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I set up my scene (Android app, OpenGL ES) like this:

GLU.gluPerspective(gl, 60, viewRatio, 0.1f, 1000.0f);
// ...
GLU.gluLookAt(gl, cameraX, cameraY, cameraZ, cameraX, cameraY, cameraZ - 1f, 0f, 1f, 0f);
// Scene scaled down because object positions are in [-10000..10000] for x & y
gl.glScalef(0.001f, 0.001f, 1.0f);

The scene is rendered well, it contains quads at z=-10 and one giant background quad at z=-30. I am now trying to implement ray picking, like this (taken from this thread:

public float[] unproject(float rx, float ry, float rz) {
    float[] xyzw = {0, 0, 0, 0};
    int[] viewport = {0, 0, mDisplayWidth, mDisplayHeight};
    android.opengl.GLU.gluUnProject(rx, ry, rz, mMatrixGrabber.mModelView, 0, mMatrixGrabber.mProjection, 0, viewport, 0, xyzw, 0);
    xyzw[0] /= xyzw[3];
    xyzw[1] /= xyzw[3];
    xyzw[2] /= xyzw[3];
    xyzw[3] = 1;
    return xyzw;

Taps onto the screen are then tested this way:

unproject(tapX, mDisplayHeight - tapY, BACKGROUND_Z);

Expected behaviour: Returned X,Y coordinates resemble the tapped point at depth = -30 (BACKGROUND_Z)

What it actually does: Returns correct X,Y coordinates when tapped at the screen center; But the distance between screen center and tapped-point is not interpreted correctly - it seems to be scaled down by some factor. E.g. tap on screen center gives [0,0], tap on left screen edge should give ~[-3600,0], but instead gives [-1.13,0]. Panning the view such that the previously touched point is in the screen center gives ~[-3600,0], as it should.

Can this be due to the scaling of the scene by 0.001? I have tested various configurations (moving scaling before gluLookAt, or entirely removing it), but the problem persists :(

Sample data output for touch at left screen edge:

Touch point passed to unproject():

x=3, y = 554 (0,0 at bottom left; w=720, h=1280)

Projection matrix:

[2.8482616, 0.0,       0.0,         0.0, 
 0.0,       1.7320509, 0.0,         0.0, 
 0.0,       0.0,      -1.0001999,  -1.0, 
 0.0,       0.0,      -0.20001999,  0.0]

Model matrix:

[0.0010, 0.0,    0.0, 0.0, 
 0.0,    0.0010, 0.0, 0.0, 
 0.0,    0.0,    1.0, 0.0, 
 0.0,    0.0,    1.0, 1.0]

unproject() output:

[-1.1232367, -0.11801138, -1.0032262, 1.0]

What comes to my mind here is that the returned z value seems to be wrong - the z value passed into unproject() is -30 (as mentioned above).

share|improve this question
Does the MatrixGrabber contain the correct matrices? Viewport correct? It looks weird though that homogeneous coordinates are used down to model coordinates. –  Stefan Hanke Mar 28 '12 at 16:06
My MatrixGrabber has valid matrices - don't know if they are ok. Viewport is always [0,0,w,h]. Can you give me a tip regarding homogeneous -> model coordinates? –  manmal Mar 28 '12 at 18:06
No this is OK. Projective parts come from projection matrices, and all other affine matrices are built s.t. these parts are passed-through. My guess is that the scale somehow is not present in the grabbers's mModelView. For the matrix manipulation calls given in your example, can you show the two grabber matrices, and the xyzw output directly after gluUnProject? –  Stefan Hanke Mar 29 '12 at 0:26
updated the question with the sample values you requested :) –  manmal Mar 29 '12 at 8:03

1 Answer 1

up vote 5 down vote accepted

Let's see -- I wasn't able to reproduce the values you got, however I think this does not matter.

You must not call unproject with z-values not within [-1;+1]. The first thing unproject must do is reverse the windowing transform, and after that, the coordinates must be in NDC-space. In OpenGL, this is the cube [-1;+1]^3 (songho contains some nice graphics). Calling unproject with -30 means that the point must have been before the near plane. Calling it with z=-1.0f results in the near plane, and z=+1.0f in the far plane.

How to choose z s.t. after all matrix inversions, z=-30 holds -- I don't know.

share|improve this answer
man, you are my hero, totally saved my day/week! setting winz to -1 gives a z-value of -1.05, and a winz of 1 gives a z-value of -1001.5 (with corresponding x,y values). given both points, I can calculate a ray and intersect it with my quads. thanks so much! –  manmal Mar 29 '12 at 19:00
Glad to hear that! I (used to) love this type of math, even waded through Jim Blinn's articles and books. If you think you know stuff, he will twist it ;) –  Stefan Hanke Mar 30 '12 at 3:30

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