我需要一个可以在x,y或两个方向上缩放的捏合识别器,具体取决于捏的方向。我在这里查看了许多其他问题,他们只有部分答案。这是我使用自定义UIPinchGestureRecognizer的完整解决方案。
答案 0 :(得分:10)
我创建了UIPinchGestureRecognizer的自定义版本。它使用两个手指之间的直线斜率来确定刻度的方向。它有3种类型:垂直;水平;和组合(对角线)。请在底部查看我的笔记。
-(void) scaleTheView:(UIPinchGestureRecognizer *)pinchRecognizer
{
if ([pinchRecognizer state] == UIGestureRecognizerStateBegan || [pinchRecognizer state] == UIGestureRecognizerStateChanged) {
if ([pinchRecognizer numberOfTouches] > 1) {
UIView *theView = [pinchRecognizer view];
CGPoint locationOne = [pinchRecognizer locationOfTouch:0 inView:theView];
CGPoint locationTwo = [pinchRecognizer locationOfTouch:1 inView:theView];
NSLog(@"touch ONE = %f, %f", locationOne.x, locationOne.y);
NSLog(@"touch TWO = %f, %f", locationTwo.x, locationTwo.y);
[scalableView setBackgroundColor:[UIColor redColor]];
if (locationOne.x == locationTwo.x) {
// perfect vertical line
// not likely, but to avoid dividing by 0 in the slope equation
theSlope = 1000.0;
}else if (locationOne.y == locationTwo.y) {
// perfect horz line
// not likely, but to avoid any problems in the slope equation
theSlope = 0.0;
}else {
theSlope = (locationTwo.y - locationOne.y)/(locationTwo.x - locationOne.x);
}
double abSlope = ABS(theSlope);
if (abSlope < 0.5) {
// Horizontal pinch - scale in the X
[arrows setImage:[UIImage imageNamed:@"HorzArrows.png"]];
arrows.hidden = FALSE;
// tranform.a = X-axis
NSLog(@"transform.A = %f", scalableView.transform.a);
// tranform.d = Y-axis
NSLog(@"transform.D = %f", scalableView.transform.d);
// if hit scale limit along X-axis then stop scale and show Blocked image
if (((pinchRecognizer.scale > 1.0) && (scalableView.transform.a >= 2.0)) || ((pinchRecognizer.scale < 1.0) && (scalableView.transform.a <= 0.1))) {
blocked.hidden = FALSE;
arrows.hidden = TRUE;
} else {
// scale along X-axis
scalableView.transform = CGAffineTransformScale(scalableView.transform, pinchRecognizer.scale, 1.0);
pinchRecognizer.scale = 1.0;
blocked.hidden = TRUE;
arrows.hidden = FALSE;
}
}else if (abSlope > 1.7) {
// Vertical pinch - scale in the Y
[arrows setImage:[UIImage imageNamed:@"VerticalArrows.png"]];
arrows.hidden = FALSE;
NSLog(@"transform.A = %f", scalableView.transform.a);
NSLog(@"transform.D = %f", scalableView.transform.d);
// if hit scale limit along Y-axis then don't scale and show Blocked image
if (((pinchRecognizer.scale > 1.0) && (scalableView.transform.d >= 2.0)) || ((pinchRecognizer.scale < 1.0) && (scalableView.transform.d <= 0.1))) {
blocked.hidden = FALSE;
arrows.hidden = TRUE;
} else {
// scale along Y-axis
scalableView.transform = CGAffineTransformScale(scalableView.transform, 1.0, pinchRecognizer.scale);
pinchRecognizer.scale = 1.0;
blocked.hidden = TRUE;
arrows.hidden = FALSE;
}
} else {
// Diagonal pinch - scale in both directions
[arrows setImage:[UIImage imageNamed:@"CrossArrows.png"]];
blocked.hidden = TRUE;
arrows.hidden = FALSE;
NSLog(@"transform.A = %f", scalableView.transform.a);
NSLog(@"transform.D = %f", scalableView.transform.d);
// if we have hit any limit don't allow scaling
if ((((pinchRecognizer.scale > 1.0) && (scalableView.transform.a >= 2.0)) || ((pinchRecognizer.scale < 1.0) && (scalableView.transform.a <= 0.1))) || (((pinchRecognizer.scale > 1.0) && (scalableView.transform.d >= 2.0)) || ((pinchRecognizer.scale < 1.0) && (scalableView.transform.d <= 0.1)))) {
blocked.hidden = FALSE;
arrows.hidden = TRUE;
} else {
// scale in both directions
scalableView.transform = CGAffineTransformScale(scalableView.transform, pinchRecognizer.scale, pinchRecognizer.scale);
pinchRecognizer.scale = 1.0;
blocked.hidden = TRUE;
arrows.hidden = FALSE;
}
