fix anchor point bug

cocos/2d/CCNode.cpp

@@ -1703,40 +1703,45 @@ const Mat4& Node::getNodeToParentTransform() const
         }
         
         bool needsSkewMatrix = ( _skewX || _skewY );
-        // Rotation values
-        // Change rotation code to handle X and Y
-        // If we skew with the exact same value for both x and y then we're simply just rotating
-        float cx = 1, sx = 0, cy = 1, sy = 0;
-        if (_rotationZ_X != _rotationZ_Y || (! needsSkewMatrix && !_anchorPointInPoints.equals(Vec2::ZERO)))
-        {
-            float radiansX = -CC_DEGREES_TO_RADIANS(_rotationZ_X);
-            float radiansY = -CC_DEGREES_TO_RADIANS(_rotationZ_Y);
-            cx = cosf(radiansX);
-            sx = sinf(radiansX);
-            cy = cosf(radiansY);
-            sy = sinf(radiansY);
-        }
+        
         
         Vec2 anchorPoint(_anchorPointInPoints.x * _scaleX, _anchorPointInPoints.y * _scaleY);
         
-        // optimization:
-        // inline anchor point calculation if skew is not needed
-        // Adjusted transform calculation for rotational skew
+        // caculate real position
         if (! needsSkewMatrix && !_anchorPointInPoints.equals(Vec2::ZERO))
         {
-            x += cy * -anchorPoint.x + -sx * -anchorPoint.y;
-            y += sy * -anchorPoint.x +  cx * -anchorPoint.y;
+            x += -anchorPoint.x;
+            y += -anchorPoint.y;
         }
         
-        // Build Transform Matrix
-        // Adjusted transform calculation for rotational skew
+        // Build Transform Matrix = translation * rotation * scale
+        Mat4 translation;
+        //move to anchor point first, then rotate
+        Mat4::createTranslation(x + anchorPoint.x, y + anchorPoint.y, z, &translation);
+        
         Mat4::createRotation(_rotationQuat, &_transform);
+        
         if (_rotationZ_X != _rotationZ_Y)
         {
+            // Rotation values
+            // Change rotation code to handle X and Y
+            // If we skew with the exact same value for both x and y then we're simply just rotating
+            float radiansX = -CC_DEGREES_TO_RADIANS(_rotationZ_X);
+            float radiansY = -CC_DEGREES_TO_RADIANS(_rotationZ_Y);
+            float cx = cosf(radiansX);
+            float sx = sinf(radiansX);
+            float cy = cosf(radiansY);
+            float sy = sinf(radiansY);
+            
             float m0 = _transform.m[0], m1 = _transform.m[1], m4 = _transform.m[4], m5 = _transform.m[5], m8 = _transform.m[8], m9 = _transform.m[9];
             _transform.m[0] = cy * m0 - sx * m1, _transform.m[4] = cy * m4 - sx * m5, _transform.m[8] = cy * m8 - sx * m9;
             _transform.m[1] = sy * m0 + cx * m1, _transform.m[5] = sy * m4 + cx * m5, _transform.m[9] = sy * m8 + cx * m9;
         }
+        _transform = translation * _transform;
+        //move by (-anchorPoint.x, -anchorPoint.y, 0) after rotation
+        _transform.translate(-anchorPoint.x, -anchorPoint.y, 0);
+        
+        
         if (_scaleX != 1.f)
         {
             _transform.m[0] *= _scaleX, _transform.m[1] *= _scaleX, _transform.m[2] *= _scaleX;
@@ -1749,7 +1754,6 @@ const Mat4& Node::getNodeToParentTransform() const
         {
             _transform.m[8] *= _scaleZ, _transform.m[9] *= _scaleZ, _transform.m[10] *= _scaleZ;
         }
-        _transform.m[12] = x, _transform.m[13] = y, _transform.m[14] = z;
         
         // FIXME:: Try to inline skew
         // If skew is needed, apply skew and then anchor point