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Working with Maps and Levels(14)

cAutomap::cAutomap and cAutomap::~cAutomap

The constructor and destructor of the cAutomap class ensure that all data is placed
within a known state and that all used resources are released. The constructor does
nothing more than clear some variables and orient a camera to point downward.
You later use that camera to render the map. The destructor calls on the Free
function to release all used resources.

 

cAutomap::create and cAutoMap::free

All right, take a deep breath for this part. The create function is the biggest of the
bunch. It loads an .X file and converts each mesh within into a separate vertex
buffer. Starting with its variable declarations, examine the variable in pieces to
better understand what’s going on:

bool cAutoMap::create(pcstr filename, long color)
{
    free();

    cMesh mesh;
    
if(! mesh.load(filename, ".\\"))
        
return false;

    
// get number of map section, create section visible flag array, vertex buffer array.

    m_num_sections = mesh.get_num_meshes();
    
if(m_num_sections == 0)
    {
        mesh.free();
        
return false;
    }

    m_visible = 
new bool[m_num_sections];
    ZeroMemory(m_visible, m_num_sections);

    m_map_vb = 
new DIRECT3DVERTEXBUFFER9_PTR[m_num_sections];
    
long num  = m_num_sections - 1;

    
// get a bounding radius to scale by
    float radius;
    mesh.get_bounds(NULL, NULL, NULL, NULL, NULL, NULL, &radius);
    m_scale = 128.0f / radius;

    
// go through each mesh in the cMesh object and construct a matching vertex buffer.
    // make sure to start with last section in map to compensate for linked list ordering of mesh in cMesh.
    for(sMeshInfo* mesh_info = mesh.get_root_mesh(); mesh_info != NULL; mesh_info = mesh_info->m_next)
    {
        
static long per_vertex_size = D3DXGetFVFVertexSize(mesh_info->m_d3d_mesh->GetFVF());

        ID3DXMesh* d3d_mesh = mesh_info->m_d3d_mesh;
        
ushort* index_ptr;
        
char*   vert_ptr;

        d3d_mesh->LockIndexBuffer(D3DLOCK_READONLY,  (
void**) &index_ptr);
        d3d_mesh->LockVertexBuffer(D3DLOCK_READONLY, (
void**) &vert_ptr);

        
long num_faces = d3d_mesh->GetNumFaces();
        create_vertex_buffer(&m_map_vb[num], num_faces * 3, 
sizeof(sMapVertex), AUTO_MAP_FVF);

        sMapVertex* map_vb_ptr;
        m_map_vb[num]->Lock(0, 0, (
void**) &map_vb_ptr, 0);

        
// pull out vertices and construct map vertex list, then fill into map vertex buffer.
        for(long i = 0; i < num_faces; i++)
        {
            
for(long j = 0; j < 3; j++)
            {
                
ushort vert_index = *index_ptr;
                index_ptr++;

                sVertex* vert = (sVertex*) &vert_ptr[per_vertex_size * vert_index];

                sMapVertex map_vert;

                map_vert.x = vert->x * m_scale;
                map_vert.y = 0.0f;
                map_vert.z = vert->z * m_scale;
                map_vert.diffuse = color;

                memcpy(map_vb_ptr, &map_vert, 
sizeof(sMapVertex));
                map_vb_ptr++;
            }
        }

        m_map_vb[num]->Unlock();
        d3d_mesh->UnlockVertexBuffer();
        d3d_mesh->UnlockIndexBuffer();

        num--;
    }

    mesh.free();

    
// create a character arrow vertex buffer and fill in it

    sMapVertex arrow_verts[3] = 
    {
        {  0.0f, 0.0f,  10.0f, D3DCOLOR_RGBA(128, 64, 0, 255) },
        {  5.0f, 0.0f, -10.0f, D3DCOLOR_RGBA(128, 64, 0, 255) },
        { -5.0f, 0.0f, -10.0f, D3DCOLOR_RGBA(128, 64, 0, 255) }
    };

    create_vertex_buffer(&m_arrow_vb, 3, 
sizeof(sMapVertex), AUTO_MAP_FVF);
    fill_in_vertex_buffer(m_arrow_vb, 0, 3, arrow_verts);

    
return true;
}

At this point, some variables are declared, a prior auto map is freed (via a call to
free), and some error checking is being performed. Notice that the variable declarations
include the vertex definitions for the pointer vertex buffer.

Now move on, starting with the code that loads the map mesh that is used to create
the vertex buffers.

The first order of business is to load the actual .X file from disc. The first sMesh
structure is grabbed from the cMesh object (remember from the Graphics Core that
the cMesh class stores meshes in a linked list of sMeshInfo structures).

Next, you calculate the size of the vertex structure used by the .X file and calculate
the scaling factor to alter the meshes being loaded. Finally, you store the number
of map sections in a class variable. Notice that the number of map sections happens
to be the number of meshes in the .X file.

Moving on, you allocate an array of bool variables, with each element in the array
representing whether a map section is visible. Each map section has a matching
element in the array. You also create an array of vertex buffers.
These vertex buffers will be used to store the map sections.

Remember that the meshes are contained with a linked list of structures. Now is
the time to iterate through each structure in the linked list and query each structure
for the pointer to the actual Direct3D ID3DXMesh object that contains the mesh
information for a single map section.

Next, you lock the index and vertex buffers and start pulling out the vertex data.

A vertex buffer is being created to match the number of polygon faces in the source
mesh. The vertex buffer is being locked and a pointer is being retrieved to start storing
the vertices.

Two loops now go through every polygon face in the source mesh, and three vertices
for each face are copied over to the map vertex buffers. Notice that you use only the
X- and Z-coordinates, although the Y-coordinate is set to 0 (again to flatten the map).
Last, you set the diffuse color to the color value provided (used to render the map).

You wrap up the process by unlocking the index and vertex buffers of the source
mesh and then proceeding to the next map section mesh in the linked list of
meshes loaded from the .X file. Notice that the num variable is tracking the vertex
buffer that is being created, and the preceding code decrements it with each mesh
being processed.

You decrement rather than increment the num variable because the meshes in the
cMesh object are stored in reverse order (to make loading faster), so you must compensate
to make sure that each map section is numbered sequentially to match the
order those meshes are stored in the .X file.

The create function finishes up by creating the pointer vertex buffer and copying
over the vertex definition data defined earlier. The source mesh is freed and control
returns to the caller.

In order to free the map sections from memory, you provide a free function that
releases all the allocated resources and prepares the class to load another map class.

posted on 2007-12-10 16:00 lovedday 阅读(273) 评论(0)  编辑 收藏 引用


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