void initData() {
WindowManager::Instance().setFPS(30);
textureNo = LoadTexture(L"1.BMP", *device);
if (textureNo == -1) {
init_texture();
}
initObject();
device->setBGColor(0xFFFFFF);
device->setRenderState(cubeNo, MAPPING);
device->setCullBack(true);
//device->setCVVCheck(true);
device->setLightPosition(Light0, vector_c(4, 7, 4));
//device->setLight(Light0, AMBIENT, Color(0xFF0000));
device->setLight(Light0, DIFFUSE, Color(0x00FF00));
device->activeLight(Light0);
SetKeyFunction(VK_UP, Main::forward);
SetKeyFunction(VK_DOWN, Main::backward);
SetKeyFunction(VK_LEFT, Main::left);
SetKeyFunction(VK_RIGHT, Main::right);
SetKeyFunction(VK_SPACE, Main::space);
}
// this example demonstrates how to use Boost.Compute's STL
// implementation to add two vectors on the GPU
int main()
{
// setup input arrays
float a[] = { 1, 2, 3, 4 };
float b[] = { 5, 6, 7, 8 };
// make space for the output
float c[] = { 0, 0, 0, 0 };
// create vectors and transfer data for the input arrays 'a' and 'b'
compute::vector<float> vector_a(a, a + 4);
compute::vector<float> vector_b(b, b + 4);
// create vector for the output array
compute::vector<float> vector_c(4);
// add the vectors together
compute::transform(
vector_a.begin(),
vector_a.end(),
vector_b.begin(),
vector_c.begin(),
compute::plus<float>()
);
// transfer results back to the host array 'c'
compute::copy(vector_c.begin(), vector_c.end(), c);
// print out results in 'c'
std::cout << "c: [" << c[0] << ", "
<< c[1] << ", "
<< c[2] << ", "
<< c[3] << "]" << std::endl;
return 0;
}
