void Resource::unload()
    {
        if (_loadCounter == 1)
            _unload();

        _loadCounter = _useLoadCounter ? _loadCounter - 1 : 0;
    }
Beispiel #2
0
void libaacs_unload(BD_AACS **p)
{
    if (p && *p) {
        _unload(*p);
        X_FREE(*p);
    }
}
Beispiel #3
0
bool Model::open()
{
    CASCFile f(CascStorage, filename.c_str());

    if (f.isEof())
    {
        f.close();
        // Do not show this error on console to avoid confusion, the extractor can continue working even if some models fail to load
        //printf("Error loading model %s\n", filename.c_str());
        return false;
    }

    _unload();

    uint32 m2start = 0;
    char const* ptr = f.getBuffer();
    while (m2start + 4 < f.getSize() && *reinterpret_cast<uint32 const*>(ptr) != '02DM')
    {
        ++m2start;
        ++ptr;
        if (m2start + sizeof(ModelHeader) > f.getSize())
            return false;
    }

    memcpy(&header, f.getBuffer() + m2start, sizeof(ModelHeader));
    if (header.nBoundingTriangles > 0)
    {
        f.seek(m2start);
        f.seekRelative(header.ofsBoundingVertices);
        vertices = new Vec3D[header.nBoundingVertices];
        f.read(vertices,header.nBoundingVertices*12);
        for (uint32 i=0; i<header.nBoundingVertices; i++)
            vertices[i] = fixCoordSystem(vertices[i]);
        f.seek(m2start);
        f.seekRelative(header.ofsBoundingTriangles);
        indices = new uint16[header.nBoundingTriangles];
        f.read(indices,header.nBoundingTriangles*2);
        f.close();
    }
    else
    {
        //printf("not included %s\n", filename.c_str());
        f.close();
        return false;
    }
    return true;
}
    //-----------------------------------------------------------------------
    void PagingLandScapeData2D::unload()
    {
        if (mIsLoaded)
        {
            if (mIsModified)
                _save ();
            delete[] mHeightData;
            mHeightData = 0;
	        _unload();
	        mIsLoaded = false;
            mIsModified = false;
            mIsRectModified = false;
            #ifndef _MAPSPLITTER
                resetDeformationRectangle ();
            #endif
        }
    }
Beispiel #5
0
bool Model::open(StringSet& failedPaths)
{
    MPQFile f(filename.c_str());

    ok = !f.isEof();

    if (!ok)
    {
        f.close();
        failedPaths.insert(filename);
        return false;
    }

    _unload();

    memcpy(&header, f.getBuffer(), sizeof(ModelHeader));
    if (header.nBoundingTriangles > 0)
    {
        boundingVertices = (ModelBoundingVertex*)(f.getBuffer() + header.ofsBoundingVertices);
        vertices = new Vec3D[header.nBoundingVertices];

        for (size_t i = 0; i < header.nBoundingVertices; i++)
        {
            vertices[i] = fixCoordSystem(boundingVertices[i].pos);
        }

        uint16* triangles = (uint16*)(f.getBuffer() + header.ofsBoundingTriangles);

        nIndices = header.nBoundingTriangles; // refers to the number of int16's, not the number of triangles
        indices = new uint16[nIndices];
        memcpy(indices, triangles, nIndices * 2);

        f.close();
    }
    else
    {
        //printf("not included %s\n", filename.c_str());
        f.close();
        return false;
    }
    return true;
}
Beispiel #6
0
bool Model::open()
{
    MPQFile f(WorldMpq, filename.c_str());

    ok = !f.isEof();

    if (!ok)
    {
        f.close();
        // Do not show this error on console to avoid confusion, the extractor can continue working even if some models fail to load
        //printf("Error loading model %s\n", filename.c_str());
        return false;
    }

    _unload();

    memcpy(&header, f.getBuffer(), sizeof(ModelHeader));
    if (header.nBoundingTriangles > 0)
    {
        f.seek(0);
        f.seekRelative(header.ofsBoundingVertices);
        vertices = new Vec3D[header.nBoundingVertices];
        f.read(vertices, header.nBoundingVertices * 12);
        for (uint32 i = 0; i < header.nBoundingVertices; i++)
        {
            vertices[i] = fixCoordSystem(vertices[i]);
        }
        f.seek(0);
        f.seekRelative(header.ofsBoundingTriangles);
        indices = new uint16[header.nBoundingTriangles];
        f.read(indices, header.nBoundingTriangles * 2);
        f.close();
    }
    else
    {
        //printf("not included %s\n", filename.c_str());
        f.close();
        return false;
    }
    return true;
}
Beispiel #7
0
bool Model::open(StringSet& failedPaths)
{
    MPQFile f(filename.c_str());

    ok = !f.isEof();

    if (!ok)
    {
        f.close();
        failedPaths.insert(filename);
        return false;
    }