} // else for diagonal pinch
} // if numberOfTouches
} // StateBegan if
if ([pinchRecognizer state] == UIGestureRecognizerStateEnded || [pinchRecognizer state] == UIGestureRecognizerStateCancelled) {
NSLog(@"StateEnded StateCancelled");
[scalableView setBackgroundColor:[UIColor whiteColor]];
arrows.hidden = TRUE;
blocked.hidden = TRUE;
}
}
请记住将协议添加到视图控制器头文件中:
@interface WhiteViewController : UIViewController <UIGestureRecognizerDelegate>
{
IBOutlet UIView *scalableView;
IBOutlet UIView *mainView;
IBOutlet UIImageView *arrows;
IBOutlet UIImageView *blocked;
}
@property (strong, nonatomic) IBOutlet UIView *scalableView;
@property (strong, nonatomic) IBOutlet UIView *mainView;
@property (strong, nonatomic)IBOutlet UIImageView *arrows;
@property (strong, nonatomic)IBOutlet UIImageView *blocked;
-(void) scaleTheView:(UIPinchGestureRecognizer *)pinchRecognizer;
@end
在viewDidLoad中添加识别器:
- (void)viewDidLoad
{
UIPinchGestureRecognizer *pinchGesture = [[UIPinchGestureRecognizer alloc] initWithTarget:self action:@selector(scaleTheView:)];
[pinchGesture setDelegate:self];
[mainView addGestureRecognizer:pinchGesture];
arrows.hidden = TRUE;
blocked.hidden = TRUE;
[scalableView setBackgroundColor:[UIColor whiteColor]];
}
设置为使用主视图捕捉捏;并操纵第二个视图。这样,您可以在视图变小时进行缩放。您可以更改它以直接对可伸缩视图做出反应。
极限:我随意选择了我的视图的起始大小,因此缩放限制为2.0将等于全屏。我的较低比例设定为0.1。
用户互动:我搞砸了很多用户互动的事情,例如更改视图的背景颜色以及在视图上添加/更改箭头以显示方向。在缩放过程中给予他们反馈非常重要,特别是在更改此代码的指示允许时。
BUG:Apple的UIPinchGestureRecognizer存在一个错误。它可以像你期望的那样用两根手指触摸UIGestureRecognizerStateBegan。但是一旦它在StateBegan或StateChanged,你可以抬起一根手指,状态仍然存在。在手指抬起之前,它不会移动到StateEnded或StateCancelled。这在我的代码中造成了一个错误,并且令人头疼! if numberOfTouches&gt; 1解决了它。
未来:您可以将坡度设置更改为仅在一个方向上缩放,或者只是2.如果添加箭头图像,您可以在旋转手指时看到它们发生变化。
答案 1 :(得分:4)
这是Swift的解决方案:
SELECT
T1.name,
T1.invoice_value,
T1.invoice_date,
T1.duedate,
T1.dueamount
FROM
(SELECT
table1.name,
table1.invoice_value,
table1.invoice_date,
GROUP_CONCAT(table2.duedate1) AS duedate,
GROUP_CONCAT(table2.dueamount1) AS dueamount
FROM
table1
LEFT JOIN table2 ON table1.id = table2.invoice_id) T1
GROUP BY T1.id
答案 2 :(得分:1)
此替代解决方案基于方位角而非斜率确定缩放方向。我发现使用角度测量来调整不同的区域要容易一些。
@objc func viewPinched(sender: UIPinchGestureRecognizer) {
// Scale the view either vertically, horizontally, or diagonally based on the axis of the initial pinch
let locationOne = sender.location(ofTouch: 0, in: sender.view)
let locationTwo = sender.location(ofTouch: 1, in: sender.view)
let diffX = locationOne.x - locationTwo.x
let diffY = locationOne.y - locationTwo.y
// Break the plane into 3 equal segments
// Inverse tangent will return between π/2 and -π/2. Absolute value can be used to only consider 0 to π/2 - don't forget to handle divide by 0 case
// Breaking π/2 into three equal pieces, we get regions of 0 to π/6, π/6 to 2π/6, and 2π/6 to π/2 (note 2π/6 = π/3)
// Radian reminder - π/2 is 90 degreees :)
let bearingAngle = diffY == 0 ? CGFloat.pi / 2.0 : abs(atan(diffX/diffY))
if sender.state == .began {
// Determine type of pan based on bearing angle formed by the two touch points.
// Only do this when the pan begins - don't change type as the user rotates their fingers. Require a new gesture to change pan type
if bearingAngle < CGFloat.pi / 6.0 {
panType = .vertical
} else if bearingAngle < CGFloat.pi / 3.0 {
panType = .diagonal
} else if bearingAngle <= CGFloat.pi / 2.0 {
panType = .horizontal
}
}
// Scale the view based on the pan type
switch panType {
case .diagonal: transform = CGAffineTransform(scaleX: sender.scale, y: sender.scale)
case .horizontal: transform = CGAffineTransform(scaleX: sender.scale, y: 1.0)
case .vertical: transform = CGAffineTransform(scaleX: 1.0, y: sender.scale)
}
}