コード例 #1
0
    def update(self, gameengine, current_time):
        xVelocity, yVelocity = self.get_velocity(self.angle, self.speed)

        self.rect.left += xVelocity
        self.rect.top -= yVelocity

        # Check if the projectile went outside the game map.  If so, remove
        # it.
        if not self.rect.colliderect(gameengine.base.get_rect()):
            gameengine.projectiles.remove(self)

        # Check if the projectile collided with any characters
        collided = self.collide(gameengine.characters, [gameengine.player])

        if collided:
            # Projectile collided with a player
            gameengine.projectiles.remove(self)

        else:
            # Check if the projectile collided with any tiles
            localCameraWidth = gameengine.tileengine.tileSize * 5
            localCameraHeight = gameengine.tileengine.tileSize * 5
            localCamera = Camera(localCameraWidth, localCameraHeight,
                                 gameengine.camera.worldMapWidth,
                                 gameengine.camera.worldMapWidth)
            localCamera.update(gameengine.base, self)
            tiles = gameengine.tileengine.get_tiles_pixel(localCamera.window)

            #tiles = gameengine.tileengine.get_tiles_pixel(gameengine.camera.window)
            collided = self.collide(tiles)

            if collided:
                gameengine.projectiles.remove(self)
コード例 #2
0
ファイル: projectile.py プロジェクト: nklein79/square
 def update(self, gameengine, current_time):        
     xVelocity, yVelocity = self.get_velocity(self.angle, self.speed)
     
     self.rect.left += xVelocity
     self.rect.top -= yVelocity
     
     # Check if the projectile went outside the game map.  If so, remove
     # it.
     if not self.rect.colliderect(gameengine.base.get_rect()):
         gameengine.projectiles.remove(self)
     
     # Check if the projectile collided with any characters
     collided = self.collide(gameengine.characters, [gameengine.player])
     
     if collided:
         # Projectile collided with a player
         gameengine.projectiles.remove(self)
     
     else:
         # Check if the projectile collided with any tiles
         localCameraWidth = gameengine.tileengine.tileSize * 5
         localCameraHeight = gameengine.tileengine.tileSize * 5
         localCamera = Camera(localCameraWidth,localCameraHeight, gameengine.camera.worldMapWidth, gameengine.camera.worldMapWidth)
         localCamera.update(gameengine.base, self)
         tiles = gameengine.tileengine.get_tiles_pixel(localCamera.window)
         
         #tiles = gameengine.tileengine.get_tiles_pixel(gameengine.camera.window)
         collided = self.collide(tiles)
         
         if collided:
             gameengine.projectiles.remove(self)
コード例 #3
0
    def update(self, gameengine, current_time):
        # Move our position up or down by one pixel
        if self.xdirection > 0: self.rect.left += self.speed
        elif self.xdirection < 0: self.rect.left -= self.speed

        # Get the tiles around the character to check for collisions.  We
        # limit the check to the local character camera to limit unnecessary
        # collision detection on tiles not near the character
        localCameraWidth = gameengine.tileengine.tileSize * 5
        localCameraHeight = gameengine.tileengine.tileSize * 5
        localCamera = Camera(localCameraWidth, localCameraHeight,
                             gameengine.camera.worldMapWidth,
                             gameengine.camera.worldMapWidth)
        localCamera.update(gameengine.base, self)
        tiles = gameengine.tileengine.get_tiles_pixel(localCamera.window)

        # Do collision detection after moving horizontally
        if self.collide(tiles, True):
            self.xdirection = 0

        #if self.ydirection != 0: self.rect.top += 1*self.jumpspeed
        #elif self.ydirection < 0: self.rect.top -= 1*self.speed

        if not self.onGround:
            # Slow jumping speed due to gravity
            self.ydirection = self.ydirection + self.gravity

            # Check for max falling speed
            if self.ydirection > self.maxFallingSpeed:
                self.ydirection = self.maxFallingSpeed

            self.rect.top += self.ydirection

        # Do collision detection after moving vertically
        if self.collide(tiles, False):
            self.ydirection = 0

        # Check if the character is actually on the ground as it may have
        # moved off a cliff.  Only necessary if the character moved
        # horizontally.

        # Temporary move down 1
        self.rect.bottom += 1

        self.onGround = self.collide(tiles, False)

        # Undo the temporary move down 1 if not on the ground
        if not self.onGround:
            self.rect.bottom -= 1

        # Update the sprite image
        self.update_image(current_time)

        # Update the current item
        if self.currentItem:
            self.currentItem.update(gameengine, self)
コード例 #4
0
ファイル: character.py プロジェクト: nklein79/square
 def update(self, gameengine, current_time):
     # Move our position up or down by one pixel
     if self.xdirection > 0: self.rect.left += self.speed
     elif self.xdirection < 0: self.rect.left -= self.speed
     
     # Get the tiles around the character to check for collisions.  We 
     # limit the check to the local character camera to limit unnecessary
     # collision detection on tiles not near the character
     localCameraWidth = gameengine.tileengine.tileSize * 5
     localCameraHeight = gameengine.tileengine.tileSize * 5
     localCamera = Camera(localCameraWidth,localCameraHeight, gameengine.camera.worldMapWidth, gameengine.camera.worldMapWidth)
     localCamera.update(gameengine.base, self)
     tiles = gameengine.tileengine.get_tiles_pixel(localCamera.window)
     
