HRESULT LoadMesh(IDirect3DDevice9* pd3dDevice, WCHAR* strFileName, ID3DXMesh** ppMesh)
{
    ID3DXMesh* pMesh = NULL;
    WCHAR str[MAX_PATH];
    HRESULT hr;

    V_RETURN(DXUTFindDXSDKMediaFileCch(str, MAX_PATH, strFileName));

    V_RETURN(D3DXLoadMeshFromX(str, D3DXMESH_MANAGED, pd3dDevice, NULL, NULL, NULL, NULL, &pMesh));

    DWORD* rgdwAdjacency = NULL;

    if(!(pMesh->GetFVF() & D3DFVF_NORMAL))
    {
        ID3DXMesh* pTempMesh;
        V(pMesh->CloneMeshFVF(pMesh->GetOptions(),
                                pMesh->GetFVF() | D3DFVF_NORMAL,
                                pd3dDevice, &pTempMesh));
        V(D3DXComputeNormals(pTempMesh, NULL));

        SAFE_RELEASE(pMesh);
        pMesh = pTempMesh;
    }
   
    rgdwAdjacency = new DWORD[pMesh->GetNumFaces() * 3];
    if(rgdwAdjacency == NULL)
        return E_OUTOFMEMORY;
    V(pMesh->GenerateAdjacency(1e-6f, rgdwAdjacency));
    V(pMesh->OptimizeInplace(D3DXMESHOPT_VERTEXCACHE, rgdwAdjacency, NULL, NULL, NULL));
    delete []rgdwAdjacency;

    *ppMesh = pMesh;

    return S_OK;
}
			void DebugBox::CreateBox(float width, float height, float depth, uint8_t r, uint8_t g, uint8_t b, D3DVECTOR origin)
			{
				IDirect3DDevice9 *pDirect3DDevice = eae6320::Graphics::Context::getDirect3DDevice();

				// Create the sphere mesh
				ID3DXMesh *pTempBoxMesh;
				ID3DXBuffer *pBoxBuffer;
				HRESULT result = D3DXCreateBox(pDirect3DDevice, width, height, depth, &pTempBoxMesh, &pBoxBuffer);
				assert(SUCCEEDED(result));

				// Clone the mesh to allow color
				pTempBoxMesh->CloneMeshFVF(0, D3DFVF_XYZ | D3DFVF_DIFFUSE, pDirect3DDevice, &m_boxMesh);

				if (SUCCEEDED(m_boxMesh->GetVertexBuffer(&m_boxVertexBuffer)))
				{
					int nNumVerts = m_boxMesh->GetNumVertices();
					sDebugVertex *pVertices = NULL;

					m_boxVertexBuffer->Lock(0, 0, (void**)&pVertices, 0);
					{
						for (int i = 0; i < nNumVerts; ++i)
						{
							pVertices[i].r = r;
							pVertices[i].g = g;
							pVertices[i].b = b;
							pVertices[i].a = 255;

							pVertices[i].x += origin.x;
							pVertices[i].y += origin.y;
							pVertices[i].z += origin.z;
						}
					}
					m_boxVertexBuffer->Unlock();
				}
			}
Exemple #3
0
MeshManager::MeshManager()
{
	//Create main sphere to be used to draw spheres place by user
	//Create a temporary sphere first
	ID3DXMesh* tempSphere;
	HR(D3DXCreateSphere(gD3DDev, 1.0f, 10, 16, &tempSphere, 0));
	//Clone temp sphere to the main sphere and give its vertices a color value
	HR(tempSphere->CloneMeshFVF( D3DXMESH_MANAGED, D3DFVF_XYZ | D3DFVF_DIFFUSE, gD3DDev, &m_mSphere ));
	//Release the temp sphere
	ReleaseCOM(tempSphere);
}
Exemple #4
0
//--------------------------------------------------------------------------------------
// This function loads the mesh and ensures the mesh has normals; it also optimizes the 
// mesh for the graphics card's vertex cache, which improves performance by organizing 
// the internal triangle list for less cache misses.
//--------------------------------------------------------------------------------------
HRESULT LoadMesh( IDirect3DDevice9* pd3dDevice, WCHAR* strFileName, ID3DXMesh** ppMesh )
{
    ID3DXMesh* pMesh = NULL;
    WCHAR str[MAX_PATH];
    HRESULT hr;

