/* img_bmp.c - bmp format load & save Copyright (C) 2007 Uncle Mike This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. */ #include "imagelib.h" #include "xash3d_mathlib.h" #define BI_SIZE 40 //size of bitmap info header. #if !XASH_WIN32 #define BI_RGB 0 typedef struct tagRGBQUAD { BYTE rgbBlue; BYTE rgbGreen; BYTE rgbRed; BYTE rgbReserved; } RGBQUAD; #endif /* ============= Image_LoadBMP ============= */ qboolean Image_LoadBMP( const char *name, const byte *buffer, fs_offset_t filesize ) { byte *buf_p, *pixbuf; byte palette[256][4]; int i, columns, column, rows, row, bpp = 1; int cbPalBytes = 0, padSize = 0, bps = 0; int reflectivity[3] = { 0, 0, 0 }; qboolean load_qfont = false; bmp_t bhdr; if( filesize < sizeof( bhdr )) return false; buf_p = (byte *)buffer; memcpy( &bhdr, buf_p, sizeof( bmp_t )); buf_p += sizeof( bmp_t ); // bogus file header check if( bhdr.reserved0 != 0 ) return false; if( bhdr.planes != 1 ) return false; if( memcmp( bhdr.id, "BM", 2 )) { Con_DPrintf( S_ERROR "Image_LoadBMP: only Windows-style BMP files supported (%s)\n", name ); return false; } if( bhdr.bitmapHeaderSize != 0x28 ) { Con_DPrintf( S_ERROR "Image_LoadBMP: invalid header size %i\n", bhdr.bitmapHeaderSize ); return false; } // bogus info header check if( bhdr.fileSize != filesize ) { // Sweet Half-Life issues. splash.bmp have bogus filesize Con_Reportf( S_WARN "Image_LoadBMP: %s have incorrect file size %li should be %i\n", name, filesize, bhdr.fileSize ); } // bogus compression? Only non-compressed supported. if( bhdr.compression != BI_RGB ) { Con_DPrintf( S_ERROR "Image_LoadBMP: only uncompressed BMP files supported (%s)\n", name ); return false; } image.width = columns = bhdr.width; image.height = rows = abs( bhdr.height ); if( !Image_ValidSize( name )) return false; // special case for loading qfont (menu font) if( !Q_strncmp( name, "#XASH_SYSTEMFONT_001", 20 )) { // NOTE: same as system font we can use 4-bit bmps only // step1: move main layer into alpha-channel (give grayscale from RED channel) // step2: fill main layer with 255 255 255 color (white) // step3: ???? // step4: PROFIT!!! (economy up to 150 kb for menu.dll final size) image.flags |= IMAGE_HAS_ALPHA; load_qfont = true; } if( bhdr.bitsPerPixel <= 8 ) { // figure out how many entries are actually in the table if( bhdr.colors == 0 ) { bhdr.colors = 256; cbPalBytes = ( 1 << bhdr.bitsPerPixel ) * sizeof( RGBQUAD ); } else cbPalBytes = bhdr.colors * sizeof( RGBQUAD ); } memcpy( palette, buf_p, cbPalBytes ); // setup gradient alpha for player decal if( !Q_strncmp( name, "#logo", 5 )) { for( i = 0; i < bhdr.colors; i++ ) palette[i][3] = i; image.flags |= IMAGE_HAS_ALPHA; } if( Image_CheckFlag( IL_OVERVIEW ) && bhdr.bitsPerPixel == 8 ) { // convert green background into alpha-layer, make opacity for all other entries for( i = 0; i < bhdr.colors; i++ ) { if( palette[i][0] == 0 && palette[i][1] == 255 && palette[i][2] == 0 ) { palette[i][0] = palette[i][1] = palette[i][2] = palette[i][3] = 0; image.flags |= IMAGE_HAS_ALPHA; } else palette[i][3] = 