Exemplo n.º 1
0
bool ConvertADT(char *filename, char *filename2, int cell_y, int cell_x, uint32 build)
{
    ADT_file adt;

    if (!adt.loadFile(filename, false))
        return false;

    memset(liquid_show, 0, sizeof(liquid_show));
    memset(liquid_type, 0, sizeof(liquid_type));

    // Prepare map header
    map_fileheader map;
    map.mapMagic = *(uint32 const*)MAP_MAGIC;
    map.versionMagic = *(uint32 const*)MAP_VERSION_MAGIC;
    map.buildMagic = build;

    // Get area flags data
    for (int i=0; i<ADT_CELLS_PER_GRID; i++)
    {
        for(int j=0; j<ADT_CELLS_PER_GRID; j++)
        {
            adt_MCNK * cell = adt.cells[i][j];
            uint32 areaid = cell->areaid;
            if(areaid && areaid <= maxAreaId)
            {
                if(areas[areaid] != 0xffff)
                {
                    area_flags[i][j] = areas[areaid];
                    continue;
                }
                printf("File: %s\nCan't find area flag for areaid %u [%d, %d].\n", filename, areaid, cell->ix, cell->iy);
            }
            area_flags[i][j] = 0xffff;
        }
    }
    //============================================
    // Try pack area data
    //============================================
    bool fullAreaData = false;
    uint32 areaflag = area_flags[0][0];
    for (int y=0; y<ADT_CELLS_PER_GRID; y++)
    {
        for(int x=0; x<ADT_CELLS_PER_GRID; x++)
        {
            if(area_flags[y][x]!=areaflag)
            {
                fullAreaData = true;
                break;
            }
        }
    }

    map.areaMapOffset = sizeof(map);
    map.areaMapSize   = sizeof(map_areaHeader);

    map_areaHeader areaHeader;
    areaHeader.fourcc = *(uint32 const*)MAP_AREA_MAGIC;
    areaHeader.flags = 0;
    if (fullAreaData)
    {
        areaHeader.gridArea = 0;
        map.areaMapSize+=sizeof(area_flags);
    }
    else
    {
        areaHeader.flags |= MAP_AREA_NO_AREA;
        areaHeader.gridArea = (uint16)areaflag;
    }

    //
    // Get Height map from grid
    //
    for (int i=0; i<ADT_CELLS_PER_GRID; i++)
    {
        for(int j=0; j<ADT_CELLS_PER_GRID; j++)
        {
            adt_MCNK * cell = adt.cells[i][j];
            if (!cell)
                continue;
            // Height values for triangles stored in order:
            // 1     2     3     4     5     6     7     8     9
            //    10    11    12    13    14    15    16    17
            // 18    19    20    21    22    23    24    25    26
            //    27    28    29    30    31    32    33    34
            // . . . . . . . .
            // For better get height values merge it to V9 and V8 map
            // V9 height map:
            // 1     2     3     4     5     6     7     8     9
            // 18    19    20    21    22    23    24    25    26
            // . . . . . . . .
            // V8 height map:
            //    10    11    12    13    14    15    16    17
            //    27    28    29    30    31    32    33    34
            // . . . . . . . .

            // Set map height as grid height
            for (int y=0; y <= ADT_CELL_SIZE; y++)
            {
                int cy = i*ADT_CELL_SIZE + y;
                for (int x=0; x <= ADT_CELL_SIZE; x++)
                {
                    int cx = j*ADT_CELL_SIZE + x;
                    V9[cy][cx]=cell->ypos;
                }
            }
            for (int y=0; y < ADT_CELL_SIZE; y++)
            {
                int cy = i*ADT_CELL_SIZE + y;
                for (int x=0; x < ADT_CELL_SIZE; x++)
                {
                    int cx = j*ADT_CELL_SIZE + x;
                    V8[cy][cx]=cell->ypos;
                }
            }
            // Get custom height
            adt_MCVT *v = cell->getMCVT();
            if (!v)
                continue;
            // get V9 height map
            for (int y=0; y <= ADT_CELL_SIZE; y++)
            {
                int cy = i*ADT_CELL_SIZE + y;
                for (int x=0; x <= ADT_CELL_SIZE; x++)
                {
                    int cx = j*ADT_CELL_SIZE + x;
                    V9[cy][cx]+=v->height_map[y*(ADT_CELL_SIZE*2+1)+x];
                }
            }
            // get V8 height map
            for (int y=0; y < ADT_CELL_SIZE; y++)
            {
                int cy = i*ADT_CELL_SIZE + y;
                for (int x=0; x < ADT_CELL_SIZE; x++)
                {
                    int cx = j*ADT_CELL_SIZE + x;
                    V8[cy][cx]+=v->height_map[y*(ADT_CELL_SIZE*2+1)+ADT_CELL_SIZE+1+x];
                }
            }
        }
    }
    //============================================
    // Try pack height data
    //============================================
    float maxHeight = -20000;
    float minHeight =  20000;
    for (int y=0; y<ADT_GRID_SIZE; y++)
    {
        for(int x=0; x<ADT_GRID_SIZE; x++)
        {
            float h = V8[y][x];
            if (maxHeight < h) maxHeight = h;
            if (minHeight > h) minHeight = h;
        }
    }
    for (int y=0; y<=ADT_GRID_SIZE; y++)
    {
        for(int x=0; x<=ADT_GRID_SIZE; x++)
        {
            float h = V9[y][x];
            if (maxHeight < h) maxHeight = h;
            if (minHeight > h) minHeight = h;
        }
    }

    // Check for allow limit minimum height (not store height in deep ochean - allow save some memory)
    if (CONF_allow_height_limit && minHeight < CONF_use_minHeight)
    {
        for (int y=0; y<ADT_GRID_SIZE; y++)
            for(int x=0; x<ADT_GRID_SIZE; x++)
                if (V8[y][x] < CONF_use_minHeight)
                    V8[y][x] = CONF_use_minHeight;
        for (int y=0; y<=ADT_GRID_SIZE; y++)
            for(int x=0; x<=ADT_GRID_SIZE; x++)
                if (V9[y][x] < CONF_use_minHeight)
                    V9[y][x] = CONF_use_minHeight;
        if (minHeight < CONF_use_minHeight)
            minHeight = CONF_use_minHeight;
        if (maxHeight < CONF_use_minHeight)
            maxHeight = CONF_use_minHeight;
    }

    map.heightMapOffset = map.areaMapOffset + map.areaMapSize;
    map.heightMapSize = sizeof(map_heightHeader);

    map_heightHeader heightHeader;
    heightHeader.fourcc = *(uint32 const*)MAP_HEIGHT_MAGIC;
    heightHeader.flags = 0;
    heightHeader.gridHeight    = minHeight;
    heightHeader.gridMaxHeight = maxHeight;

    if (maxHeight == minHeight)
        heightHeader.flags |= MAP_HEIGHT_NO_HEIGHT;

