Exemplo n.º 1
0
def main():
    # initialize the pygame module
    pygame.init()

    # load and set the logo
    pygame.display.set_caption("Mercury Simulation")

    # initialize the screen
    screen = pygame.display.set_mode(list(SCREEN_SIZE))

    obstacleList = []
    robot = Robot(Vector2(360, 450))

    # Let's make a background so we can see if we're moving
    background = Drawable(Vector2(0, 0), "background.png", offset=None)

    # Initialize the gameClock for more realistic velocity
    gameClock = pygame.time.Clock()

    # define a variable to control the main loop
    RUNNING = True

    # main loop
    while RUNNING:

        # Draw everything, adjust by offset
        background.draw(screen)
        robot.draw(screen)
        for obstacle in obstacleList:
            obstacle.draw(screen)

        # Flip the display to the monitor
        pygame.display.flip()

        # event handling, gets all event from the eventqueue
        for event in pygame.event.get():
            # only do something if the event is of type QUIT or ESCAPE is pressed
            if event.type == pygame.QUIT or (event.type == pygame.KEYDOWN
                                             and event.key == pygame.K_ESCAPE):
                # change the value to False, to exit the main loop
                RUNNING = False

            robot.handleEvent(event)

            if event.type == pygame.MOUSEBUTTONDOWN:
                adjustedPos = list([int(x) for x in event.pos])
                obstacleList.append(
                    Obstacle(Vector2(*background.adjustMousePos(adjustedPos)),
                             "sidewall.png", SCREEN_SIZE))
                # if event.key == pygame.K_S:
                #     obstacleList.append(Obstacle(Vector2(*background.adjustMousePos(adjustedPos)), "sidewall.png", SCREEN_SIZE))
                # elif event.key == pygame.K_T:
                #     obstacleList.append(Obstacle(Vector2(*background.adjustMousePos(adjustedPos)), "topwall.png", SCREEN_SIZE))

        gameClock.tick(60)

        ticks = gameClock.get_time() / 1000

        # Update everything
        robot.update(WORLD_SIZE, ticks)
        for obstacle in obstacleList:
            if robot.getCollideRect().colliderect(obstacle.getCollideRect()):
                print("You hit the wall")

        # Update the camera
        background.updateOffset(robot, SCREEN_SIZE, WORLD_SIZE)

    pygame.quit()
Exemplo n.º 2
0
class MenuParser:
    def __init__(self, filename):
        """intializes a menu"""
        self._filename = filename
        self._background = Drawable(self.getBackground(), Vector2(0,0), (0,0))
        self._accent = Drawable("menu_accent.png", Vector2(0,45), (0,0))
        self._worldsize = (400, 400)
        self._selectionAreas = []
        self._blobs = []
        self._text = []
        self._selectedBlob = None
        self._ready = False
        self._startButton = None

    def getBackground(self):
        """returns the appropriate background image"""
        if self._filename == "startmenu.txt":
            #backgroundImage = "background.png"
            backgroundImage = "background6.png"
        elif self._filename == "blobmenu.txt":
            #backgroundImage = "background2.png"
            backgroundImage = "background6.png"
        return backgroundImage

    def loadMenu(self):
        """controls the loading of the level"""
        file = open(os.path.join("resources", "levels", self._filename))
        fileContents = file.read()
        file.close()
        self.getWorldSize(fileContents)
        self.getBlobSelectionAreas(fileContents)
        self.getStartButton(fileContents)
        self.getText(fileContents)

    def reset(self):
        """resets a menu"""
        self._selectionAreas = []
        self._blobs = []
        self._text = []
        self._ready = False
        self._selectedBlob = None

    def getBlobSelectionAreas(self, fileContents):
        """loads in the selection areas for choosing a blob to play with on a menu"""
        SELECTION_SIZE = Vector2(112, 112)
        BLOB_SIZE = Vector2(64, 64)
        fileStuff = fileContents.split("\n")
        selectionCount = 0
        for line in fileStuff:
            info = line.split(",")
            if info[0] == "selection":
                if self._filename == "blobmenu.txt":
                    self._selectionAreas.append(Drawable("blob_selection.png", Vector2(int(info[1]), int(info[2])), (selectionCount,0)))
                    blobXpos = int(info[1]) + SELECTION_SIZE.x//2 - BLOB_SIZE.x//2
                    blobYpos = int(info[2]) + SELECTION_SIZE.y//2  - BLOB_SIZE.y//2 - 14
                    self._blobs.append(Drawable("menu_blobs.png", Vector2(blobXpos, blobYpos), (selectionCount + 1,0)))
                    selectionCount += 1

    def getStartButton(self, fileContents):
        """creates a start button with the given position"""
        fileStuff = fileContents.split("\n")
        #selection,xval,yval
        selectionCount = 0
        for line in fileStuff:
            info = line.split(",")
            if info[0] == "start":
                xPos = (self._worldsize[0] - int(info[1]))//2 - 64//2
                self._startButton = Drawable("startbutton.png", Vector2(xPos, int(info[2])), (0,0))


