UIkit动力学是UIkit框架中模拟真实世界的一些特性。
UIDynamicAnimator
主要有UIDynamicAnimator类,通过这个类中的不同行为来实现一些动态特性。
它一般有两种初始化方法,先讲常见的第一种
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animator= [[UIDynamicAnimator alloc] initWithReferenceView:self.view];
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动态特性的实现主要依靠它所添加的行为,通过以下方法进行添加和移除,
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[animator addBehavior:attachmentBehavior];
[animator removeAllBehaviors];
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接下来介绍五个不同的行为,UIAttachmentBehavior(吸附),UICollisionBehavior(碰撞),UIGravityBehavior(重力),UIPushBehavior(推动),UISnapBehavior(捕捉)。另外还有一个辅助的行为UIDynamicItemBehavior,用来在item层级设定一些参数,比如item的摩擦,阻力,角阻力,弹性密度和可允许的旋转等等。
UIAttachmentBehavior(吸附)
先讲吸附行为,
它的初始化方法
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attachmentBehavior = [[UIAttachmentBehavior alloc] initWithItem:iv
offsetFromCenter:centerOffset
attachedToAnchor:location];
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item是实现UIDynamicItem协议的id类型,这里设置吸附一个UIImageView的实例iv。offset可以设置吸附的偏移,anchor是设置锚点。
UIAttachmentBehavior有几个属性,例如damping,frequency。damping是阻尼数值,frequency是震动频率
直接上代码,实现一个pan手势,让一个image跟着手势跑
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-( void )gesture:(UIPanGestureRecognizer *)gesture{
CGPoint location = [gesture locationInView:self.view];
CGPoint boxLocation = [gesture locationInView:iv];
switch (gesture.state) {
case UIGestureRecognizerStateBegan:{
NSLog(@ "you touch started position %@" ,NSStringFromCGPoint(location));
NSLog(@ "location in image started is %@" ,NSStringFromCGPoint(boxLocation));
[animator removeAllBehaviors];
// Create an attachment binding the anchor point (the finger's current location)
// to a certain position on the view (the offset)
UIOffset centerOffset = UIOffsetMake(boxLocation.x - CGRectGetMidX(iv.bounds),
boxLocation.y - CGRectGetMidY(iv.bounds));
attachmentBehavior = [[UIAttachmentBehavior alloc] initWithItem:iv
offsetFromCenter:centerOffset
attachedToAnchor:location];
attachmentBehavior.damping=0.5;
attachmentBehavior.frequency=0.8;
// Tell the animator to use this attachment behavior
[animator addBehavior:attachmentBehavior];
break ;
}
case UIGestureRecognizerStateEnded: {
[animator removeBehavior:attachmentBehavior];
break ;
}
default :
[attachmentBehavior setAnchorPoint:[gesture locationInView:self.view]];
break ;
}
}
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UIPushBehavior(推动)
UIPushBehavior 可以为一个UIView施加一个力的作用,这个力可以是持续的,也可以只是一个冲量。我们可以指定力的大小,方向和作用点等等信息。
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pushBehavior = [[UIPushBehavior alloc]
initWithItems:@[iv]
mode:UIPushBehaviorModeInstantaneous];
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UIPushBehavior 有pushDirection、magnitude等属性,
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//1
CGPoint velocity = [gesture velocityInView:self.view];
CGFloat magnitude = sqrtf((velocity.x * velocity.x) + (velocity.y * velocity.y));
if (magnitude > ThrowingThreshold) {
//2
pushBehavior = [[UIPushBehavior alloc]
initWithItems:@[iv]
mode:UIPushBehaviorModeInstantaneous];
pushBehavior.pushDirection = CGVectorMake((velocity.x / 10) , (velocity.y / 10));
pushBehavior.magnitude = magnitude / ThrowingvelocityPadding;
[animator addBehavior:pushBehavior];
//3
// UIDynamicItemBehavior 其实是一个辅助的行为,用来在item层级设定一些参数,比如item的摩擦,阻力,角阻力,弹性密度和可允许的旋转等等
NSInteger angle = arc4random_uniform(20) - 10;
