// ========================================================== // PCX Loader // // Design and implementation by // - Floris van den Berg (flvdberg@wxs.nl) // - Jani Kajala (janik@remedy.fi) // - Markus Loibl (markus.loibl@epost.de) // - Hervé Drolon (drolon@infonie.fr) // - Juergen Riecker (j.riecker@gmx.de) // // This file is part of FreeImage 3 // // COVERED CODE IS PROVIDED UNDER THIS LICENSE ON AN "AS IS" BASIS, WITHOUT WARRANTY // OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, WITHOUT LIMITATION, WARRANTIES // THAT THE COVERED CODE IS FREE OF DEFECTS, MERCHANTABLE, FIT FOR A PARTICULAR PURPOSE // OR NON-INFRINGING. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE COVERED // CODE IS WITH YOU. SHOULD ANY COVERED CODE PROVE DEFECTIVE IN ANY RESPECT, YOU (NOT // THE INITIAL DEVELOPER OR ANY OTHER CONTRIBUTOR) ASSUME THE COST OF ANY NECESSARY // SERVICING, REPAIR OR CORRECTION. THIS DISCLAIMER OF WARRANTY CONSTITUTES AN ESSENTIAL // PART OF THIS LICENSE. NO USE OF ANY COVERED CODE IS AUTHORIZED HEREUNDER EXCEPT UNDER // THIS DISCLAIMER. // // Use at your own risk! // ========================================================== #include "FreeImage.h" #include "Utilities.h" // ---------------------------------------------------------- // Constants + headers // ---------------------------------------------------------- #define IO_BUF_SIZE 2048 // ---------------------------------------------------------- #ifdef _WIN32 #pragma pack(push, 1) #else #pragma pack(1) #endif typedef struct tagPCXHEADER { BYTE manufacturer; // Magic number (0x0A = ZSoft Z) BYTE version; // Version 0 == 2.5 // 2 == 2.8 with palette info // 3 == 2.8 without palette info // 5 == 3.0 with palette info BYTE encoding; // Encoding: 0 = uncompressed, 1 = PCX rle compressed BYTE bpp; // Bits per pixel per plane (only 1 or 8) WORD window[4]; // left, upper, right,lower pixel coord. WORD hdpi; // Horizontal resolution WORD vdpi; // Vertical resolution BYTE color_map[48]; // Colormap for 16-color images BYTE reserved; BYTE planes; // Number of planes (1, 3 or 4) WORD bytes_per_line; // Bytes per row (always even) WORD palette_info; // Palette information (1 = color or b&w; 2 = gray scale) WORD h_screen_size; WORD v_screen_size; BYTE filler[54]; // Reserved filler } PCXHEADER; #ifdef _WIN32 #pragma pack(pop) #else #pragma pack() #endif // ========================================================== // Internal functions // ========================================================== static BOOL pcx_validate(FreeImageIO *io, fi_handle handle) { BYTE pcx_signature = 0x0A; BYTE signature[4] = { 0, 0, 0, 0 }; if(io->read_proc(&signature, 1, 4, handle) != 4) { return FALSE; } // magic number (0x0A = ZSoft Z) if(signature[0] == pcx_signature) { // version if(signature[1] <= 5) { // encoding if((signature[2] == 0) || (signature[2] == 1)) { // bits per pixel per plane if((signature[3] == 1) || (signature[3] == 8)) { return TRUE; } } } } return FALSE; } static unsigned readline(FreeImageIO &io, fi_handle handle, BYTE *buffer, unsigned length, BOOL rle, BYTE * ReadBuf, int * ReadPos) { // -----------------------------------------------------------// // Read either run-length encoded or normal image data // // // // THIS IS HOW RUNTIME LENGTH ENCODING WORKS IN PCX: // // // // 1) If the upper 2 bits of a byte are set, // // the lower 6 bits specify the count for the next byte // // // // 2) If the upper 2 bits of the byte are clear, // // the byte is actual data with a count of 1 // // // // Note that a scanline always has an even number of bytes // // ------------------------------------------------------------- BYTE