Читаем DirectX 8. Начинаем работу с DirectX Graphics полностью

This structure and Flexible Vertex Format (FVF) specify that we are talking about a vertex that has a position, a color, and a set of texture coordinates.

Now we need a vertex buffer. Add the following line of code to the list of globals. Again, for simplicity, I'm making it global — this is not a demonstration of good coding practice.

LPDIRECT3DVERTEXBUFFER8 g_pVertices = NULL;

Now, add the following lines of code to the PostInitialize function (explanation to follow):

float PanelWidth = 50.0f;

float PanelHeight = 100.0f;

g_pd3dDevice->CreateVertexBuffer(4 * sizeof(PANELVERTEX), D3DUSAGE_WRITEONLY,

 D3DFVF_PANELVERTEX, D3DPOOL_MANAGED, &g_pVertices);

PANELVERTEX* pVertices = NULL;

g_pVertices->Lock(0, 4 * sizeof(PANELVERTEX), (BYTE**)&pVertices, 0);

//Set all the colors to white

pVertices[0].color = pVertices[1].color = pVertices[2].color = pVertices[3].color = 0xffffffff;

//Set positions and texture coordinates

pVertices[0].x = pVertices[3].x = -PanelWidth / 2.0f;

pVertices[1].x = pVertices[2].x = PanelWidth / 2.0f;

pVertices[0].y = pVertices[1].y = PanelHeight / 2.0f;

pVertices[2].y = pVertices[3].y = -PanelHeight / 2.0f;

pVertices[0].z = pVertices[1].z = pVertices[2].z = pVertices[3].z = 1.0f;

pVertices[1].u = pVertices[2].u = 1.0f;

pVertices[0].u = pVertices[3].u = 0.0f;

pVertices[0].v = pVertices[1].v = 0.0f;

pVertices[2].v = pVertices[3].v = 1.0f;

g_pVertices->Unlock;

This is actually much simpler than it may look. First, I made up a size for the panel just so we'd have something to work with. Next, I asked the device to create a vertex buffer that contained enough memory for four vertices of my format. Then I locked the buffer so I could set the values. One thing to note, locking buffers is very expensive, so I'm only going to do it once. We can manipulate the vertices without locking, but we'll discuss that later. For this example I have set the four points centered on the (0, 0). Keep this in the back of your mind; it will have ramifications later. Also, I set the texture coordinates. The SDK explains these pretty well, so I won't get into that. The short story is that we are set up to draw the entire texture. So, now we have a rectangle set up. The next step is to draw it…

Drawing the rectangle is pretty easy. Add the following lines of code to your Render2D function:

g_pd3dDevice->SetVertexShader(D3DFVF_PANELVERTEX);

g_pd3dDevice->SetStreamSource(0, g_pVertices, sizeof(PANELVERTEX));

g_pd3dDevice->DrawPrimitive(D3DPT_TRIANGLEFAN, 0, 2);

These lines tell the device how the vertices are formatted, which vertices to use, and how to use them. I have chosen to draw this as a triangle fan, because it's more compact than drawing two triangles. Note that since we are not dealing with other vertex formats or other vertex buffers, we could have moved the first two lines to our PostInitialize function. I put them here to stress that you have to tell the device what it's dealing with. If you don't, it may assume that the vertices are a different format and cause a crash. At this point, you can compile and run the code. If everything is correct, you should see a black rectangle on a blue background. This isn't quite right because we set the vertex colors to white. The problem is that the device has lighting enabled, which we don't need. Turn lighting off by adding this line to the PostInitialize function:

g_pd3dDevice->SetRenderState(D3DRS_LIGHTING, FALSE);

Now, recompile and the device will use the vertex colors. If you'd like, you can change the vertex colors and see the effect. So far, so good, but a game that features a white rectangle is visually boring, and we haven't gotten to the idea of blitting a bitmap yet. So, we have to add a texture. Texturing the Panel