/* vim:expandtab:ts=2 sw=2: */ /* Grafx2 - The Ultimate 256-color bitmap paint program Copyright 2018 Thomas Bernard Copyright 2011 Pawel Góralski Copyright 2009 Petter Lindquist Copyright 2008 Yves Rizoud Copyright 2008 Franck Charlet Copyright 2007 Adrien Destugues Copyright 1996-2001 Sunset Design (Guillaume Dorme & Karl Maritaud) Grafx2 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; version 2 of the License. Grafx2 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. You should have received a copy of the GNU General Public License along with Grafx2; if not, see */ ///@file fileformats.c /// Saving and loading different picture formats. #ifndef __no_pnglib__ #include #if !defined(PNG_HAVE_PLTE) #define PNG_HAVE_PLTE 0x02 #endif #if (PNG_LIBPNG_VER_MAJOR <= 1) && (PNG_LIBPNG_VER_MINOR < 4) // Compatibility layer to allow us to use libng 1.4 or any older one. // This function is renamed in 1.4 #define png_set_expand_gray_1_2_4_to_8(x) png_set_gray_1_2_4_to_8(x) // Wrappers that are mandatory in 1.4. Older version allowed direct access. #define png_get_rowbytes(png_ptr,info_ptr) ((info_ptr)->rowbytes) #define png_get_image_width(png_ptr,info_ptr) ((info_ptr)->width) #define png_get_image_height(png_ptr,info_ptr) ((info_ptr)->height) #define png_get_bit_depth(png_ptr,info_ptr) ((info_ptr)->bit_depth) #define png_get_color_type(png_ptr,info_ptr) ((info_ptr)->color_type) #endif #endif #ifndef png_jmpbuf # define png_jmpbuf(png_ptr) ((png_ptr)->jmpbuf) #endif #include #if defined(_MSC_VER) #include #if _MSC_VER < 1900 #define snprintf _snprintf #endif #endif #include "errors.h" #include "global.h" #include "loadsave.h" #include "misc.h" #include "struct.h" #include "io.h" #include "pages.h" #include "windows.h" // Best_color() #include "fileformats.h" #ifndef __no_pnglib__ static void Load_PNG_Sub(T_IO_Context * context, FILE * file); #endif #ifndef MIN #define MIN(a,b) ((a)<(b)?(a):(b)) #endif //////////////////////////////////// IMG //////////////////////////////////// // -- Tester si un fichier est au format IMG -------------------------------- void Test_IMG(T_IO_Context * context, FILE * file) { T_IMG_Header IMG_header; byte signature[6]={0x01,0x00,0x47,0x12,0x6D,0xB0}; (void)context; File_error=1; // Lecture et vérification de la signature if (Read_bytes(file,IMG_header.Filler1,6) && Read_word_le(file,&(IMG_header.Width)) && Read_word_le(file,&(IMG_header.Height)) && Read_bytes(file,IMG_header.Filler2,118) && Read_bytes(file,IMG_header.Palette,sizeof(T_Palette)) ) { if ( (!memcmp(IMG_header.Filler1,signature,6)) && IMG_header.Width && IMG_header.Height) File_error=0; } } // -- Lire un fichier au format IMG ----------------------------------------- void Load_IMG(T_IO_Context * context) { byte * buffer; FILE *file; word x_pos,y_pos; long file_size; T_IMG_Header IMG_header; File_error=0; if ((file=Open_file_read(context))) { file_size=File_length_file(file); if (Read_bytes(file,IMG_header.Filler1,6) && Read_word_le(file,&(IMG_header.Width)) && Read_word_le(file,&(IMG_header.Height)) && Read_bytes(file,IMG_header.Filler2,118) && Read_bytes(file,IMG_header.Palette,sizeof(T_Palette)) ) { buffer=(byte *)malloc(IMG_header.Width); Pre_load(context, IMG_header.Width,IMG_header.Height,file_size,FORMAT_IMG,PIXEL_SIMPLE,0); if (File_error==0) { memcpy(context->Palette,IMG_header.Palette,sizeof(T_Palette)); context->Width=IMG_header.Width; context->Height=IMG_header.Height; for (y_pos=0;(y_posHeight) && (!File_error);y_pos++) { if (Read_bytes(file,buffer,context->Width)) { for (x_pos=0; x_posWidth;x_pos++) Set_pixel(context, x_pos,y_pos,buffer[x_pos]); } else File_error=2; } } free(buffer); buffer = NULL; } else File_error=1; fclose(file); } else File_error=1; } // -- Sauver un fichier au format IMG --------------------------------------- void Save_IMG(T_IO_Context * context) { FILE *file; short x_pos,y_pos; T_IMG_Header IMG_header; byte signature[6]={0x01,0x00,0x47,0x12,0x6D,0xB0}; File_error=0; // Ouverture du fichier if ((file=Open_file_write(context))) { setvbuf(file, NULL, _IOFBF, 64*1024); memcpy(IMG_header.Filler1,signature,6); IMG_header.Width=context->Width; IMG_header.Height=context->Height; memset(IMG_header.Filler2,0,118); IMG_header.Filler2[4]=0xFF; IMG_header.Filler2[22]=64; // Lo(Longueur de la signature) IMG_header.Filler2[23]=0; // Hi(Longueur de la signature) memcpy(IMG_header.Filler2+23,"GRAFX2 by SunsetDesign (IMG format taken from PV (c)W.Wiedmann)",64); memcpy(IMG_header.Palette,context->Palette,sizeof(T_Palette)); if (Write_bytes(file,IMG_header.Filler1,6) && Write_word_le(file,IMG_header.Width) && Write_word_le(file,IMG_header.Height) && Write_bytes(file,IMG_header.Filler2,118) && Write_bytes(file,IMG_header.Palette,sizeof(T_Palette)) ) { for (y_pos=0; ((y_posHeight) && (!File_error)); y_pos++) for (x_pos=0; x_posWidth; x_pos++) Write_one_byte(file,Get_pixel(context, x_pos,y_pos)); fclose(file); if (File_error) Remove_file(context); } else // Error d'écriture (disque plein ou protégé) { fclose(file); Remove_file(context); File_error=1; } } else { fclose(file); Remove_file(context); File_error=1; } } //////////////////////////////////// IFF //////////////////////////////////// typedef struct { word Width; word Height; word X_org; // Inutile word Y_org; // Inutile byte BitPlanes; byte Mask; // 0=none, 1=mask, 2=transp color, 3=Lasso byte Compression; // 0=none, 1=packbits, 2=vertical RLE byte Pad1; // Inutile word Transp_col; // transparent color for masking mode 2 byte X_aspect; // Inutile byte Y_aspect; // Inutile word X_screen; word Y_screen; } T_IFF_Header; typedef struct { byte operation; // 0=normal body, 1=XOR, 2=Long Delta, 3=Short Delta, // 4=Generalized Long/Short Delta, 5=Byte Vertical Delta, // 7=short/long vertical delta, 74=Eric Graham's compression byte mask; // for XOR mode only word w,h; // for XOR mode only word x,y; // for XOR mode only dword abstime; dword reltime; byte interleave; byte pad0; dword bits; } T_IFF_AnimHeader; // -- Tester si un fichier est au format IFF -------------------------------- void Test_IFF(FILE * IFF_file, const char *sub_type) { char format[4]; char section[4]; dword dummy; File_error=1; do // Dummy loop, so that all breaks jump to end. { if (! Read_bytes(IFF_file,section,4)) break; if (memcmp(section,"FORM",4)) break; if (! Read_dword_be(IFF_file, &dummy)) break; // On aurait pu vérifier que ce long est égal à la taille // du fichier - 8, mais ça aurait interdit de charger des // fichiers tronqués (et déjà que c'est chiant de perdre // une partie du fichier il faut quand même pouvoir en // garder un peu... Sinon, moi je pleure :'( !!! ) if (! Read_bytes(IFF_file,format,4)) break; if (!memcmp(format,"ANIM",4)) { // An ANIM header: need to check that it encloses an image if (! Read_bytes(IFF_file,section,4)) break; if (memcmp(section,"FORM",4)) break; if (! Read_dword_be(IFF_file, &dummy)) break; if (! Read_bytes(IFF_file,format,4)) break; } else if(memcmp(format,"DPST",4) == 0) { if (! Read_bytes(IFF_file,section,4)) break; if (memcmp(section, "DPAH", 4) != 0) break; if (! Read_dword_be(IFF_file, &dummy)) break; fseek(IFF_file, dummy, SEEK_CUR); if (! Read_bytes(IFF_file,section,4)) break; if (memcmp(section,"FORM",4)) break; if (! Read_dword_be(IFF_file, &dummy)) break; if (! Read_bytes(IFF_file,format,4)) break; } if ( memcmp(format,sub_type,4)) break; // If we reach this part, file is indeed ILBM/PBM or ANIM File_error=0; } while (0); } void Test_PBM(T_IO_Context * context, FILE * f) { (void)context; Test_IFF(f, "PBM "); } void Test_LBM(T_IO_Context * context, FILE * f) { (void)context; Test_IFF(f, "ILBM"); } void Test_ACBM(T_IO_Context * context, FILE * f) { (void)context; Test_IFF(f, "ACBM"); } // -- Lire un fichier au format IFF ----------------------------------------- typedef struct T_IFF_PCHG_Palette { struct T_IFF_PCHG_Palette * Next; short StartLine; T_Components Palette[1]; } T_IFF_PCHG_Palette; // Inspired by Allegro: storing a 4-character identifier as a 32bit litteral #define ID4(a,b,c,d) ((((a)&255)<<24) | (((b)&255)<<16) | (((c)&255)<<8) | (((d)&255))) /// Skips the current section in an IFF file. /// This function should be called while the file pointer is right /// after the 4-character code that identifies the section. int IFF_Skip_section(FILE * file) { dword size; if (!Read_dword_be(file,&size)) return 0; if (size&1) size++; if (fseek(file,size,SEEK_CUR)) return 0; return 1; } // ------------------------- Attendre une section ------------------------- byte IFF_Wait_for(FILE * file, const char * expected_section) { // Valeur retournée: 1=Section trouvée, 0=Section non trouvée (erreur) byte section_read[4]; if (! Read_bytes(file,section_read,4)) return 0; while (memcmp(section_read,expected_section,4)) // Sect. pas encore trouvée { if (!IFF_Skip_section(file)) return 0; if (! Read_bytes(file,section_read,4)) return 0; } return 1; } // Les images ILBM sont stockés en bitplanes donc on doit trifouiller les bits pour // en faire du chunky /// /// Decodes the color of one pixel from the ILBM line buffer. /// Planar to chunky conversion /// @param buffer Planar buffer /// @param x_pos Position of the pixel in graphic line /// @param real_line_size Width of one bitplane in memory, in bytes /// @param bitplanes Number of bitplanes dword Get_IFF_color(const byte * buffer, word x_pos, word real_line_size, byte bitplanes) { byte shift = 7 - (x_pos & 7); int address,masked_bit,plane; dword color=0; for(plane=bitplanes-1;plane>=0;plane--) { address = (real_line_size * plane + x_pos) >> 3; masked_bit = (buffer[address] >> shift) & 1; color = (color << 1) + masked_bit; } return color; } void Set_IFF_color(byte * buffer, word x_pos, byte color, word real_line_size, byte bitplanes) { byte shift = 7 - (x_pos & 7); int address, plane; for(plane=0;plane> 3; buffer[address] |= (color&1) << shift; color = color >> 1; } } // ----------------------- Afficher une ligne ILBM ------------------------ static void Draw_IFF_line(T_IO_Context *context, const byte * buffer, short y_pos, short real_line_size, byte bitplanes) { short x_pos; if (bitplanes > 8) { for (x_pos=0; x_posWidth; x_pos++) { // Default standard deep ILBM bit ordering: // saved first -----------------------------------------------> saved last // R0 R1 R2 R3 R4 R5 R6 R7 G0 G1 G2 G3 G4 G5 G6 G7 B0 B1 B2 B3 B4 B5 B6 B7 dword rgb = Get_IFF_color(buffer, x_pos,real_line_size, bitplanes); Set_pixel_24b(context, x_pos,y_pos, rgb, rgb >> 8, rgb >> 16); // R is 8 LSB, etc. } } else for (x_pos=0; x_posWidth; x_pos++) { Set_pixel(context, x_pos,y_pos,Get_IFF_color(buffer, x_pos,real_line_size, bitplanes)); } } static void Draw_IFF_line_PCHG(T_IO_Context *context, const byte * buffer, short y_pos, short real_line_size, byte bitplanes, const T_IFF_PCHG_Palette * PCHG_palettes) { const T_IFF_PCHG_Palette * palette; short x_pos; palette = PCHG_palettes; // find the palette to use for the line if (palette == NULL) return; while (palette->Next != NULL && palette->Next->StartLine <= y_pos) palette = palette->Next; //printf("%d %p %d\n", y_pos, palette, palette->StartLine); for (x_pos=0; x_posWidth; x_pos++) { dword c = Get_IFF_color(buffer, x_pos,real_line_size, bitplanes); Set_pixel_24b(context, x_pos,y_pos, palette->Palette[c].R, palette->Palette[c].G, palette->Palette[c].B); } } static void Draw_IFF_line_HAM(T_IO_Context *context, const byte * buffer, short y_pos, short real_line_size, byte bitplanes, const T_IFF_PCHG_Palette * PCHG_palettes) { short x_pos; byte red, green, blue, temp; const T_Components * palette; if (PCHG_palettes == NULL) palette = context->Palette; else { // find the palette to use for the line while (PCHG_palettes->Next != NULL && PCHG_palettes->Next->StartLine <= y_pos) PCHG_palettes = PCHG_palettes->Next; palette = PCHG_palettes->Palette; } red = palette[0].R; green = palette[0].G; blue = palette[0].B; if (bitplanes == 6) { for (x_pos=0; x_posWidth; x_pos++) // HAM6 { temp=Get_IFF_color(buffer, x_pos,real_line_size, bitplanes); switch (temp & 0x30) { case 0x10: // blue blue=(temp&0x0F)*0x11; break; case 0x20: // red red=(temp&0x0F)*0x11; break; case 0x30: // green green=(temp&0x0F)*0x11; break; default: // Nouvelle couleur red=palette[temp].R; green =palette[temp].G; blue =palette[temp].B; } Set_pixel_24b(context, x_pos,y_pos,red,green,blue); } } else { for (x_pos=0; x_posWidth; x_pos++) // HAM8 { temp=Get_IFF_color(buffer,x_pos,real_line_size, bitplanes); switch (temp >> 6) { case 0x01: // blue blue= (temp << 2) | ((temp & 0x30) >> 4); break; case 0x02: // red red= (temp << 2) | ((temp & 0x30) >> 4); break; case 0x03: // green green= (temp << 2) | ((temp & 0x30) >> 4); break; default: // Nouvelle couleur red=palette[temp].R; green =palette[temp].G; blue =palette[temp].B; } Set_pixel_24b(context, x_pos,y_pos,red,green,blue); } } } static void PBM_Decode(T_IO_Context * context, FILE * file, byte compression, word width, word height) { byte * line_buffer; word x_pos, y_pos; word real_line_size = (width+1)&~1; switch (compression) { case 0: // uncompressed line_buffer=(byte *)malloc(real_line_size); for (y_pos=0; ((y_pos127) { if(Read_byte(file, &color)!=1) { File_error=28; break; } do { Set_pixel(context, x_pos++,y_pos,color); } while(temp_byte++ != 0); } else do { if(Read_byte(file, &color)!=1) { File_error=29; break; } Set_pixel(context, x_pos++,y_pos,color); } while(temp_byte-- > 0); } } break; default: Warning("PBM only supports compression type 0 and 1"); File_error = 50; } } static void LBM_Decode(T_IO_Context * context, FILE * file, byte compression, byte Image_HAM, byte stored_bit_planes, byte real_bit_planes, const T_IFF_PCHG_Palette * PCHG_palettes) { int plane; byte * buffer; short x_pos, y_pos; // compute row size int real_line_size = (context->Width+15) & ~15; // size in bit for one bit plane int plane_line_size = real_line_size >> 3; // size in byte for one bit plane int line_size = plane_line_size * stored_bit_planes; // size in byte for all bitplanes switch(compression) { case 0: // uncompressed buffer=(byte *)malloc(line_size); if (buffer == NULL) { File_error=1; Warning("Failed to allocate memory for IFF decoding"); return; } for (y_pos=0; ((y_posHeight) && (!File_error)); y_pos++) { if (Read_bytes(file,buffer,line_size)) { if (Image_HAM > 1) Draw_IFF_line_HAM(context, buffer, y_pos,real_line_size, real_bit_planes, PCHG_palettes); else if (PCHG_palettes) Draw_IFF_line_PCHG(context, buffer, y_pos,real_line_size, real_bit_planes, PCHG_palettes); else Draw_IFF_line(context, buffer, y_pos,real_line_size, real_bit_planes); } else File_error=21; } free(buffer); break; case 1: // packbits compression (Amiga) buffer=(byte *)malloc(line_size); if (buffer == NULL) { File_error=1; Warning("Failed to allocate memory for IFF decoding"); return; } for (y_pos=0; ((y_posHeight) && (!File_error)); y_pos++) { for (x_pos=0; ((x_pos 127 => repeat (256-temp_byte) the next byte // temp_byte <= 127 => copy (temp_byte + 1) bytes if(temp_byte == 128) // 128 = NOP ! { Warning("NOP in packbits stream"); } else if (temp_byte>127) { if(Read_byte(file, &color)!=1) { File_error=23; break; } do { if (x_pos=line_size || !Read_byte(file, &(buffer[x_pos++]))) { File_error=25; break; } } while (temp_byte-- > 0); } if (!File_error) { if (Image_HAM > 1) Draw_IFF_line_HAM(context, buffer, y_pos,real_line_size, real_bit_planes, PCHG_palettes); else if (PCHG_palettes) Draw_IFF_line_PCHG(context, buffer, y_pos,real_line_size, real_bit_planes, PCHG_palettes); else Draw_IFF_line(context, buffer, y_pos,real_line_size,real_bit_planes); } } free(buffer); break; case 2: // vertical RLE compression (Atari ST) buffer=(byte *)calloc(line_size*context->Height, 1); if (buffer == NULL) { File_error=1; Warning("Failed to allocate memory for IFF decoding"); return; } for (plane = 0; plane < stored_bit_planes && !File_error; plane++) { dword section_size; word cmd_count; word cmd; signed char * commands; word count; y_pos = 0; x_pos = 0; if (!IFF_Wait_for(file, "VDAT")) { if (plane == 0) // don't cancel loading if at least 1 bitplane has been loaded File_error = 30; break; } Read_dword_be(file,§ion_size); Read_word_be(file,&cmd_count); cmd_count -= 2; commands = (signed char *)malloc(cmd_count); if (!Read_bytes(file,commands,cmd_count)) { File_error = 31; break; } section_size -= (cmd_count + 2); for (cmd = 0; cmd < cmd_count && x_pos < plane_line_size && section_size > 0; cmd++) { if (commands[cmd] <= 0) { // cmd=0 : load count from data, COPY // cmd < 0 : count = -cmd, COPY if (commands[cmd] == 0) { Read_word_be(file,&count); section_size -= 2; } else count = -commands[cmd]; while (count-- > 0 && x_pos < plane_line_size && section_size > 0) { Read_bytes(file,buffer+x_pos+y_pos*line_size+plane*plane_line_size,2); section_size -= 2; if(++y_pos >= context->Height) { y_pos = 0; x_pos += 2; } } } else if (commands[cmd] >= 1) { // cmd=1 : load count from data, RLE // cmd >1 : count = cmd, RLE byte data[2]; if (commands[cmd] == 1) { Read_word_be(file,&count); section_size -= 2; } else count = (word)commands[cmd]; if (section_size == 0) break; Read_bytes(file,data,2); section_size -= 2; while (count-- > 0 && x_pos < plane_line_size) { memcpy(buffer+x_pos+y_pos*line_size+plane*plane_line_size,data,2); if(++y_pos >= context->Height) { y_pos = 0; x_pos += 2; } } } } if(cmd < (cmd_count-1) || section_size > 0) Warning("Early end in VDAT chunk"); if (section_size > 0) fseek(file, (section_size+1)&~1, SEEK_CUR); // skip bytes free(commands); } if (!File_error) { for (y_pos = 0; y_pos < context->Height; y_pos++) { Draw_IFF_line(context,buffer+line_size*y_pos,y_pos,real_line_size,real_bit_planes); } } free(buffer); break; default: Warning("Unknown IFF compression"); File_error = 32; } } static void RAST_chunk_decode(T_IO_Context * context, FILE * file, dword section_size, T_IFF_PCHG_Palette ** PCHG_palettes) { int i; T_Components palette[16]; T_IFF_PCHG_Palette * prev_pal = NULL; T_IFF_PCHG_Palette * new_pal = NULL; // 17 words per palette : 1 for line, 16 for the colors while (section_size >= 34) { word line, value; Read_word_be(file, &line); for (i = 0; i < 16; i++) { Read_word_be(file, &value); // Decode STE Palette palette[i].R = ((value & 0x0700) >> 7 | (value & 0x0800) >> 11) * 0x11; palette[i].G = ((value & 0x0070) >> 3 | (value & 0x0080) >> 7) * 0x11; palette[i].B = ((value & 0x0007) << 1 | (value & 0x0008) >> 3) * 0x11; } section_size -= 34; if (prev_pal == NULL || (line > prev_pal->StartLine && (0 != memcmp(palette, prev_pal->Palette, sizeof(T_Components)*3)))) { new_pal = malloc(sizeof(T_IFF_PCHG_Palette) + sizeof(T_Components) * 16); if (new_pal == NULL) { File_error = 2; return; } memcpy(new_pal->Palette, palette, sizeof(T_Components) * 16); new_pal->StartLine = line; new_pal->Next = NULL; if (prev_pal != NULL) { prev_pal->Next = new_pal; prev_pal = new_pal; } else if (line == 0) { prev_pal = new_pal; *PCHG_palettes = prev_pal; } else // line > 0 && prev_pal == NULL { // create a palette for line 0 prev_pal = malloc(sizeof(T_IFF_PCHG_Palette) + sizeof(T_Components) * 16); if (prev_pal == NULL) { File_error = 2; return; } memcpy(prev_pal->Palette, context->Palette, sizeof(T_Components) * 16); prev_pal->StartLine = 0; prev_pal->Next = new_pal; *PCHG_palettes = prev_pal; prev_pal = new_pal; } } } } static void IFF_Set_EHB_Palette(T_Components * palette) { int i, j; // 32 colors in the palette. for (i=0; i<32; i++) // The next 32 colors are the same with values divided by 2 { j=i+32; palette[j].R = palette[i].R>>1; palette[j].G = palette[i].G>>1; palette[j].B = palette[i].B>>1; } } void Load_IFF(T_IO_Context * context) { FILE * IFF_file; T_IFF_Header header; T_IFF_AnimHeader aheader; char format[4]; char section[4]; byte temp_byte; dword nb_colors = 0; // number of colors in the CMAP (color map) dword section_size; short x_pos; short y_pos; short line_size = 0; // Taille d'une ligne en octets short plane_line_size = 0; // Size of line in bytes for 1 plane short real_line_size = 0; // Taille d'une ligne en pixels long file_size; dword dummy; int iff_format = 0; int plane; dword AmigaViewModes = 0; enum PIXEL_RATIO ratio = PIXEL_SIMPLE; byte * buffer; byte bpp = 0; byte Image_HAM = 0; T_IFF_PCHG_Palette * PCHG_palettes = NULL; int current_frame = 0; byte * previous_frame = NULL; // For animations byte * anteprevious_frame = NULL; word frame_count = 0; word frame_duration = 0; word vdlt_plane = 0; // current plane during Atari ST animation decoding memset(&aheader, 0, sizeof(aheader)); File_error=0; if ((IFF_file=Open_file_read(context))) { file_size=File_length_file(IFF_file); // FORM + size(4) Read_bytes(IFF_file,section,4); Read_dword_be(IFF_file,&dummy); Read_bytes(IFF_file,format,4); if (!memcmp(format,"ANIM",4)) { // Skip a bit, brother Read_bytes(IFF_file,section,4); Read_dword_be(IFF_file,&dummy); Read_bytes(IFF_file,format,4); } else if(memcmp(format,"DPST",4)==0) { // read DPAH while (File_error == 0) { if (!(Read_bytes(IFF_file,section,4) && Read_dword_be(IFF_file,§ion_size))) File_error = 1; if (memcmp(section, "FORM", 4) == 0) { Read_bytes(IFF_file,format,4); break; } else if (memcmp(section, "DPAH", 4) == 0) // Deluxe Paint Animation Header { word version; Read_word_be(IFF_file, &frame_duration); Read_word_be(IFF_file, &frame_count); Read_word_be(IFF_file, &version); section_size -= 6; Set_frame_duration(context, (frame_duration * 50) / 3); // convert 1/60th sec to msec } fseek(IFF_file, (section_size+1)&~1, SEEK_CUR); // skip unread bytes } } if (memcmp(format,"ILBM",4) == 0) iff_format = FORMAT_LBM; else if(memcmp(format,"PBM ",4) == 0) iff_format = FORMAT_PBM; else if(memcmp(format,"ACBM",4) == 0) iff_format = FORMAT_ACBM; else { char tmp_msg[60]; snprintf(tmp_msg, sizeof(tmp_msg), "Unknown IFF format '%.4s'", format); Warning(tmp_msg); File_error=1; } { byte real_bit_planes = 0; byte stored_bit_planes = 0; while (File_error == 0 && Read_bytes(IFF_file,section,4) && Read_dword_be(IFF_file,§ion_size)) { if (memcmp(section, "FORM", 4) == 0) { // special Read_bytes(IFF_file, format, 4); if (memcmp(format, "VDLT", 4) == 0) // Vertical DeLTa { // found in animation produced by DeluxePaint for Atari ST if (frame_count != 0 && current_frame >= (frame_count - 1)) break; // file contains the Delta from the last frame to the 1st one to allow looping, skip it real_line_size = (context->Width+15) & ~15; plane_line_size = real_line_size >> 3; // 8bits per byte line_size = plane_line_size * real_bit_planes; if (previous_frame == NULL) { previous_frame = calloc(line_size * context->Height,1); for (y_pos=0; y_posHeight; y_pos++) { const byte * pix_p = Main.backups->Pages->Image[Main.current_layer].Pixels + y_pos * Main.backups->Pages->Width; // Dispatch the pixel into planes for (x_pos=0; x_posWidth; x_pos++) { Set_IFF_color(previous_frame+y_pos*line_size, x_pos, *pix_p++, real_line_size, real_bit_planes); } } } Set_loading_layer(context, ++current_frame); Set_frame_duration(context, (frame_duration * 50) / 3); // convert 1/60th sec to msec vdlt_plane = 0; } continue; } if (memcmp(section, "BMHD", 4) == 0) // BitMap HeaDer { if (!((Read_word_be(IFF_file,&header.Width)) && (Read_word_be(IFF_file,&header.Height)) && (Read_word_be(IFF_file,&header.X_org)) && (Read_word_be(IFF_file,&header.Y_org)) && (Read_byte(IFF_file,&header.BitPlanes)) && (Read_byte(IFF_file,&header.Mask)) && (Read_byte(IFF_file,&header.Compression)) && (Read_byte(IFF_file,&header.Pad1)) && (Read_word_be(IFF_file,&header.Transp_col)) && (Read_byte(IFF_file,&header.X_aspect)) && (Read_byte(IFF_file,&header.Y_aspect)) && (Read_word_be(IFF_file,&header.X_screen)) && (Read_word_be(IFF_file,&header.Y_screen))) ) { File_error = 1; break; } real_bit_planes = header.BitPlanes; stored_bit_planes = header.BitPlanes; if (header.Mask==1) stored_bit_planes++; Image_HAM=0; if (header.X_aspect != 0 && header.Y_aspect != 0) { if ((10 * header.X_aspect) <= (6 * header.Y_aspect)) ratio = PIXEL_TALL; // ratio <= 0.6 else if ((10 * header.X_aspect) <= (8 * header.Y_aspect)) ratio = PIXEL_TALL3; // 0.6 < ratio <= 0.8 else if ((10 * header.X_aspect) < (15 * header.Y_aspect)) ratio = PIXEL_SIMPLE; // 0.8 < ratio < 1.5 else ratio = PIXEL_WIDE; // 1.5 <= ratio } bpp = header.BitPlanes; if (bpp <= 8) { unsigned int i; // Set a default grayscale palette : if the // ILBM/PBM file has no palette, it should be assumed to be a // Gray scale picture. if (Config.Clear_palette) memset(context->Palette,0,sizeof(T_Palette)); nb_colors = 1 << bpp; for (i = 0; i < nb_colors; i++) context->Palette[i].R = context->Palette[i].G = context->Palette[i].B = (i * 255) / (nb_colors - 1); } } else if (memcmp(section, "ANHD", 4) == 0) // ANimation HeaDer { // http://www.textfiles.com/programming/FORMATS/anim7.txt Read_byte(IFF_file, &aheader.operation); Read_byte(IFF_file, &aheader.mask); Read_word_be(IFF_file, &aheader.w); Read_word_be(IFF_file, &aheader.h); Read_word_be(IFF_file, &aheader.x); Read_word_be(IFF_file, &aheader.y); Read_dword_be(IFF_file, &aheader.abstime); Read_dword_be(IFF_file, &aheader.reltime); Read_byte(IFF_file, &aheader.interleave); Read_byte(IFF_file, &aheader.pad0); Read_dword_be(IFF_file, &aheader.bits); section_size -= 24; if ((aheader.bits & 0xffffffc0) != 0) // invalid ? => clearing aheader.bits = 0; if (aheader.operation == 0) // ANHD for 1st frame (BODY) Set_frame_duration(context, (aheader.reltime * 50) / 3); // convert 1/60th sec to msec fseek(IFF_file, (section_size+1)&~1, SEEK_CUR); // Skip remaining bytes } else if (memcmp(section, "DPAN", 4) == 0) // Deluxe Paint ANimation { word version; dword flags; if (section_size >= 8) { Read_word_be(IFF_file, &version); Read_word_be(IFF_file, &frame_count); Read_dword_be(IFF_file, &flags); section_size -= 8; } fseek(IFF_file, (section_size+1)&~1, SEEK_CUR); // Skip remaining bytes } else if (memcmp(section, "DLTA", 4) == 0) // Animation DeLTA { int i, plane; dword offsets[16]; dword current_offset = 0; byte * frame; if (Image_HAM > 1) { Warning("HAM animations are not supported"); //Verbose_message("Notice", "HAM animations are not supported, loading only first frame"); // TODO: causes an issue with colors break; } if (frame_count != 0 && current_frame >= (frame_count - 1)) break; // some animations have delta from last to first frame if (previous_frame == NULL) { real_line_size = (context->Width+15) & ~15; plane_line_size = real_line_size >> 3; // 8bits per byte line_size = plane_line_size * real_bit_planes; previous_frame = calloc(line_size * context->Height,1); for (y_pos=0; y_posHeight; y_pos++) { const byte * pix_p = Main.backups->Pages->Image[Main.current_layer].Pixels + y_pos * Main.backups->Pages->Width; // Dispatch the pixel into planes for (x_pos=0; x_posWidth; x_pos++) { Set_IFF_color(previous_frame+y_pos*line_size, x_pos, *pix_p++, real_line_size, real_bit_planes); } } // many animations are designed for double buffering // and delta is against frame n-2 anteprevious_frame = malloc(line_size * context->Height); memcpy(anteprevious_frame, previous_frame, line_size * context->Height); } Set_loading_layer(context, ++current_frame); Set_frame_duration(context, (aheader.reltime * 50) / 3 ); // convert 1/60th sec in msec frame = previous_frame; if(aheader.operation == 5) // Byte Vertical Delta mode { if (aheader.interleave != 1) frame = anteprevious_frame; for (i = 0; i < 16; i++) { if (!Read_dword_be(IFF_file, offsets+i)) { File_error = 2; break; } current_offset += 4; } for (plane = 0; plane < 16; plane++) { byte op_count = 0; if (offsets[plane] == 0) continue; if (plane >= real_bit_planes) { Warning("too much bitplanes in DLTA data"); break; } while (current_offset < offsets[plane]) { Read_byte(IFF_file, &op_count); current_offset++; } if (current_offset > offsets[plane]) { Warning("Loading ERROR in DLTA data"); File_error = 2; break; } for (x_pos = 0; x_pos < (context->Width+7) >> 3; x_pos++) { byte * p = frame + x_pos + plane * plane_line_size; y_pos = 0; Read_byte(IFF_file, &op_count); current_offset++; for (i = 0; i < op_count; i++) { byte op; if (y_pos >= context->Height) { } Read_byte(IFF_file, &op); current_offset++; if (op == 0) { // Same ops byte countb, datab; Read_byte(IFF_file, &countb); Read_byte(IFF_file, &datab); current_offset += 2; while(countb > 0 && y_pos < context->Height) { if(aheader.bits & 2) // XOR *p ^= datab; else // set *p = datab; p += line_size; y_pos++; countb--; } } else if (op & 0x80) { // Uniq Ops op &= 0x7f; while (op > 0) { byte datab; Read_byte(IFF_file, &datab); current_offset++; if (y_pos < context->Height) { if(aheader.bits & 2) // XOR *p ^= datab; else // set *p = datab; p += line_size; y_pos++; } op--; } } else { // skip ops p += op * line_size; y_pos += op; } } if (y_pos > context->Height) { } } } } else if(aheader.operation==74) { // from sources found on aminet : // http://aminet.net/package/gfx/conv/unmovie