    // Not need store if flat surface
    if (CONF_allow_float_to_int && (maxHeight - minHeight) < CONF_flat_height_delta_limit)
        heightHeader.flags |= MAP_HEIGHT_NO_HEIGHT;

    // Try store as packed in uint16 or uint8 values
    if (!(heightHeader.flags & MAP_HEIGHT_NO_HEIGHT))
    {
        float step;
        // Try Store as uint values
        if (CONF_allow_float_to_int)
        {
            float diff = maxHeight - minHeight;
            if (diff < CONF_float_to_int8_limit)      // As uint8 (max accuracy = CONF_float_to_int8_limit/256)
            {
                heightHeader.flags|=MAP_HEIGHT_AS_INT8;
                step = selectUInt8StepStore(diff);
            }
            else if (diff<CONF_float_to_int16_limit)  // As uint16 (max accuracy = CONF_float_to_int16_limit/65536)
            {
                heightHeader.flags|=MAP_HEIGHT_AS_INT16;
                step = selectUInt16StepStore(diff);
            }
        }

        // Pack it to int values if need
        if (heightHeader.flags&MAP_HEIGHT_AS_INT8)
        {
            for (int y=0; y<ADT_GRID_SIZE; y++)
                for(int x=0; x<ADT_GRID_SIZE; x++)
                    uint8_V8[y][x] = uint8((V8[y][x] - minHeight) * step + 0.5f);
            for (int y=0; y<=ADT_GRID_SIZE; y++)
                for(int x=0; x<=ADT_GRID_SIZE; x++)
                    uint8_V9[y][x] = uint8((V9[y][x] - minHeight) * step + 0.5f);
            map.heightMapSize+= sizeof(uint8_V9) + sizeof(uint8_V8);
        }
        else if (heightHeader.flags&MAP_HEIGHT_AS_INT16)
        {
            for (int y=0; y<ADT_GRID_SIZE; y++)
                for(int x=0; x<ADT_GRID_SIZE; x++)
                    uint16_V8[y][x] = uint16((V8[y][x] - minHeight) * step + 0.5f);
            for (int y=0; y<=ADT_GRID_SIZE; y++)
                for(int x=0; x<=ADT_GRID_SIZE; x++)
                    uint16_V9[y][x] = uint16((V9[y][x] - minHeight) * step + 0.5f);
            map.heightMapSize+= sizeof(uint16_V9) + sizeof(uint16_V8);
        }
        else
            map.heightMapSize+= sizeof(V9) + sizeof(V8);
    }

    // Get liquid map for grid (in WOTLK used MH2O chunk)
    adt_MH2O * h2o = adt.a_grid->getMH2O();
    if (h2o)
    {
        for (int i=0; i<ADT_CELLS_PER_GRID; i++)
        {
            for(int j=0; j<ADT_CELLS_PER_GRID; j++)
            {
                adt_liquid_header *h = h2o->getLiquidData(i,j);
                if (!h)
                    continue;

                int count = 0;
                uint64 show = h2o->getLiquidShowMap(h);
                for (int y=0; y < h->height; y++)
                {
                    int cy = i*ADT_CELL_SIZE + y + h->yOffset;
                    for (int x=0; x < h->width; x++)
                    {
                        int cx = j*ADT_CELL_SIZE + x + h->xOffset;
                        if (show & 1)
                        {
                            liquid_show[cy][cx] = true;
                            ++count;
                        }
                        show>>=1;
                    }
                }

                uint32 type = LiqType[h->liquidType];
                switch (type)
                {
                case LIQUID_TYPE_WATER:
                    liquid_type[i][j] |= MAP_LIQUID_TYPE_WATER;
                    break;
                case LIQUID_TYPE_OCEAN:
                    liquid_type[i][j] |= MAP_LIQUID_TYPE_OCEAN;
                    break;
                case LIQUID_TYPE_MAGMA:
                    liquid_type[i][j] |= MAP_LIQUID_TYPE_MAGMA;
                    break;
                case LIQUID_TYPE_SLIME:
                    liquid_type[i][j] |= MAP_LIQUID_TYPE_SLIME;
                    break;
                default:
                    printf("\nCan't find Liquid type %u for map %s\nchunk %d,%d\n", h->liquidType, filename, i, j);
                    break;
                }
                // Dark water detect
                if (type == LIQUID_TYPE_OCEAN)
                {
                    uint8 *lm = h2o->getLiquidLightMap(h);
                    if (!lm)
                        liquid_type[i][j]|=MAP_LIQUID_TYPE_DARK_WATER;
                }

                if (!count && liquid_type[i][j])
                    printf("Wrong liquid detect in MH2O chunk");

                float *height = h2o->getLiquidHeightMap(h);
                int pos = 0;
                for (int y=0; y<=h->height; y++)
                {
                    int cy = i*ADT_CELL_SIZE + y + h->yOffset;
                    for (int x=0; x<= h->width; x++)
                    {
                        int cx = j*ADT_CELL_SIZE + x + h->xOffset;
                        if (height)
                            liquid_height[cy][cx] = height[pos];
                        else
                            liquid_height[cy][cx] = h->heightLevel1;
                        pos++;
                    }
                }
            }
        }
    }
    else
    {
        // Get from MCLQ chunk (old)
        for (int i=0; i<ADT_CELLS_PER_GRID; i++)
Exemplo n.º 2
0
bool ConvertADT(char *filename, char *filename2, int cell_y, int cell_x, uint32 build)
{
    ADT_file adt;

    if (!adt.loadFile(WorldMpq, filename))
        return false;

    memset(liquid_show, 0, sizeof(liquid_show));
    memset(liquid_flags, 0, sizeof(liquid_flags));
    memset(liquid_entry, 0, sizeof(liquid_entry));

    // Prepare map header
    map_fileheader map;
    map.mapMagic = *(uint32 const*)MAP_MAGIC;
    map.versionMagic = *(uint32 const*)MAP_VERSION_MAGIC;
    map.buildMagic = build;