    def getText(self, fileContents):
        """gets the image for each letter in the text given in the layout file"""
        fileStuff = fileContents.split("\n")
        #text,xval,yval,words
        #line 0 starts at A (first letter): ascii 65
        #lint 1 starts at N (13th letter)
        selectionCount = 0
        for line in fileStuff:
            info = line.split(",")
            if info[0] == "text":
                text = info[3].upper()
                #xCenter = (self._worldsize[0] + int(info[1]))/4 - (len(text)//2 * 8)
                if self._filename == "startmenu.txt":
                    xCenter = 10
                else:
                    xCenter = 15
                for i in range(len(text)):
                    if text[i] != " ":
                        if text[i] == "!":
                            self._text.append(Drawable("exclamation.png", Vector2(int(xCenter) + 8 * i, int(info[2])), (0,0)))
                        else:
                            aVal = ord(text[i])
                            numInAlph = aVal - 65
                            offsetY = numInAlph // 13
                            offsetX = numInAlph - 13*offsetY
                            self._text.append(Drawable("font.png", Vector2(int(xCenter) + 8 * i, int(info[2])), (2 + offsetX, 7 + offsetY)))

    def getWorldSize(self,fileContents):
        """parses the menu layout file for the world size (vertical or horizontal)"""
        fileStuff = fileContents.split("\n")
        for line in fileStuff:
            info = line.split(",")
            if info[0] == "world size":
                self._worldsize = (int(info[1]), int(info[2]))

    def draw(self, screen):
        """draws everything in the menu"""
        drawSurface = pygame.Surface(SCREEN_SIZE)
        self._background.draw(drawSurface)
        #self._accent.draw(drawSurface)
        #upscale the text
        for letter in self._text:
            letter.draw(drawSurface)
        pygame.transform.scale(drawSurface,UPSCALED,screen)
        for area in self._selectionAreas:
            area.draw(screen)
        for blob in self._blobs:
            blob.draw(screen)
        self._startButton.draw(screen)

    def handleEvent(self, event):
         """handles a mouse click event"""
         if event.type == pygame.MOUSEBUTTONDOWN:
            #left click is 1
            if event.button == 1:
                self.detectSelectedArea(list([int(x/SCALE) for x in event.pos]))

    def detectSelectedArea(self, mousePos):
        """determines which blob was selected based on the mouse position"""
        for area in self._selectionAreas:
            positionBox = area.getCollideRect()
            if positionBox.collidepoint(mousePos):
                if area == self._selectionAreas[0]:
                    color = "blue"
                elif area == self._selectionAreas[1]:
                    color = "green"
                elif area == self._selectionAreas[2]:
                    color = "orange"
                self._selectedBlob = color
                self._ready = False
        if self._startButton.getCollideRect().collidepoint(mousePos):
            self._ready = True


    def madeSelection(self):
        """determines if a blob has been selected before moving on
        to the next phase"""
        if self._filename == "startmenu.txt":
            self._selectedBlob = "pink"
            return True
        if self._selectedBlob != None:
            return True
        else:
            return False

    def getSelection(self):
        """return the selected blob to initialize the next level"""
        return self._selectedBlob

    def nextLevel(self):
        """return if the menu is ready for the next level"""
        return self._ready
Exemplo n.º 3
0
class AnimationParser:
    def __init__(self, filename):
        """intializes an animation"""
        self._filename = filename
        self._background = Drawable(self.getBackground(), Vector2(0, 0),
                                    (0, 0))
        self._frame = Drawable("animation_frame.png", Vector2(0, 0), (0, 0))
        self._worldsize = (400, 400)
        self._text = []
        self._animationTimer = 0
        self._animationTime = 10
        self._ready = False

    def getBackground(self):
        """returns the appropriate background image"""
        if self._filename == "smash1.txt":
            backgroundImage = "animation_background.png"
        elif self._filename == "smash2.txt":
            backgroundImage = "animation_background.png"
        return backgroundImage

    def loadAnimation(self):
        """controls the loading of the animation"""
        file = open(os.path.join("resources", "levels", self._filename))
        fileContents = file.read()
        file.close()
        self.getWorldSize(fileContents)
        self.getText(fileContents)

    def reset(self):
        """resets an animation"""
        self._text = []
        self._animationTimer = 0

    def getText(self, fileContents):
        """gets the image for each letter in the text given in the layout file"""
        fileStuff = fileContents.split("\n")
        #text,xval,yval,words
        #line 0 starts at A (first letter): ascii 65
        #lint 1 starts at N (13th letter)
        selectionCount = 0
        for line in fileStuff:
            info = line.split(",")
            if info[0] == "text":
                text = info[3].upper()
                #xCenter = (self._worldsize[0] + int(info[1]))/2 - (len(text)//2 * 11)
                xCenter = 50
                for i in range(len(text)):
                    if text[i] != " ":
                        if text[i] == ".":
                            offsetY = 3
                            offsetX = 5
                        elif text[i] == "-":
                            offsetY = 3
                            offsetX = 4
                        else:
                            aVal = ord(text[i])
                            numInAlph = aVal - 65
                            offsetY = numInAlph // 13
                            offsetX = numInAlph - 13 * offsetY
                        self._text.append(
                            Drawable(
                                "font.png",
                                Vector2(int(xCenter) + 8 * i, int(info[2])),
                                (2 + offsetX, 7 + offsetY)))

    def getWorldSize(self, fileContents):
        """parses the animation layout file for the world size (vertical or horizontal)"""
        fileStuff = fileContents.split("\n")
        for line in fileStuff:
            info = line.split(",")
            if info[0] == "world size":
                self._worldsize = (int(info[1]), int(info[2]))

