Example #1
0
    def __init__(self):
        """ Setup variables in Grid class. """
        self.x = 3
        self.y = 3

        self.shape = Tetromino()
        self.shape = Ishape()
        self.shape = Oshape()
        self.shape.setImageOff()

        self.grid = TGrid()

        self.ghost = Pshape()
        self.ghost.setColorOff()
        self.ghost.setMaskOff()
        #self.ghost.setImage("Images/circle_r16.png")
        self.ghost.setImage("Images/square_phantom32x32.png")

        #self.next = NextPanel()
        #self.hold = HoldPanel()
        #self.score = ScorePanel()
        #self.stats = StatisticsPanel()

        self.shape.setBase(self.grid.getPosition())
        self.ghost.setBase(self.grid.getPosition())

        #default controls
        self.left = pygame.K_LEFT
        self.right = pygame.K_RIGHT
        self.down = pygame.K_DOWN
        self.up = pygame.K_UP
        self.cw = pygame.K_x
        self.ccw = pygame.K_z
        self.space = pygame.K_SPACE
        self.debug = pygame.K_p
Example #2
0
 def setShape(self, type):
     #print("method: setShape():  type = ", type)
     s = Tetromino()
     if type == 'P':
         s = Pshape()
     elif type == 'L':
         s = Lshape()
     elif type == 'J':
         s = Jshape()
     elif type == 'S':
         s = Sshape()
     elif type == 'Z':
         s = Zshape()
     elif type == 'I':
         s = Ishape()
     elif type == 'O':
         s = Oshape()
     elif type == 'T':
         s = Tshape()
     return s
Example #3
0
 def randomShape(self):
     x = randrange(8)
     #print("method: randomShape():  randValue = ", x)
     s = Tetromino()
     if x == 0:
         s = Pshape()
     elif x == 1:
         s = Lshape()
     elif x == 2:
         s = Jshape()
     elif x == 3:
         s = Sshape()
     elif x == 4:
         s = Zshape()
     elif x == 5:
         s = Ishape()
     elif x == 6:
         s = Oshape()
     elif x == 7:
         s = Tshape()
     s.setImageOff()
     s.setBase(self.grid.getPosition())
     return s
Example #4
0
WHITE = (255, 255, 255)
GREEN = (0, 255, 0)
RED = (255, 0, 0)

pygame.init()

# Set the width and height of the screen [width, height]
size = (700, 500)
screen = pygame.display.set_mode(size)

pygame.display.set_caption("My Game")

#Shapes Being Tested
square = Square()
tetromino = Tetromino()
shape = Pshape()

# Loop until the user clicks the close button.
done = False

# Used to manage how fast the screen updates
clock = pygame.time.Clock()

# -------- Main Program Loop -----------
while not done:
    # --- Main event loop
    for event in pygame.event.get():
        if event.type == pygame.QUIT:
            done = True
        elif event.type == pygame.MOUSEBUTTONDOWN:
            square.moveDown()
Example #5
0
from Classes.Jshape import *
from Classes.Lshape import *
from Classes.Pshape import *

pygame.init()

# Set the width and height of the screen [width, height]
size = CONSTANTS.WINDOW_SIZE
screen = pygame.display.set_mode(size)

pygame.display.set_caption("My Game")

#Shapes Being Tested
square = Square()
tetromino = Tetromino()
shape = Pshape()

#Background
background = Background(size)

#Grid
grid = TGrid()
grid.centerXposition(size)

#set position of squares
#square.setBase(grid.getPosition)
square.base_x = grid.x
square.base_y = grid.y

shape.setBase([grid.x, grid.y])
#shape.base_x = grid.x
Example #6
0
class TUnit(object):
    """static variables"""
    TOP = (2, 0)

    #p2 controls
    p2_up = pygame.K_u
    p2_left = pygame.K_h
    p2_down = pygame.K_j
    p2_right = pygame.K_k
    p2_cw = pygame.K_i
    p2_ccw = pygame.K_y
    p2_space = pygame.K_l
    p2_debug = pygame.K_o

    #p3 controls
    p3_up = pygame.K_w
    p3_left = pygame.K_a
    p3_down = pygame.K_s
    p3_right = pygame.K_d
    p3_cw = pygame.K_e
    p3_ccw = pygame.K_q
    p3_space = pygame.K_f
    p3_debug = pygame.K_r

    def __init__(self):
        """ Setup variables in Grid class. """
        self.x = 3
        self.y = 3

        self.shape = Tetromino()
        self.shape = Ishape()
        self.shape = Oshape()
        self.shape.setImageOff()

        self.grid = TGrid()

        self.ghost = Pshape()
        self.ghost.setColorOff()
        self.ghost.setMaskOff()
        #self.ghost.setImage("Images/circle_r16.png")
        self.ghost.setImage("Images/square_phantom32x32.png")

        #self.next = NextPanel()
        #self.hold = HoldPanel()
        #self.score = ScorePanel()
        #self.stats = StatisticsPanel()

        self.shape.setBase(self.grid.getPosition())
        self.ghost.setBase(self.grid.getPosition())

        #default controls
        self.left = pygame.K_LEFT
        self.right = pygame.K_RIGHT
        self.down = pygame.K_DOWN
        self.up = pygame.K_UP
        self.cw = pygame.K_x
        self.ccw = pygame.K_z
        self.space = pygame.K_SPACE
        self.debug = pygame.K_p