    // Get area flags data
    for (int i = 0; i < ADT_CELLS_PER_GRID; ++i)
    {
        for (int j = 0; j < ADT_CELLS_PER_GRID; ++j)
        {
            adt_MCNK* cell = adt.cells[i][j];
            uint32 areaid = cell->areaid;
            if (areaid && areaid <= maxAreaId)
            {
                if (areas[areaid] != 0xFFFF)
                {
                    area_flags[i][j] = areas[areaid];
                    continue;
                }

                printf("File: %s\nCan't find area flag for areaid %u [%d, %d].\n", filename, areaid, cell->ix, cell->iy);
            }

            area_flags[i][j] = 0xffff;
        }
    }

    //============================================
    // Try pack area data
    //============================================
    bool fullAreaData = false;
    uint32 areaflag = area_flags[0][0];
    for (int y=0;y<ADT_CELLS_PER_GRID;y++)
    {
        for(int x=0;x<ADT_CELLS_PER_GRID;x++)
        {
            if(area_flags[y][x]!=areaflag)
            {
                fullAreaData = true;
                break;
            }
        }
    }

    map.areaMapOffset = sizeof(map);
    map.areaMapSize   = sizeof(map_areaHeader);

    map_areaHeader areaHeader;
    areaHeader.fourcc = *(uint32 const*)MAP_AREA_MAGIC;
    areaHeader.flags = 0;
    if (fullAreaData)
    {
        areaHeader.gridArea = 0;
        map.areaMapSize+=sizeof(area_flags);
    }
    else
    {
        areaHeader.flags |= MAP_AREA_NO_AREA;
        areaHeader.gridArea = (uint16)areaflag;
    }

    //
    // Get Height map from grid
    //
    for (int i=0;i<ADT_CELLS_PER_GRID;i++)
    {
        for(int j=0;j<ADT_CELLS_PER_GRID;j++)
        {
            adt_MCNK * cell = adt.cells[i][j];
            if (!cell)
                continue;
            // Height values for triangles stored in order:
            // 1     2     3     4     5     6     7     8     9
            //    10    11    12    13    14    15    16    17
            // 18    19    20    21    22    23    24    25    26
            //    27    28    29    30    31    32    33    34
            // . . . . . . . .
            // For better get height values merge it to V9 and V8 map
            // V9 height map:
            // 1     2     3     4     5     6     7     8     9
            // 18    19    20    21    22    23    24    25    26
            // . . . . . . . .
            // V8 height map:
            //    10    11    12    13    14    15    16    17
            //    27    28    29    30    31    32    33    34
            // . . . . . . . .

            // Set map height as grid height
            for (int y=0; y <= ADT_CELL_SIZE; y++)
            {
                int cy = i*ADT_CELL_SIZE + y;
                for (int x=0; x <= ADT_CELL_SIZE; x++)
                {
                    int cx = j*ADT_CELL_SIZE + x;
                    V9[cy][cx]=cell->ypos;
                }
            }
            for (int y=0; y < ADT_CELL_SIZE; y++)
            {
                int cy = i*ADT_CELL_SIZE + y;
                for (int x=0; x < ADT_CELL_SIZE; x++)
                {
                    int cx = j*ADT_CELL_SIZE + x;
                    V8[cy][cx]=cell->ypos;
                }
            }
            // Get custom height
            adt_MCVT *v = cell->getMCVT();
            if (!v)
                continue;
            // get V9 height map
            for (int y=0; y <= ADT_CELL_SIZE; y++)
            {
                int cy = i*ADT_CELL_SIZE + y;
                for (int x=0; x <= ADT_CELL_SIZE; x++)
                {
                    int cx = j*ADT_CELL_SIZE + x;
                    V9[cy][cx]+=v->height_map[y*(ADT_CELL_SIZE*2+1)+x];
                }
            }
            // get V8 height map
            for (int y=0; y < ADT_CELL_SIZE; y++)
            {
                int cy = i*ADT_CELL_SIZE + y;
                for (int x=0; x < ADT_CELL_SIZE; x++)
                {
                    int cx = j*ADT_CELL_SIZE + x;
                    V8[cy][cx]+=v->height_map[y*(ADT_CELL_SIZE*2+1)+ADT_CELL_SIZE+1+x];
                }
            }
        }
    }
    //============================================
    // Try pack height data
    //============================================
    float maxHeight = -20000;
    float minHeight =  20000;
    for (int y=0; y<ADT_GRID_SIZE; y++)
    {
        for(int x=0;x<ADT_GRID_SIZE;x++)
        {
            float h = V8[y][x];
            if (maxHeight < h) maxHeight = h;
            if (minHeight > h) minHeight = h;
        }
    }
    for (int y=0; y<=ADT_GRID_SIZE; y++)
    {
        for(int x=0;x<=ADT_GRID_SIZE;x++)
        {
            float h = V9[y][x];
            if (maxHeight < h) maxHeight = h;
            if (minHeight > h) minHeight = h;
        }
    }

    // Check for allow limit minimum height (not store height in deep ochean - allow save some memory)
    if (CONF_allow_height_limit && minHeight < CONF_use_minHeight)
    {
        for (int y=0; y<ADT_GRID_SIZE; y++)
            for(int x=0;x<ADT_GRID_SIZE;x++)
                if (V8[y][x] < CONF_use_minHeight)
                    V8[y][x] = CONF_use_minHeight;
        for (int y=0; y<=ADT_GRID_SIZE; y++)
            for(int x=0;x<=ADT_GRID_SIZE;x++)
                if (V9[y][x] < CONF_use_minHeight)
                    V9[y][x] = CONF_use_minHeight;
        if (minHeight < CONF_use_minHeight)
            minHeight = CONF_use_minHeight;
        if (maxHeight < CONF_use_minHeight)
            maxHeight = CONF_use_minHeight;
    }

    map.heightMapOffset = map.areaMapOffset + map.areaMapSize;
    map.heightMapSize = sizeof(map_heightHeader);

    map_heightHeader heightHeader;
    heightHeader.fourcc = *(uint32 const*)MAP_HEIGHT_MAGIC;
    heightHeader.flags = 0;
    heightHeader.gridHeight    = minHeight;
    heightHeader.gridMaxHeight = maxHeight;

    if (maxHeight == minHeight)
        heightHeader.flags |= MAP_HEIGHT_NO_HEIGHT;

    // Not need store if flat surface
    if (CONF_allow_float_to_int && (maxHeight - minHeight) < CONF_flat_height_delta_limit)
        heightHeader.flags |= MAP_HEIGHT_NO_HEIGHT;

    // Try store as packed in uint16 or uint8 values
    if (!(heightHeader.flags & MAP_HEIGHT_NO_HEIGHT))
    {
        float step;
        // Try Store as uint values
        if (CONF_allow_float_to_int)
        {
            float diff = maxHeight - minHeight;
            if (diff < CONF_float_to_int8_limit)      // As uint8 (max accuracy = CONF_float_to_int8_limit/256)
            {
                heightHeader.flags|=MAP_HEIGHT_AS_INT8;
                step = selectUInt8StepStore(diff);
            }
            else if (diff<CONF_float_to_int16_limit)  // As uint16 (max accuracy = CONF_float_to_int16_limit/65536)
            {
                heightHeader.flags|=MAP_HEIGHT_AS_INT16;
                step = selectUInt16StepStore(diff);
            }
        }

