It's possible convert a `CATransform3D`

to a `CGAffineTransform`

, but you will lose some capabilities. I found it useful to convert the aggregate transform of a layer and its ancestors into a `CGAffineTransform`

so I could render it with Core Graphics. The constraints are:

- Your input will be treated as flat in the XY plane
- Your output will be treated as flat in the XY plane too
- Perspective / foreshortening from
`.m34`

will be neutralized

If that sounds OK for your purposes:

```
// m13, m23, m33, m43 are not important since the destination is a flat XY plane.
// m31, m32 are not important since they would multiply with z = 0.
// m34 is zeroed here, so that neutralizes foreshortening. We can't avoid that.
// m44 is implicitly 1 as CGAffineTransform's m33.
CATransform3D fullTransform = <your 3D transform>
CGAffineTransform affine = CGAffineTransformMake(fullTransform.m11, fullTransform.m12, fullTransform.m21, fullTransform.m22, fullTransform.m41, fullTransform.m42);
```

You will want to do all your work in 3D transforms first, say by concatenating from your superlayers, and then finally convert the aggregate `CATransform3D`

to a `CGAffineTransform`

. Given that layers are flat to begin with and render onto a flat target, I found this very suitable since my 3D rotations became 2D shears. I also found it acceptable to sacrifice foreshortening. There's no way around that because affine transforms have to preserve parallel lines.

To render a 3D-transformed layer using Core Graphics, for instance, you might concatenate the transforms (respecting anchor points!), then convert to affine, and finally:

```
CGContextSaveGState(context);
CGContextConcatCTM(context, affine);
[layer renderInContext:context];
CGContextRestoreGState(context);
```

`CATransform3DRotate()`

removed, of course). It should be based on the previous transform of the UIView. – Brad Larson♦ May 9 '12 at 14:29