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I'm very confused as to what my problem is here. I've set up a matrix which converts global/world coordinates into a local coordinate space of an object. This conversion matrix is constructed using object information from four vectors (forward, up, side and position). This localization matrix is then passed to glMultMatrixf() at the draw time for each object so as I can draw a simple axes around each object to visualize the local coordinate system. This works completely fine and as expected, and as the objects move and rotate in the world, so do their local coordinate axes.

The problem is that when I take this same matrix and multiply it by a column vector (to convert the global position of one object into the local coordinate system of another object) the result is not at all as I would expect. For example:

My localize matrix is as follows:

0.84155    0.138      0.5788     0
0.3020     0.8428    -0.5381     8.5335
0.4949    -0.5381    -0.6830    -11.6022
0.0        0.0        0.0        1.0

I input the position column vector:


And get the output of:


As my object's position at this point in time is (-50.8, 8.533, -11.602, 1), I know that the output for the x coordinate cannot possibly be as great as -99.2362. Futhermore, when I find the distance between two global points, and the distance between the localized point and the origin, they are different.

I've checked this in Matlab and it seems that my matrix multiplication is correct (Note: in Matlab you have to first transpose the localize matrix). So I'm left to think that my localize matrix is not being constructed correctly - but then OpenGL is successfully using this matrix to draw the local coordinate axes!

I've tried to not include unnecessary details in this question but if you feel that you need more please don't hesitate to ask! :)

Many thanks.

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That matrix transforms object local space into modelview space. So if you want to find the position of modelview space in local space you must invert this transformation, i.e. use the inverse matrix. –  datenwolf Mar 7 '11 at 19:54
Thanks for your answer! When I use the transpose I'm getting the correct results now! Could you please explain a little more why this is the case? I'm struggling to get my head round this lol. –  James Bedford Mar 7 '11 at 21:47
That matrix you show up there is not orthonormal so I doubt what you're doing is right. If it was orthonormal, the transpose would be the inverse, which is not the case. Maybe I understood you wrong, and you're really doing a forward transformation. In that case it makes sense, because OpenGL uses a column-major ordering (i.e. the faster incrementing index is the row), while in C it's row major. This boils down to a transposed indexing between C and OpenGL, which may be the cause of your trouble. But I'd to see the full code to be sure. –  datenwolf Mar 7 '11 at 22:22
Sorry when I said "transpose" before I meant "inverse" (just like you originally suggested)! Am I right in thinking that when OpenGL transforms the modelview matrix using my "localize" matrix it will also include the view transformations (and any other transformations that I've done to the world previously). Where as when I 'manually' transform a world coordinate using my "localize" function I'm only applying the last modelview matrix transform to this coordinate? I'm still not sure why using the "globalize" matrix produces the correct transformation of a world coordinate to local though! :S –  James Bedford Mar 7 '11 at 22:36
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1 Answer 1

up vote 1 down vote accepted

I have to guess, but I would like to point out two sources of problems with OpenGL-matrix multiplication:

  1. the modelview matrix transforms to a coordinate system where the camera is always at the origin (0,0,0) looking along the z-axis. So if you made some transformations to "move the camera" before applying local->global transformations, you must compensate for the camera movement or you will get coordinates local to the camera's coordinate space. Did you include camera transformations when you constructed the matrix?

  2. Matrices in OpenGL are COLUMN-major. If you have an array with 16 values, the elements will be ordered that way:

    [0][4][ 8][12]

    [1][5][ 9][13]



Your matrix also seems strange. The first three columns tell me, that you applied some rotation or scaling transformations. The last column shows the amount of translation applied to each coordinate element. The numbers are the same as your object's position. That means, if you want the output x coordinate to be -50.8, the first three elements in the first row should add up to zero:

-30*0.8154 -30*0.3020 -30*0.4939 + 1 * -50.8967

<---this should be zero--------> but is -48,339.

So I think, there really is a problem when constructing the matrix. Perhaps you can explain how you construct the matrix...

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I used this tutorial: knol.google.com/k/… What @datenwolf has commented has helped a bit. When I transform a world coordinate by what I'm currently saying is my "globalize" matrix I get the right results. I haven't quite got my head around why this is though. –  James Bedford Mar 7 '11 at 21:04
I was printing out the matrix incorrectly! I'm using column-major notation everywhere else! (I've edited my post - this should solve a few of the problems.) Thanks! –  James Bedford Mar 7 '11 at 21:36
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