while (current_offset < section_size) { word change_type; word uni_flag; word y_size; word x_size; word num_blocks; word offset; word x_start, y_start; Read_word_be(IFF_file, &change_type); current_offset += 2; if (change_type == 0) break; else if (change_type == 1) { // "Wall" Read_word_be(IFF_file, &uni_flag); Read_word_be(IFF_file, &y_size); Read_word_be(IFF_file, &num_blocks); current_offset += 6; while (num_blocks-- > 0) { Read_word_be(IFF_file, &offset); current_offset += 2; x_start = offset % plane_line_size; y_start = offset / plane_line_size; for (plane = 0; plane < real_bit_planes; plane++) { byte * p = frame + plane * plane_line_size; p += x_start + y_start*line_size; for (y_pos=0; y_pos < y_size; y_pos++) { byte value; Read_byte(IFF_file, &value); current_offset++; if (uni_flag) *p ^= value; else *p = value; } p += line_size; } } } else if (change_type == 2) { // "Pile" Read_word_be(IFF_file, &uni_flag); Read_word_be(IFF_file, &y_size); Read_word_be(IFF_file, &x_size); Read_word_be(IFF_file, &num_blocks); current_offset += 8; while (num_blocks-- > 0) { Read_word_be(IFF_file, &offset); current_offset += 2; x_start = offset % plane_line_size; y_start = offset / plane_line_size; for (plane = 0; plane < real_bit_planes; plane++) { byte * p = frame + plane * plane_line_size; p += x_start + y_start*line_size; for (y_pos=0; y_pos < y_size; y_pos++) { for (x_pos=0; x_pos < x_size; x_pos++) { byte value; Read_byte(IFF_file, &value); current_offset++; if (uni_flag) p[x_pos] ^= value; else p[x_pos] = value; } p += line_size; } } } } else { Warning("Unknown change type in type 74 DLTA"); File_error = 2; break; } if (current_offset & 1) // align to WORD boundary { byte junk; Read_byte(IFF_file, &junk); current_offset++; } } } else { Warning("Unsupported compression type in ILBM DLTA chunk"); } if (File_error == 0) { for (y_pos=0; y_posHeight; y_pos++) { Draw_IFF_line(context, frame+line_size*y_pos,y_pos,real_line_size,real_bit_planes); } } if (aheader.operation == 5 && aheader.interleave != 1) { anteprevious_frame = previous_frame; previous_frame = frame; } if (current_offset&1) { byte dummy_byte; Read_byte(IFF_file, &dummy_byte); current_offset++; } section_size -= current_offset; fseek(IFF_file, (section_size+1)&~1, SEEK_CUR); // Skip it } else if (memcmp(section, "ADAT", 4) == 0) { // Animation made with Deluxe Paint for Atari ST buffer = previous_frame; if (section_size > 0) { byte * p; byte data[2]; word cmd_count; word cmd; signed char * commands; word count; y_pos = 0; x_pos = 0; Read_word_be(IFF_file,&cmd_count); cmd_count -= 2; commands = (signed char *)malloc(cmd_count); if (!Read_bytes(IFF_file,commands,cmd_count)) { File_error = 31; break; } section_size -= (cmd_count + 2); for (cmd = 0; cmd < cmd_count && section_size > 0; cmd++) { if (commands[cmd] == 0) { // move pointer word offset; short x_ofs, y_ofs; Read_word_be(IFF_file,&offset); section_size -= 2; if((short)offset < 0) { y_ofs = ((short)offset - plane_line_size + 1) / plane_line_size; x_ofs = (short)offset - y_ofs * plane_line_size; } else { x_ofs = offset % plane_line_size; y_ofs = offset / plane_line_size; } y_pos += y_ofs; x_pos += x_ofs; } else if(commands[cmd] < 0) { // XOR with a string of Words if (commands[cmd] == -1 && section_size >= 2) { Read_word_be(IFF_file,&count); section_size -= 2; } else count = -commands[cmd] - 1; while (count-- > 0 && y_pos < context->Height && section_size > 0) { p = buffer+x_pos+y_pos*line_size+vdlt_plane*plane_line_size; Read_bytes(IFF_file,data,2); section_size -= 2; p[0] ^= data[0]; p[1] ^= data[1]; y_pos++; } } else // commands[cmd] > 0 { // XOR a word several times if (commands[cmd] == 1) { Read_word_be(IFF_file,&count); section_size -= 2; if (section_size < 2) break; } else count = commands[cmd] - 1; Read_bytes(IFF_file,data,2); section_size -= 2; do { p = buffer+x_pos+y_pos*line_size+vdlt_plane*plane_line_size; p[0] ^= data[0]; p[1] ^= data[1]; y_pos++; } while (count-- > 0 && y_pos < context->Height); } } free(commands); if(cmd < (cmd_count-1) || section_size > 0) { Warning("Early end in ADAT chunk"); } } vdlt_plane++; if (vdlt_plane == real_bit_planes) { for (y_pos=0; y_posHeight; y_pos++) { Draw_IFF_line(context, buffer+line_size*y_pos,y_pos,real_line_size,real_bit_planes); } } fseek(IFF_file, (section_size+1)&~1, SEEK_CUR); // Skip remaining bytes } else if (memcmp(section, "CMAP", 4) == 0) // Colour MAP { nb_colors = section_size/3; if (current_frame != 0) Warning("One CMAP per frame is not supported"); if ((header.BitPlanes==6 && nb_colors==16) || (header.BitPlanes==8 && nb_colors==64)) { Image_HAM=header.BitPlanes; bpp = 3 * (header.BitPlanes - 2); // HAM6 = 12bpp, HAM8 = 18bpp } if (Read_bytes(IFF_file,context->Palette,3*nb_colors)) { section_size -= 3*nb_colors; if (nb_colors <= 64) { unsigned int i; int is_4bits_colors = 1; // recoil also checks that header.Pad1 is not 0x80 for(i = 0; i < nb_colors && is_4bits_colors; i++) { is_4bits_colors = is_4bits_colors && ((context->Palette[i].R & 0x0f) == 0) && ((context->Palette[i].G & 0x0f) == 0) && ((context->Palette[i].B & 0x0f) == 0); } if (is_4bits_colors) // extend 4bits per component color palettes to 8bits per component for(i = 0; i < nb_colors; i++) { context->Palette[i].R |= (context->Palette[i].R >> 4); context->Palette[i].G |= (context->Palette[i].G >> 4); context->Palette[i].B |= (context->Palette[i].B >> 4); } } if (((nb_colors==32) || (AmigaViewModes & 0x80)) && (header.BitPlanes==6)) { IFF_Set_EHB_Palette(context->Palette); // This is a Extra Half-Brite (EHB) 64 color image. nb_colors = 64; } while(section_size > 0) // Read padding bytes { if (Read_byte(IFF_file,&temp_byte)) File_error=20; section_size--; } } else File_error=1; if (context->Type == CONTEXT_PALETTE || context->Type == CONTEXT_PREVIEW_PALETTE) break; // stop once the palette is loaded } else if (memcmp(section,"CRNG",4) == 0) { // The content of a CRNG is as follows: word padding; word rate; word flags; byte min_col; byte max_col; if ( (Read_word_be(IFF_file,&padding)) && (Read_word_be(IFF_file,&rate)) && (Read_word_be(IFF_file,&flags)) && (Read_byte(IFF_file,&min_col)) && (Read_byte(IFF_file,&max_col))) { if (section_size == 8 && min_col != max_col) { // Valid cycling range if (max_colColor_cycles >= 16) { Warning("Maximum CRNG number is 16"); } else { context->Cycle_range[context->Color_cycles].Start=min_col; context->Cycle_range[context->Color_cycles].End=max_col; context->Cycle_range[context->Color_cycles].Inverse=(flags&2)?1:0; context->Cycle_range[context->Color_cycles].Speed=(flags&1) ? rate/78 : 0; context->Color_cycles++; } } } else File_error=47; } else if (memcmp(section, "CAMG", 4) == 0) // Amiga Viewport Modes { Read_dword_be(IFF_file, &AmigaViewModes); // HIRES=0x8000 LACE=0x4 HAM=0x800 HALFBRITE=0x80 section_size -= 4; if (AmigaViewModes & 0x800 && (header.BitPlanes == 6 || header.BitPlanes == 8)) { Image_HAM = header.BitPlanes; bpp = 3 * (header.BitPlanes - 2); } if ((AmigaViewModes & 0x80) && (header.BitPlanes == 6)) // This is a Extra Half-Brite (EHB) 64 color image. { IFF_Set_EHB_Palette(context->Palette); // Set the palette in case CAMG is after CMAP nb_colors = 64; } } else if (memcmp(section, "DPPV", 4) == 0) // DPaint II ILBM perspective chunk { fseek(IFF_file, (section_size+1)&~1, SEEK_CUR); // Skip it } else if (memcmp(section, "CLUT", 4) == 0) // lookup table { dword lut_type; // 0 = A Monochrome, contrast or intensity LUT byte lut[256]; // 1 = RED, 2 = GREEN, 3 = BLUE, 4 = HUE, 5 = SATURATION Read_dword_be(IFF_file, &lut_type); Read_dword_be(IFF_file, &dummy); Read_bytes(IFF_file, lut, 256); section_size -= (4+4+256); if (section_size > 0) { Warning("Extra bytes at the end of CLUT chunk"); fseek(IFF_file, (section_size+1)&~1, SEEK_CUR); } } else if (memcmp(section, "DYCP", 4) == 0) // DYnamic Color Palette { // All files I've seen have 4 words (8bytes) : // { 0, 1, 16, 0} 16 is probably the number of colors in each palette fseek(IFF_file, (section_size+1)&~1, SEEK_CUR); // Skip it } else if (memcmp(section, "SHAM", 4) == 0) // Sliced HAM { int i; word version; dword SHAM_palette_count; T_IFF_PCHG_Palette * prev_pal = NULL; T_IFF_PCHG_Palette * new_pal = NULL; Image_HAM = header.BitPlanes; bpp = 3 * (header.BitPlanes - 2); Read_word_be(IFF_file, &version); // always 0 section_size -= 2; SHAM_palette_count = section_size >> 5; // 32 bytes per palette (16 colors * 2 bytes) // SHAM_palette_count should be the image height, or height/2 for "interlaced" images for (y_pos = 0; y_pos < header.Height && section_size >= 32; y_pos += (SHAM_palette_count < header.Height ? 