I have a java code for SVG drawing. It processes transforms including `rotate`

, and does this very well, as far as I can see in numerous test pictures compared against their rendering in Chrome. Next what I need is to get actual object location, which is in many images declared via transforms. So I decided just to read X and Y from Matrix used for drawing. Unfortunately I get incorrect values for `rotate`

transform, that is they do not correspond to real object location in the image.

The stripped down code looks like this:

```
Matrix matrix = new Matrix();
float cx = 1000; // suppose this is an object X coordinate
float cy = 300; // this is its Y coordinate
float angle = -90; // rotate counterclockwise, got from "rotate(-90, 1000, 300)"
// shift to -X,-Y, so object is in the center
matrix.postTranslate(-cx, -cy);
// rotate actually
matrix.postRotate(angle);
// shift back
matrix.postTranslate(cx, cy);
// debug goes here
float[] values = new float[9];
matrix.getValues(values);
Log.v("HELLO", values[Matrix.MTRANS_X] + " " + values[Matrix.MTRANS_Y]);
```

The log outputs the values 700 and 1300 respectively. I'd expect 0 and 0, because I see the object rotated inplace in my image (that is there is no any movement), and postTranslate calls should compensate each other. Of course, I see how these values are formed from 1000 and 300, but don't understand why. Once again, I point out that the matrix with these strange values is used for actual object drawing, and it looks correct. Could someone explain what happens here? Am I missing something? So far I have only one solution of my problem: just do not try to obtain position from `rotate`

, do it only for explicit `matrix`

and `translate`

transforms. But this approach lacks generality, and anyway I thought matrix should have reasonable values (including offsets) for any transformation type.