What's wrong with my Go matrix functions (Perspective/Frustum & Lookat matrices) for OpenGL?

Facebook and Stack Exchange are now working together to support the Facebook developer community. Facebook engineers participate here along with the best Facebook developers in the world. If you have a technical question about Facebook, this is the best place to ask.

First off, here's the very simplistic "newbie standard" vertex shader:

``````in vec3 aPos;
uniform mat4 uMatModel; uniform mat4 uMatView; uniform mat4 uMatProj;

void main () {
gl_Position = uMatProj * uMatView * uMatModel * vec4(aPos, 1.0);
}
``````

Now what I'm rendering is a simple 6-faced cube. There is no rotation applied or inherent in the 36 vertex coordinates. Standard tutorial-style -0.5..+0.5 stuff. I'll spare you the vertex array here but rest assured, it's as simple as that.

• uMatModel is simply the identity matrix for now, no scaling/translating/rotating as-yet
• uMatView is a LookAt matrix (Go code below) called with pos={ 0.1, 0.1, -3.0 }, target={ 0.1, 0.1, 0.1 }, up={ 0, 1, 0 } (remember the cube vertex coords are all between -0.5 and 0.5 in all dimensions so the 0.1s should be "almost central")
• uMatProj is a Perspective matrix (Go code below) called with fov=45 aspect=winwidth/winheight near=0.1 far=100

In theory the "camera" should be about 2-3 units "behind" the cube facing it straight. Instead, I get...

I wonder where the rotation is coming from... I do not even have rotations implemented yet.

So in summary I have tried to implement the required matrix functions myself in Go, working off the maths. But somewhere I must have bugged up. Can anyone spot any matrix-theoretical problems in my below code?

``````type Mat4x4 [4][4]float64

func (me *Mat4x4) Identity () {
me[0][0], me[0][1], me[0][2], me[0][3] = 1, 0, 0, 0
me[1][0], me[1][1], me[1][2], me[1][3] = 0, 1, 0, 0
me[2][0], me[2][1], me[2][2], me[2][3] = 0, 0, 1, 0
me[3][0], me[3][1], me[3][2], me[3][3] = 0, 0, 0, 1
}

func (me *Mat4x4) Frustum (left, right, bottom, top, near, far float64) {
me[0][0], me[0][1], me[0][2], me[0][3] = (near * 2) / (right - left), 0, 0, 0
me[1][0], me[1][1], me[1][2], me[1][3] = 0, (near * 2) / (top - bottom), 0, 0
me[2][0], me[2][1], me[2][2], me[2][3] = (right + left) / (right - left), (top + bottom) / (top - bottom), -(far + near) / (far - near), -1
me[3][0], me[3][1], me[3][2], me[3][3] = 0, 0, -(far * near * 2) / (far - near), 0
}

func (me *Mat4x4) Perspective (fovY, aspect, near, far float64) {
var top = near * math.Tan(fovY * math.Pi / 360)
var right = top * aspect
me.Frustum(aspect * -top, right, -top, top, near, far)
}

func (me *Mat4x4) LookAt (eyePos, lookTarget, worldUp *Vec3) {
var vz = eyePos.Sub(lookTarget)
vz.Normalize()
var vx = worldUp.Cross(&vz)
vx.Normalize()
var vy = vz.Cross(&vx)
vy.Normalize()
me[0][0], me[0][1], me[0][2], me[0][3] = vx.X, vy.X, vz.X, 0
me[1][0], me[1][1], me[1][2], me[1][3] = vx.Y, vy.Y, vz.Y, 0
me[2][0], me[2][1], me[2][2], me[2][3] = vx.Z, vy.Z, vz.Z, 0
me[3][0], me[3][1], me[3][2], me[3][3] = -((vx.X * eyePos.X) + (vx.Y * eyePos.Y) + (vx.Z * eyePos.Z)), -((vy.X * eyePos.X) + (vy.Y * eyePos.Y) + (vy.Z * eyePos.Z)), -((vz.X * eyePos.X) + (vz.Y * eyePos.Y) + (vz.Z * eyePos.Z)), 1
}
``````

Note, Vec3 here is a custom type in the same package, I have not included it here. For now I assume the Vec3 functions are correct (also a lot easier to verify) and suspect that I somehow messed up the LookAt and/or Perspective algorithms in the matrix struct.

-
 Seems like they could be transposed the wrong way, but I don't know enough about Go to say for sure. If you transpose your LookAt and Perspective matrix does it look any better? Note you can transpose them with a quick boolean flip in glUniformMatrix, so you don't have to edit the actual matrix functions. – Tim Oct 11 '12 at 19:34 Now that I found out that GLSL matrices are column-major whereas mine are row-major -- you're definitely right on the money here. Will see if this solves the issue, but it's definitely part of what's wrong here... – metaleap Oct 12 '12 at 4:34 Changed the matrix lib completely to column-major but no change in the core problem, still a 45° tilted camera view... – metaleap Oct 12 '12 at 8:37

Is this (presumably) deg to rad conversion okay?

``````func (me *Mat4x4) Perspective (fovY, aspect, near, far float64) {
var top = near * math.Tan(fovY * math.Pi / 360)
var right = top * aspect
me.Frustum(aspect * -top, right, -top, top, near, far)
}
``````

Maybe there should be:

``````        top := near * math.Tan(fovY * 2 * math.Pi / 360)
``````
-
 Nah, that changes the camera perspective a bit but the core problem remains, the whole view is still like 45° rotated... – metaleap Oct 12 '12 at 8:36

My matrix code was buggy... case closed.

-