    _unload();

    memcpy(&header, f.getBuffer(), sizeof(ModelHeader));
    if (header.nBoundingTriangles > 0)
    {
        f.seek(0);
        f.seekRelative(header.ofsBoundingVertices);
        vertices = new Vec3D[header.nBoundingVertices];
        f.read(vertices, header.nBoundingVertices * 12);
        for (uint32 i = 0; i < header.nBoundingVertices; i++)
        {
            vertices[i] = fixCoordSystem(vertices[i]);
        }
        f.seek(0);
        f.seekRelative(header.ofsBoundingTriangles);
        indices = new uint16[header.nBoundingTriangles];
        f.read(indices, header.nBoundingTriangles * 2);
        f.close();
    }
    else
    {
        //printf("not included %s\n", filename.c_str());
        f.close();
        return false;
    }
    return true;
}
Beispiel #8
0
	Font::~Font() {
		_unload();
	}
Beispiel #9
0
	bool Font::read(std::fstream * fileStream) {
		_unload();
		return _read(fileStream);
	}
Beispiel #10
0
 //-----------------------------------------------------------------------
 TextureUnitState::~TextureUnitState()
 {
     // Unload ensure all controllers destroyed
     _unload();
 }
Beispiel #11
0
MDX_M2_file::~MDX_M2_file()
{
    _unload();
    free();
}
Beispiel #12
0
bool Model::open(StringSet& failedPaths, int iCoreNumber)
{
    MPQFile f(filename.c_str());

    ok = !f.isEof();

    if (!ok)
    {
        f.close();
        failedPaths.insert(filename);
        return false;
    }

    _unload();

    bool bBoundingTriangles = false;
    uint32 uofsBoundingVertices = 0;
    uint32 uofsBoundingTriangles = 0;
    uint32 unBoundingVertices = 0;
    uint32 unBoundingTriangles = 0;


    if (iCoreNumber == CLIENT_CLASSIC || iCoreNumber == CLIENT_TBC)
    {
        memcpy(&headerClassicTBC, f.getBuffer(), sizeof(ModelHeaderClassicTBC));
        if (headerClassicTBC.nBoundingTriangles > 0)
        {
            bBoundingTriangles = true;
            uofsBoundingVertices = headerClassicTBC.ofsBoundingVertices;
            uofsBoundingTriangles = headerClassicTBC.ofsBoundingTriangles;
            unBoundingVertices = headerClassicTBC.nBoundingVertices;
            unBoundingTriangles = headerClassicTBC.nBoundingTriangles;
        }
    }
    if (iCoreNumber == CLIENT_WOTLK || iCoreNumber == CLIENT_CATA)
    {
        memcpy(&headerOthers, f.getBuffer(), sizeof(ModelHeaderOthers));
        if (headerOthers.nBoundingTriangles > 0)
        {
            bBoundingTriangles = true;
            uofsBoundingVertices = headerOthers.ofsBoundingVertices;
            uofsBoundingTriangles = headerOthers.ofsBoundingTriangles;
            unBoundingVertices = headerOthers.nBoundingVertices;
            unBoundingTriangles = headerOthers.nBoundingTriangles;
        }
    }
    if (bBoundingTriangles)
    {
        boundingVertices = (ModelBoundingVertex*)(f.getBuffer() + uofsBoundingVertices);
        vertices = new Vec3D[unBoundingVertices];

        for (size_t i = 0; i < unBoundingVertices; i++)
        {
            vertices[i] = boundingVertices[i].pos;
        }

        uint16* triangles = (uint16*)(f.getBuffer() + uofsBoundingTriangles);

        nIndices = unBoundingTriangles; // refers to the number of int16's, not the number of triangles
        indices = new uint16[nIndices];
        memcpy(indices, triangles, nIndices * 2);

        f.close();
    }
    else
    {
        //printf("not included %s\n", filename.c_str());
        f.close();
        return false;
    }
    return true;
}
Beispiel #13
0
void GroundEyeshot::save(xs::DataChunk *pDataChunk)
{
	xs::Stream *pDataStream = 0;

	HASH_MAP_NAMESPACE::hash_map<std::string,int>	mTextures;
	std::vector<std::string> vTextures;
	pDataChunk->beginChunk('MTEX',&pDataStream);
	for(int i = 0;i < m_nTotalGridX;i++)
	for(int j = 0;j < m_nTotalGridY;j++)
	{
		GroundTile *pTile = static_cast<GroundTile*>(getGroundTile(i,j));
		uint layerNum = pTile->getTextureLayerNum();
		for(uint k = 0;k < layerNum;k++)
		{
			std::string textureFileName = pTile->getTextureFileName(k);
			if(mTextures.find(textureFileName) != mTextures.end())
			{
			}
			else
			{
				vTextures.push_back(textureFileName);
				mTextures[textureFileName] = vTextures.size() - 1;
			}
		}
	}
	size_t texNum = vTextures.size();
	for(size_t size = 0;size < texNum;size++)
	{
		pDataStream->write(vTextures[size].c_str(),vTextures[size].length() + 1);
	}
	pDataChunk->endChunk();