255; } } if( Image_CheckFlag( IL_KEEP_8BIT ) && bhdr.bitsPerPixel == 8 ) { pixbuf = image.palette = Mem_Malloc( host.imagepool, 1024 ); // bmp have a reversed palette colors for( i = 0; i < bhdr.colors; i++ ) { *pixbuf++ = palette[i][2]; *pixbuf++ = palette[i][1]; *pixbuf++ = palette[i][0]; *pixbuf++ = palette[i][3]; } image.type = PF_INDEXED_32; // 32 bit palette } else { image.palette = NULL; image.type = PF_RGBA_32; bpp = 4; } buf_p += cbPalBytes; image.size = image.width * image.height * bpp; image.rgba = Mem_Malloc( host.imagepool, image.size ); bps = image.width * (bhdr.bitsPerPixel >> 3); switch( bhdr.bitsPerPixel ) { case 1: padSize = (( 32 - ( bhdr.width % 32 )) / 8 ) % 4; break; case 4: padSize = (( 8 - ( bhdr.width % 8 )) / 2 ) % 4; break; case 16: padSize = ( 4 - ( image.width * 2 % 4 )) % 4; break; case 8: case 24: padSize = ( 4 - ( bps % 4 )) % 4; break; } for( row = rows - 1; row >= 0; row-- ) { pixbuf = image.rgba + (row * columns * bpp); for( column = 0; column < columns; column++ ) { byte red, green, blue, alpha; word shortPixel; int c, k, palIndex; switch( bhdr.bitsPerPixel ) { case 1: alpha = *buf_p++; column--; // ingnore main iterations for( c = 0, k = 128; c < 8; c++, k >>= 1 ) { red = green = blue = (!!(alpha & k) == 1 ? 0xFF : 0x00); *pixbuf++ = red; *pixbuf++ = green; *pixbuf++ = blue; *pixbuf++ = 0x00; if( ++column == columns ) break; } break; case 4: alpha = *buf_p++; palIndex = alpha >> 4; if( load_qfont ) { *pixbuf++ = red = 255; *pixbuf++ = green = 255; *pixbuf++ = blue = 255; *pixbuf++ = palette[palIndex][2]; } else { *pixbuf++ = red = palette[palIndex][2]; *pixbuf++ = green = palette[palIndex][1]; *pixbuf++ = blue = palette[palIndex][0]; *pixbuf++ = palette[palIndex][3]; } if( ++column == columns ) break; palIndex = alpha & 0x0F; if( load_qfont ) { *pixbuf++ = red = 255; *pixbuf++ = green = 255; *pixbuf++ = blue = 255; *pixbuf++ = palette[palIndex][2]; } else { *pixbuf++ = red = palette[palIndex][2]; *pixbuf++ = green = palette[palIndex][1]; *pixbuf++ = blue = palette[palIndex][0]; *pixbuf++ = palette[palIndex][3]; } break; case 8: palIndex = *buf_p++; red = palette[palIndex][2]; green = palette[palIndex][1]; blue = palette[palIndex][0]; alpha = palette[palIndex][3]; if( Image_CheckFlag( IL_KEEP_8BIT )) { *pixbuf++ = palIndex; } else { *pixbuf++ = red; *pixbuf++ = green; *pixbuf++ = blue; *pixbuf++ = alpha; } break; case 16: shortPixel = *(word *)buf_p, buf_p += 2; *pixbuf++ = blue = (shortPixel & ( 31 << 10 )) >> 7; *pixbuf++ = green = (shortPixel & ( 31 << 5 )) >> 2; *pixbuf++ = red = (shortPixel & ( 31 )) << 3; *pixbuf++ = 0xff; break; case 24: blue = *buf_p++; green = *buf_p++; red = *buf_p++; *pixbuf++ = red; *pixbuf++ = green; *pixbuf++ = blue; *pixbuf++ = 0xFF; break; case 32: blue = *buf_p++; green = *buf_p++; red = *buf_p++; alpha = *buf_p++; *pixbuf++ = red; *pixbuf++ = green; *pixbuf++ = blue; *pixbuf++ = alpha; if( alpha != 255 ) image.flags |= IMAGE_HAS_ALPHA; break; default: Mem_Free( image.palette ); Mem_Free( image.rgba ); return