count = 0, value = 0; unsigned written = 0; if (rle) { // run-length encoded read while (length--) { if (count == 0) { if (*ReadPos >= IO_BUF_SIZE - 1 ) { if (*ReadPos == IO_BUF_SIZE - 1) { // we still have one BYTE, copy it to the start pos *ReadBuf = ReadBuf[IO_BUF_SIZE - 1]; io.read_proc(ReadBuf + 1, 1, IO_BUF_SIZE - 1, handle); } else { // read the complete buffer io.read_proc(ReadBuf, 1, IO_BUF_SIZE, handle); } *ReadPos = 0; } value = *(ReadBuf + (*ReadPos)++); if ((value & 0xC0) == 0xC0) { count = value & 0x3F; value = *(ReadBuf + (*ReadPos)++); } else { count = 1; } } count--; *(buffer + written++) = value; } } else { // normal read written = io.read_proc(buffer, length, 1, handle); } return written; } #ifdef FREEIMAGE_BIGENDIAN static void SwapHeader(PCXHEADER *header) { SwapShort(&header->window[0]); SwapShort(&header->window[1]); SwapShort(&header->window[2]); SwapShort(&header->window[3]); SwapShort(&header->hdpi); SwapShort(&header->vdpi); SwapShort(&header->bytes_per_line); SwapShort(&header->palette_info); SwapShort(&header->h_screen_size); SwapShort(&header->v_screen_size); } #endif // ========================================================== // Plugin Interface // ========================================================== static int s_format_id; // ========================================================== // Plugin Implementation // ========================================================== /*! Returns the format string for the plugin. Each plugin, both internal in the DLL and external in a .fip file, must have a unique format string to be addressable. */ static const char * DLL_CALLCONV Format() { return "PCX"; } /*! Returns a description string for the plugin. Though a description is not necessary per-se, it is advised to return an unique string in order to tell the user what type of bitmaps this plugin will read and/or write. */ static const char * DLL_CALLCONV Description() { return "Zsoft Paintbrush"; } /*! Returns a comma separated list of file extensions indicating what files this plugin can open. The list, being used by FreeImage_GetFIFFromFilename, is usually used as a last resort in finding the type of the bitmap we are dealing with. Best is to check the first few bytes on the low-level bits level first and compare them with a known signature . If this fails, FreeImage_GetFIFFromFilename can be used. */ static const char * DLL_CALLCONV Extension() { return "pcx"; } /*! Returns an (optional) regular expression to help software identifying a bitmap type. The expression can be applied to the first few bytes (header) of the bitmap. FreeImage is not capable of processing regular expression itself, but FreeImageQt, the FreeImage Trolltech support library, can. If RegExpr returns NULL, FreeImageQt will automatically bypass Trolltech's regular expression support and use its internal functions to find the bitmap type. */ static const char * DLL_CALLCONV RegExpr() { return NULL; } static const char * DLL_CALLCONV MimeType() { return "image/x-pcx"; } /*! Validates a bitmap by reading the first few bytes and comparing them with a known bitmap signature. TRUE is returned if the bytes match the signature, FALSE otherwise. The Validate function is used by using FreeImage_GetFileType. Note: a plugin can safely read data any data from the bitmap without seeking back to the original entry point; the entry point is stored prior to calling this function and restored after. Note: because of FreeImage's io redirection support, the header for the bitmap must be on the start of the bitmap or at least on a