     # Do collision detection after moving horizontally
     if self.collide(tiles, True):
         self.xdirection = 0
     
     #if self.ydirection != 0: self.rect.top += 1*self.jumpspeed
     #elif self.ydirection < 0: self.rect.top -= 1*self.speed
     
     if not self.onGround:
         # Slow jumping speed due to gravity
         self.ydirection = self.ydirection + self.gravity
         
         # Check for max falling speed
         if self.ydirection > self.maxFallingSpeed: self.ydirection = self.maxFallingSpeed
         
         self.rect.top += self.ydirection
     
     # Do collision detection after moving vertically
     if self.collide(tiles, False):
         self.ydirection = 0
     
     # Check if the character is actually on the ground as it may have
     # moved off a cliff.  Only necessary if the character moved 
     # horizontally.
     
     # Temporary move down 1
     self.rect.bottom += 1 
     
     self.onGround = self.collide(tiles, False)
     
     # Undo the temporary move down 1 if not on the ground
     if not self.onGround: 
         self.rect.bottom -= 1
     
     # Update the sprite image
     self.update_image(current_time)
     
     # Update the current item
     if self.currentItem:
         self.currentItem.update(gameengine, self)
コード例 #5
0
ファイル: engine.py プロジェクト: Ducky0324/dawn-lite
class Engine:
    def __init__(self, winWidth, winHeight):
        self.winWidth = winWidth
        self.winHeight = winHeight
        self.cols = winWidth // constants.TILE_SIZE
        self.rows = winHeight // constants.TILE_SIZE

        pg.init()
        pg.mixer.init()
        pg.display.set_caption("dawn-lite")
        pg.key.set_repeat(10, 50)

        self.stage = Stage(self.cols * 2, self.rows * 2)

        self.stage.fillWith(Tiles.wall)
        for x in range(1, self.stage.width - 1):
            for y in range(1, self.stage.height - 1):
                pos = Vec(x, y)
                self.stage.setTile(pos, Tiles.floor)

        self.font = pg.font.Font(path.join(constants.FONT_PATH,
                                           constants.DEFAULT_FONT),
                                 constants.TILE_SIZE)

        self.player = Hero(Vec(60, 3))
        self.stage.addActor(self.player)

        self.camera = Camera(self, self.stage, self.cols, self.rows)
        self.camera.update(self.player)

        self.window = pg.display.set_mode((self.winWidth, self.winHeight))
        self.clock = pg.time.Clock()
        self.running = True

    def start(self):
        while self.running:
            self.handleEvents()
            self.update()
            self.render()

    def handleEvents(self):
        for event in pg.event.get():
            if event.type == pg.QUIT:
                self.running = False
            if event.type == pg.KEYDOWN:

                if event.key == pg.K_w:
                    if self.stage.rows == self.camera.height:
                        return
                    self.stage.moveActor(self.player, Directions.N)
                    self.player.pos = self.player.pos + Directions.N

                if event.key == pg.K_a:
                    if self.stage.cols == self.camera.width:
                        return
                    self.stage.moveActor(self.player, Directions.W)
                    self.player.pos = self.player.pos + Directions.W

                if event.key == pg.K_s:
                    if self.stage.rows == self.camera.height:
                        return
                    self.stage.moveActor(self.player, Directions.S)
                    self.player.pos = self.player.pos + Directions.S

                if event.key == pg.K_d:
                    if self.stage.cols == self.camera.width:
                        return
                    self.stage.moveActor(self.player, Directions.E)
                    self.player.pos = self.player.pos + Directions.E
                self.camera.update(self.player)
                print(self.camera.bounds)

    def drawGlyphAt(self, glyph, x, y):
        self.window.blit(glyph,
                         (x * constants.TILE_SIZE,
                          y * constants.TILE_SIZE))

    def _drawStage(self):
        # Loop through the positions in range of the camera's rect
        for pos in self.camera:
            tile = self.stage[pos]
            actor = self.stage.getActorAt(pos)
            if tile.isVisible:
                symbol = tile.type.symbol
                fore = tile.type.explored[0]
                back = tile.type.explored[1]
                glyph = self.font.render(symbol, True, fore, back)
                self.drawGlyphAt(glyph,
                                 pos.x - self.camera.bounds.x,
                                 pos.y - self.camera.bounds.y)
            if tile.isExplored:
                symbol = tile.type.symbol
                fore = tile.type.explored[0]
                back = tile.type.explored[1]
                glyph = self.font.render(symbol, True, fore, back)
                self.drawGlyphAt(glyph,
                                 pos.x - self.camera.bounds.x,
                                 pos.y - self.camera.bounds.y)
            if actor is not None and actor.isVisible:
                symbol = actor.symbol
                color = actor.color
                glyph = self.font.render(symbol, True, color)
                self.drawGlyphAt(glyph,
                                 pos.x - self.camera.bounds.x,
                                 pos.y - self.camera.bounds.y)

    def update(self):
        pass

    def render(self):
        self._drawStage()
        pg.display.flip()