    def draw(self, screen):
        """draws everything in the animation"""
        drawSurface = pygame.Surface(SCREEN_SIZE)
        self._background.draw(drawSurface)
        self._frame.draw(drawSurface)
        #self._background.draw(screen)
        #for letter in self._text:
        #    letter.draw(screen)
        for letter in self._text:
            #letter.draw(screen)
            letter.draw(drawSurface)
        pygame.transform.scale(drawSurface, UPSCALED, screen)

    def nextLevel(self):
        """return if the menu is ready for the next level"""
        return self._ready

    def update(self, ticks):
        """updates the amount of time the animation has been on the screen
        and determines if we are ready for the next phase"""
        self._animationTimer += ticks
        if self._animationTimer > self._animationTime:
            self._ready = True
Exemplo n.º 4
0
class LevelParser:
    """creates a level"""
    def __init__(self, filename):
        """intializes a level"""
        self._filename = filename
        self._background = Drawable(self.getBackground(), Vector2(0, 0),
                                    (0, 0))
        self._ground = Drawable(self.getGround(), Vector2(0, 300), (0, 0))
        self._blob = Blob(Vector2(0, 300 - CHAR_SPRITE_SIZE.y))
        self._decorations = []
        self._platforms = []
        self._traps = {"bra": [], "pan": [], "ring": []}
        self._enemies = {"devil": [], "gaston": [], "boss": []}
        self._powerups = {"floppy": [], "sign": [], "vote": []}
        self._worldsize = (2400, 400)
        self._elevator = elevator = Elevator(
            Vector2(self._worldsize[0] - 50, 300), self._worldsize[1])
        if self._filename == "level3.txt":
            self._ceiling = Ceiling(Vector2(0, 0), final=False)
        elif self._filename == "level6.txt":
            self._ceiling = Ceiling(Vector2(0, 0), final=True)
        else:
            self._ceiling = None
        self._deathCycle = 0
        self._keydown = {1: False, 2: False, 3: False}
        self._otherblobs = []
        self._otherblobsCollideRect = None
        self._block = None
        self._spot = None
        self._activeBlobs = []
        self._downbar = None
        self._downbarSelections = []
        self._selectCount = 0
        self._samePlat = 0

    def getBackground(self):
        """returns the appropriate background image"""
        if self._filename == "level1.txt":
            backgroundImage = "background.png"
        elif self._filename == "level2.txt":
            backgroundImage = "background2.png"
        elif self._filename == "level3.txt" or self._filename == "level6.txt":
            backgroundImage = "background3b.png"
        elif self._filename == "level4.txt" or self._filename == "level5.txt":
            backgroundImage = "background4.png"
        return backgroundImage

    def getGround(self):
        """returns the appropriate ground image"""
        if self._filename == "level1.txt":
            groundImage = "ground2.png"
        elif self._filename == "level2.txt":
            groundImage = "ground3.png"
        elif self._filename == "level3.txt" or self._filename == "level6.txt":
            groundImage = "ground4b.png"
        elif self._filename == "level4.txt" or self._filename == "level5.txt":
            groundImage = "ground5.png"
        return groundImage

    def loadLevel(self):
        """controls the loading of the level"""
        file = open(os.path.join("resources", "levels", self._filename))
        fileContents = file.read()
        file.close()
        self.getWorldSize(fileContents)
        self._ground = Drawable(self.getGround(),
                                Vector2(0, self._worldsize[1] - 100), (0, 0))
        if self._filename != "level6.txt":
            self._blob = Blob(Vector2(
                0, self._worldsize[1] - 100 - CHAR_SPRITE_SIZE.y),
                              color=self._blob._color)
        self.plantFlowers()
        self.getPlatforms(fileContents)
        self.getOtherBlobs(fileContents)
        self.getActiveBlobs()
        self.getPowerUps(fileContents)
        self.getTraps(fileContents)
        self.getEnemies(fileContents)
        self.getWorldSize(fileContents)

    def reset(self):
        """resets a level"""
        self._decorations = []
        self._platforms = []
        self._traps = {"bra": [], "pan": [], "ring": []}
        self._enemies = {"devil": [], "gaston": [], "boss": []}
        self._deathCycle = 0
        self._keydown = {1: False, 2: False, 3: False}
        self._powerups = {"floppy": [], "sign": [], "vote": []}
        self._otherblobs = []
        self._otherblobsCollideRect = None
        self._block = None
        self._spot = None
        self._activeBlobs = []

    def plantFlowers(self):
        """plants flowers randomly for decoration"""
        flowerSize = 16
        for xPos in range(0, 2400, 20):
            randomNumber = random.randint(10, 13)
            self._decorations.append(
                Drawable("nuts_and_milk.png",
                         Vector2(xPos, self._worldsize[1] - 100 - flowerSize),
                         (randomNumber, 8)))

    def getPlatforms(self, fileContents):
        """returns the appropriate platform tile image"""
        if self._filename == "level1.txt":
            platformImage = "platform.png"
        elif self._filename == "level2.txt":
            platformImage = "platform2.png"
        elif self._filename == "level3.txt" or self._filename == "level6.txt":
            platformImage = "platform3.png"
        elif self._filename == "level4.txt" or self._filename == "level5.txt":
            platformImage = "platform4.png"
        fileStuff = fileContents.split("\n")
        for line in fileStuff:
            info = line.split(",")
            if info[0] == "platform":
                for i in range(int(info[3])):
                    self._platforms.append(
                        Drawable(platformImage,
                                 Vector2(int(info[1]) + 50 * i, int(info[2])),
                                 (0, 0)))

