ANCHOR POINT INDEPENDENT Solution:

I really like @joshrl answer where he makes a category "UIView+Quadrilateral" which uses @hfossli's *most excellent* answer above. However, multiple calls to the category to change the quadrilateral fails, and the code requires the AnchorPoint to be top-left.

My solution (derived from theirs):

- Accounts for any AnchorPoint
- Allows for changes to the quadrilateral

**UIView+Quadrilateral.h**:

```
#import <UIKit/UIKit.h>
#import <QuartzCore/QuartzCore.h>
@interface UIView (Quadrilateral)
//Sets frame to bounding box of quad and applies transform
- (void)transformToFitQuadTopLeft:(CGPoint)tl topRight:(CGPoint)tr bottomLeft:(CGPoint)bl bottomRight:(CGPoint)br;
@end
```

**UIView+Quadrilateral.m**:

```
#import "UIView+Quadrilateral.h"
@implementation UIView (Quadrilateral)
- (void)transformToFitQuadTopLeft:(CGPoint)tl topRight:(CGPoint)tr bottomLeft:(CGPoint)bl bottomRight:(CGPoint)br
{
CGRect boundingBox = [[self class] boundingBoxForQuadTR:tr tl:tl bl:bl br:br];
self.layer.transform = CATransform3DIdentity; // keeps current transform from interfering
self.frame = boundingBox;
CGPoint frameTopLeft = boundingBox.origin;
CATransform3D transform = [[self class] rectToQuad:self.bounds
quadTL:CGPointMake(tl.x-frameTopLeft.x, tl.y-frameTopLeft.y)
quadTR:CGPointMake(tr.x-frameTopLeft.x, tr.y-frameTopLeft.y)
quadBL:CGPointMake(bl.x-frameTopLeft.x, bl.y-frameTopLeft.y)
quadBR:CGPointMake(br.x-frameTopLeft.x, br.y-frameTopLeft.y)];
// To account for anchor point, we must translate, transform, translate
CGPoint anchorPoint = self.layer.position;
CGPoint anchorOffset = CGPointMake(anchorPoint.x - boundingBox.origin.x, anchorPoint.y - boundingBox.origin.y);
CATransform3D transPos = CATransform3DMakeTranslation(anchorOffset.x, anchorOffset.y, 0.);
CATransform3D transNeg = CATransform3DMakeTranslation(-anchorOffset.x, -anchorOffset.y, 0.);
CATransform3D fullTransform = CATransform3DConcat(CATransform3DConcat(transPos, transform), transNeg);
// Now we set our transform
self.layer.transform = fullTransform;
}
+ (CGRect)boundingBoxForQuadTR:(CGPoint)tr tl:(CGPoint)tl bl:(CGPoint)bl br:(CGPoint)br
{
CGRect boundingBox = CGRectZero;
CGFloat xmin = MIN(MIN(MIN(tr.x, tl.x), bl.x),br.x);
CGFloat ymin = MIN(MIN(MIN(tr.y, tl.y), bl.y),br.y);
CGFloat xmax = MAX(MAX(MAX(tr.x, tl.x), bl.x),br.x);
CGFloat ymax = MAX(MAX(MAX(tr.y, tl.y), bl.y),br.y);
boundingBox.origin.x = xmin;
boundingBox.origin.y = ymin;
boundingBox.size.width = xmax - xmin;
boundingBox.size.height = ymax - ymin;
return boundingBox;
}
+ (CATransform3D)rectToQuad:(CGRect)rect
quadTL:(CGPoint)topLeft
quadTR:(CGPoint)topRight
quadBL:(CGPoint)bottomLeft
quadBR:(CGPoint)bottomRight
{
return [self rectToQuad:rect quadTLX:topLeft.x quadTLY:topLeft.y quadTRX:topRight.x quadTRY:topRight.y quadBLX:bottomLeft.x quadBLY:bottomLeft.y quadBRX:bottomRight.x quadBRY:bottomRight.y];
}
+ (CATransform3D)rectToQuad:(CGRect)rect
quadTLX:(CGFloat)x1a
quadTLY:(CGFloat)y1a
quadTRX:(CGFloat)x2a
quadTRY:(CGFloat)y2a
quadBLX:(CGFloat)x3a
quadBLY:(CGFloat)y3a
quadBRX:(CGFloat)x4a
quadBRY:(CGFloat)y4a
{
CGFloat X = rect.origin.x;
CGFloat Y = rect.origin.y;
CGFloat W = rect.size.width;
CGFloat H = rect.size.height;
CGFloat y21 = y2a - y1a;
CGFloat y32 = y3a - y2a;
CGFloat y43 = y4a - y3a;
CGFloat y14 = y1a - y4a;
CGFloat y31 = y3a - y1a;
CGFloat y42 = y4a - y2a;
CGFloat a = -H*(x2a*x3a*y14 + x2a*x4a*y31 - x1a*x4a*y32 + x1a*x3a*y42);
CGFloat b = W*(x2a*x3a*y14 + x3a*x4a*y21 + x1a*x4a*y32 + x1a*x2a*y43);
CGFloat c = H*X*(x2a*x3a*y14 + x2a*x4a*y31 - x1a*x4a*y32 + x1a*x3a*y42) - H*W*x1a*(x4a*y32 - x3a*y42 + x2a*y43) - W*Y*(x2a*x3a*y14 + x3a*x4a*y21 + x1a*x4a*y32 + x1a*x2a*y43);
CGFloat d = H*(-x4a*y21*y3a + x2a*y1a*y43 - x1a*y2a*y43 - x3a*y1a*y4a + x3a*y2a*y4a);
CGFloat e = W*(x4a*y2a*y31 - x3a*y1a*y42 - x2a*y31*y4a + x1a*y3a*y42);
CGFloat f = -(W*(x4a*(Y*y2a*y31 + H*y1a*y32) - x3a*(H + Y)*y1a*y42 + H*x2a*y1a*y43 + x2a*Y*(y1a - y3a)*y4a + x1a*Y*y3a*(-y2a + y4a)) - H*X*(x4a*y21*y3a - x2a*y1a*y43 + x3a*(y1a - y2a)*y4a + x1a*y2a*(-y3a + y4a)));
CGFloat g = H*(x3a*y21 - x4a*y21 + (-x1a + x2a)*y43);
CGFloat h = W*(-x2a*y31 + x4a*y31 + (x1a - x3a)*y42);
CGFloat i = W*Y*(x2a*y31 - x4a*y31 - x1a*y42 + x3a*y42) + H*(X*(-(x3a*y21) + x4a*y21 + x1a*y43 - x2a*y43) + W*(-(x3a*y2a) + x4a*y2a + x2a*y3a - x4a*y3a - x2a*y4a + x3a*y4a));
const double kEpsilon = 0.0001;
if(fabs(i) < kEpsilon)
{
i = kEpsilon* (i > 0 ? 1.0 : -1.0);
}
CATransform3D transform = {a/i, d/i, 0, g/i, b/i, e/i, 0, h/i, 0, 0, 1, 0, c/i, f/i, 0, 1.0};
return transform;
}
@end
```

The above category is so simple and elegant, it ought to be included in every toolbox. THANK YOUs to the ultimate sources of the above code. No credit should be given to me.