        // Pack it to int values if need
        if (heightHeader.flags&MAP_HEIGHT_AS_INT8)
        {
            for (int y=0; y<ADT_GRID_SIZE; y++)
                for(int x=0;x<ADT_GRID_SIZE;x++)
                    uint8_V8[y][x] = uint8((V8[y][x] - minHeight) * step + 0.5f);
            for (int y=0; y<=ADT_GRID_SIZE; y++)
                for(int x=0;x<=ADT_GRID_SIZE;x++)
                    uint8_V9[y][x] = uint8((V9[y][x] - minHeight) * step + 0.5f);
            map.heightMapSize+= sizeof(uint8_V9) + sizeof(uint8_V8);
        }
        else if (heightHeader.flags&MAP_HEIGHT_AS_INT16)
        {
            for (int y=0; y<ADT_GRID_SIZE; y++)
                for(int x=0;x<ADT_GRID_SIZE;x++)
                    uint16_V8[y][x] = uint16((V8[y][x] - minHeight) * step + 0.5f);
            for (int y=0; y<=ADT_GRID_SIZE; y++)
                for(int x=0;x<=ADT_GRID_SIZE;x++)
                    uint16_V9[y][x] = uint16((V9[y][x] - minHeight) * step + 0.5f);
            map.heightMapSize+= sizeof(uint16_V9) + sizeof(uint16_V8);
        }
        else
            map.heightMapSize+= sizeof(V9) + sizeof(V8);
    }

    // Get from MCLQ chunk (old)
    for (int i = 0; i < ADT_CELLS_PER_GRID; i++)
    {
        for(int j = 0; j < ADT_CELLS_PER_GRID; j++)
        {
            adt_MCNK *cell = adt.cells[i][j];
            if (!cell)
                continue;

            adt_MCLQ *liquid = cell->getMCLQ();
            int count = 0;
            if (!liquid || cell->sizeMCLQ <= 8)
                continue;

            for (int y = 0; y < ADT_CELL_SIZE; y++)
            {
                int cy = i * ADT_CELL_SIZE + y;
                for (int x = 0; x < ADT_CELL_SIZE; x++)
                {
                    int cx = j * ADT_CELL_SIZE + x;
                    if (liquid->flags[y][x] != 0x0F)
                    {
                        liquid_show[cy][cx] = true;
                        if (liquid->flags[y][x] & (1<<7))
                            liquid_flags[i][j] |= MAP_LIQUID_TYPE_DARK_WATER;
                        ++count;
                    }
                }
            }

            uint32 c_flag = cell->flags;
            if (c_flag & (1<<2))
            {
                liquid_entry[i][j] = 1;
                liquid_flags[i][j] |= MAP_LIQUID_TYPE_WATER;            // water
            }
            if (c_flag & (1<<3))
            {
                liquid_entry[i][j] = 2;
                liquid_flags[i][j] |= MAP_LIQUID_TYPE_OCEAN;            // ocean
            }
            if (c_flag & (1<<4))
            {
                liquid_entry[i][j] = 3;
                liquid_flags[i][j] |= MAP_LIQUID_TYPE_MAGMA;            // magma/slime
            }

            if (!count && liquid_flags[i][j])
                fprintf(stderr, "Wrong liquid detect in MCLQ chunk");

            for (int y = 0; y <= ADT_CELL_SIZE; y++)
            {
                int cy = i * ADT_CELL_SIZE + y;
                for (int x = 0; x <= ADT_CELL_SIZE; x++)
                {
                    int cx = j * ADT_CELL_SIZE + x;
                    liquid_height[cy][cx] = liquid->liquid[y][x].height;
                }
            }
        }
    }

    // Get liquid map for grid (in WOTLK used MH2O chunk)
    adt_MH2O * h2o = adt.a_grid->getMH2O();
    if (h2o)
    {
        for (int i = 0; i < ADT_CELLS_PER_GRID; i++)
        {
            for(int j = 0; j < ADT_CELLS_PER_GRID; j++)
            {
                adt_liquid_header *h = h2o->getLiquidData(i,j);
                if (!h)
                    continue;

                int count = 0;
                uint64 show = h2o->getLiquidShowMap(h);
                for (int y = 0; y < h->height; y++)
                {
                    int cy = i * ADT_CELL_SIZE + y + h->yOffset;
                    for (int x = 0; x < h->width; x++)
                    {
                        int cx = j * ADT_CELL_SIZE + x + h->xOffset;
                        if (show & 1)
                        {
                            liquid_show[cy][cx] = true;
                            ++count;
                        }
                        show >>= 1;
                    }
                }

                liquid_entry[i][j] = h->liquidType;
                switch (LiqType[h->liquidType])
                {
                    case LIQUID_TYPE_WATER: liquid_flags[i][j] |= MAP_LIQUID_TYPE_WATER; break;
                    case LIQUID_TYPE_OCEAN: liquid_flags[i][j] |= MAP_LIQUID_TYPE_OCEAN; break;
                    case LIQUID_TYPE_MAGMA: liquid_flags[i][j] |= MAP_LIQUID_TYPE_MAGMA; break;
                    case LIQUID_TYPE_SLIME: liquid_flags[i][j] |= MAP_LIQUID_TYPE_SLIME; break;
                    default:
                        printf("\nCan't find Liquid type %u for map %s\nchunk %d,%d\n", h->liquidType, filename, i, j);
                        break;
                }
                // Dark water detect
                if (LiqType[h->liquidType] == LIQUID_TYPE_OCEAN)
                {
                    uint8* lm = h2o->getLiquidLightMap(h);
                    if (!lm)
                        liquid_flags[i][j] |= MAP_LIQUID_TYPE_DARK_WATER;
                }

                if (!count && liquid_flags[i][j])
                    printf("Wrong liquid detect in MH2O chunk");

                float* height = h2o->getLiquidHeightMap(h);
                int pos = 0;
                for (int y = 0; y <= h->height; y++)
                {
                    int cy = i * ADT_CELL_SIZE + y + h->yOffset;
                    for (int x = 0; x <= h->width; x++)
                    {
                        int cx = j * ADT_CELL_SIZE + x + h->xOffset;

                        if (height)
                            liquid_height[cy][cx] = height[pos];
                        else
                            liquid_height[cy][cx] = h->heightLevel1;