    def getOtherBlobs(self, fileContents):
        """determines if this is a level that has other blobs in it that don't move"""
        fileStuff = fileContents.split("\n")
        for line in fileStuff:
            info = line.split(",")
            if info[0] == "otherblobs":
                self._otherblobs.append(
                    Blob(Vector2(int(info[2]),
                                 int(info[3]) - CHAR_SPRITE_SIZE.y - 50),
                         color=info[1]))
        if len(self._otherblobs) != 0:
            self._otherblobsCollideRect = pygame.Rect(300, 234, 100, 66)
            self._block = Drawable("block.png", Vector2(300, 250), (0, 0))
            self._spot = Drawable("ground.png", Vector2(250, 300), (0, 0))

    def getActiveBlobs(self):
        """determines if this is a level that the player can switch their controls between"""
        if self._filename == "level6.txt":
            self._activeBlobs.append(
                Blob(Vector2(25, 100 - CHAR_SPRITE_SIZE.y), color="pink"))
            self._activeBlobs.append(
                Blob(Vector2(25,
                             self._worldsize[1] - 100 - CHAR_SPRITE_SIZE.y),
                     color="blue"))
            self._activeBlobs.append(
                Blob(Vector2(200,
                             self._worldsize[1] - 100 - CHAR_SPRITE_SIZE.y),
                     color="green"))
            self._activeBlobs.append(
                Blob(Vector2(300,
                             self._worldsize[1] - 100 - CHAR_SPRITE_SIZE.y),
                     color="orange"))
            self._blob = self._activeBlobs[0]
            self._downbar = Drawable("downbar.png",
                                     Vector2(0, self._worldsize[1] - 28),
                                     (0, 0))
            for i in range(4):
                self._downbarSelections.append(
                    Drawable("downbarselection.png",
                             Vector2(i * 28, self._worldsize[1] - 28), (0, 0)))

    def getTraps(self, fileContents):
        """parses the level layout file for the traps and saves them to a dictionary"""
        fileStuff = fileContents.split("\n")
        for line in fileStuff:
            info = line.split(",")
            if info[0] == "trap":
                if info[1] == "bra":
                    self._traps[info[1]].append(
                        Bra(
                            Vector2(int(info[2]),
                                    int(info[3]) - CHAR_SPRITE_SIZE.y)))
                elif info[1] == "ring":
                    self._traps[info[1]].append(
                        Ring(
                            Vector2(int(info[2]),
                                    int(info[3]) - CHAR_SPRITE_SIZE.y)))
                elif info[1] == "pan":
                    self._traps[info[1]].append(
                        Pan(
                            Vector2(int(info[2]),
                                    int(info[3]) - CHAR_SPRITE_SIZE.y)))

    def getEnemies(self, fileContents):
        """parses the level layout file for the enemies and saves them to a dictionary"""
        fileStuff = fileContents.split("\n")
        for line in fileStuff:
            info = line.split(",")
            if info[0] == "enemy":
                if info[1] == "devil":
                    self._enemies[info[1]].append(
                        Devil(
                            Vector2(int(info[2]),
                                    int(info[3]) - CHAR_SPRITE_SIZE.y),
                            int(info[4])))
                elif info[1] == "gaston":
                    self._enemies[info[1]].append(
                        Gaston(
                            Vector2(int(info[2]),
                                    int(info[3]) - CHAR_SPRITE_SIZE.y)))
                elif info[1] == "boss":
                    self._enemies[info[1]].append(
                        Boss(
                            Vector2(int(info[2]),
                                    int(info[3]) - CHAR_SPRITE_SIZE.y - 25)))

    def getPowerUps(self, fileContents):
        """parses the level layout file for the powerups and saves them to a dictionary"""
        fileStuff = fileContents.split("\n")
        for line in fileStuff:
            info = line.split(",")
            if info[0] == "powerup":
                if info[1] == "floppy":
                    self._powerups["floppy"].append(
                        Floppy(
                            Vector2(int(info[2]),
                                    int(info[3]) - CHAR_SPRITE_SIZE.y)))
                elif info[1] == "sign":
                    self._powerups["sign"].append(
                        Sign(
                            Vector2(int(info[2]),
                                    int(info[3]) - CHAR_SPRITE_SIZE.y)))
                elif info[1] == "vote":
                    self._powerups["vote"].append(
                        Vote(
                            Vector2(int(info[2]),
                                    int(info[3]) - CHAR_SPRITE_SIZE.y)))

    def getWorldSize(self, fileContents):
        """parses the level layout file for the world size (vertical or horizontal)"""
        fileStuff = fileContents.split("\n")
        for line in fileStuff:
            info = line.split(",")
            if info[0] == "world size":
                self._worldsize = (int(info[1]), int(info[2]))

    def detectSelectedArea(self, mousePos):
        """figures out which blob the user has selected if there is a downbar"""
        for i in range(len(self._downbarSelections)):
            #print(mousePos)
            #print()
            #print(Drawable.WINDOW_OFFSET)
            if self._downbarSelections[i].getCollideRect().collidepoint(
                    mousePos):
                #pink,blue,green,orange
                if i == 0:
                    #print("yes")
                    self._blob = self._activeBlobs[0]
                elif i == 1:
                    #print("yes")
                    self._blob = self._activeBlobs[1]
                elif i == 2:
                    #print("yes")
                    self._blob = self._activeBlobs[2]
                elif i == 3:
                    #print("yes")
                    self._blob = self._activeBlobs[3]

