cocos3.X 惯性滑动
1 主要思路
实现手指拖动地图后,手指离开地图后,地图距离会向着手指的方向移动一段距离:
1.在滑动中把每个点放入到容器中
2.滑动结束根据最后一个点与倒数第二点的设定x,y方向上的位移
3.根据摩擦系数,依次减小位移,直至小到一定程度
2 详细设计
2.1 给地图精灵绑定触摸监听
auto listener1 = EventListenerTouchOneByOne::create();//创建一个触摸监听
listener1->setSwallowTouches(true); //设置是否想下传递触摸
//通过 lambda 表达式 直接实现触摸事件的回掉方法
listener1->onTouchBegan = [=](Touch* touch, Event* event){
return onTouchBegan(touch, event);
};
listener1->onTouchMoved = [=](Touch* touch, Event* event){
onTouchMoved(touch, event);
};
listener1->onTouchEnded = [=](Touch* touch, Event* event){
onTouchEnded(touch, event);
};
_eventDispatcher->addEventListenerWithSceneGraphPriority(listener1, m_spr);
2.2触摸开始
bool HelloWorld::onTouchBegan(Touch* touch, Event* event)
{
auto target = static_cast<Sprite*>(event->getCurrentTarget());
m_vecPot.clear();
Point locationInNode = target->convertToNodeSpace(touch->getLocation());
Size s = target->getContentSize();
Rect rect = Rect(0, 0, s.width, s.height);
if (rect.containsPoint(locationInNode))
{
log("sprite began... x = %f, y = %f", locationInNode.x, locationInNode.y);
target->setOpacity(180);
return true;
}
return false;
}
当按在精灵上时,返回true,表示能继续响应后面的move操作。
2.3触摸移动
void HelloWorld::onTouchMoved(Touch* touch, Event* event)
{
m_bDrag = true;
auto target = static_cast<Sprite*>(event->getCurrentTarget());
target->setPosition(target->getPosition() + touch->getDelta());
Point locationInNode = target->convertToWorldSpace(touch->getLocation());
m_vecPot.push_back(locationInNode);
}
移动时保存每个移动的点到m_vecPot容器中。
2.4触摸结束
void HelloWorld::onTouchEnded(Touch* touch, Event* event)
{
auto target = static_cast<Sprite*>(event->getCurrentTarget());
target->setOpacity(255);
if (m_bDrag == true)
{
m_bDrag = false;
int iVecSize = m_vecPot.size();
float fXspeed = m_vecPot[iVecSize - 1].x - m_vecPot[iVecSize - 2].x;
float fYspeed = m_vecPot[iVecSize - 1].y - m_vecPot[iVecSize - 2].y;
while (abs(fXspeed) > 0.1 || abs(fYspeed) > 0.1)
{
Point potNew = ccpAdd(target->getPosition(), Point(fXspeed, fYspeed));
auto moveBy = MoveBy::create(0.1f, ccp(fXspeed, fYspeed));
target->runAction(moveBy);
fXspeed *= GfFriction;
fYspeed *= GfFriction;
}
}
}
判断结束时,最后一个点与倒数第二点的位置差。当位置差绝对值大于一定量时,移动精灵,位置差再乘上摩擦系数,直到位置差小于这个一定量精灵将停止移动。
源码下载
http://download.csdn.net/detail/luoyikun/9119487