| Microsoft DirectX 8.1 (C++) |
The following ProjectionMatrix sample function—written in C++—takes four input parameters that set the front and back clipping planes, as well as the horizontal and vertical field of view angles. This code parallels the approach discussed in the What Is the Projection Transformation? topic. The fields of view should be less than pi radians.
D3DXMATRIX
ProjectionMatrix(const float near_plane, // Distance to near clipping
// plane
const float far_plane, // Distance to far clipping
// plane
const float fov_horiz, // Horizontal field of view
// angle, in radians
const float fov_vert) // Vertical field of view
// angle, in radians
{
float h, w, Q;
w = (float)1/tan(fov_horiz*0.5); // 1/tan(x) == cot(x)
h = (float)1/tan(fov_vert*0.5); // 1/tan(x) == cot(x)
Q = far_plane/(far_plane - near_plane);
D3DXMATRIX ret;
ZeroMemory(&ret, sizeof(ret));
ret(0, 0) = w;
ret(1, 1) = h;
ret(2, 2) = Q;
ret(3, 2) = -Q*near_plane;
ret(2, 3) = 1;
return ret;
} // End of ProjectionMatrix
After you create the matrix, you must set it in a call to the IDirect3DDevice8::SetTransform method, specifying D3DTRANSFORMSTATE_PROJECTION in the first parameter. For details, see Setting Transformations.
The Direct3DX utility library provides the following functions to help you set up your projections matrix.