                        pos++;
                    }
                }
            }
        }
    }

    //============================================
    // Pack liquid data
    //============================================
    uint8 type = liquid_flags[0][0];
    bool fullType = false;
    for (int y = 0; y < ADT_CELLS_PER_GRID; y++)
    {
        for (int x = 0; x < ADT_CELLS_PER_GRID; x++)
        {
            if (liquid_flags[y][x] != type)
            {
                fullType = true;
                y = ADT_CELLS_PER_GRID;
                break;
            }
        }
    }

    map_liquidHeader liquidHeader;

    // no water data (if all grid have 0 liquid type)
    if (type == 0 && !fullType)
    {
        // No liquid data
        map.liquidMapOffset = 0;
        map.liquidMapSize   = 0;
    }
    else
    {
        int minX = 255, minY = 255;
        int maxX = 0, maxY = 0;
        maxHeight = -20000;
        minHeight = 20000;
        for (int y=0; y<ADT_GRID_SIZE; y++)
        {
            for(int x=0; x<ADT_GRID_SIZE; x++)
            {
                if (liquid_show[y][x])
                {
                    if (minX > x) minX = x;
                    if (maxX < x) maxX = x;
                    if (minY > y) minY = y;
                    if (maxY < y) maxY = y;
                    float h = liquid_height[y][x];
                    if (maxHeight < h) maxHeight = h;
                    if (minHeight > h) minHeight = h;
                }
                else
                    liquid_height[y][x] = CONF_use_minHeight;
            }
        }
        map.liquidMapOffset = map.heightMapOffset + map.heightMapSize;
        map.liquidMapSize = sizeof(map_liquidHeader);
        liquidHeader.fourcc = *(uint32 const*)MAP_LIQUID_MAGIC;
        liquidHeader.flags = 0;
        liquidHeader.liquidType = 0;
        liquidHeader.offsetX = minX;
        liquidHeader.offsetY = minY;
        liquidHeader.width   = maxX - minX + 1 + 1;
        liquidHeader.height  = maxY - minY + 1 + 1;
        liquidHeader.liquidLevel = minHeight;

        if (maxHeight == minHeight)
            liquidHeader.flags |= MAP_LIQUID_NO_HEIGHT;

        // Not need store if flat surface
        if (CONF_allow_float_to_int && (maxHeight - minHeight) < CONF_flat_liquid_delta_limit)
            liquidHeader.flags |= MAP_LIQUID_NO_HEIGHT;

        if (!fullType)
            liquidHeader.flags |= MAP_LIQUID_NO_TYPE;

        if (liquidHeader.flags & MAP_LIQUID_NO_TYPE)
            liquidHeader.liquidType = type;
        else
            map.liquidMapSize += sizeof(liquid_entry) + sizeof(liquid_flags);

        if (!(liquidHeader.flags & MAP_LIQUID_NO_HEIGHT))
            map.liquidMapSize += sizeof(float)*liquidHeader.width*liquidHeader.height;
    }

    // Ok all data prepared - store it
    FILE *output=fopen(filename2, "wb");
    if(!output)
    {
        printf("Can't create the output file '%s'\n", filename2);
        return false;
    }
    fwrite(&map, sizeof(map), 1, output);
    // Store area data
    fwrite(&areaHeader, sizeof(areaHeader), 1, output);
    if (!(areaHeader.flags&MAP_AREA_NO_AREA))
        fwrite(area_flags, sizeof(area_flags), 1, output);

    // Store height data
    fwrite(&heightHeader, sizeof(heightHeader), 1, output);
    if (!(heightHeader.flags & MAP_HEIGHT_NO_HEIGHT))
    {
        if (heightHeader.flags & MAP_HEIGHT_AS_INT16)
        {
            fwrite(uint16_V9, sizeof(uint16_V9), 1, output);
            fwrite(uint16_V8, sizeof(uint16_V8), 1, output);
        }
        else if (heightHeader.flags & MAP_HEIGHT_AS_INT8)
        {
            fwrite(uint8_V9, sizeof(uint8_V9), 1, output);
            fwrite(uint8_V8, sizeof(uint8_V8), 1, output);
        }
        else
        {
            fwrite(V9, sizeof(V9), 1, output);
            fwrite(V8, sizeof(V8), 1, output);
        }
    }

    // Store liquid data if need
    if (map.liquidMapOffset)
    {
        fwrite(&liquidHeader, sizeof(liquidHeader), 1, output);
        if (!(liquidHeader.flags & MAP_LIQUID_NO_TYPE))
        {
            fwrite(liquid_entry, sizeof(liquid_entry), 1, output);
            fwrite(liquid_flags, sizeof(liquid_flags), 1, output);
        }

        if (!(liquidHeader.flags & MAP_LIQUID_NO_HEIGHT))
        {
            for (int y = 0; y < liquidHeader.height; y++)
                fwrite(&liquid_height[y + liquidHeader.offsetY][liquidHeader.offsetX], sizeof(float), liquidHeader.width, output);
        }
    }
    fclose(output);

    return true;
}
Exemplo n.º 3
0
bool ConvertADT(std::string const& inputPath, std::string const& outputPath, int /*cell_y*/, int /*cell_x*/, uint32 build)
{
    ADT_file adt;

    if (!adt.loadFile(inputPath))
        return false;

    adt_MCIN *cells = adt.a_grid->getMCIN();
    if (!cells)
    {
        printf("Can't find cells in '%s'\n", inputPath.c_str());
        return false;
    }

    memset(liquid_show, 0, sizeof(liquid_show));
    memset(liquid_flags, 0, sizeof(liquid_flags));
    memset(liquid_entry, 0, sizeof(liquid_entry));

    // Prepare map header
    map_fileheader map;
    map.mapMagic = *reinterpret_cast<uint32 const*>(MAP_MAGIC);
    map.versionMagic = *reinterpret_cast<uint32 const*>(MAP_VERSION_MAGIC);
    map.buildMagic = build;

    // Get area flags data
    for (int i = 0; i < ADT_CELLS_PER_GRID; i++)
        for (int j = 0; j < ADT_CELLS_PER_GRID; j++)
            area_ids[i][j] = cells->getMCNK(i, j)->areaid;