    def handleEvent(self, event):
        """handles key presses to determine if the user is using a cheat,
        selecting a blob, or controlling the blob"""
        if event.type == pygame.KEYDOWN:
            if event.key == pygame.K_1:
                self._keydown[1] = True
            if event.key == pygame.K_2:
                self._keydown[2] = True
            if event.key == pygame.K_3:
                self._keydown[3] = True
        elif event.type == pygame.KEYUP:
            if event.key == pygame.K_1:
                self._keydown[1] = False
            if event.key == pygame.K_2:
                self._keydown[2] = False
            if event.key == pygame.K_3:
                self._keydown[3] = False
        elif event.type == pygame.MOUSEBUTTONDOWN:
            if event.button == 1:  #and self._selectCount == 0:
                mousePos = list([int(x / SCALE) for x in event.pos])
                #print(mousePos)
                adjustedPos = Drawable.adjustMousePos(mousePos)
                #print(adjustedPos)
                self.detectSelectedArea((adjustedPos.x, adjustedPos.y))
        self._blob.handleEvent(event)

    def draw(self, screen):
        """draws everything in the world"""
        self._background.draw(screen)
        self._ground.draw(screen)

        for decoration in self._decorations:
            decoration.draw(screen)

        for platform2 in self._platforms:
            platform2.draw(screen)

        if self._block != None:
            self._block.draw(screen)

        if self._spot != None:
            self._spot.draw(screen)

        for category2 in self._traps:
            for trap2 in self._traps[category2]:
                trap2.draw(screen)

        for bossie in self._enemies["boss"]:
            for spawn in bossie._spawns:
                #determines timing of the end of the animation
                if spawn.isActive():
                    spawn.draw(screen)
                elif spawn.notActive() > 15:
                    bossie._spawns.remove(spawn)
                else:
                    spawn.incNotActive()
                    spawn.draw(screen)

        for category10 in self._enemies:
            for enemy10 in self._enemies[category10]:
                enemy10.draw(screen)

        if self._filename != "level3.txt":
            for back in self._elevator._parts["back"]:
                back.draw(screen)

        if self._filename == "level3.txt" or self._filename == "level6.txt":
            self._ceiling.draw(screen)

        for typie in self._powerups:
            for powerup in self._powerups[typie]:
                #determines timing of the end of the animation
                if powerup.isActive():
                    powerup.draw(screen)
                elif powerup.notActive() > 5:
                    self._powerups[typie].remove(powerup)
                else:
                    powerup.incNotActive()
                    powerup.draw(screen)

        for b in self._otherblobs:
            b.draw(screen)

        for b2 in self._activeBlobs:
            b2.draw(screen)
        self._blob.draw(screen)

        for zap in self._blob._zaps:
            #determines timing of the end of the animation
            if zap.isActive():
                zap.draw(screen)
            elif zap.notActive() > 5:
                self._blob._zaps.remove(zap)
            else:
                zap.incNotActive()
                zap.draw(screen)

        if self._filename != "level3.txt" and self._filename != "level6.txt":
            for part in self._elevator._parts:
                if part != "back":
                    for section in self._elevator._parts[part]:
                        section.draw(screen)

        for ringy in self._traps["ring"]:
            for zappy in ringy._zaps:
                #determines timing of the end of the animation
                if zappy.isActive():
                    zappy.draw(screen)
                elif zappy.notActive() > 5:
                    ringy._zaps.remove(zappy)
                else:
                    zappy.incNotActive()
                    zappy.draw(screen)

        for gas in self._enemies["gaston"]:
            for arrow15 in gas._arrows:
                #determines timing of the end of the animation
                if arrow15.isActive():
                    arrow15.draw(screen)
                elif arrow15.notActive() > 5:
                    gas._arrows.remove(arrow15)
                else:
                    arrow15.incNotActive()
                    arrow15.draw(screen)

        if self._downbar != None:
            self._downbar.draw(screen)

    def detectCollision(self):
        """detects collisions between objects in the level"""
        #remove bra if it has been ran into by blob but keep the pan
        for category3 in self._traps:
            for trap3 in self._traps[category3]:
                if trap3.ranInto():
                    if category3 == "bra":
                        self._traps[category3].remove(trap3)
                    elif category3 == "pan":
                        trap3.resetRanInto()

        #variable to determine if blob already collided with the ground
        clipRect = self._blob.getCollideRect().clip(
            self._ground.getCollideRect())

        if clipRect.width > 0:
            if self._samePlat != self._blob._position.y:
                self._samePlat = self._blob._position.y
                SoundManager.getInstance().playSound("plop.ogg")
            self._blob.manageState("collideGround")

        i = True
        blobPos = self._blob.getCollideRect()
        totalClipWidth = 0

        #determine blob collision with the ceiling on level 3
        if self._filename == "level3.txt":
            if self._blob._position.y <= 25:
                self._blob.manageState("fall")
                if self._blob._velocity.y < 0:
                    self._blob._velocity.y = -self._blob._velocity.y
                    if self._blob._position.x <= 200:
                        self._ceiling.incHP("left")
                    elif self._blob._position.x > 200:
                        self._ceiling.incHP("right")
                self._ceiling.updateVisual()