false; } if( red != green || green != blue ) image.flags |= IMAGE_HAS_COLOR; reflectivity[0] += red; reflectivity[1] += green; reflectivity[2] += blue; } buf_p += padSize; // actual only for 4-bit bmps } VectorDivide( reflectivity, ( image.width * image.height ), image.fogParams ); if( image.palette ) Image_GetPaletteBMP( image.palette ); image.depth = 1; return true; } qboolean Image_SaveBMP( const char *name, rgbdata_t *pix ) { file_t *pfile = NULL; size_t total_size, cur_size; RGBQUAD rgrgbPalette[256]; dword cbBmpBits; byte *clipbuf = NULL; byte *pb, *pbBmpBits; dword cbPalBytes; dword biTrueWidth; int pixel_size; int i, x, y; bmp_t hdr; if( FS_FileExists( name, false ) && !Image_CheckFlag( IL_ALLOW_OVERWRITE ) ) return false; // already existed // bogus parameter check if( !pix->buffer ) return false; // get image description switch( pix->type ) { case PF_INDEXED_24: case PF_INDEXED_32: pixel_size = 1; break; case PF_RGB_24: pixel_size = 3; break; case PF_RGBA_32: pixel_size = 4; break; default: return false; } pfile = FS_Open( name, "wb", false ); if( !pfile ) return false; // NOTE: align transparency column will sucessfully removed // after create sprite or lump image, it's just standard requiriments biTrueWidth = ((pix->width + 3) & ~3); cbBmpBits = biTrueWidth * pix->height * pixel_size; cbPalBytes = ( pixel_size == 1 ) ? 256 * sizeof( RGBQUAD ) : 0; // Bogus file header check hdr.id[0] = 'B'; hdr.id[1] = 'M'; hdr.fileSize = sizeof( hdr ) + cbBmpBits + cbPalBytes; hdr.bitmapDataOffset = sizeof( hdr ) + cbPalBytes; hdr.bitmapHeaderSize = BI_SIZE; hdr.width = biTrueWidth; hdr.height = pix->height; hdr.planes = 1; hdr.bitsPerPixel = pixel_size * 8; hdr.compression = BI_RGB; hdr.bitmapDataSize = cbBmpBits; hdr.hRes = 0; hdr.vRes = 0; hdr.colors = ( pixel_size == 1 ) ? 256 : 0; hdr.importantColors = 0; FS_Write( pfile, &hdr, sizeof( bmp_t )); pbBmpBits = Mem_Malloc( host.imagepool, cbBmpBits ); if( pixel_size == 1 ) { pb = pix->palette; // copy over used entries for( i = 0; i < (int)hdr.colors; i++ ) { rgrgbPalette[i].rgbRed = *pb++; rgrgbPalette[i].rgbGreen = *pb++; rgrgbPalette[i].rgbBlue = *pb++; // bmp feature - can store 32-bit palette if present // some viewers e.g. fimg.exe can show alpha-chanell for it if( pix->type == PF_INDEXED_32 ) rgrgbPalette[i].rgbReserved = *pb++; else rgrgbPalette[i].rgbReserved = 0; } // write palette FS_Write( pfile, rgrgbPalette, cbPalBytes ); } pb = pix->buffer; for( y = 0; y < hdr.height; y++ ) { i = (hdr.height - 1 - y ) * (hdr.width); for( x = 0; x < pix->width; x++ ) { if( pixel_size == 1 ) { // 8-bit pbBmpBits[i] = pb[x]; } else { // 24 bit pbBmpBits[i*pixel_size+0] = pb[x*pixel_size+2]; pbBmpBits[i*pixel_size+1] = pb[x*pixel_size+1]; pbBmpBits[i*pixel_size+2] = pb[x*pixel_size+0]; } if( pixel_size == 4 ) // write alpha channel pbBmpBits[i*pixel_size+3] = pb[x*pixel_size+3]; i++; } pb += pix->width * pixel_size; } // write bitmap bits (remainder of file) FS_Write( pfile, pbBmpBits, cbBmpBits ); FS_Close( pfile ); Mem_Free( pbBmpBits ); return true; }