    //============================================
    // Try pack area data
    //============================================
    bool fullAreaData = false;
    uint32 areaId = area_ids[0][0];
    for (int y = 0; y < ADT_CELLS_PER_GRID; ++y)
    {
        for (int x = 0; x < ADT_CELLS_PER_GRID; ++x)
        {
            if (area_ids[y][x] != areaId)
            {
                fullAreaData = true;
                break;
            }
        }
    }

    map.areaMapOffset = sizeof(map);
    map.areaMapSize   = sizeof(map_areaHeader);

    map_areaHeader areaHeader;
    areaHeader.fourcc = *reinterpret_cast<uint32 const*>(MAP_AREA_MAGIC);
    areaHeader.flags = 0;
    if (fullAreaData)
    {
        areaHeader.gridArea = 0;
        map.areaMapSize += sizeof(area_ids);
    }
    else
    {
        areaHeader.flags |= MAP_AREA_NO_AREA;
        areaHeader.gridArea = static_cast<uint16>(areaId);
    }

    //
    // Get Height map from grid
    //
    for (int i=0;i<ADT_CELLS_PER_GRID;i++)
    {
        for(int j=0;j<ADT_CELLS_PER_GRID;j++)
        {
            adt_MCNK * cell = cells->getMCNK(i,j);
            if (!cell)
                continue;
            // Height values for triangles stored in order:
            // 1     2     3     4     5     6     7     8     9
            //    10    11    12    13    14    15    16    17
            // 18    19    20    21    22    23    24    25    26
            //    27    28    29    30    31    32    33    34
            // . . . . . . . .
            // For better get height values merge it to V9 and V8 map
            // V9 height map:
            // 1     2     3     4     5     6     7     8     9
            // 18    19    20    21    22    23    24    25    26
            // . . . . . . . .
            // V8 height map:
            //    10    11    12    13    14    15    16    17
            //    27    28    29    30    31    32    33    34
            // . . . . . . . .

            // Set map height as grid height
            for (int y=0; y <= ADT_CELL_SIZE; y++)
            {
                int cy = i*ADT_CELL_SIZE + y;
                for (int x=0; x <= ADT_CELL_SIZE; x++)
                {
                    int cx = j*ADT_CELL_SIZE + x;
                    V9[cy][cx]=cell->ypos;
                }
            }
            for (int y=0; y < ADT_CELL_SIZE; y++)
            {
                int cy = i*ADT_CELL_SIZE + y;
                for (int x=0; x < ADT_CELL_SIZE; x++)
                {
                    int cx = j*ADT_CELL_SIZE + x;
                    V8[cy][cx]=cell->ypos;
                }
            }
            // Get custom height
            adt_MCVT *v = cell->getMCVT();
            if (!v)
                continue;
            // get V9 height map
            for (int y=0; y <= ADT_CELL_SIZE; y++)
            {
                int cy = i*ADT_CELL_SIZE + y;
                for (int x=0; x <= ADT_CELL_SIZE; x++)
                {
                    int cx = j*ADT_CELL_SIZE + x;
                    V9[cy][cx]+=v->height_map[y*(ADT_CELL_SIZE*2+1)+x];
                }
            }
            // get V8 height map
            for (int y=0; y < ADT_CELL_SIZE; y++)
            {
                int cy = i*ADT_CELL_SIZE + y;
                for (int x=0; x < ADT_CELL_SIZE; x++)
                {
                    int cx = j*ADT_CELL_SIZE + x;
                    V8[cy][cx]+=v->height_map[y*(ADT_CELL_SIZE*2+1)+ADT_CELL_SIZE+1+x];
                }
            }
        }
    }
    //============================================
    // Try pack height data
    //============================================
    float maxHeight = -20000;
    float minHeight =  20000;
    for (int y=0; y<ADT_GRID_SIZE; y++)
    {
        for(int x=0;x<ADT_GRID_SIZE;x++)
        {
            float h = V8[y][x];
            if (maxHeight < h) maxHeight = h;
            if (minHeight > h) minHeight = h;
        }
    }
    for (int y=0; y<=ADT_GRID_SIZE; y++)
    {
        for(int x=0;x<=ADT_GRID_SIZE;x++)
        {
            float h = V9[y][x];
            if (maxHeight < h) maxHeight = h;
            if (minHeight > h) minHeight = h;
        }
    }

    // Check for allow limit minimum height (not store height in deep ochean - allow save some memory)
    if (CONF_allow_height_limit && minHeight < CONF_use_minHeight)
    {
        for (int y=0; y<ADT_GRID_SIZE; y++)
            for(int x=0;x<ADT_GRID_SIZE;x++)
                if (V8[y][x] < CONF_use_minHeight)
                    V8[y][x] = CONF_use_minHeight;
        for (int y=0; y<=ADT_GRID_SIZE; y++)
            for(int x=0;x<=ADT_GRID_SIZE;x++)
                if (V9[y][x] < CONF_use_minHeight)
                    V9[y][x] = CONF_use_minHeight;
        if (minHeight < CONF_use_minHeight)
            minHeight = CONF_use_minHeight;
        if (maxHeight < CONF_use_minHeight)
            maxHeight = CONF_use_minHeight;
    }

    bool hasFlightBox = false;
    if (adt_MFBO* mfbo = adt.a_grid->getMFBO())
    {
        memcpy(flight_box_max, &mfbo->max, sizeof(flight_box_max));
        memcpy(flight_box_min, &mfbo->min, sizeof(flight_box_min));
        hasFlightBox = true;
    }

    map.heightMapOffset = map.areaMapOffset + map.areaMapSize;
    map.heightMapSize = sizeof(map_heightHeader);

    map_heightHeader heightHeader;
    heightHeader.fourcc = *reinterpret_cast<uint32 const*>(MAP_HEIGHT_MAGIC);
    heightHeader.flags = 0;
    heightHeader.gridHeight    = minHeight;
    heightHeader.gridMaxHeight = maxHeight;

    if (maxHeight == minHeight)
        heightHeader.flags |= MAP_HEIGHT_NO_HEIGHT;

    // Not need store if flat surface
    if (CONF_allow_float_to_int && (maxHeight - minHeight) < CONF_flat_height_delta_limit)
        heightHeader.flags |= MAP_HEIGHT_NO_HEIGHT;

    if (hasFlightBox)
    {
        heightHeader.flags |= MAP_HEIGHT_HAS_FLIGHT_BOUNDS;
        map.heightMapSize += sizeof(flight_box_max) + sizeof(flight_box_min);
    }

    // Try store as packed in uint16 or uint8 values
    if (!(heightHeader.flags & MAP_HEIGHT_NO_HEIGHT))
    {
        float step = 0;
        // Try Store as uint values
        if (CONF_allow_float_to_int)
        {
            float diff = maxHeight - minHeight;
            if (diff < CONF_float_to_int8_limit)      // As uint8 (max accuracy = CONF_float_to_int8_limit/256)
            {
                heightHeader.flags|=MAP_HEIGHT_AS_INT8;
                step = selectUInt8StepStore(diff);
            }
            else if (diff<CONF_float_to_int16_limit)  // As uint16 (max accuracy = CONF_float_to_int16_limit/65536)
            {
                heightHeader.flags|=MAP_HEIGHT_AS_INT16;
                step = selectUInt16StepStore(diff);
            }
        }