        #determine blob collision with ceiling on level 6
        if self._filename == "level6.txt":
            if self._blob._position.y <= 25:
                self._blob.manageState("fall")
                if self._blob._velocity.y < 0:
                    self._blob._velocity.y = -self._blob._velocity.y
                    if self._blob._position.x <= 200 and self._activeBlobs[
                            0]._position.y < 150 and self._activeBlobs[
                                1]._position.y < 150 and self._activeBlobs[
                                    1]._position.y < 150 and self._activeBlobs[
                                        1]._position.y < 150:
                        self._ceiling.incHP("left", self._blob._color)
                    elif self._blob._position.x > 200 and self._activeBlobs[
                            0]._position.y < 150 and self._activeBlobs[
                                1]._position.y < 150 and self._activeBlobs[
                                    1]._position.y < 150 and self._activeBlobs[
                                        1]._position.y < 150:
                        self._ceiling.incHP("right", self._blob._color)
                self._ceiling.updateVisual()

        #determine if the blob has collided with platforms
        for platform in self._platforms:
            platPos = platform.getCollideRect()
            clipRect2 = blobPos.clip(platPos)
            totalClipWidth += clipRect2.width
            if clipRect2.height >= 3 and blobPos[1] + 20 >= platPos[1]:
                if blobPos[0] < platPos[0] and self._blob._velocity.x >= 0:
                    if self._blob._velocity.x == 0:
                        self._blob._velocity.x = -100
                    else:
                        self._blob._velocity.x = -self._blob._velocity.x
                elif blobPos[0] + blobPos[2] > platPos[0] + platPos[
                        2] and self._blob._velocity.x <= 0:
                    if self._blob._velocity.x == 0:
                        self._blob._velocity.x = 100
                    else:
                        self._blob._velocity.x = -self._blob._velocity.x
                if self._blob._velocity.y <= 0:
                    self._blob._velocity.y = -self._blob._velocity.y
                self._blob.manageState("fall")
            elif (clipRect2.width >= 5 or
                  (clipRect2.width > 0 and totalClipWidth == 32)
                  ) and blobPos[1] + blobPos[3] <= platPos[1] + platPos[3]:
                #make sure this is the first time the blob has collided with the platofrm before playing the sound effect
                if self._samePlat != self._blob._position.y:
                    self._samePlat = self._blob._position.y
                    SoundManager.getInstance().playSound("plop.ogg")
                self._blob.manageState("collidePlatform")
                i = False
            elif clipRect2.width < 5 and self._blob._FSM == "platformed" and i:
                self._blob.manageState("fall")
                self._blob.updateVisual()

        #keep the blobs that are not selected in level 6 in their grounded/platformed image
        if self._filename == "level6.txt":
            for otraBlob in self._activeBlobs:
                if otraBlob != self._blob:
                    otraBlob.updateVisual(inactive=True)
                    if otraBlob._position.y >= self._worldsize[1] - 100:
                        otraBlob.manageState("collideGround")
                    else:
                        otraBlob.manageState("collidePlatform")

        #determine if blob has collided with a trap
        for category in self._traps:
            for trap in self._traps[category]:
                if self._blob.getCollideRect().colliderect(
                        trap.getCollideRect()):
                    trap.handleCollision()
                    if category == "bra":
                        self._blob._velocity.x = -self._blob._velocity.x
                        if not self._blob._forcefield:
                            self._blob.die()
                    elif category == "pan":
                        self._blob._velocity.x = -self._blob._velocity.x * 0.5
                        self._blob._velocity.y = -self._blob._velocity.y
                        if not self._blob._forcefield:
                            self._blob.die()
                    elif category == "ring":
                        if blobPos[0] + blobPos[2] > trap.getCollideRect(
                        )[0] + trap.getCollideRect()[2]:
                            self._blob._velocity.x = 100
                        else:
                            self._blob._velocity.x = -100
                        self._blob._velocity.y = -self._blob._velocity.y

        #determine if a blob has collided with powerup that makes forcefield
        for powerupT1 in self._powerups["floppy"]:
            if self._blob.getCollideRect().colliderect(
                    powerupT1.getCollideRect()):
                powerupT1.handleEnd()
                SoundManager.getInstance().playSound("powerup.ogg")
                self._blob.activateForcefield()

        #determine if a blob has collided with powerup that increases jump time
        for powerupT2 in self._powerups["sign"]:
            if self._blob.getCollideRect().colliderect(
                    powerupT2.getCollideRect()):
                powerupT2.handleEnd()
                SoundManager.getInstance().playSound("powerup.ogg")
                self._blob.increaseJumpTime()

        #determine if a blob has collided with powerup that teleports them forward
        for powerupT3 in self._powerups["vote"]:
            if self._blob.getCollideRect().colliderect(
                    powerupT3.getCollideRect()):
                powerupT3.handleEnd()
                SoundManager.getInstance().playSound("powerup.ogg")
                self._blob.moveForward(self._filename)

