I'm building an Android application that uses OpenGL ES 2.0 and I've run into a wall. I'm trying to convert screen coordinates (where the user touches) to world coordinates. I've tried reading and playing around with GLU.gluUnProject but I'm either doing it wrong or just don't understand it.

This is my attempt....

```
public void getWorldFromScreen(float x, float y) {
int viewport[] = { 0, 0, width , height};
float startY = ((float) (height) - y);
float[] near = { 0.0f, 0.0f, 0.0f, 0.0f };
float[] far = { 0.0f, 0.0f, 0.0f, 0.0f };
float[] mv = new float[16];
Matrix.multiplyMM(mv, 0, mViewMatrix, 0, mModelMatrix, 0);
GLU.gluUnProject(x, startY, 0, mv, 0, mProjectionMatrix, 0, viewport, 0, near, 0);
GLU.gluUnProject(x, startY, 1, mv, 0, mProjectionMatrix, 0, viewport, 0, far, 0);
float nearX = near[0] / near[3];
float nearY = near[1] / near[3];
float nearZ = near[2] / near[3];
float farX = far[0] / far[3];
float farY = far[1] / far[3];
float farZ = far[2] / far[3];
}
```

The numbers I am getting don't seem right, is this the right way to utilize this method? Does it work for OpenGL ES 2.0? Should I make the Model Matrix an identity matrix before these calculations (Matrix.setIdentityM(mModelMatix, 0))?

As a follow up, if this is correct, how do I pick the output Z? Basically, I always know at what distance I want the world coordinates to be at, but the Z parameter in GLU.gluUnProject appears to be some kind of interpolation between the near and far plane. Is it just a linear interpolation?

Thanks in advance