itemBehavior = [[UIDynamicItemBehavior alloc] initWithItems:@[iv]];
itemBehavior.friction = 0.2;
itemBehavior.allowsRotation = YES;
[itemBehavior addAngularVelocity:angle forItem:iv];
[animator addBehavior:itemBehavior];
//4
[self performSelector:@selector(resetDemo) withObject:nil afterDelay:0.4];
}
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UIGravityBehavior(重力)
直接上代码,实现随机掉落一张图片的代码
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// Set up
self.animator = [[UIDynamicAnimator alloc] initWithReferenceView:self.view];
self.gravityBeahvior = [[UIGravityBehavior alloc] initWithItems:nil];
[self.animator addBehavior:self.gravityBeahvior];
- ( void )tapped:(UITapGestureRecognizer *)gesture {
NSUInteger num = arc4random() % 40 + 1;
NSString *filename = [NSString stringWithFormat:@ "m%lu" , (unsigned long )num];
UIImage *image = [UIImage imageNamed:filename];
UIImageView *imageView = [[UIImageView alloc] initWithImage:image];
[self.view addSubview:imageView];
CGPoint tappedPos = [gesture locationInView:gesture.view];
imageView.center = tappedPos;
[self.gravityBeahvior addItem:imageView];
}
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UICollisionBehavior(碰撞)
继续上面的代码,当图片快掉落出边界的时候有 碰撞效果,这个就是UICollisionBehavior实现的。
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// Set up
self.animator = [[UIDynamicAnimator alloc] initWithReferenceView:self.view];
self.gravityBeahvior = [[UIGravityBehavior alloc] initWithItems:nil];
self.collisionBehavior = [[UICollisionBehavior alloc] initWithItems:nil];
self.collisionBehavior.translatesReferenceBoundsIntoBoundary = YES;
self.itemBehavior = [[UIDynamicItemBehavior alloc] initWithItems:nil];
self.itemBehavior.elasticity = 0.6;
self.itemBehavior.friction = 0.5;
self.itemBehavior.resistance = 0.5;
[self.animator addBehavior:self.gravityBeahvior];
[self.animator addBehavior:self.collisionBehavior];
[self.animator addBehavior:self.itemBehavior];
- ( void )tapped:(UITapGestureRecognizer *)gesture {
NSUInteger num = arc4random() % 40 + 1;
NSString *filename = [NSString stringWithFormat:@ "m%lu" , (unsigned long )num];
UIImage *image = [UIImage imageNamed:filename];
UIImageView *imageView = [[UIImageView alloc] initWithImage:image];
[self.view addSubview:imageView];
CGPoint tappedPos = [gesture locationInView:gesture.view];
imageView.center = tappedPos;
[self.gravityBeahvior addItem:imageView];
[self.collisionBehavior addItem:imageView];
[self.itemBehavior addItem:imageView];
}
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另外,UICollisionBehavior有它的代理,其中列举两个方法,它们表示行为开始和结束的时候的代理。
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- ( void )collisionBehavior:(UICollisionBehavior*)behavior beganContactForItem:(id <UIDynamicItem>)item withBoundaryIdentifier:(id <NSCopying>)identifier atPoint:(CGPoint)p;
- ( void )collisionBehavior:(UICollisionBehavior*)behavior endedContactForItem:(id <UIDynamicItem>)item withBoundaryIdentifier:(id <NSCopying>)identifier;
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UISnapBehavior(捕捉)
UISnapBehavior 将UIView通过动画吸附到某个点上。
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- ( void ) handleTap:(UITapGestureRecognizer *)paramTap{
CGPoint tapPoint = [paramTap locationInView:self.view];
if (self.snapBehavior != nil){
[self.animator removeBehavior:self.snapBehavior];
}
self.snapBehavior = [[UISnapBehavior alloc] initWithItem:self.squareView snapToPoint:tapPoint];
self.snapBehavior.damping = 0.5f; //剧列程度