known part in the bitmap. It is forbidden to seek to the end of the bitmap or to a point relative to the end of a bitmap, because the end of the bitmap is not always known. */ static BOOL DLL_CALLCONV Validate(FreeImageIO *io, fi_handle handle) { return pcx_validate(io, handle); } /*! This function is used to 'ask' the plugin if it can write a bitmap in a certain bitdepth. Different bitmap types have different capabilities, for example not all formats allow writing in palettized mode. This function is there provide an uniform interface to the plugin's capabilities. SupportsExportDepth returns TRUE if the plugin support writing in the asked bitdepth, or FALSE if it doesn't. The function also returns FALSE if bitmap saving is not supported by the plugin at all. */ static BOOL DLL_CALLCONV SupportsExportDepth(int depth) { return FALSE; } static BOOL DLL_CALLCONV SupportsExportType(FREE_IMAGE_TYPE type) { return FALSE; } static BOOL DLL_CALLCONV SupportsNoPixels() { return TRUE; } // ---------------------------------------------------------- /*! Loads a bitmap into memory. On entry it is assumed that the bitmap to be loaded is of the correct type. If the bitmap is of an incorrect type, the plugin might not gracefully fail but crash or enter an endless loop. It is also assumed that all the bitmap data is available at one time. If the bitmap is not complete, for example because it is being downloaded while loaded, the plugin might also not gracefully fail. The Load function has the following parameters: The first parameter (FreeImageIO *io) is a structure providing function pointers in order to make use of FreeImage's IO redirection. Using FreeImage's file i/o functions instead of standard ones it is garantueed that all bitmap types, both current and future ones, can be loaded from memory, file cabinets, the internet and more. The second parameter (fi_handle handle) is a companion of FreeImageIO and can be best compared with the standard FILE* type, in a generalized form. The third parameter (int page) indicates wether we will be loading a certain page in the bitmap or if we will load the default one. This parameter is only used if the plugin supports multi-paged bitmaps, e.g. cabinet bitmaps that contain a series of images or pages. If the plugin does support multi-paging, the page parameter can contain either a number higher or equal to 0 to load a certain page, or -1 to load the default page. If the plugin does not support multi-paging, the page parameter is always -1. The fourth parameter (int flags) manipulates the load function to load a bitmap in a certain way. Every plugin has a different flag parameter with different meanings. The last parameter (void *data) can contain a special data block used when the file is read multi-paged. Because not every plugin supports multi-paging not every plugin will use the data parameter and it will be set to NULL.However, when the plugin does support multi-paging the parameter contains a pointer to a block of data allocated by the Open function. */ static FIBITMAP * DLL_CALLCONV Load(FreeImageIO *io, fi_handle handle, int page, int flags, void *data) { FIBITMAP *dib = NULL; BYTE *bits; // Pointer to dib data RGBQUAD *pal; // Pointer to dib palette BYTE *line = NULL; // PCX raster line BYTE *ReadBuf = NULL; // buffer; BOOL bIsRLE; // True if the file is run-length encoded if(!handle) { return NULL; } BOOL header_only = (flags & FIF_LOAD_NOPIXELS) == FIF_LOAD_NOPIXELS; try { // check PCX identifier long start_pos = io->tell_proc(handle); BOOL validated = pcx_validate(io, handle); io->seek_proc(handle, start_pos, SEEK_SET); if(!validated) { throw