# Visually correct rotation with OpenGl and touch screen capabilities

I have been trying to do Cube of Rubik for android. I have one question about rotations. I want to rotate a figure visually correct. It means if user touch screen and after move his finger to right a figure rotate to right from side of observation point. But when I make some rotations the figure start move in not correct direction. I understand that it depends on that axis are change their situation. But I tried to use inverse model matrix to get necessary coordinates, but I haven't already result. Could anybody give me example or link of visually correct rotation of 3D figure with help of mouse or touch screen?

``````   //get vector 3D of touch
Vector3f touchVector = getRubikSystemCoordinates(mTouchX,mTouchY,square.rubikRotationMatrix);
//Get vector 3D of move
Vector3f moveVector = getRubikSystemCoordinates(mMoveX,mMoveY,square.rubikRotationMatrix);
//get direction of motion
float direction = touchVector.substractFrom(moveVector);
//get axis for rotation
Vector3f axis = touchVector.vectorProductTo(moveVector);
//normalize axis
axis.normalize();
//get angle of rotation
float angle = direction.length;
//multiply to current modelview matrix
gl.glMultMatrixf(matrix.returnArray(),0);
//save rotation matrix
square.rotationMatrix = square.rotationMatrix.multiply(matrix);
//save modelView matrix
square.saveModelView(square.initMatrix.returnArray());

// touch coords to current modelView coords
private Vector3f getRubikSystemCoordinates(float x, float y, Matrix4f matrix){
// touch coords to normal coords of screen
Vector2f normalCoords = (new Vector2f(x,y)).toNormalScreenCoordinates(Settings.viewPort[2],Settings.viewPort[3]);
// to sphere coords in 3D
Vector3f sphereVector = new Vector3f(normalCoords.x,normalCoords.y, FloatMath.sqrt(2-normalCoords.x*normalCoords.x-normalCoords.y*normalCoords.y));
//Get inverse matrix from ModelView Matrix
Matrix4f m = matrix.inverseMatrix();
//Get vector for current modelView 3D coords
Vector3f vector = m.multiplyToVector(vector);
// make normalize vector
vector.normalize();
return vector;
}
``````
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