    // Load the mesh with D3DX and get back a ID3DXMesh*.  For this
    // sample we'll ignore the X file's embedded materials since we know 
    // exactly the model we're loading.  See the mesh samples such as
    // "OptimizedMesh" for a more generic mesh loading example.
    V_RETURN( DXUTFindDXSDKMediaFileCch( str, MAX_PATH, strFileName ) );
    V_RETURN( D3DXLoadMeshFromX( str, D3DXMESH_MANAGED, pd3dDevice, NULL, NULL, NULL, NULL, &pMesh ) );

    DWORD* rgdwAdjacency = NULL;

    // Make sure there are normals which are required for lighting
    if( !( pMesh->GetFVF() & D3DFVF_NORMAL ) )
    {
        ID3DXMesh* pTempMesh;
        V( pMesh->CloneMeshFVF( pMesh->GetOptions(),
                                pMesh->GetFVF() | D3DFVF_NORMAL,
                                pd3dDevice, &pTempMesh ) );
        V( D3DXComputeNormals( pTempMesh, NULL ) );

        SAFE_RELEASE( pMesh );
        pMesh = pTempMesh;
    }

    // Optimize the mesh for this graphics card's vertex cache 
    // so when rendering the mesh's triangle list the vertices will 
    // cache hit more often so it won't have to re-execute the vertex shader 
    // on those vertices so it will improve perf.     
    rgdwAdjacency = new DWORD[pMesh->GetNumFaces() * 3];
    if( rgdwAdjacency == NULL )
        return E_OUTOFMEMORY;
    V( pMesh->GenerateAdjacency( 1e-6f, rgdwAdjacency ) );
    V( pMesh->OptimizeInplace( D3DXMESHOPT_VERTEXCACHE, rgdwAdjacency, NULL, NULL, NULL ) );
    delete []rgdwAdjacency;

    *ppMesh = pMesh;

    return S_OK;
}
//--------------------------------------------------------------------------------------
//메쉬 불러오는 함수
//--------------------------------------------------------------------------------------
HRESULT LoadMesh( IDirect3DDevice9* pd3dDevice, WCHAR* strFileName, ID3DXMesh** ppMesh )
{
    ID3DXMesh* pMesh = NULL;
    WCHAR str[MAX_PATH];
    HRESULT hr;

    V_RETURN( DXUTFindDXSDKMediaFileCch( str, MAX_PATH, strFileName ) );
    V_RETURN( D3DXLoadMeshFromX( str, D3DXMESH_MANAGED, pd3dDevice, NULL, NULL, NULL, NULL, &pMesh ) );

    DWORD* rgdwAdjacency = NULL;

    // mesh에 노말벡터 생성하는 코드
    if( !( pMesh->GetFVF() & D3DFVF_NORMAL ) )
    {
        ID3DXMesh* pTempMesh;
        V( pMesh->CloneMeshFVF( pMesh->GetOptions(),
                                pMesh->GetFVF() | D3DFVF_NORMAL,
                                pd3dDevice, &pTempMesh ) );
        V( D3DXComputeNormals( pTempMesh, NULL ) );

        SAFE_RELEASE( pMesh );
        pMesh = pTempMesh;
    }

	//성능 향상을 도모하고자 인접 정보를 기록
	//각 mesh(삼각형) 정보 테이블을 가지는 형태
	//해당 정보는 pMesh가 가지고 있음
	//각 mesh 정보는 인접할 수 있는 점의 최대 개수가 3개 이내임을 활용해 효율적으로 vertex 운영
    rgdwAdjacency = new DWORD[pMesh->GetNumFaces() * 3];
    if( rgdwAdjacency == NULL )
        return E_OUTOFMEMORY;
    V( pMesh->GenerateAdjacency( 1e-6f, rgdwAdjacency ) );
	//버텍스 캐쉬를 활용하는 것
    V( pMesh->OptimizeInplace( D3DXMESHOPT_VERTEXCACHE, rgdwAdjacency, NULL, NULL, NULL ) );
    delete []rgdwAdjacency;


	//callback out 변수에 최종 값 저장
    *ppMesh = pMesh;

    return S_OK;
}
Exemple #6
0
// Creates a sphere.  Returns true on success, false otherwise
bool CreateSphere(float radius, int color, ID3DXMesh **mesh)
{
	assert(g3D->mDevice != NULL);
	assert(mesh != NULL);
	
	const unsigned int kSlices = 16;
	const unsigned int kStacks = 16;

	ID3DXMesh *tempMesh; // Temp D3D mesh object

	// Create the sphere
	if(D3DXCreateSphere(g3D->mDevice, radius, kSlices, kStacks, &tempMesh, NULL) != D3D_OK)
		return false;
		