FI_MSG_ERROR_MAGIC_NUMBER; } // process the header PCXHEADER header; if(io->read_proc(&header, sizeof(PCXHEADER), 1, handle) != 1) { throw FI_MSG_ERROR_PARSING; } #ifdef FREEIMAGE_BIGENDIAN SwapHeader(&header); #endif // allocate a new DIB unsigned width = header.window[2] - header.window[0] + 1; unsigned height = header.window[3] - header.window[1] + 1; unsigned bitcount = header.bpp * header.planes; if (bitcount == 24) { dib = FreeImage_AllocateHeader(header_only, width, height, bitcount, FI_RGBA_RED_MASK, FI_RGBA_GREEN_MASK, FI_RGBA_BLUE_MASK); } else { dib = FreeImage_AllocateHeader(header_only, width, height, bitcount); } // if the dib couldn't be allocated, throw an error if (!dib) { throw FI_MSG_ERROR_DIB_MEMORY; } // metrics handling code FreeImage_SetDotsPerMeterX(dib, (unsigned) (((float)header.hdpi) / 0.0254000 + 0.5)); FreeImage_SetDotsPerMeterY(dib, (unsigned) (((float)header.vdpi) / 0.0254000 + 0.5)); // Set up the palette if needed // ---------------------------- switch(bitcount) { case 1: { pal = FreeImage_GetPalette(dib); pal[0].rgbRed = pal[0].rgbGreen = pal[0].rgbBlue = 0; pal[1].rgbRed = pal[1].rgbGreen = pal[1].rgbBlue = 255; break; } case 4: { pal = FreeImage_GetPalette(dib); BYTE *pColormap = &header.color_map[0]; for (int i = 0; i < 16; i++) { pal[i].rgbRed = pColormap[0]; pal[i].rgbGreen = pColormap[1]; pal[i].rgbBlue = pColormap[2]; pColormap += 3; } break; } case 8: { BYTE palette_id; io->seek_proc(handle, -769L, SEEK_END); io->read_proc(&palette_id, 1, 1, handle); if (palette_id == 0x0C) { BYTE *cmap = (BYTE*)malloc(768 * sizeof(BYTE)); io->read_proc(cmap, 768, 1, handle); pal = FreeImage_GetPalette(dib); BYTE *pColormap = &cmap[0]; for(int i = 0; i < 256; i++) { pal[i].rgbRed = pColormap[0]; pal[i].rgbGreen = pColormap[1]; pal[i].rgbBlue = pColormap[2]; pColormap += 3; } free(cmap); } // wrong palette ID, perhaps a gray scale is needed ? else if (header.palette_info == 2) { pal = FreeImage_GetPalette(dib); for(int i = 0; i < 256; i++) { pal[i].rgbRed = (BYTE)i; pal[i].rgbGreen = (BYTE)i; pal[i].rgbBlue = (BYTE)i; } } io->seek_proc(handle, (long)sizeof(PCXHEADER), SEEK_SET); } break; } if(header_only) { // header only mode return dib; } // calculate the line length for the PCX and the DIB // length of raster line in bytes unsigned linelength = header.bytes_per_line * header.planes; // length of DIB line (rounded to DWORD) in bytes unsigned pitch = FreeImage_GetPitch(dib); // run-length encoding ? bIsRLE = (header.encoding == 1) ? TRUE : FALSE; // load image data // --------------- line = (BYTE*)malloc(linelength * sizeof(BYTE)); if(!line) throw FI_MSG_ERROR_MEMORY; ReadBuf = (BYTE*)malloc(IO_BUF_SIZE * sizeof(BYTE)); if(!ReadBuf) throw FI_MSG_ERROR_MEMORY; bits = FreeImage_GetScanLine(dib, height - 1); int ReadPos = IO_BUF_SIZE; if ((header.planes == 1) && ((header.bpp == 1) || (header.bpp == 8))) { BYTE skip; unsigned written; for (unsigned y = 0; y < height; y++) { written = readline(*io, handle, bits, linelength, bIsRLE, ReadBuf, &ReadPos); // skip trailing garbage at the end of the scanline for (unsigned count = written; count < linelength; count++) { if (ReadPos < IO_BUF_SIZE) { ReadPos++; } else { io->read_proc(&skip, sizeof(BYTE), 1, handle); } } bits -= pitch; } } else if ((header.planes == 4) && (header.bpp == 1)) { BYTE bit, mask, skip; unsigned index; BYTE *buffer; unsigned x, y, written; buffer = (BYTE*)malloc(width * sizeof(BYTE)); if(!buffer) throw FI_MSG_ERROR_MEMORY; for (y = 0; y < height; y++) { written = readline(*io, handle, line, linelength, bIsRLE, ReadBuf, &ReadPos); // build