namespace
{
-const char* BACKGROUND_IMAGE( DALI_IMAGE_DIR "background-blocks.jpg" );
-const char* TOOLBAR_IMAGE( DALI_IMAGE_DIR "top-bar.png" );
+const char* BACKGROUND_IMAGE( DEMO_IMAGE_DIR "background-blocks.jpg" );
+const char* TOOLBAR_IMAGE( DEMO_IMAGE_DIR "top-bar.png" );
const char* APPLICATION_TITLE( "DALi Blocks" );
-const char* BALL_IMAGE = DALI_IMAGE_DIR "blocks-ball.png";
-const char* PADDLE_IMAGE = DALI_IMAGE_DIR "blocks-paddle.png";
-const char* PADDLE_HANDLE_IMAGE = DALI_IMAGE_DIR "blocks-paddle-handle.png";
+const char* BALL_IMAGE = DEMO_IMAGE_DIR "blocks-ball.png";
+const char* PADDLE_IMAGE = DEMO_IMAGE_DIR "blocks-paddle.png";
+const char* PADDLE_HANDLE_IMAGE = DEMO_IMAGE_DIR "blocks-paddle-handle.png";
-const char* BRICK_IMAGE_PATH[] = { DALI_IMAGE_DIR "blocks-brick-1.png",
- DALI_IMAGE_DIR "blocks-brick-2.png",
- DALI_IMAGE_DIR "blocks-brick-3.png",
- DALI_IMAGE_DIR "blocks-brick-4.png" };
+const char* BRICK_IMAGE_PATH[] = { DEMO_IMAGE_DIR "blocks-brick-1.png",
+ DEMO_IMAGE_DIR "blocks-brick-2.png",
+ DEMO_IMAGE_DIR "blocks-brick-3.png",
+ DEMO_IMAGE_DIR "blocks-brick-4.png" };
const int TOTAL_BRICKS(4); ///< Total bricks in game.
const Vector3 ICON_SIZE(100.0f, 100.0f, 0.0f);
const Vector3 BRICK_COLLISION_MARGIN(0.0f, 0.0f, 0.0f); ///< Collision margin for ball-brick detection.
const Vector3 INITIAL_BALL_DIRECTION(1.0f, 1.0f, 0.0f); ///< Initial ball direction.
-const std::string WOBBLE_PROPERTY_NAME("wobble-property"); ///< Wobble property name.
-const std::string COLLISION_PROPERTY_NAME("collision-property"); ///< Collision property name.
+const std::string WOBBLE_PROPERTY_NAME("wobbleProperty"); ///< Wobble property name.
+const std::string COLLISION_PROPERTY_NAME("collisionProperty"); ///< Collision property name.
const Vector2 BRICK_SIZE(0.1f, 0.05f ); ///< Brick size relative to width of stage.
const Vector2 BALL_SIZE( 0.05f, 0.05f ); ///< Ball size relative to width of stage.
mPaddle.SetPosition( stageSize * Vector3( PADDLE_START_POSITION ) );
mContentLayer.Add(mPaddle);
- mPaddle.TouchedSignal().Connect(this, &ExampleController::OnTouchPaddle);
- mContentLayer.TouchedSignal().Connect(this, &ExampleController::OnTouchLayer);
+ mPaddle.TouchSignal().Connect(this, &ExampleController::OnTouchPaddle);
+ mContentLayer.TouchSignal().Connect(this, &ExampleController::OnTouchLayer);
const float margin(BALL_SIZE.width * stageSize.width * 0.5f);
mBrickCount = 0;
+ if( mBrickImageMap.Empty() )
+ {
+ Vector2 stageSize(Stage::GetCurrent().GetSize());
+ const Vector2 brickSize(BRICK_SIZE * Vector2(stageSize.x, stageSize.x));
+
+ mBrickImageMap["desiredWidth"] = static_cast<int>( brickSize.width );
+ mBrickImageMap["desiredHeight"] = static_cast<int>( brickSize.height );
+ mBrickImageMap["fittingMode"] = "SCALE_TO_FILL";
+ mBrickImageMap["samplingMode"] = "BOX_THEN_LINEAR";
+ }
+
switch(level%TOTAL_LEVELS)
{
case 0:
*/
Actor CreateBrick( const Vector2& position, int type )
{
- Vector2 stageSize(Stage::GetCurrent().GetSize());
- const Vector2 brickSize(BRICK_SIZE * Vector2(stageSize.x, stageSize.x));
-
- Image img = ResourceImage::New( BRICK_IMAGE_PATH[type], Dali::ImageDimensions( 128, 64 ), Dali::FittingMode::SCALE_TO_FILL, Dali::SamplingMode::BOX_THEN_LINEAR );
- ImageView brick = ImageView::New(img);
+ mBrickImageMap["url"] = BRICK_IMAGE_PATH[type];
+ ImageView brick = ImageView::New();
+ brick.SetProperty( ImageView::Property::IMAGE, mBrickImageMap );
brick.SetParentOrigin(ParentOrigin::TOP_LEFT);
brick.SetAnchorPoint(AnchorPoint::CENTER);
- brick.SetSize( brickSize );
brick.SetPosition( Vector3( position ) );
// Add a constraint on the brick between it and the ball generating a collision-property
* @param[in] actor The actor touched
* @param[in] event The touch event
*/
- bool OnTouchPaddle(Actor actor, const TouchEvent& event)
+ bool OnTouchPaddle(Actor actor, const TouchData& event)
{
if(event.GetPointCount()>0)
{
- const TouchPoint& point = event.GetPoint(0);
- if(point.state==TouchPoint::Down) // Commence dragging
+ if( event.GetState( 0 ) == PointState::DOWN ) // Commence dragging
{
// Get point where user touched paddle (relative to paddle's center)
- mRelativeDragPoint = Vector3(point.screen.x, point.screen.y, 0.0f);
+ Vector2 screenPoint = event.GetScreenPosition( 0 );
+ mRelativeDragPoint = screenPoint;
mRelativeDragPoint -= actor.GetCurrentPosition();
mDragActor = actor;
* @param[in] actor The actor touched
* @param[in] event The touch event
*/
- bool OnTouchLayer(Actor actor, const TouchEvent& event)
+ bool OnTouchLayer(Actor actor, const TouchData& event)
{
if(event.GetPointCount()>0)
{
- const TouchPoint& point = event.GetPoint(0);
if(mDragActor)
{
- Vector3 position(point.screen.x, point.screen.y, 0.0f);
+ Vector3 position( event.GetScreenPosition( 0 ) );
mPaddle.SetPosition( position - mRelativeDragPoint );
- if(point.state==TouchPoint::Up) // Stop dragging
+ if( event.GetState( 0 ) == PointState::UP ) // Stop dragging
{
mDragAnimation = Animation::New(0.25f);
mDragAnimation.AnimateTo( Property(mDragActor, Actor::Property::SCALE), Vector3(1.0f, 1.0f, 1.0f), AlphaFunction::EASE_IN);
Animation mWobbleAnimation; ///< Paddle's animation when hit (wobbles)
Property::Index mWobbleProperty; ///< The wobble property (generated from animation)
Actor mLevelContainer; ///< The level container (contains bricks)
+ Property::Map mBrickImageMap; ///< The property map used to load the brick
// actor - dragging functionality
app.MainLoop();
}
-int main(int argc, char **argv)
+int DALI_EXPORT_API main(int argc, char **argv)
{
- Application app = Application::New(&argc, &argv, DALI_DEMO_THEME_PATH);
+ Application app = Application::New(&argc, &argv, DEMO_THEME_PATH);
RunTest(app);