if move:
for pos in self.tCube.position:
pos[0] += length
def rotate(self):
if type(self.tCube) == types.InstanceType:
rotate = True
for row, col in self.tCube.getRotation():
if (row < -1 or row >= self.height): # top/bottom border test
rotate = None
break
if (col < 0 or col >= self.width): # left/right border test
rotate = None
break
if row != -1:
if self.grid[row][self.width - 1 - col]: # grid test
rotate = None
break
if rotate:
self.tCube.rotate()
def __init__(self, type, position = None, rotation = None):
self.cube = TetrisCube(type, position, rotation)
self.setType(type)
self.time = glutGet(GLUT_ELAPSED_TIME)