        #determine if a heart the blob shoots has collided with traps
        for category4 in self._traps:
            for trap4 in self._traps[category4]:
                for zap4 in self._blob._zaps:
                    if zap4.getCollideRect().colliderect(
                            trap4.getCollideRect()):
                        if category4 == "bra":
                            trap4.handleCollision()
                            zap4.handleDestroy()
                            SoundManager.getInstance().playSound(
                                "explosion.ogg")
                        if category4 == "pan":
                            self._traps[category4].remove(trap4)
                            zap4.handleDestroy()
                            SoundManager.getInstance().playSound(
                                "explosion.ogg")
                        elif category4 == "ring":
                            zap4.handleEnd()

        #determine if a heart the blob shoots has collided with enemies
        for category17 in self._enemies:
            for enemy17 in self._enemies[category17]:
                for zap17 in self._blob._zaps:
                    if zap17.getCollideRect().colliderect(
                            enemy17.getCollideRect()):
                        enemy17.handleCollision()
                        zap17.handleDestroy()
                        SoundManager.getInstance().playSound("explosion.ogg")
                        if enemy17.isDead(
                        ) and enemy17 in self._enemies[category17]:
                            self._enemies[category17].remove(enemy17)

        #determine if the blob has collided with enemies
        for category21 in self._enemies:
            for enemy21 in self._enemies[category21]:
                if self._blob.getCollideRect().colliderect(
                        enemy21.getCollideRect()):
                    self._blob._velocity.x = -self._blob._velocity.x
                    if category21 == "devil" or category21 == "boss":
                        if not self._blob._forcefield:
                            self._blob.die()

        #determine if a heart the blob shoots has collided with what the ring shoots
        for ring7 in self._traps["ring"]:
            for ringZap in ring7._zaps:
                for blobZap in self._blob._zaps:
                    if ringZap.getCollideRect().colliderect(
                            blobZap.getCollideRect()):
                        SoundManager.getInstance().playSound("explosion.ogg")
                        ringZap.handleDestroy()
                        SoundManager.getInstance().playSound("explosion.ogg")
                        blobZap.handleDestroy()

        #determine if a heart the blob shoots has collided with gaston's arrows
        for gaston50 in self._enemies["gaston"]:
            for arrow50 in gaston50._arrows:
                for blobZap50 in self._blob._zaps:
                    if arrow50.getCollideRect().colliderect(
                            blobZap50.getCollideRect()):
                        arrow50.handleDestroy()
                        SoundManager.getInstance().playSound("explosion.ogg")
                        blobZap50.handleDestroy()
                        SoundManager.getInstance().playSound("explosion.ogg")

        #determine if a heart the blob shoots has collided with traps
        for boss2 in self._enemies["boss"]:
            for spawn2 in boss2._spawns:
                for blobZap200 in self._blob._zaps:
                    if spawn2.getCollideRect().colliderect(
                            blobZap200.getCollideRect()):
                        SoundManager.getInstance().playSound("explosion.ogg")
                        spawn2.handleDestroy()
                        SoundManager.getInstance().playSound("explosion.ogg")
                        blobZap200.handleDestroy()
                        self._blob.die()

        #determine if a spawn has collided with the blob
        for boss3 in self._enemies["boss"]:
            for spawn3 in boss3._spawns:
                if self._blob.getCollideRect().colliderect(
                        spawn3.getCollideRect()):
                    self._blob._velocity.x = -self._blob._velocity.x
                    spawn3._velocity.x = -spawn3._velocity.x
                    spawn3.handleBlobCollision()

        #determine if currently selected blob has collided with another active blob
        for b4 in self._activeBlobs:
            if b4 != self._blob:
                if self._blob.getCollideRect().colliderect(
                        b4.getCollideRect()):
                    self._blob._velocity.x = -self._blob._velocity.x
                    self._blob._velocity.y = -self._blob._velocity.y

        #determine if currently selected blob has collided with another inactive blob
        if self._otherblobsCollideRect != None:
            if self._blob.getCollideRect().colliderect(
                    self._otherblobsCollideRect):
                self._blob._velocity.x = -150
                self._blob._velocity.y = -self._blob._velocity.y

        #determine if a boss has collided with its spawns
        for boss4 in self._enemies["boss"]:
            for spawn4 in boss4._spawns:
                if boss4.getCollideRect().colliderect(
                        spawn4.getCollideRect()) and spawn4._opposite == True:
                    spawn4._velocity.x = 0
                    spawn4.handleEnd()
                    #spawn4.handleBlobCollision()

        #determine if a spawn has collided with other spawns
        for boss5 in self._enemies["boss"]:
            for spawn5a in boss5._spawns:
                for spawn5b in boss5._spawns:
                    if spawn5a != spawn5b:
                        if spawn5a.getCollideRect().colliderect(
                                spawn5b.getCollideRect()):
                            if spawn5a._opposite == False and spawn5b._opposite == True:
                                #if spawn5b._velocity.x == -spawn5a._velocity.x or spawn5a._velocity.x != 0:
                                spawn5b._velocity.x = spawn5a._velocity.x
                                spawn5b.handleBlobCollision()
                            elif spawn5b._opposite == False and spawn5a._opposite == True:
                                #if spawn5b._velocity.x == -spawn5a._velocity.x  or spawn5b._velocity.x != 0:
                                spawn5a._velocity.x = spawn5b._velocity.x
                                spawn5a.handleBlobCollision()

        #determine if a spawn has collided with a trap
        for category57 in self._traps:
            for trap57 in self._traps[category57]:
                for boss57 in self._enemies["boss"]:
                    for spawn57 in boss57._spawns:
                        if spawn57.getCollideRect().colliderect(
                                trap57.getCollideRect()):
                            spawn57.handleEnd()