	// Flag for how to create the D3D mesh.  We want the vertex buffer and index
	// buffer memory to be managed by DirectX	
	DWORD flag = D3DXMESH_VB_MANAGED | D3DXMESH_IB_MANAGED;

	// Copy the sphere, converting to our FVF 
	if(tempMesh->CloneMeshFVF(flag, SVertexType, g3D->mDevice, mesh) != D3D_OK)
		return false;

	SVertex *v;

	// Lock the vertex data of our sphere
	if((*mesh)->LockVertexBuffer(0, (void**)&v) != D3D_OK)
	{	
		(*mesh)->Release();
			return false;
	}

	// Set the sphere's color
	for(unsigned int i = 0; i < (*mesh)->GetNumVertices(); ++i)
		v[i].color = color;

	// Unlock the vertex data
	(*mesh)->UnlockVertexBuffer();

	tempMesh->Release(); // Free up the temporary mesh
		return true;	
}
Exemple #7
0
HRESULT FaceHierarchyLoader::CreateMeshContainer(LPCSTR Name,
        CONST D3DXMESHDATA *pMeshData,
        CONST D3DXMATERIAL *pMaterials,
        CONST D3DXEFFECTINSTANCE *pEffectInstances,
        DWORD NumMaterials,
        CONST DWORD *pAdjacency,
        LPD3DXSKININFO pSkinInfo,
        LPD3DXMESHCONTAINER *ppNewMeshContainer) {
    ID3DXMesh* pSrcMesh = pMeshData->pMesh;

    D3DXMESHCONTAINER* pContainer = new D3DXMESHCONTAINER();
    memset(pContainer, 0, sizeof(D3DXMESHCONTAINER));

    pSrcMesh->CloneMeshFVF(pSrcMesh->GetOptions(),
                           pSrcMesh->GetFVF(),
                           g_pDevice,
                           &pContainer->MeshData.pMesh);

    *ppNewMeshContainer = pContainer;
    return S_OK;
}
void MeshManager::CreateSphereMesh(){
	// Create MeshComponents for Sphere mesh
	MeshComponents* meshComp = new MeshComponents();
	meshComp->numMaterials		= 1;
	meshComp->bufMeshMaterial	= NULL;
	meshComp->material			= NULL;
	meshComp->texture			= NULL;

	//Create main sphere to be used to draw spheres place by user
	//Create a temporary sphere first
	ID3DXMesh* tempSphere;
	D3DXCreateSphere(m_Device, 1.0f, 10, 16, &tempSphere, 0);
	//Clone temp sphere to the main sphere and give its vertices a color value
	tempSphere->CloneMeshFVF( D3DXMESH_MANAGED, D3DFVF_XYZ | D3DFVF_DIFFUSE, m_Device, &meshComp->mesh );
	//Release the temp sphere
	tempSphere->Release();

	// Add sphere to meshCollection/List
	m_mMeshCollection.insert( make_pair("sphere", meshComp) );
	m_vMeshList.push_back( meshComp );
}
Exemple #9
0
// Create a torus with the parameters specified
// Returns true for success, false otherwise
bool CreateTorus(float innerRad, float outerRad, int color, ID3DXMesh **mesh)
{
	assert(g3D->mDevice != NULL);
	assert(mesh != NULL);

	const unsigned int kSides = 16; // Number of divisions looking at the torus form the side
	const unsigned int kRings = 16; // Number of divisions looking at the torus from the top
									// so you can see the hole in the middle

	ID3DXMesh *temp = NULL; // Temp D3D mesh object

	// Create the torus
	// By paramter:
	// g3D->mDevice -- Pointer to the Direct3D device to be associated with the torus
	// innerRad -- Inner radius of the torus
	// outerRad -- Outside radius of the torus
	// kSides -- Number of sides in a cross-section of the torus 
	// kRings -- Number of rings in a cross-section of the torus
	// &temp -- A pointer to a ID3DXMesh*, it will get filled with the 
	//			the created mesh
	// NULL --  Optional pointer to a ID3DXBuffer, if a valid pointer was passed
	//			it would be filled with the adjacency information for each face in 
	//			the mesh.  By passing NULL, we say we don't want this information
	if(D3DXCreateTorus(g3D->mDevice, innerRad, outerRad, kSides, kRings, &temp, NULL) != D3D_OK)
		return false;