a nibble using the 4 planes memset(buffer, 0, width * sizeof(BYTE)); for(int plane = 0; plane < 4; plane++) { bit = (BYTE)(1 << plane); for (x = 0; x < width; x++) { index = (unsigned)((x / 8) + plane * header.bytes_per_line); mask = (BYTE)(0x80 >> (x & 0x07)); buffer[x] |= (line[index] & mask) ? bit : 0; } } // then write the DIB row for (x = 0; x < width / 2; x++) { bits[x] = (buffer[2*x] << 4) | buffer[2*x+1]; } // skip trailing garbage at the end of the scanline for (unsigned count = written; count < linelength; count++) { if (ReadPos < IO_BUF_SIZE) { ReadPos++; } else { io->read_proc(&skip, sizeof(BYTE), 1, handle); } } bits -= pitch; } free(buffer); } else if((header.planes == 3) && (header.bpp == 8)) { BYTE *pline; for (unsigned y = 0; y < height; y++) { readline(*io, handle, line, linelength, bIsRLE, ReadBuf, &ReadPos); // convert the plane stream to BGR (RRRRGGGGBBBB -> BGRBGRBGRBGR) // well, now with the FI_RGBA_x macros, on BIGENDIAN we convert to RGB pline = line; unsigned x; for (x = 0; x < width; x++) { bits[x * 3 + FI_RGBA_RED] = pline[x]; } pline += header.bytes_per_line; for (x = 0; x < width; x++) { bits[x * 3 + FI_RGBA_GREEN] = pline[x]; } pline += header.bytes_per_line; for (x = 0; x < width; x++) { bits[x * 3 + FI_RGBA_BLUE] = pline[x]; } pline += header.bytes_per_line; bits -= pitch; } } else { throw FI_MSG_ERROR_UNSUPPORTED_FORMAT; } free(line); free(ReadBuf); return dib; } catch (const char *text) { // free allocated memory if (dib != NULL) { FreeImage_Unload(dib); } if (line != NULL) { free(line); } if (ReadBuf != NULL) { free(ReadBuf); } FreeImage_OutputMessageProc(s_format_id, text); } return NULL; } // ========================================================== // Init // ========================================================== /*! Initialises the plugin. The first parameter (Plugin *plugin) contains a pointer to a pre-allocated Plugin structure wherein pointers to the available plugin functions has to be stored. The second parameter (int format_id) is an identification number that the plugin may use to show plugin specific warning messages or other information to the user. The plugin number is generated by FreeImage and can differ everytime the plugin is initialised. If you want to create your own plugin you have to take some rules into account. Plugin functions have to be compiled __stdcall using the multithreaded c runtime libraries. Throwing exceptions in plugin functions is allowed, as long as those exceptions are being caught inside the same plugin. It is forbidden for a plugin function to directly call FreeImage functions or to allocate memory and pass it to the main DLL. Exception to this rule is the special file data block that may be allocated the Open function. Allocating a FIBITMAP inside a plugin can be using the function allocate_proc in the FreeImage structure, which will allocate the memory using the DLL's c runtime library. */ void DLL_CALLCONV InitPCX(Plugin *plugin, int format_id) { s_format_id = format_id; plugin->format_proc = Format; plugin->description_proc = Description; plugin->extension_proc = Extension; plugin->regexpr_proc = RegExpr; plugin->open_proc = NULL; plugin->close_proc = NULL; plugin->pagecount_proc = NULL; plugin->pagecapability_proc = NULL; plugin->load_proc = Load; plugin->save_proc = NULL; plugin->validate_proc = Validate; plugin->mime_proc = MimeType; plugin->supports_export_bpp_proc = SupportsExportDepth; plugin->supports_export_type_proc = SupportsExportType; plugin->supports_icc_profiles_proc = NULL; plugin->supports_no_pixels_proc = SupportsNoPixels; }