I think the best way to do is to get two reference points, one representing the origin and the other representing the rotation vector. Convert these 2 points to node space, measure the vector between them (subtraction) and convert that to an angle. Here are 2 methods that should be a category of CCNode (note: I refer to self), one to world and the other to node.

```
-(float) convertRotationToWorldSpace:(float)rotation
{
CGPoint rot = ccpForAngle(-CC_DEGREES_TO_RADIANS(rotation));
CGPoint worldPt = [self convertToWorldSpace:rot];
CGPoint worldOriginPt = [self convertToWorldSpace:CGPointZero];
CGPoint worldVec = ccpSub(worldPt, worldOriginPt);
return -CC_RADIANS_TO_DEGREES(ccpToAngle(worldVec));
}
-(float) convertRotationToNodeSpace:(float)rotation
{
CGPoint rot = ccpForAngle(-CC_DEGREES_TO_RADIANS(rotation));
CGPoint nodePt = [self convertToNodeSpace:rot];
CGPoint nodeOriginPt = [self convertToNodeSpace:CGPointZero];
CGPoint nodeVec = ccpSub(nodePt, nodeOriginPt);
return -CC_RADIANS_TO_DEGREES(ccpToAngle(nodeVec));
}
```