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I'm using code which tries to work like Glu.Project() since OpenTK doesn't support Glu.

        Vector4 pos = new Vector4(s.Position.X, 0.0f, s.Position.Y, 1.0f);
        Matrix4 mov = new Matrix4();
        Matrix4 prj = new Matrix4();
        Matrix4 mpj = new Matrix4();
        float[] vp = new float[4];

        GL.GetFloat(GetPName.ModelviewMatrix, out mov);
        GL.GetFloat(GetPName.ProjectionMatrix, out prj);
        GL.GetFloat(GetPName.Viewport, vp);

        Matrix4.Mult(ref prj, ref mov, out mpj);
        Vector4.Transform(ref pos, ref mpj, out pos);

        // Final mathematics as described in OpenGL 2.1 Glu specs
        s.set2DPos(new Vector2f( (vp[0] + (vp[2] * (pos.X + 1) / 2.0f)),
                                (vp[1] + (vp[3] * (pos.Y + 1) / 2.0f)) ));

        // Final mathematics as described in OpenGL 3 Vector specs
        s.set2DPos(new Vector2f( (view[2] / 2 * pos.X + view[0]),
                                (view[3] / 2 * pos.X + view[1]) ));

        // Neither of them work, but in relation OpenGL 3 vector specs work better.

s is a class which primary exists as a model in 3D space at s.Position. But the values I'm getting from this are astronomically far beyond the window boundaries.

The ModelView matrix from a breakpoint:

{(1, 0, 0, 0)
(0, 0.7071068, 0.7071068, 0)
(0, -0.7071068, 0.7071068, 0)
(0, -141.4214, -141.4214, 1)}

The Projection matrix from a breakpoint:

{(1.931371, 0, 0, 0)
(0, 2.414213, 0, 0)
(0, 0, -1.0002, -1)
(0, 0, -2.0002, 0)}

Am I doing something wrong or did I get something wrong? Am I missing something?

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94% accept rate
Tried with Glu, very very similar results. – Cobra_Fast Nov 30 '10 at 19:45
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2 Answers

up vote 0 down vote

Have you sanity checked the s.Position value before using it? What about the projection and transformation matrices you apply to the vector, are they sane looking?

I'm not familiar with OpenTK, but the mathematics prior to set2DPos() look sensible enough.

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My code runs from the main ModelView matrix and the s.Position values are sane as i see the model at the correct location. Thanks for answering. – Cobra_Fast Nov 30 '10 at 21:29
Added example data for the matrices as how they were at a random break point when the object s was visible. – Cobra_Fast Nov 30 '10 at 21:36
I assume your final call is to map your vertex into screen space. If that's the case, it looks a little suspect - download the OpenGL core specification and at section 2.13.1 you can find the viewport mapping algebra. Good luck! – cbamber85 Dec 1 '10 at 20:05
Ok with the different forumular I'm getting more plausible results but theyre still like 20k (instead of several millions) off the screen dimensions. I'm now doing respectively (view[2] / 2 * pos.X + view[0]). Thanks for your hint so far. – Cobra_Fast Dec 1 '10 at 20:57
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up vote 0 down vote accepted

Here is how it works:

GL.GetFloat(GetPName.ModelviewMatrix, out model);
GL.GetFloat(GetPName.ProjectionMatrix, out proj);
GL.GetFloat(GetPName.Viewport, view);

Matrix4.Transpose(ref model, out model);
Matrix4.Transpose(ref proj, out proj);

Vector4 posa = new Vector4(0.0f, s.Position.Y, 1.0f, s.Position.X);
Vector4 posb = new Vector4(s.Position.Y, 1.0f, s.Position.X, 0.0f);
Vector4 posc = new Vector4(1.0f, s.Position.X, 0.0f, s.Position.Y);

Vector4 one = new Vector4(1.0f, 1.0f, 1.0f, 1.0f);
Matrix4 posv = new Matrix4(pos, posa, posb, posc);

Matrix4 ProjPos = Matrix4.Mult(Matrix4.Mult(proj, model), posv);
Matrix4.Transpose(ref ProjPos, out ProjPos);

Vector2f posout = new Vector2f(
   (0 + (this.glc.Width * (ProjPos.Column0.X / ProjPos.Column0.W + 1.0f)) - (this.glc.Width / 2.0f)),
   (0 + (this.glc.Height * (ProjPos.Column0.Y / ProjPos.Column0.W + 1.0f)) - (this.glc.Height / 2.0f))
);

In case anyone needs it :)

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