	// Next we clone the mesh.  This does two things.  First, it allows us to
	// specify the vertex format we want on the cloned mesh.  Second, it copies the 
	// current mesh data into the ID3DXMesh we passed to this function.
	// By parameter:
	// D3DXMESH_VB_MANAGED | D3DXMESH_IB_MANAGED -- Flags specifying how we want the mesh to be
	//												cloned.  This particular flag combo says
	//												"Have the vertex buffer and index buffer
	//												associated with this mesh be in pooled memory
	//												that DirectX manages for us."
	// SVertexType -- Flexible vertex format that we want the cloned mesh to be converted to
	// g3D->mDevice -- IDirect3DDevice9 to associate this mesh with
	// mesh -- A pointer to a ID3DXMesh* that will get filled with the cloned mesh   
	if(temp->CloneMeshFVF(D3DXMESH_VB_MANAGED | D3DXMESH_IB_MANAGED, SVertexType, 
						  g3D->mDevice, mesh) != D3D_OK)
	{
		return false;
	}

	// Okay so up to this point we've created a stock D3D torus, then converted 
	// it a torus with the FVF that we want.  Now were going to loop through each
	// vertex and set it to the color that we want it to be.

	SVertex *v;

	// Lock the vertex buffer
	if((*mesh)->LockVertexBuffer(0, (void**)&v) != D3D_OK)
	{	
		(*mesh)->Release();
		return false;
	}

	// Loop through all the verts in the mesh, setting each one's 
	// color to the color passed into the function
	for(unsigned int i = 0; i < (*mesh)->GetNumVertices(); ++i)
		v[i].color = color;

	// We're done with the vertex buffer, so unlock it so it may be used
	// by others
	(*mesh)->UnlockVertexBuffer();

	temp->Release(); // Last but not least, free up the temporary mesh
		return true;
}
Exemple #10
0
// This functions creates a sphere of "radius" and vertex color "color"
bool CreateSphere(float radius, int color, ID3DXMesh **mesh)
{
	assert(g3D->mDevice != NULL);
	assert(mesh != NULL);
	
	// This is the number of divisions the sphere will have vertically and
	// horizontally
	const unsigned int kSlices = 16; // Vertical divisions
	const unsigned int kStacks = 16; // Horizontal divisions

	ID3DXMesh *temp = NULL; // Temp D3D mesh object

	// Create the sphere
	// By parameter:
	// g3D->mDevice -- Pointer to the Direct3D device to be associated with the sphere
	// radius -- Radius of the sphere
	// kSlices -- Number of vertical divisions in the sphere
	// kStacks -- Number of horizontal divisions in the sphere
	// &temp -- A pointer to a ID3DXMesh*, it will get filled with the 
	//			the created mesh
	// NULL --  Optional pointer to a ID3DXBuffer, if a valid pointer was passed
	//			it would be filled with the adjacency information for each face in 
	//			the mesh.  By passing NULL, we say we don't want this information
	if(D3DXCreateSphere(g3D->mDevice, radius, kSlices, kStacks, &temp, NULL) != D3D_OK)
		return false;

	// Next we clone the mesh.  This does two things.  First, it allows us to
	// specify the vertex format we want on the cloned mesh.  Second, it copies the 
	// current mesh data into the ID3DXMesh we passed to this function.
	// By parameter:
	// D3DXMESH_VB_MANAGED | D3DXMESH_IB_MANAGED -- Flags specifying how we want the mesh to be
	//												cloned.  This particular flag combo says
	//												"Have the vertex buffer and index buffer
	//												associated with this mesh be in pooled memory
	//												that DirectX manages for us."
	// SVertexType -- Flexible vertex format that we want the cloned mesh to be converted to
	// g3D->mDevice -- IDirect3DDevice9 to associate this mesh with
	// mesh -- A pointer to a ID3DXMesh* that will get filled with the cloned mesh   
	if(temp->CloneMeshFVF(D3DXMESH_VB_MANAGED | D3DXMESH_IB_MANAGED, SVertexType, 
						  g3D->mDevice, mesh) != D3D_OK)
	{
		return false;
	}

	// Okay so up to this point we've created a stock D3D sphere, then converted 
	// it a sphere with the FVF that we want.  Now were going to 
	// loop through each vertex and set it to the color that we want it to be

	SVertex *v;

	// Lock the vertex buffer
	if((*mesh)->LockVertexBuffer(0, (void**)&v) != D3D_OK)
	{	
		(*mesh)->Release();
			return false;
	}

	// Loop through all the verts in the mesh, setting each one's 
	// color to the color passed into the function
	for(unsigned int i = 0; i < (*mesh)->GetNumVertices(); ++i)
		v[i].color = color;

	// Don't be stingy, unlock the vertex buffer so others can use it
	(*mesh)->UnlockVertexBuffer();

	temp->Release(); // Last but not least, free up the temporary mesh
		return true;	
}