2 : 1)) { new_pal = malloc(sizeof(T_IFF_PCHG_Palette) + nb_colors*sizeof(T_Components)); if (new_pal == NULL) { Warning("Memory allocation error"); File_error = 1; break; } new_pal->Next = NULL; new_pal->StartLine = y_pos; for (i = 0; i < 16; i++) { Read_byte(IFF_file, &temp_byte); // 0R new_pal->Palette[i].R = (temp_byte & 0x0f) * 0x11; // 4 bits to 8 bits Read_byte(IFF_file, &temp_byte); // GB new_pal->Palette[i].G = (temp_byte & 0xf0) | (temp_byte >> 4); new_pal->Palette[i].B = (temp_byte & 0x0f) * 0x11; // 4 bits to 8 bits section_size -= 2; } if (prev_pal != NULL) prev_pal->Next = new_pal; else PCHG_palettes = new_pal; prev_pal = new_pal; } if (section_size > 0) { Warning("Extra bytes at the end of SHAM chunk"); fseek(IFF_file, (section_size+1)&~1, SEEK_CUR); } } else if (memcmp(section, "BEAM", 4) == 0 || memcmp(section, "CTBL", 4) == 0) { // One palette per line is stored if (section_size >= header.Height * nb_colors * 2) { T_Palette palette; T_IFF_PCHG_Palette * prev_pal = NULL; T_IFF_PCHG_Palette * new_pal = NULL; for (y_pos = 0; y_pos < header.Height; y_pos++) { unsigned int i; for (i = 0; i < nb_colors; i++) { word value; Read_word_be(IFF_file, &value); section_size -= 2; palette[i].R = ((value & 0x0f00) >> 8) * 0x11; palette[i].G = ((value & 0x00f0) >> 4) * 0x11; palette[i].B = (value & 0x000f) * 0x11; } if (y_pos == 0) { prev_pal = malloc(sizeof(T_IFF_PCHG_Palette) + nb_colors*sizeof(T_Components)); if (prev_pal == NULL) { Warning("Memory allocation error"); File_error = 1; break; } prev_pal->Next = NULL; prev_pal->StartLine = 0; memcpy(prev_pal->Palette, palette, nb_colors*sizeof(T_Components)); PCHG_palettes = prev_pal; } else if (memcmp(palette, prev_pal->Palette, nb_colors*sizeof(T_Components)) != 0) { new_pal = malloc(sizeof(T_IFF_PCHG_Palette) + nb_colors*sizeof(T_Components)); if (new_pal == NULL) { Warning("Memory allocation error"); File_error = 1; break; } new_pal->Next = NULL; new_pal->StartLine = y_pos; memcpy(new_pal->Palette, palette, nb_colors*sizeof(T_Components)); prev_pal->Next = new_pal; prev_pal = new_pal; } } if (PCHG_palettes != NULL) bpp = 12; } else Warning("inconsistant size of BEAM/CTLB chunk, ignoring"); fseek(IFF_file, (section_size+1)&~1, SEEK_CUR); } else if (memcmp(section, "PCHG", 4) == 0) // Palette CHanGes { dword * lineBitMask; int i; T_IFF_PCHG_Palette * prev_pal = NULL; T_IFF_PCHG_Palette * curr_pal = NULL; void * PCHGData = NULL; // http://wiki.amigaos.net/wiki/ILBM_IFF_Interleaved_Bitmap#ILBM.PCHG // http://vigna.di.unimi.it/software.php // Header word Compression; // 0 = None, 1 = Huffman word Flags; // 0x1 = SmallLineChanges, 0x2 = BigLineChanges, 0x4 = use alpha short StartLine; // possibly negative word LineCount; word ChangedLines; word MinReg; word MaxReg; word MaxChanges; dword TotalChanges; if (!(Read_word_be(IFF_file, &Compression) && Read_word_be(IFF_file, &Flags) && Read_word_be(IFF_file, (word *)&StartLine) && Read_word_be(IFF_file, &LineCount) && Read_word_be(IFF_file, &ChangedLines) && Read_word_be(IFF_file, &MinReg) && Read_word_be(IFF_file, &MaxReg) && Read_word_be(IFF_file, &MaxChanges) && Read_dword_be(IFF_file, &TotalChanges))) File_error = 1; section_size -= 20; if (Compression) { short * TreeCode; const short * TreeP; //a3 int remaining_bits = 0; //d1 dword src_dword = 0; //d2 byte * dst_data; //a1 dword CompInfoSize; dword OriginalDataSize; //d0 Read_dword_be(IFF_file, &CompInfoSize); Read_dword_be(IFF_file, &OriginalDataSize); section_size -= 8; // read HuffMan tree TreeCode = malloc(CompInfoSize); for (i = 0; i < (int)(CompInfoSize / 2); i++) Read_word_be(IFF_file, (word *)(TreeCode + i)); section_size -= CompInfoSize; PCHGData = malloc(OriginalDataSize); dst_data = PCHGData; // HuffMan depacking TreeP = TreeCode+(CompInfoSize/2-1); // pointer to the last element while (OriginalDataSize > 0) { if (--remaining_bits < 0) { Read_dword_be(IFF_file, &src_dword); section_size -= 4; remaining_bits = 31; } if (src_dword & (1 << remaining_bits)) { if (*TreeP < 0) { // OffsetPointer TreeP += (*TreeP / 2); continue; // pick another bit } } else { // Case0 --TreeP; if ((*TreeP < 0) || !(*TreeP & 0x100)) continue; // pick another bit } // StoreValue *dst_data = (byte)(*TreeP & 0xff); dst_data++; TreeP = TreeCode+(CompInfoSize/2-1); // pointer to the last element OriginalDataSize--; } free(TreeCode); } else { PCHGData = malloc(section_size); Read_bytes(IFF_file, PCHGData, section_size); section_size = 0; } if (PCHGData != NULL) { const byte * data; // initialize first palette from CMAP prev_pal = malloc(sizeof(T_IFF_PCHG_Palette) + nb_colors*sizeof(T_Components)); prev_pal->Next = NULL; prev_pal->StartLine = 0; memcpy(prev_pal->Palette, context->Palette, nb_colors*sizeof(T_Components)); PCHG_palettes = prev_pal; lineBitMask = (dword *)PCHGData; #if SDL_BYTEORDER != SDL_BIG_ENDIAN for (i = 0 ; i < ((LineCount + 31) >> 5); i++) lineBitMask[i] = SDL_Swap32(lineBitMask[i]); #endif data = (const byte *)PCHGData + ((LineCount + 31) >> 5) * 4; for (y_pos = 0 ; y_pos < LineCount; y_pos++) { if (lineBitMask[y_pos >> 5] & (1 << (31-(y_pos & 31)))) { byte ChangeCount16, ChangeCount32; word PaletteChange; if ((y_pos + StartLine) < 0) curr_pal = PCHG_palettes; else { curr_pal = malloc(sizeof(T_IFF_PCHG_Palette) + nb_colors*sizeof(T_Components)); curr_pal->Next = NULL; curr_pal->StartLine = StartLine + y_pos; memcpy(curr_pal->Palette, prev_pal->Palette, nb_colors*sizeof(T_Components)); prev_pal->Next = curr_pal; } ChangeCount16 = *data++; ChangeCount32 = *data++; for (i = 0; i < ChangeCount16; i++) { PaletteChange = data[0] << 8 | data[1]; // Big endian data += 2; curr_pal->Palette[(PaletteChange >> 12)].R = ((PaletteChange & 0x0f00) >> 8) * 0x11; curr_pal->Palette[(PaletteChange >> 12)].G = ((PaletteChange & 0x00f0) >> 4) * 0x11; curr_pal->Palette[(PaletteChange >> 12)].B = ((PaletteChange & 0x000f) >> 0) * 0x11; } for (i = 0; i < ChangeCount32; i++) { PaletteChange = data[0] << 8 | data[1]; // Big endian data += 2; curr_pal->Palette[16+(PaletteChange >> 12)].R = ((PaletteChange & 0x0f00) >> 8) * 0x11; curr_pal->Palette[16+(PaletteChange >> 12)].G = ((PaletteChange & 0x00f0) >> 4) * 0x11; curr_pal->Palette[16+(PaletteChange >> 12)].B = ((PaletteChange & 0x000f) >> 0) * 0x11; } if (nb_colors == 64) // Extend the 32 colors decoded to 64 IFF_Set_EHB_Palette(curr_pal->Palette); prev_pal = curr_pal; } } free(PCHGData); } fseek(IFF_file, (section_size+1)&~1, SEEK_CUR); if (PCHG_palettes != NULL) bpp = 12; } else if (memcmp(section, "RAST", 4) == 0) // Atari ST { if (PCHG_palettes == NULL) { RAST_chunk_decode(context, IFF_file, section_size, &PCHG_palettes); if (PCHG_palettes != NULL) bpp = 12; } else fseek(IFF_file, (section_size+1)&~1, SEEK_CUR); // Skip } else if (memcmp(section, "TINY", 4) == 0) { word tiny_width, tiny_height; Read_word_be(IFF_file,&tiny_width); Read_word_be(IFF_file,&tiny_height); section_size -= 4; // Load thumbnail if in preview mode if ((context->Type == CONTEXT_PREVIEW || context->Type == CONTEXT_PREVIEW_PALETTE) && tiny_width > 0 && tiny_height > 0) { context->Original_width = header.Width; context->Original_height = header.Height; Pre_load(context, tiny_width, tiny_height,file_size,iff_format,ratio,bpp); context->Background_transparent = header.Mask == 2; context->Transparent_color = context->Background_transparent ? header.Transp_col : 0; if (iff_format == FORMAT_PBM) PBM_Decode(context, IFF_file, header.Compression, tiny_width, tiny_height); else LBM_Decode(context, IFF_file, header.Compression, Image_HAM, stored_bit_planes, real_bit_planes, PCHG_palettes); fclose(IFF_file); IFF_file = NULL; return; } else fseek(IFF_file, (section_size+1)&~1, SEEK_CUR); } else if (memcmp(section, "ANNO", 4) == 0) { dword length; section_size = (section_size + 1) & ~1; length = section_size; if (length > COMMENT_SIZE) length = COMMENT_SIZE; Read_bytes(IFF_file,context->Comment,length); context->Comment[length]='\0'; section_size -= length; fseek(IFF_file, section_size, SEEK_CUR); } else if (memcmp(section, "ABIT", 4) == 0) { // ACBM format : ABIT = Amiga BITplanes // The ABIT chunk contains contiguous bitplane data. // The chunk contains sequential data for bitplane 0 through bitplane n. if (header.Width == 0 || header.Height == 0) break; Pre_load(context, header.Width, header.Height, file_size, iff_format, ratio, bpp); // compute row size real_line_size = (context->Width+15) & ~15; plane_line_size = real_line_size >> 3; // 8bits per byte line_size = plane_line_size * stored_bit_planes; buffer = malloc(line_size * context->Height); if ((dword)(line_size * context->Height) == section_size) header.Compression = 0; // size is of uncompressed data. Forcing. for (plane = 0; plane < stored_bit_planes; plane++) { for (y_pos = 0; y_pos < context->Height; y_pos++) { if (header.Compression == 0) { if (!Read_bytes(IFF_file,buffer+line_size*y_pos+plane_line_size*plane,plane_line_size)) { File_error = 21; break; } } else { Warning("Unhandled compression for ACBM ABIT chunk"); File_error = 32; break; } } } if (File_error == 0) { for (y_pos = 0; y_pos < context->Height; y_pos++) { if (Image_HAM <= 1) Draw_IFF_line(context, buffer+y_pos*line_size, y_pos,real_line_size, real_bit_planes); else Draw_IFF_line_HAM(context, buffer+y_pos*line_size, y_pos,real_line_size, real_bit_planes, PCHG_palettes); } } free(buffer); buffer = NULL; } else if (memcmp(section, "BODY", 4) == 0) { long offset = ftell(IFF_file); if (file_size > (offset + section_size + 8)) { // Chunk RAST is placed AFTER the BODY, but we need the palette now to decode the image // In addition, some files break the IFF standard by not aligning // the chunk on word boundaries. fseek(IFF_file, section_size, SEEK_CUR); Read_bytes(IFF_file, section, 1); if (section[0] == 'R') // we are good Read_bytes(IFF_file, section + 1, 3); // read the remaining 3 bytes else // skip 1 byte Read_bytes(IFF_file, section, 4); // read 4 bytes if (memcmp(section, "RAST", 4) == 0) { dword rast_size; Read_dword_be(IFF_file, &rast_size); RAST_chunk_decode(context, IFF_file, rast_size, &PCHG_palettes); if (PCHG_palettes != NULL) bpp = 12; } fseek(IFF_file, offset, SEEK_SET); // rewind } if (header.Width == 0 || header.Height == 0) break; Original_screen_X = header.X_screen; Original_screen_Y = header.Y_screen; Pre_load(context, header.Width, header.Height, file_size, iff_format, ratio, bpp); context->Background_transparent = header.Mask == 2; context->Transparent_color = context->Background_transparent ? header.Transp_col : 0; if (context->Type == CONTEXT_MAIN_IMAGE) { Main.backups->Pages->Image_mode = IMAGE_MODE_ANIMATION; Update_screen_targets(); } if (iff_format == FORMAT_LBM) // "ILBM": InterLeaved BitMap { LBM_Decode(context, IFF_file, header.Compression, Image_HAM, stored_bit_planes, real_bit_planes, PCHG_palettes); } else // "PBM ": Packed BitMap { PBM_Decode(context, IFF_file, header.Compression, context->Width, context->Height); } if (ftell(IFF_file) & 1) fseek(IFF_file, 1, SEEK_CUR); // SKIP one byte if (context->Type == CONTEXT_PREVIEW || context->Type == CONTEXT_PREVIEW_PALETTE) { break; // dont load animations in Preview mode } } else { char tmp_msg[60]; // skip section snprintf(tmp_msg, sizeof(tmp_msg), "Skip unknown section '%.4s' of %u bytes", section, section_size); Warning(tmp_msg); fseek(IFF_file, (section_size+1)&~1, SEEK_CUR); } } } fclose(IFF_file); IFF_file = NULL; } else File_error=1; if (previous_frame) free(previous_frame); if (anteprevious_frame) free(anteprevious_frame); while (PCHG_palettes != NULL) { T_IFF_PCHG_Palette * next = PCHG_palettes->Next; free(PCHG_palettes); PCHG_palettes = next; } } // -- Sauver un fichier au format IFF --------------------------------------- byte IFF_color_list[129]; word IFF_list_size; byte IFF_repetition_mode; // ------------- Ecrire les couleurs que l'on vient de traiter ------------ void Transfer_colors(FILE * file) { byte index; if (IFF_list_size>0) { if (IFF_repetition_mode) { Write_one_byte(file,257-IFF_list_size); Write_one_byte(file,IFF_color_list[0]); } else { Write_one_byte(file,IFF_list_size-1); for (index=0; index et on a 3 couleurs qui se suivent { IFF_list_size-=2; Transfer_colors(file); IFF_color_list[0]=color; IFF_color_list[1]=color; IFF_color_list[2]=color; IFF_list_size=3; IFF_repetition_mode=1; } } else // La couleur n'est pas la même que la précédente { if (!IFF_repetition_mode) // On conserve le mode... { IFF_color_list[IFF_list_size++]=color; if (IFF_list_size==128) Transfer_colors(file); } else // On change de mode... { Transfer_colors(file); IFF_color_list[IFF_list_size]=color; IFF_list_size++; } } } } void Save_IFF(T_IO_Context * context) { FILE * IFF_file; T_IFF_Header header; word x_pos; word y_pos; byte temp_byte; int i; int palette_entries; byte bit_depth; long body_offset = -1; if (context->Format == FORMAT_LBM) { // Check how many bits are used by pixel colors temp_byte = 0; for (y_pos=0; y_posHeight; y_pos++) for (x_pos=0; x_posWidth; x_pos++) temp_byte |= Get_pixel(context, x_pos,y_pos); bit_depth=0; do { bit_depth++; temp_byte>>=1; } while (temp_byte); } else // FORMAT_PBM { bit_depth=8; } palette_entries = 1<Format == FORMAT_LBM) Write_bytes(IFF_file,"ILBM",4); else Write_bytes(IFF_file,"PBM ",4); Write_bytes(IFF_file,"BMHD",4); Write_dword_be(IFF_file,20); header.Width=context->Width; header.Height=context->Height; header.X_org=0; header.Y_org=0; header.BitPlanes=bit_depth; header.Mask=context->Background_transparent ? 2 : 0; header.Compression=1; header.Pad1=0; header.Transp_col=context->Background_transparent ? context->Transparent_color : 0; header.X_aspect=10; // Amiga files are usually 10:11 header.Y_aspect=10; switch (context->Ratio) { case PIXEL_SIMPLE: case PIXEL_DOUBLE: case PIXEL_TRIPLE: case PIXEL_QUAD: default: break; case PIXEL_WIDE: case PIXEL_WIDE2: header.X_aspect *= 2; // 2:1 break; case PIXEL_TALL3: // 3:4 header.X_aspect = (header.X_aspect * 15) / 10; // *1.5 case PIXEL_TALL: case PIXEL_TALL2: header.Y_aspect *= 2; // 1:2 break; } header.X_screen = context->Width;// Screen_width?; header.Y_screen = context->Height;// Screen_height?; Write_word_be(IFF_file,header.Width); Write_word_be(IFF_file,header.Height); Write_word_be(IFF_file,header.X_org); Write_word_be(IFF_file,header.Y_org); Write_bytes(IFF_file,&header.BitPlanes,1); Write_bytes(IFF_file,&header.Mask,1); Write_bytes(IFF_file,&header.Compression,1); Write_bytes(IFF_file,&header.Pad1,1); Write_word_be(IFF_file,header.Transp_col); Write_bytes(IFF_file,&header.X_aspect,1); Write_bytes(IFF_file,&header.Y_aspect,1); Write_word_be(IFF_file,header.X_screen); Write_word_be(IFF_file,header.Y_screen); Write_bytes(IFF_file,"CMAP",4); Write_dword_be(IFF_file,palette_entries*3); Write_bytes(IFF_file,context->Palette,palette_entries*3); if (context->Comment[0]) // write ANNO { dword comment_size; Write_bytes(IFF_file,"ANNO",4); // Chunk name comment_size = strlen(context->Comment); // NULL termination is not needed Write_dword_be(IFF_file, comment_size); // Section size Write_bytes(IFF_file, context->Comment, comment_size); if (comment_size&1) Write_byte(IFF_file, 0); // align to WORD boundaries } for (i=0; iColor_cycles; i++) { word flags=0; flags|= context->Cycle_range[i].Speed?1:0; // Cycling or not flags|= context->Cycle_range[i].Inverse?2:0; // Inverted Write_bytes(IFF_file,"CRNG",4); Write_dword_be(IFF_file,8); // Section size Write_word_be(IFF_file,0); // Padding Write_word_be(IFF_file,context->Cycle_range[i].Speed*78); // Rate Write_word_be(IFF_file,flags); // Flags Write_byte(IFF_file,context->Cycle_range[i].Start); // Min color Write_byte(IFF_file,context->Cycle_range[i].End); // Max color // No padding, size is multiple of 2 } body_offset = ftell(IFF_file); Write_bytes(IFF_file,"BODY",4); Write_dword_be(IFF_file,0); // On mettra la taille à jour à la fin if (context->Format == FORMAT_LBM) { byte * buffer; short line_size; // Size of line in bytes short plane_line_size; // Size of line in bytes for 1 plane short real_line_size; // Size of line in pixels // Calcul de la taille d'une ligne ILBM (pour les images ayant des dimensions exotiques) real_line_size = (context->Width+15) & ~15; plane_line_size = real_line_size >> 3; // 8bits per byte line_size = plane_line_size * header.BitPlanes; buffer=(byte *)malloc(line_size); // Start encoding IFF_list_size=0; for (y_pos=0; ((y_posHeight) && (!File_error)); y_pos++) { // Dispatch the pixel into planes memset(buffer,0,line_size); for (x_pos=0; x_posWidth; x_pos++) Set_IFF_color(buffer, x_pos, Get_pixel(context, x_pos,y_pos), real_line_size, header.BitPlanes); if (context->Width&1) // odd width fix Set_IFF_color(buffer, x_pos, 0, real_line_size, header.BitPlanes); // encode the resulting sequence of bytes if (header.Compression) { int plane_width=line_size/header.BitPlanes; int plane; for (plane=0; planeHeight) && (!File_error)); y_pos++) { for (x_pos=0; ((x_posWidth) && (!File_error)); x_pos++) New_color(IFF_file, Get_pixel(context, x_pos,y_pos)); if (context->Width&1) // odd width fix New_color(IFF_file, 0); if (!File_error) Transfer_colors(IFF_file); } } // Now update FORM and BODY size if (!File_error) { long file_size = ftell(IFF_file); if (file_size&1) { // PAD to even file size if (! Write_byte(IFF_file,0)) File_error=1; } // Write BODY size fseek(IFF_file, body_offset + 4, SEEK_SET); Write_dword_be(IFF_file, file_size-body_offset-8); // Write FORM size file_size = (file_size+1)&~1; fseek(IFF_file,4,SEEK_SET); Write_dword_be(IFF_file,file_size-8); } fclose(IFF_file); if (File_error != 0) // remove the file if there have been an error Remove_file(context); } else File_error=1; } /////////////////////////// .info (Amiga Icons) ///////////////////////////// typedef struct { // offset word Magic; // 0 word Version; dword NextGadget; word LeftEdge; // 8 word TopEdge; word Width; word Height; word Flags; // 16 word Activation; word GadgetType; // 20 dword GadgetRender; // 22 dword SelectRender; dword GadgetText; // 30 dword MutualExclude; dword SpecialInfo; // 38 word GadgetID; dword UserData; // 44 icon revision : 0 = OS 1.x, 1 = OS 2.x/3.x byte Type; byte padding; dword DefaultTool; dword ToolTypes; dword CurrentX; dword CurrentY; dword DrawerData; dword ToolWindow; dword StackSize; } T_INFO_Header; static int Read_INFO_Header(FILE * file, T_INFO_Header * header) { return (Read_word_be(file, &header->Magic) && Read_word_be(file, &header->Version) && Read_dword_be(file, &header->NextGadget) && Read_word_be(file, &header->LeftEdge) && Read_word_be(file, &header->TopEdge) && Read_word_be(file, &header->Width) && Read_word_be(file, &header->Height) && Read_word_be(file, &header->Flags) && Read_word_be(file, &header->Activation) && Read_word_be(file, &header->GadgetType) && Read_dword_be(file, &header->GadgetRender) && Read_dword_be(file, &header->SelectRender) && Read_dword_be(file, &header->GadgetText) && Read_dword_be(file, &header->MutualExclude) && Read_dword_be(file, &header->SpecialInfo) && Read_word_be(file, &header->GadgetID) && Read_dword_be(file, &header->UserData) && Read_byte(file, &header->Type) && Read_byte(file, &header->padding) && Read_dword_be(file, &header->DefaultTool) && Read_dword_be(file, &header->ToolTypes) && Read_dword_be(file, &header->CurrentX) && Read_dword_be(file, &header->CurrentY) && Read_dword_be(file, &header->DrawerData) && Read_dword_be(file, &header->ToolWindow) && Read_dword_be(file, &header->StackSize) ); } typedef struct { short LeftEdge; short TopEdge; word Width; word Height; word Depth; dword ImageData; byte PlanePick; byte PlaneOnOff; dword NextImage; } T_INFO_ImageHeader; static int Read_INFO_ImageHeader(FILE * file, T_INFO_ImageHeader * header) { return (Read_word_be(file, (word *)&header->LeftEdge) && Read_word_be(file, (word *)&header->TopEdge) && Read_word_be(file, &header->Width) && Read_word_be(file, &header->Height) && Read_word_be(file, &header->Depth) && Read_dword_be(file, &header->ImageData) && Read_byte(file, &header->PlanePick) && Read_byte(file, &header->PlaneOnOff) && Read_dword_be(file, &header->NextImage) ); } void Test_INFO(T_IO_Context * context, FILE * file) { T_INFO_Header header; (void)context; File_error=1; if (Read_INFO_Header(file, &header)) { if (header.Magic == 0xe310 && header.Version == 1) File_error = 0; } } static char * Read_INFO_String(FILE * file) { dword size; char * p; if (!Read_dword_be(file, &size)) return NULL; p = malloc(size); if (p == NULL) return NULL; if (!Read_bytes(file, p, size)) { free(p); p = NULL; } return p; } static byte * Decode_NewIcons(const byte * p, int bits, unsigned int * len) { int alloc_size; unsigned int i; byte * buffer; dword current_byte = 0; int current_bits = 0; alloc_size = 16*1024; buffer = malloc(alloc_size); if (buffer == NULL) return NULL; i = 0; while (*p) { byte value = *p++; if (0xd1 <= value) { value -= 0xd0; // RLE count while (value-- > 0) { current_byte = (current_byte << 7); current_bits += 7; while (current_bits >= bits) { buffer[i++] = (current_byte >> (current_bits - bits)) & ((1 << bits) - 1); current_bits -= bits; } } continue; } if (0x20 <= value && value <= 0x6f) value = value - 0x20; else if (0xa1 <= value && value <= 0xd0) value = value - 0x51; else { Warning("Invalid value"); break; } current_byte = (current_byte << 7) | value; current_bits += 7; while (current_bits >= bits) { buffer[i++] = (current_byte >> (current_bits - bits)) & ((1 << bits) - 1); current_bits -= bits; } } //buffer[i++] = (current_byte << (bits - current_bits)) & ((1 << bits) - 1); *len = i; return buffer; } void Load_INFO(T_IO_Context * context) { static const T_Components amigaOS1x_pal[] = { // { 85, 170, 255 }, { 0, 85, 170 }, { 255, 255, 255 }, { 0, 0, 0 }, { 255, 136, 0 }, }; static const T_Components amigaOS2x_pal[] = { { 149, 149, 149 }, { 0, 0, 0 }, { 255, 255, 255 }, { 59, 103, 162 }, { 123, 123, 123 }, // MagicWB extended colors { 175, 175, 175 }, { 170, 144, 124 }, { 255, 169, 151 }, { 255, 0, 0 }, // { 160, 0, 0 }, // { 0, 246, 255 }, // { 0, 0, 255 }, // { 0, 160, 0 }, // { 0, 255, 0 }, // { 255, 255, 0 }, // { 255, 160, 0 }, // }; T_INFO_Header header; T_INFO_ImageHeader imgheaders[2]; char filename[MAX_PATH_CHARACTERS]; FILE *file; long file_size; word plane_line_size = 0; word line_size = 0; int plane; short x_pos = 0, y_pos = 0; int has_NewIcons = 0; int img_count = 0; // 1 or 2 byte * buffers[2]; File_error = 0; Get_full_filename(filename, context->File_name, context->File_directory); file=fopen(filename, "rb"); if (file == NULL) { File_error=1; return; } file_size=File_length_file(file); if (Read_INFO_Header(file, &header) && header.Magic == 0xe310) { if (header.GadgetRender == 0) File_error = 1; if (header.DrawerData) // Skip DrawerData if (fseek(file, 56, SEEK_CUR) != 0) File_error = 1; // icons for (img_count = 0; File_error == 0 && img_count < 2; img_count++) { buffers[img_count] = NULL; if (img_count == 0 && header.GadgetRender == 0) continue; if (img_count == 1 && header.SelectRender == 0) break; if (!Read_INFO_ImageHeader(file, &imgheaders[img_count])) File_error = 1; else { plane_line_size = ((imgheaders[img_count].Width + 15) >> 4) * 2; line_size = plane_line_size * imgheaders[img_count].Depth; buffers[img_count] = malloc(line_size * imgheaders[img_count].Height); for (plane = 0; plane < imgheaders[img_count].Depth; plane++) { for (y_pos = 0; y_pos < imgheaders[img_count].Height; y_pos++) { if (!Read_bytes(file, buffers[img_count] + y_pos * line_size + plane * plane_line_size, plane_line_size)) { File_error = 2; break; } } } } } if (File_error == 0 && header.DefaultTool) { char * DefaultTool = Read_INFO_String(file); if (DefaultTool == NULL) File_error = 2; else { free(DefaultTool); } } if (File_error == 0 && header.ToolTypes) { int i; int current_img = -1; int width = 0; int height = 0; int palette_continues = 0; unsigned int color_count = 0; unsigned int palette_color_count = 0; // used colors in global palette int bpp = 0; byte palette_conv[256]; // to translate sub icon specific palette to global palette dword count; char * ToolType; if (Read_dword_be(file, &count)) { int look_for_comments = 1; for (i = 0; i < 256; i++) palette_conv[i] = (byte)i; while(count > 0) { ToolType = Read_INFO_String(file); if (ToolType == NULL) break; else { // NewIcons if (strlen(ToolType) > 4 && ToolType[0] == 'I' && ToolType[1] == 'M' && ToolType[3] == '=') { const byte * p; int img_index = ToolType[2] - '0'; p = (byte *)ToolType + 4; if (img_index != current_img) { // image info + palette T_Components * palette; unsigned int palette_len; current_img = img_index; if (current_img > 1 && (context->Type == CONTEXT_PREVIEW || context->Type == CONTEXT_PREVIEW_PALETTE)) break; // don't load 2nd image in preview mode if (*p++ == 'B') { context->Transparent_color = 0; context->Background_transparent = 1; } else context->Background_transparent = 0; width = *p++ - 0x21; height = *p++ - 0x21; color_count = *p++ - 0x21; color_count = (color_count << 6) + *p++ - 0x21; for (bpp = 1; color_count > (unsigned)(1 << bpp); bpp++) { } palette = (T_Components *)Decode_NewIcons(p, 8, &palette_len); if (palette) { if (img_index == 1) { // Set palette if (Config.Clear_palette) memset(context->Palette,0,sizeof(T_Palette)); memcpy(context->Palette, palette, MIN(palette_len,sizeof(T_Palette))); if (palette_len < color_count * 3) { palette_color_count = palette_len / 3; palette_continues = 1; } else { palette_color_count = color_count; palette_continues = 0; } } else { // merge palette with the existing one for (i = 0; (unsigned)i < MIN(color_count,palette_len/3); i++) { unsigned int j; for (j = 0; j < palette_color_count; j++) { if (0 == memcmp(context->Palette + j, palette + i, sizeof(T_Components))) break; } if (j == palette_color_count) { if (palette_color_count < 256) { // Add color to palette memcpy(context->Palette + palette_color_count, palette + i, sizeof(T_Components)); palette_color_count++; } else Warning("Too much colors in new icons"); } palette_conv[i] = (byte)j; } if (palette_len < color_count * 3) palette_continues = palette_len / 3; else palette_continues = 0; } free(palette); } if (img_index == 1) { Pre_load(context, width, height,file_size,FORMAT_INFO,PIXEL_SIMPLE, bpp); if (context->Type == CONTEXT_MAIN_IMAGE) { Main.backups->Pages->Image_mode = IMAGE_MODE_ANIMATION; Update_screen_targets(); } has_NewIcons = 1; } else Set_loading_layer(context, img_index - 1); x_pos = 0; y_pos = 0; } else if (palette_continues) { T_Components * palette; unsigned int palette_len; palette = (T_Components *)Decode_NewIcons(p, 8, &palette_len); if (palette) { if (img_index == 1) { memcpy(context->Palette + palette_color_count, palette, MIN(palette_len,sizeof(T_Palette) - 3*palette_color_count)); if (palette_color_count * 3 + palette_len < color_count * 3) palette_color_count += palette_len / 3; else { palette_color_count = color_count; palette_continues = 0; } } else { // merge palette with the existing one for (i = 0; (unsigned)i < MIN(color_count-palette_continues,palette_len/3); i++) { unsigned int j; for (j = 0; j < palette_color_count; j++) { if (0 == memcmp(context->Palette + j, palette + i, sizeof(T_Components))) break; } if (j == palette_color_count) { if (palette_color_count < 256) { // Add color to palette memcpy(context->Palette + palette_color_count, palette + i, sizeof(T_Components)); palette_color_count++; } else Warning("Too much colors in new icons"); } palette_conv[i+palette_continues] = (byte)j; } if (palette_continues * 3 + palette_len < color_count * 3) palette_continues += palette_len / 3; else palette_continues = 0; } free(palette); } } else { byte * pixels; unsigned int pixel_count; pixels = Decode_NewIcons(p, bpp, &pixel_count); if (pixels) { for (i = 0; (unsigned)i < pixel_count; i++) { Set_pixel(context, x_pos++, y_pos, palette_conv[pixels[i]]); if (x_pos >= width) { x_pos = 0; y_pos++; } } free(pixels); } } } else if (look_for_comments) { if (strlen(ToolType) > 1) { if (strcmp(ToolType, "*** DON'T EDIT THE FOLLOWING LINES!! ***") == 0) { // The following lines are NewIcons data! look_for_comments = 0; } else if (context->Comment[0] == '\0') { strncpy(context->Comment, ToolType, COMMENT_SIZE); context->Comment[COMMENT_SIZE] = '\0'; } } } free(ToolType); } count -= 4; } } } if (File_error == 0 && header.ToolWindow != 0) { char * ToolWindow = Read_INFO_String(file); if (ToolWindow == NULL) File_error = 2; else { free(ToolWindow); } } if (File_error == 0 && header.UserData == 1) { // Skip extended Drawer Data for OS 2.x if (fseek(file, 8, SEEK_CUR) != 0) File_error = 1; } // OS 3.5 (Glow Icon) can follow : // it is IFF data if (!has_NewIcons && img_count > 0) { if (Config.Clear_palette) memset(context->Palette,0,sizeof(T_Palette)); if (header.UserData == 0) memcpy(context->Palette, amigaOS1x_pal, sizeof(amigaOS1x_pal)); else memcpy(context->Palette, amigaOS2x_pal, sizeof(amigaOS2x_pal)); Pre_load(context, header.Width, header.Height,file_size,FORMAT_INFO,PIXEL_SIMPLE, imgheaders[0].Depth); if (context->Type == CONTEXT_MAIN_IMAGE) { Main.backups->Pages->Image_mode = IMAGE_MODE_ANIMATION; Update_screen_targets(); } for (img_count = 0; img_count < 2 && buffers[img_count] != NULL; img_count++) { if (img_count > 0) { if (context->Type == CONTEXT_PREVIEW || context->Type == CONTEXT_PREVIEW_PALETTE) break; // don't load 2nd image in preview mode Set_loading_layer(context, img_count); } for (y_pos = 0; y_pos < imgheaders[img_count].Height; y_pos++) Draw_IFF_line(context, buffers[img_count] + y_pos * line_size, y_pos, plane_line_size << 3, imgheaders[img_count].Depth); } } for (img_count = 0; img_count < 2; img_count++) if (buffers[img_count] != NULL) { free(buffers[img_count]); buffers[img_count] = NULL; } } else File_error=1; fclose(file); } //////////////////////////////////// BMP //////////////////////////////////// typedef