[self.animator addBehavior:self.snapBehavior];
}
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UICollectionView与UIDynamicAnimator
文章开头说到UIDynamicAnimator有两种初始化方法,这里介绍它与UICollectionView的完美结合,让UICollectionView产生各种动态特性的行为。
你是否记得iOS系统中信息应用中的附有弹性的消息列表,他就是加入了UIAttachmentBehavior吸附行为,这里通过一个UICollectionView实现类似效果。
主要是复写UICollectionViewFlowLayout,在layout中为每一个布局属性元素加上吸附行为就可以了。
关于复写layout,可以参考onevcat的博客
http://www.onevcat.com/2012/08/advanced-collection-view/
下面就直接上代码了
首先遍历每个 collection
view layout attribute 来创建和添加新的 dynamic
animator
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-( void )prepareLayout {
[super prepareLayout];
if (!_animator) {
_animator = [[UIDynamicAnimator alloc] initWithCollectionViewLayout:self];
CGSize contentSize = [self collectionViewContentSize];
NSArray *items = [super layoutAttributesForElementsInRect:CGRectMake(0, 0, contentSize.width, contentSize.height)];
for (UICollectionViewLayoutAttributes *item in items) {
UIAttachmentBehavior *attachment = [[UIAttachmentBehavior alloc] initWithItem:item attachedToAnchor:item.center];
attachment.length = 0;
attachment.damping = self.damping;
attachment.frequency = self.frequency;
[_animator addBehavior:attachment];
}
}
}
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接下来我们现在需要实现 layoutAttributesForElementsInRect: 和 layoutAttributesForItemAtIndexPath: 这两个方法,UIKit 会调用它们来询问 collection
view 每一个 item 的布局信息。我们写的代码会把这些查询交给专门做这些事的dynamic
animator
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-(NSArray *)layoutAttributesForElementsInRect:(CGRect)rect {
return [_animator itemsInRect:rect];
}
- (UICollectionViewLayoutAttributes *)layoutAttributesForItemAtIndexPath:(NSIndexPath *)indexPath {
return [_animator layoutAttributesForCellAtIndexPath:indexPath];
}
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然后是响应滚动事件的方法
这个方法会在 collection view 的 bound 发生改变的时候被调用,根据最新的 content
offset 调整我们的 dynamic animator 中的 behaviors 的参数。在重新调整这些 behavior 的 item 之后,我们在这个方法中返回 NO;因为 dynamic
animator 会关心 layout 的无效问题,所以在这种情况下,它不需要去主动使其无效
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-( BOOL )shouldInvalidateLayoutForBoundsChange:(CGRect)newBounds {
UIScrollView *scrollView = self.collectionView;
CGFloat scrollDelta = newBounds.origin.y - scrollView.bounds.origin.y;
NSLog(@ " %f %f" ,newBounds.origin.y,scrollView.bounds.origin.y);
CGPoint touchLocation = [scrollView.panGestureRecognizer locationInView:scrollView];
for (UIAttachmentBehavior *behavior in _animator.behaviors) {
CGPoint anchorPoint = behavior.anchorPoint;
CGFloat distanceFromTouch = fabsf(touchLocation.y - anchorPoint.y);
CGFloat scrollResistance = distanceFromTouch / self.resistanceFactor;
UICollectionViewLayoutAttributes *item = [behavior.items firstObject];
CGPoint center = item.center;
center.y += (scrollDelta > 0) ? MIN(scrollDelta, scrollDelta * scrollResistance)
: MAX(scrollDelta, scrollDelta * scrollResistance);
item.center = center;
[_animator updateItemUsingCurrentState:item];
}
return NO;
}
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让我们仔细查看这个代码的细节。首先我们得到了这个 scroll
view(就是我们的 collection view ),然后计算它的 content
offset 中 y 的变化(在这个例子中,我们的 collection
view 是垂直滑动的)。一旦我们得到这个增量,我们需要得到用户接触的位置。这是非常重要的,因为我们希望离接触位置比较近的那些物体能移动地更迅速些,而离接触位置比较远的那些物体则应该滞后些。
对于 dynamic animator 中的每个 behavior,我们将接触点到该 behavior 物体的
y 的距离除以 500。分母越小,这个 collection
view 的的交互就越有弹簧的感觉。
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