        // Pack it to int values if need
        if (heightHeader.flags&MAP_HEIGHT_AS_INT8)
        {
            for (int y=0; y<ADT_GRID_SIZE; y++)
                for(int x=0;x<ADT_GRID_SIZE;x++)
                    uint8_V8[y][x] = uint8((V8[y][x] - minHeight) * step + 0.5f);
            for (int y=0; y<=ADT_GRID_SIZE; y++)
                for(int x=0;x<=ADT_GRID_SIZE;x++)
                    uint8_V9[y][x] = uint8((V9[y][x] - minHeight) * step + 0.5f);
            map.heightMapSize+= sizeof(uint8_V9) + sizeof(uint8_V8);
        }
        else if (heightHeader.flags&MAP_HEIGHT_AS_INT16)
        {
            for (int y=0; y<ADT_GRID_SIZE; y++)
                for(int x=0;x<ADT_GRID_SIZE;x++)
                    uint16_V8[y][x] = uint16((V8[y][x] - minHeight) * step + 0.5f);
            for (int y=0; y<=ADT_GRID_SIZE; y++)
                for(int x=0;x<=ADT_GRID_SIZE;x++)
                    uint16_V9[y][x] = uint16((V9[y][x] - minHeight) * step + 0.5f);
            map.heightMapSize+= sizeof(uint16_V9) + sizeof(uint16_V8);
        }
        else
            map.heightMapSize+= sizeof(V9) + sizeof(V8);
    }

    // Get from MCLQ chunk (old)
    for (int i = 0; i < ADT_CELLS_PER_GRID; i++)
    {
        for(int j = 0; j < ADT_CELLS_PER_GRID; j++)
        {
            adt_MCNK *cell = cells->getMCNK(i, j);
            if (!cell)
                continue;

            adt_MCLQ *liquid = cell->getMCLQ();
            int count = 0;
            if (!liquid || cell->sizeMCLQ <= 8)
                continue;

            for (int y = 0; y < ADT_CELL_SIZE; y++)
            {
                int cy = i * ADT_CELL_SIZE + y;
                for (int x = 0; x < ADT_CELL_SIZE; x++)
                {
                    int cx = j * ADT_CELL_SIZE + x;
                    if (liquid->flags[y][x] != 0x0F)
                    {
                        liquid_show[cy][cx] = true;
                        if (liquid->flags[y][x] & (1<<7))
                            liquid_flags[i][j] |= MAP_LIQUID_TYPE_DARK_WATER;
                        ++count;
                    }
                }
            }

            uint32 c_flag = cell->flags;
            if (c_flag & (1<<2))
            {
                liquid_entry[i][j] = 1;
                liquid_flags[i][j] |= MAP_LIQUID_TYPE_WATER;            // water
            }
            if (c_flag & (1<<3))
            {
                liquid_entry[i][j] = 2;
                liquid_flags[i][j] |= MAP_LIQUID_TYPE_OCEAN;            // ocean
            }
            if (c_flag & (1<<4))
            {
                liquid_entry[i][j] = 3;
                liquid_flags[i][j] |= MAP_LIQUID_TYPE_MAGMA;            // magma/slime
            }

            if (!count && liquid_flags[i][j])
                fprintf(stderr, "Wrong liquid detect in MCLQ chunk");

            for (int y = 0; y <= ADT_CELL_SIZE; y++)
            {
                int cy = i * ADT_CELL_SIZE + y;
                for (int x = 0; x <= ADT_CELL_SIZE; x++)
                {
                    int cx = j * ADT_CELL_SIZE + x;
                    liquid_height[cy][cx] = liquid->liquid[y][x].height;
                }
            }
        }
    }

    // Get liquid map for grid (in WOTLK used MH2O chunk)
    adt_MH2O * h2o = adt.a_grid->getMH2O();
    if (h2o)
    {
        for (int i = 0; i < ADT_CELLS_PER_GRID; i++)
        {
            for(int j = 0; j < ADT_CELLS_PER_GRID; j++)
            {
                adt_liquid_header *h = h2o->getLiquidData(i,j);
                if (!h)
                    continue;

                int count = 0;
                uint64 show = h2o->getLiquidShowMap(h);
                for (int y = 0; y < h->height; y++)
                {
                    int cy = i * ADT_CELL_SIZE + y + h->yOffset;
                    for (int x = 0; x < h->width; x++)
                    {
                        int cx = j * ADT_CELL_SIZE + x + h->xOffset;
                        if (show & 1)
                        {
                            liquid_show[cy][cx] = true;
                            ++count;
                        }
                        show >>= 1;
                    }
                }

                liquid_entry[i][j] = h->liquidType;
                switch (LiqType[h->liquidType])
                {
                    case LIQUID_TYPE_WATER: liquid_flags[i][j] |= MAP_LIQUID_TYPE_WATER; break;
                    case LIQUID_TYPE_OCEAN: liquid_flags[i][j] |= MAP_LIQUID_TYPE_OCEAN; break;
                    case LIQUID_TYPE_MAGMA: liquid_flags[i][j] |= MAP_LIQUID_TYPE_MAGMA; break;
                    case LIQUID_TYPE_SLIME: liquid_flags[i][j] |= MAP_LIQUID_TYPE_SLIME; break;
                    default:
                        printf("\nCan't find Liquid type %u for map %s\nchunk %d,%d\n", h->liquidType, inputPath.c_str(), i, j);
                        break;
                }
                // Dark water detect
                if (LiqType[h->liquidType] == LIQUID_TYPE_OCEAN)
                {
                    uint8 *lm = h2o->getLiquidLightMap(h);
                    if (!lm)
                        liquid_flags[i][j] |= MAP_LIQUID_TYPE_DARK_WATER;
                }

                if (!count && liquid_flags[i][j])
                    printf("Wrong liquid detect in MH2O chunk");

                float *height = h2o->getLiquidHeightMap(h);
                int pos = 0;
                for (int y=0; y<=h->height;y++)
                {
                    int cy = i*ADT_CELL_SIZE + y + h->yOffset;
                    for (int x=0; x<= h->width; x++)
                    {
                        int cx = j*ADT_CELL_SIZE + x + h->xOffset;
                        if (height)
                            liquid_height[cy][cx] = height[pos];
                        else
                            liquid_height[cy][cx] = h->heightLevel1;
                        pos++;
                    }
                }
            }
        }
    }
    //============================================
    // Pack liquid data
    //============================================
    uint8 type = liquid_flags[0][0];
    bool fullType = false;
    for (int y=0;y<ADT_CELLS_PER_GRID;y++)
    {
        for(int x=0;x<ADT_CELLS_PER_GRID;x++)
        {
            if (liquid_flags[y][x]!=type)
            {
                fullType = true;
                y = ADT_CELLS_PER_GRID;
                break;
            }
        }
    }

    map_liquidHeader liquidHeader;