        #handle collision with harmful things shot at blob if it has a forcefield
        if self._blob._forcefield:
            for ring40 in self._traps["ring"]:
                for ringZap40 in ring40._zaps:
                    if ringZap40.getCollideRect().colliderect(
                            self._blob.getCollideRect()):
                        SoundManager.getInstance().playSound("explosion.ogg")
                        ringZap40.handleDestroy()

            for gaston82 in self._enemies["gaston"]:
                for arrow82 in gaston82._arrows:
                    if arrow82.getCollideRect().colliderect(
                            self._blob.getCollideRect()):
                        arrow82.handleDestroy()

        #handle collision with ring zaps shot at blob without a forcefield
        for ring20 in self._traps["ring"]:
            for zap20 in ring20._zaps:
                if zap20.getCollideRect().colliderect(
                        self._blob.getCollideRect()):
                    SoundManager.getInstance().playSound("explosion.ogg")
                    zap20.handleDestroy()
                    if not self._blob._forcefield:
                        self._blob.die()

        #handle collision with gaston's arrows and blob without a forcefield
        for gaston64 in self._enemies["gaston"]:
            for arrow64 in gaston64._arrows:
                if arrow64.getCollideRect().colliderect(
                        self._blob.getCollideRect()):
                    SoundManager.getInstance().playSound("explosion.ogg")
                    arrow64.handleDestroy()
                    if not self._blob._forcefield:
                        self._blob.die()

        #handle collision with blob zaps and elevator
        for door in self._elevator._parts["doors"]:
            for zap102 in self._blob._zaps:
                if zap102.getCollideRect().colliderect(door.getCollideRect()):
                    zap102.handleEnd()

        #handle collision with blob zaps and powerups
        for typie811 in self._powerups:
            for powerup811 in self._powerups[typie811]:
                for zap811 in self._blob._zaps:
                    if zap811.getCollideRect().colliderect(
                            powerup811.getCollideRect()):
                        zap811.handleEnd()

        #handle collision with blob zaps and ring zaps with a platform
        for platform3 in self._platforms:
            for zap5 in self._blob._zaps:
                if zap5.getCollideRect().colliderect(
                        platform3.getCollideRect()):
                    zap5.handleEnd()
            for ring15 in self._traps["ring"]:
                for zap15 in ring15._zaps:
                    if zap15.getCollideRect().colliderect(
                            platform3.getCollideRect()):
                        zap15.handleEnd()

    def update(self, WORLD_SIZE, SCREEN_SIZE, ticks):
        """updates all of the objects in the current level in the world"""
        #determine if cheat is being used: take blob to end of level
        if self._keydown[1] == True and self._keydown[
                2] == True and self._keydown[3] == True:
            if self._filename != "level3.txt" and self._filename != "level6.txt":
                self._blob.update(WORLD_SIZE,
                                  ticks,
                                  cheat=True,
                                  horizontal=True)
            else:
                self._blob.update(WORLD_SIZE,
                                  ticks,
                                  cheat=True,
                                  horizontal=False)
        else:
            #otherwise update blob normally
            self._blob.update(WORLD_SIZE, ticks)
        #update pan animation
        for pan in self._traps["pan"]:
            pan.update(ticks)
        #update blob zaps movement
        for zap2 in self._blob._zaps:
            zap2.update(WORLD_SIZE, ticks)
        #update devil animation and movement
        for devil in self._enemies["devil"]:
            devil.update(WORLD_SIZE, ticks)
        #update gaston animation and movement of his arrows
        for gaston in self._enemies["gaston"]:
            gaston.update(WORLD_SIZE, ticks)
        #update ring zap movement
        for ring in self._traps["ring"]:
            ring.update(WORLD_SIZE, ticks)
        #update boss animation and spawn movements
        for boss in self._enemies["boss"]:
            boss.update(WORLD_SIZE, ticks)

        #update ceiling falling once ceiling is smashed in final level
        if self._filename == "level6.txt" and self._ceiling.readyForNextLevel(
        ):
            SoundManager.getInstance().playSound("big_smash.ogg")
            self._ceiling.update(ticks)

        #if blob is dead, reset the level
        if self._blob.isDead():
            if self._deathCycle > 30:
                self.reset()
                self.loadLevel()
                # initialize the blob on top of the ground
                self._blob = Blob(
                    Vector2(0, WORLD_SIZE[1] - 100 - CHAR_SPRITE_SIZE.y),
                    self._blob._color)
                self._deathCycle = 0
            else:
                self._deathCycle += 1

        # getting the offset of the of the current blob (our tracking object)
        Drawable.updateOffset(self._blob, SCREEN_SIZE, WORLD_SIZE)

        #update the position of the downbar on the final level
        if self._downbar != None:
            self._downbar._position = Vector2(
                Drawable.WINDOW_OFFSET.x,
                Drawable.WINDOW_OFFSET.y + SCREEN_SIZE[1] - 28)
            for i in range(4):
                self._downbarSelections[i]._position = Vector2(
                    i * 28 + Drawable.WINDOW_OFFSET.x,
                    Drawable.WINDOW_OFFSET.y + SCREEN_SIZE[1] - 28)
Exemplo n.º 5
0
 def draw(self, screen):
     Drawable.draw(self, screen)
     self._levelSelect.draw(screen)