    #--- Methods ---#

    #sets the position to the given values
    #pos is a tupple, two values in one
    def setPosition(self, pos):
        self.x = pos[0]
        self.y = pos[1]
        self.grid.setPosition(pos)
        self.shape.setBase(self.grid.getPosition())
        self.ghost.setBase(self.grid.getPosition())

    def getPosition(self):
        #pos = [self.x, self.y]
        return (self.x, self.y)

    def processInput(self, event):
        #LEFT
        if event.key == self.left:
            self.shape.moveLeft()

            if self.shape.isOutsideOfBounds(self.grid.rows, self.grid.cols):
                self.shape.moveRight()

            if self.grid.squaresOverlap(self.shape):
                self.shape.moveRight()

            self.ghost.setPosition(self.shape.getPosition())
            self.fastFall(self.ghost)

            #self.ghost.setXPosition(self.shape.getXPosition())
            #self.fastFall(self.ghost)

        #RIGHT
        elif event.key == self.right:
            self.shape.moveRight()

            if self.shape.isOutsideOfBounds(self.grid.rows, self.grid.cols):
                self.shape.moveLeft()

            if self.grid.squaresOverlap(self.shape):
                self.shape.moveLeft()

            self.ghost.setPosition(self.shape.getPosition())
            self.fastFall(self.ghost)

        #UP
        elif event.key == self.up:
            print("up key pressed - hold tetromino")

        #DOWN
        elif event.key == self.down:
            self.shape.moveDown()

            if self.shape.isOutsideOfBounds(self.grid.rows, self.grid.cols):
                self.shape.moveUp()

            if self.grid.squaresOverlap(self.shape):
                self.shape.moveUp()

        #COUNTER CLOCK WISE
        elif event.key == self.ccw:  #pygame.K_z:
            self.shape.rotateLeft()

            if self.shape.isOutsideOfBounds(self.grid.rows, self.grid.cols):
                self.shape.rotateRight()

            if self.grid.squaresOverlap(self.shape):
                self.shape.rotateRight()

            self.ghost.orientation = self.shape.orientation
            self.ghost.setPosition(self.shape.getPosition())
            self.fastFall(self.ghost)

        #CLOCK WISE
        elif event.key == self.cw:
            self.shape.rotateRight()

            if self.shape.isOutsideOfBounds(self.grid.rows, self.grid.cols):
                self.shape.rotateLeft()

            if self.grid.squaresOverlap(self.shape):
                self.shape.rotateRight()

            self.ghost.orientation = self.shape.orientation
            self.ghost.setPosition(self.shape.getPosition())
            self.fastFall(self.ghost)

        #SPACE
        elif event.key == self.space:
            self.fastFall(self.shape)

        #DEBUG
        elif event.key == self.debug:
            self.grid.printSortedList()

    def setP2Controls(self):
        self.up = TUnit.p2_up
        self.left = TUnit.p2_left
        self.down = TUnit.p2_down
        self.right = TUnit.p2_right
        self.cw = TUnit.p2_cw
        self.ccw = TUnit.p2_ccw
        self.space = TUnit.p2_space
        self.debug = TUnit.p2_debug

    #moves falling shape down one space per call
    def tick(self):
        if self.shape.isAtBottom(self.grid.rows):
            #copy to grid
            self.grid.add(self.shape)
            #clear full lines
            self.grid.clearFullLines()
            #change shape
            self.shape = self.randomShape()
            #move back to start position
            self.shape.setPosition([5, 0])
            #update ghost
            self.ghost = self.setShape(self.shape.type)
            self.ghost.setColorOff()
            self.ghost.setMaskOff()
            self.ghost.setBase(self.grid.getPosition())
            self.ghost.setPosition([5, 0])
            self.fastFall(self.ghost)

        else:
            self.shape.moveDown()

            if self.shape.isOutsideOfBounds(self.grid.rows, self.grid.cols):
                self.shape.moveUp()

            if self.grid.squaresOverlap(self.shape):
                self.shape.moveUp()
                #copy to grid
                self.grid.add(self.shape)
                #clear full lines
                self.grid.clearFullLines()
                #change shape
                self.shape = self.randomShape()
                #move back to start position
                self.shape.setPosition([5, 0])
                #update ghost
                self.ghost = self.setShape(self.shape.type)
                self.ghost.setColorOff()
                self.ghost.setMaskOff()
                self.ghost.setBase(self.grid.getPosition())
                self.ghost.setPosition([5, 0])
                self.fastFall(self.ghost)

    #shape must be contained within grid
    #else infinite loop happens
    def fastFall(self, shape):
        #print("fast fall method")
        count = 0
        while shape.isOutsideOfBounds(
                self.grid.rows, self.grid.cols
        ) != True and self.grid.squaresOverlap(shape) != True:
            count += 1
            shape.moveDown()
        #print("count: ", count)
        shape.moveUp()

    def randomShape(self):
        x = randrange(8)
        #print("method: randomShape():  randValue = ", x)
        s = Tetromino()
        if x == 0:
            s = Pshape()
        elif x == 1:
            s = Lshape()
        elif x == 2:
            s = Jshape()
        elif x == 3:
            s = Sshape()
        elif x == 4:
            s = Zshape()
        elif x == 5:
            s = Ishape()
        elif x == 6:
            s = Oshape()
        elif x == 7:
            s = Tshape()
        s.setImageOff()
        s.setBase(self.grid.getPosition())
        return s

    def setShape(self, type):
        #print("method: setShape():  type = ", type)
        s = Tetromino()
        if type == 'P':
            s = Pshape()
        elif type == 'L':
            s = Lshape()
        elif type == 'J':
            s = Jshape()
        elif type == 'S':
            s = Sshape()
        elif type == 'Z':
            s = Zshape()
        elif type == 'I':
            s = Ishape()
        elif type == 'O':
            s = Oshape()
        elif type == 'T':
            s = Tshape()
        return s

    def display(self, screen):
        self.grid.display(screen)
        self.ghost.display(screen)
        self.shape.display(screen)

    def __testMethod(self):
        print("this is a private method")