    // no water data (if all grid have 0 liquid type)
    if (type == 0 && !fullType)
    {
        // No liquid data
        map.liquidMapOffset = 0;
        map.liquidMapSize   = 0;
    }
    else
    {
        int minX = 255, minY = 255;
        int maxX = 0, maxY = 0;
        maxHeight = -20000;
        minHeight = 20000;
        for (int y=0; y<ADT_GRID_SIZE; y++)
        {
            for(int x=0; x<ADT_GRID_SIZE; x++)
            {
                if (liquid_show[y][x])
                {
                    if (minX > x) minX = x;
                    if (maxX < x) maxX = x;
                    if (minY > y) minY = y;
                    if (maxY < y) maxY = y;
                    float h = liquid_height[y][x];
                    if (maxHeight < h) maxHeight = h;
                    if (minHeight > h) minHeight = h;
                }
                else
                    liquid_height[y][x] = CONF_use_minHeight;
            }
        }
        map.liquidMapOffset = map.heightMapOffset + map.heightMapSize;
        map.liquidMapSize = sizeof(map_liquidHeader);
        liquidHeader.fourcc = *reinterpret_cast<uint32 const*>(MAP_LIQUID_MAGIC);
        liquidHeader.flags = 0;
        liquidHeader.liquidType = 0;
        liquidHeader.offsetX = minX;
        liquidHeader.offsetY = minY;
        liquidHeader.width   = maxX - minX + 1 + 1;
        liquidHeader.height  = maxY - minY + 1 + 1;
        liquidHeader.liquidLevel = minHeight;

        if (maxHeight == minHeight)
            liquidHeader.flags |= MAP_LIQUID_NO_HEIGHT;

        // Not need store if flat surface
        if (CONF_allow_float_to_int && (maxHeight - minHeight) < CONF_flat_liquid_delta_limit)
            liquidHeader.flags |= MAP_LIQUID_NO_HEIGHT;

        if (!fullType)
            liquidHeader.flags |= MAP_LIQUID_NO_TYPE;

        if (liquidHeader.flags & MAP_LIQUID_NO_TYPE)
            liquidHeader.liquidType = type;
        else
            map.liquidMapSize += sizeof(liquid_entry) + sizeof(liquid_flags);

        if (!(liquidHeader.flags & MAP_LIQUID_NO_HEIGHT))
            map.liquidMapSize += sizeof(float)*liquidHeader.width*liquidHeader.height;
    }

    // map hole info
    uint16 holes[ADT_CELLS_PER_GRID][ADT_CELLS_PER_GRID];

    if (map.liquidMapOffset)
        map.holesOffset = map.liquidMapOffset + map.liquidMapSize;
    else
        map.holesOffset = map.heightMapOffset + map.heightMapSize;

    memset(holes, 0, sizeof(holes));
    bool hasHoles = false;

    for (int i = 0; i < ADT_CELLS_PER_GRID; ++i)
    {
        for (int j = 0; j < ADT_CELLS_PER_GRID; ++j)
        {
            adt_MCNK * cell = cells->getMCNK(i,j);
            if (!cell)
                continue;
            holes[i][j] = cell->holes;
            if (!hasHoles && cell->holes != 0)
                hasHoles = true;
        }
    }

    if (hasHoles)
        map.holesSize = sizeof(holes);
    else
        map.holesSize = 0;

    // Ok all data prepared - store it

    std::ofstream outFile(outputPath, std::ofstream::out | std::ofstream::binary);
    if (!outFile)
    {
        printf("Can't create the output file '%s'\n", outputPath.c_str());
        return false;
    }

    outFile.write(reinterpret_cast<const char*>(&map), sizeof(map));
    // Store area data
    outFile.write(reinterpret_cast<const char*>(&areaHeader), sizeof(areaHeader));
    if (!(areaHeader.flags & MAP_AREA_NO_AREA))
        outFile.write(reinterpret_cast<const char*>(area_ids), sizeof(area_ids));

    // Store height data
    outFile.write(reinterpret_cast<const char*>(&heightHeader), sizeof(heightHeader));
    if (!(heightHeader.flags & MAP_HEIGHT_NO_HEIGHT))
    {
        if (heightHeader.flags & MAP_HEIGHT_AS_INT16)
        {
            outFile.write(reinterpret_cast<const char*>(uint16_V9), sizeof(uint16_V9));
            outFile.write(reinterpret_cast<const char*>(uint16_V8), sizeof(uint16_V8));
        }
        else if (heightHeader.flags & MAP_HEIGHT_AS_INT8)
        {
            outFile.write(reinterpret_cast<const char*>(uint8_V9), sizeof(uint8_V9));
            outFile.write(reinterpret_cast<const char*>(uint8_V8), sizeof(uint8_V8));
        }
        else
        {
            outFile.write(reinterpret_cast<const char*>(V9), sizeof(V9));
            outFile.write(reinterpret_cast<const char*>(V8), sizeof(V8));
        }
    }

    if (heightHeader.flags & MAP_HEIGHT_HAS_FLIGHT_BOUNDS)
    {
        outFile.write(reinterpret_cast<char*>(flight_box_max), sizeof(flight_box_max));
        outFile.write(reinterpret_cast<char*>(flight_box_min), sizeof(flight_box_min));
    }

    // Store liquid data if need
    if (map.liquidMapOffset)
    {
        outFile.write(reinterpret_cast<const char*>(&liquidHeader), sizeof(liquidHeader));

        if (!(liquidHeader.flags&MAP_LIQUID_NO_TYPE))
        {
            outFile.write(reinterpret_cast<const char*>(liquid_entry), sizeof(liquid_entry));
            outFile.write(reinterpret_cast<const char*>(liquid_flags), sizeof(liquid_flags));
        }

        if (!(liquidHeader.flags&MAP_LIQUID_NO_HEIGHT))
        {
            for (int y = 0; y < liquidHeader.height; y++)
                outFile.write(reinterpret_cast<const char*>(&liquid_height[y + liquidHeader.offsetY][liquidHeader.offsetX]), sizeof(float) * liquidHeader.width);
        }
    }

    // store hole data
    if (hasHoles)
        outFile.write(reinterpret_cast<const char*>(holes), map.holesSize);

    outFile.close();
    return true;
}