	xs::DataChunk::stChunk *pTextureIdxChunk = pDataChunk->beginChunk('MTID',&pDataStream);
	for(int i = 0;i < m_nTotalGridX;i++)
	for(int j = 0;j < m_nTotalGridY;j++)
	{
		uint offset = 0;
		pDataStream->write(&offset,sizeof(offset));
	}
	pDataChunk->endChunk();
	uint *pTextureOffsets = (uint*)pTextureIdxChunk->m_pData;

	bool bFirstTime = true;
	uint offset = 0;
	for(int i = 0;i < m_nTotalGridX;i++)
	for(int j = 0;j < m_nTotalGridY;j++)
	{
		pDataChunk->beginChunk('MTIL',&pDataStream);
			if(bFirstTime)
			{
				offset = pTextureOffsets[j * m_nTotalGridX + i] = pDataChunk->getOffset();
				bFirstTime = false;
			}
			else
			{
				pTextureOffsets[j * m_nTotalGridX + i] = offset;
			}

			GroundTile *pTile = static_cast<GroundTile*>(getGroundTile(i,j));
			bool bLoaded = pTile->isLoaded();
			if(!bLoaded)_load(i,j);
			pTile->save(pDataStream,mTextures);
			if(!bLoaded)_unload(i,j);

			offset += pDataStream->getLength();
			offset += CHUNK_MIN_SIZE;
		pDataChunk->endChunk();
	}

    //  记录远景贴图;
    if (!m_strDistanceTextureFileName.empty())
    {
        //  这里自定义了一个Chunk名称'MDIS',本来想参考一下其他Chunk名称的定义和使用,但是现有代码中只搜索
        //  到了对Chunk名称的使用, 而没有找到定义的地方,因此不排除'MDIS'已经被使用了的可能,这个需要在以
        //  后的开发和整理过程中留意;
        //  2009-06-17;
        pDataChunk->beginChunk('MDIS',&pDataStream);
        BYTE cbFileName = (BYTE)(m_strDistanceTextureFileName.length());
        pDataStream->write(&cbFileName, sizeof(BYTE));
        pDataStream->write(m_strDistanceTextureFileName.c_str(), cbFileName);
        pDataChunk->endChunk();
    }
}
Beispiel #14
0
int libaacs_open(BD_AACS *p, const char *device,
                   void *file_open_handle, void *file_open_fp,
                   const char *keyfile_path)

{
    int error_code = 0;

    fptr_p_void open;
    fptr_p_void open2;
    fptr_p_void init;
    fptr_int    open_device;
    fptr_int    aacs_get_mkb_version;
    fptr_p_void aacs_get_disc_id;

    _libaacs_close(p);

    *(void **)(&open)  = dl_dlsym(p->h_libaacs, "aacs_open");
    *(void **)(&open2) = dl_dlsym(p->h_libaacs, "aacs_open2");
    *(void **)(&init)  = dl_dlsym(p->h_libaacs, "aacs_init");
    *(void **)(&aacs_get_mkb_version) = dl_dlsym(p->h_libaacs, "aacs_get_mkb_version");
    *(void **)(&aacs_get_disc_id)     = dl_dlsym(p->h_libaacs, "aacs_get_disc_id");
    *(void **)(&open_device)          = dl_dlsym(p->h_libaacs, "aacs_open_device");

    if (init && open_device) {
        p->aacs = init();
        DL_CALL(p->h_libaacs, aacs_set_fopen, p->aacs, file_open_handle, file_open_fp);
        error_code = open_device(p->aacs, device, keyfile_path);
    } else if (open2) {
        BD_DEBUG(DBG_BLURAY, "Using old aacs_open2(), no UDF support available\n");
        p->aacs = open2(device, keyfile_path, &error_code);

        /* libmmbd needs dev: for devices */
        if (!p->aacs && p->impl_id == IMPL_LIBMMBD && !strncmp(device, "/dev/", 5)) {
            char *tmp_device = str_printf("dev:%s", device);
            if (tmp_device) {
                p->aacs = open2(tmp_device, keyfile_path, &error_code);
                X_FREE(tmp_device);
            }
        }
    } else if (open) {
        BD_DEBUG(DBG_BLURAY, "Using old aacs_open(), no verbose error reporting available\n");
        p->aacs = open(device, keyfile_path);
    } else {
        BD_DEBUG(DBG_BLURAY, "aacs_open() not found\n");
    }

    if (error_code) {
        /* failed. try next aacs implementation if available. */
        BD_AACS *p2 = _load(p->impl_id + 1);
        if (p2) {
            if (!libaacs_open(p2, device, file_open_handle, file_open_fp, keyfile_path)) {
                /* succeed - swap implementations */
                _unload(p);
                *p = *p2;
                X_FREE(p2);
                return 0;
            }
            /* failed - report original errors */
            libaacs_unload(&p2);
        }
    }

    if (p->aacs) {
        if (aacs_get_mkb_version) {
            p->mkbv = aacs_get_mkb_version(p->aacs);
        }
        if (aacs_get_disc_id) {
            p->disc_id = (const uint8_t *)aacs_get_disc_id(p->aacs);
        }
        return error_code;
    }

    return error_code ? error_code : 1;
}