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what I am trying to do is to set up functions that can perform global and object space rotations, but am having problems understand how to go about object space rotations, as just multiplying a point by the rotation only works for global space, so my idea was to build the rotation in object space, then multiply it by the inverse of the objects matrix, supposedly taking away all the excess rotation between object and global space, so still maintaining the object space rotation, but in global values, I was wrong in this logic, as it did not work, here is my code, if you want to inspect it, all functions it calls have been tested to work:

// build object space rotation
sf::Vector3<float> XMatrix (MultiplyByMatrix(sf::Vector3<float> (cosz,sinz,0)));
sf::Vector3<float> YMatrix (MultiplyByMatrix(sf::Vector3<float> (-sinz,cosz,0)));
sf::Vector3<float> ZMatrix (MultiplyByMatrix(sf::Vector3<float> (0,0,1)));

// build cofactor matrix
sf::Vector3<float> InverseMatrix[3];

// multiply by the transpose of the cofactor matrix(the adjoint), to bring the rotation to world space coordinates
sf::Vector3<float> RelativeXMatrix = MultiplyByTranspose(XMatrix, InverseMatrix[0], InverseMatrix[1], InverseMatrix[2]);
sf::Vector3<float> RelativeYMatrix = MultiplyByTranspose(YMatrix, InverseMatrix[0], InverseMatrix[1], InverseMatrix[2]);
sf::Vector3<float> RelativeZMatrix = MultiplyByTranspose(ZMatrix, InverseMatrix[0], InverseMatrix[1], InverseMatrix[2]);

// perform the rotation from world space
PointsPlusMatrix(RelativeXMatrix, RelativeYMatrix, RelativeZMatrix);
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Do you want to rotate object around arbitrary axis or one of the coordinate axes? –  KCH Mar 29 '12 at 20:55
The answer to the general 3D problem is here. –  Glenn Mar 5 '13 at 18:22

1 Answer 1

up vote 2 down vote accepted

The difference between rotation in world-space and object-space is where you apply the rotation matrix.

The usual way computer graphics uses matrices is to map vertex points:

  • from object-space, (multiply by MODEL matrix to transform)
  • into world-space, (then multiply by VIEW matrix to transform)
  • into camera-space, (then multiply by PROJECTION matrix to transform)
  • into projection-, or "clip"- space

Specifically, suppose points are represented as column vectors; then, you transform a point by left-multiplying it by a transformation matrix:

world_point = MODEL * model_point
camera_point = VIEW * world_point = (VIEW*MODEL) * model_point
clip_point = PROJECTION * camera_point = (PROJECTION*VIEW*MODEL) * model_point

Each of these transformation matrices may itself be the result of multiple matrices multiplied in sequence. In particular, the MODEL matrix is often composed of a sequence of rotations, translations, and scalings, based on a hierarchical articulated model, e.g.:


So, whether you are rotating in model-space or world-space depends on which side of the MODEL matrix you apply your rotation matrix. Of course, you can easily do both:


In this case, WORLD_ROTATION rotates about the center of world-space, while OBJECT_ROTATION rotates about the center of object-space.

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my problem is I need to maintain my object rotation, while still transfering it to world space, to imagine what I'm talking about, think of a vector in object space, rotated in object space, about a specific direction, I need the specific direction maintained, but also rotated into world space, if I'm making it somewhat clear, or are you saying to multiply my rotation matrix into object space, and just multiply it back into world space? does that work? sorry if the way I'm working this about sounds a little silly, I'm still somewhat new to matrix math. could you write a small example? thanks –  Weeve Ferrelaine Mar 29 '12 at 22:47
Do you want to keep your object oriented in the same direction in worldspace, regardless of whatever articulation determines its location? If so, you can just find this base location in worldspace (by transforming a single vertex with an existing OLD_MODEL matrix), and create an entirely new MODEL matrix which is just a translation to that point. –  comingstorm Mar 29 '12 at 22:54
there is no need of a 4x4 matrix, as I do my own position handeling, and there will be no need of skew, but what you said earlier about object rotation, are you saying I should do (RotationMatrixmodel) and not (modelRotationMatrix) as is normally done for inertial rotation? or am I still misunderstanding. could you write a small sample of code that I could look at, and see what you mean, and apply to my circumstances, as it would be most helpful :) –  Weeve Ferrelaine Mar 30 '12 at 19:06
Finally, even if you don't want to do that: if you want to rotate your object in object space, the obvious thing to do is to multiply it by a rotation matrix before doing all the other transformations you want to do. –  comingstorm Mar 30 '12 at 21:27
Or, equivalently: combine your matrix Robj with the transformation T that you would have done on p by computing the matrix RandT= Robj * T, and using RandT instead of T. –  comingstorm Mar 30 '12 at 23:17

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