struct { byte Signature[2]; // ='BM' = 0x4D42 dword Size_1; // file size word Reserved_1; // 0 word Reserved_2; // 0 dword Offset; // Offset of bitmap data start dword Size_2; // 40 dword Width; int32_t Height; // signed: negative means a top-down bitmap (rare) word Planes; // 1 word Nb_bits; // 1,4,8 ou 24 dword Compression; dword Size_3; dword XPM; dword YPM; dword Nb_Clr; dword Clr_Imprt; } T_BMP_Header; // -- Tester si un fichier est au format BMP -------------------------------- void Test_BMP(T_IO_Context * context, FILE * file) { T_BMP_Header header; (void)context; File_error=1; if (Read_bytes(file,&(header.Signature),2) // "BM" && Read_dword_le(file,&(header.Size_1)) && Read_word_le(file,&(header.Reserved_1)) && Read_word_le(file,&(header.Reserved_2)) && Read_dword_le(file,&(header.Offset)) && Read_dword_le(file,&(header.Size_2)) && Read_dword_le(file,&(header.Width)) && Read_dword_le(file,(dword *)&(header.Height)) && Read_word_le(file,&(header.Planes)) && Read_word_le(file,&(header.Nb_bits)) && Read_dword_le(file,&(header.Compression)) && Read_dword_le(file,&(header.Size_3)) && Read_dword_le(file,&(header.XPM)) && Read_dword_le(file,&(header.YPM)) && Read_dword_le(file,&(header.Nb_Clr)) && Read_dword_le(file,&(header.Clr_Imprt)) ) { if ( header.Signature[0]=='B' && header.Signature[1]=='M' && (header.Size_2==40 /* WINDOWS */ || header.Size_2==12 /* OS/2 */) && header.Width && header.Height ) { File_error=0; } } } // Find the 8 important bits in a dword static byte Bitmap_mask(dword pixel, dword mask) { byte result; int i; int bits_found; switch(mask) { // Shortcuts to quickly handle the common 24/32bit cases case 0x000000FF: return (pixel & 0x000000FF); case 0x0000FF00: return (pixel & 0x0000FF00)>>8; case 0x00FF0000: return (pixel & 0x00FF0000)>>16; case 0xFF000000: return (pixel & 0xFF000000)>>24; } // Uncommon : do it bit by bit. bits_found=0; result=0; // Process the mask from low to high bit for (i=0;i<32;i++) { // Found a bit in the mask if (mask & (1<=8) return result; } } // Less than 8 bits in the mask: scale the result to 8 bits return result << (8-bits_found); } static void Load_BMP_Palette(T_IO_Context * context, FILE * file, unsigned int nb_colors, int is_rgb24) { byte local_palette[256*4]; // R,G,B,0 or RGB unsigned int i, j; if (Read_bytes(file,local_palette,nb_colors*(is_rgb24?3:4))) { if (Config.Clear_palette) memset(context->Palette,0,sizeof(T_Palette)); // We can now load the new palette for (i=0, j=0; iPalette[i].B=local_palette[j++]; context->Palette[i].G=local_palette[j++]; context->Palette[i].R=local_palette[j++]; if (!is_rgb24) j++; } } else { File_error=1; } } // rows are stored from the top to the bottom (standard for BMP is from bottom to the top) #define LOAD_BMP_PIXEL_FLAG_TOP_DOWN 0x01 // We are decoding the AND-mask plane (transparency) of a .ICO file #define LOAD_BMP_PIXEL_FLAG_TRANSP_PLANE 0x02 static void Load_BMP_Pixels(T_IO_Context * context, FILE * file, unsigned int compression, unsigned int nbbits, int flags, const dword * mask) { unsigned int row_size; unsigned int index; short x_pos; short y_pos; byte * buffer; byte value; byte a,b,c=0; switch (compression) { case 0 : // Pas de compression case 3 : row_size = ((nbbits*context->Width + 31) >> 3) & ~3; buffer = malloc(row_size); for (y_pos=0; (y_pos < context->Height && !File_error); y_pos++) { short target_y; target_y = (flags & LOAD_BMP_PIXEL_FLAG_TOP_DOWN) ? y_pos : context->Height-1-y_pos; if (Read_bytes(file,buffer,row_size)) { for (x_pos=0; x_posWidth; x_pos++) { switch (nbbits) { case 8 : value = buffer[x_pos]; Set_pixel(context, x_pos, target_y, value); break; case 4 : value = (x_pos & 1) ? (buffer[x_pos>>1] & 0xF) : (buffer[x_pos>>1] >> 4); Set_pixel(context, x_pos, target_y, value); break; case 2: value = (buffer[x_pos>>2] >> (((x_pos&3)^3)*2)) & 3; Set_pixel(context, x_pos, target_y, value); break; case 1 : value = ( buffer[x_pos>>3] & (0x80>>(x_pos&7)) ) ? 1 : 0; if (flags & LOAD_BMP_PIXEL_FLAG_TRANSP_PLANE) { if (value) // transparent pixel ! Set_pixel(context, x_pos, target_y, context->Transparent_color); } else Set_pixel(context, x_pos, target_y, value); break; case 24: Set_pixel_24b(context, x_pos,target_y,buffer[x_pos*3+2],buffer[x_pos*3+1],buffer[x_pos*3+0]); break; case 32: { #if SDL_BYTEORDER != SDL_LIL_ENDIAN dword pixel = SDL_Swap32(((dword *)buffer)[x_pos]); #else dword pixel = ((dword *)buffer)[x_pos]; #endif Set_pixel_24b(context, x_pos,target_y,Bitmap_mask(pixel,mask[0]),Bitmap_mask(pixel,mask[1]),Bitmap_mask(pixel,mask[2])); } break; case 16: { #if SDL_BYTEORDER != SDL_LIL_ENDIAN word pixel = SDL_Swap16(((word *)buffer)[x_pos]); #else word pixel = ((word *)buffer)[x_pos]; #endif Set_pixel_24b(context, x_pos,target_y,Bitmap_mask(pixel,mask[0]),Bitmap_mask(pixel,mask[1]),Bitmap_mask(pixel,mask[2])); } break; default: value = 0; } } } else { File_error=2; } } free(buffer); buffer = NULL; break; case 1 : // Compression RLE 8 bits x_pos=0; y_pos=context->Height-1; /*Init_lecture();*/ if(Read_byte(file, &a)!=1 || Read_byte(file, &b)!=1) File_error=2; while (!File_error) { if (a) // Encoded mode for (index=1; index<=a; index++) Set_pixel(context, x_pos++,y_pos,b); else // Absolute mode switch (b) { case 0 : // End of line x_pos=0; y_pos--; break; case 1 : // End of bitmap break; case 2 : // Delta if(Read_byte(file, &a)!=1 || Read_byte(file, &b)!=1) File_error=2; x_pos+=a; y_pos-=b; break; default: // Nouvelle série while (b) { if(Read_byte(file, &a)!=1) File_error=2; //Read_one_byte(file, &c); Set_pixel(context, x_pos++,y_pos,a); //if (--c) //{ // Set_pixel(context, x_pos++,y_pos,c); // b--; //} b--; } if (ftell(file) & 1) fseek(file, 1, SEEK_CUR); } if (a==0 && b==1) break; if(Read_byte(file, &a) !=1 || Read_byte(file, &b)!=1) { File_error=2; } } break; case 2 : // Compression RLE 4 bits x_pos=0; y_pos=context->Height-1; if(Read_byte(file, &a)!=1 || Read_byte(file, &b) != 1) File_error =2; while ( (!File_error) && ((a)||(b!=1)) ) { if (a) // Encoded mode (A fois les 1/2 pixels de B) for (index=1; index<=a; index++) { if (index & 1) Set_pixel(context, x_pos,y_pos,b>>4); else Set_pixel(context, x_pos,y_pos,b&0xF); x_pos++; } else // Absolute mode switch (b) { case 0 : //End of line x_pos=0; y_pos--; break; case 1 : // End of bitmap break; case 2 : // Delta if(Read_byte(file, &a)!=1 || Read_byte(file, &b)!=1) File_error=2; x_pos+=a; y_pos-=b; break; default: // Nouvelle série (B 1/2 pixels bruts) for (index=1; ((index<=b) && (!File_error)); index++,x_pos++) { if (index&1) { if(Read_byte(file, &c)!=1) File_error=2; Set_pixel(context, x_pos,y_pos,c>>4); } else Set_pixel(context, x_pos,y_pos,c&0xF); } // On lit l'octet rendant le nombre d'octets pair, si // nécessaire. Encore un truc de crétin "made in MS". if ( ((b&3)==1) || ((b&3)==2) ) { byte dummy; if(Read_byte(file, &dummy)!=1) File_error=2; } } if(Read_byte(file, &a)!=1 || Read_byte(file, &b)!=1) File_error=2; } break; default: Warning("Unknown compression type"); } } // -- Charger un fichier au format BMP -------------------------------------- void Load_BMP(T_IO_Context * context) { FILE *file; T_BMP_Header header; word nb_colors = 0; long file_size; byte negative_height; // top_down byte true_color = 0; dword mask[3]; // R G B File_error=0; if ((file=Open_file_read(context))) { file_size=File_length_file(file); if (!(Read_bytes(file,header.Signature,2) && Read_dword_le(file,&(header.Size_1)) && Read_word_le(file,&(header.Reserved_1)) && Read_word_le(file,&(header.Reserved_2)) && Read_dword_le(file,&(header.Offset)) && Read_dword_le(file,&(header.Size_2)) )) { File_error = 1; } else { if (header.Size_2 == 40 /* WINDOWS */) { if (!(Read_dword_le(file,&(header.Width)) && Read_dword_le(file,(dword *)&(header.Height)) && Read_word_le(file,&(header.Planes)) && Read_word_le(file,&(header.Nb_bits)) && Read_dword_le(file,&(header.Compression)) && Read_dword_le(file,&(header.Size_3)) && Read_dword_le(file,&(header.XPM)) && Read_dword_le(file,&(header.YPM)) && Read_dword_le(file,&(header.Nb_Clr)) && Read_dword_le(file,&(header.Clr_Imprt)) )) File_error = 1; } else if (header.Size_2 == 12 /* OS/2 */) { word tmp_width = 0, tmp_height = 0; if (Read_word_le(file,&tmp_width) && Read_word_le(file,&tmp_height) && Read_word_le(file,&(header.Planes)) && Read_word_le(file,&(header.Nb_bits))) { header.Width = tmp_width; header.Height = tmp_height; header.Compression = 0; header.Size_3 = 0; header.XPM = 0; header.YPM = 0; header.Nb_Clr = 0; header.Clr_Imprt = 0; } else File_error = 1; } else { Warning("Unknown BMP type"); File_error = 2; } } if (File_error == 0) { switch (header.Nb_bits) { case 1 : case 2 : case 4 : case 8 : if (header.Nb_Clr) nb_colors=header.Nb_Clr; else nb_colors=1<Width; if (line_size & 3) line_size += (4 - (line_size & 3)); header.Signature[0] = 'B'; header.Signature[1] = 'M'; header.Size_1 =(line_size*context->Height)+1078; header.Reserved_1 =0; header.Reserved_2 =0; header.Offset =1078; // Size of header data (including palette) header.Size_2 =40; // Size of header header.Width =context->Width; header.Height =context->Height; header.Planes =1; header.Nb_bits =8; header.Compression=0; header.Size_3 =0; header.XPM =0; header.YPM =0; header.Nb_Clr =0; header.Clr_Imprt =0; if (Write_bytes(file,header.Signature,2) && Write_dword_le(file,header.Size_1) && Write_word_le(file,header.Reserved_1) && Write_word_le(file,header.Reserved_2) && Write_dword_le(file,header.Offset) && Write_dword_le(file,header.Size_2) && Write_dword_le(file,header.Width) && Write_dword_le(file,header.Height) && Write_word_le(file,header.Planes) && Write_word_le(file,header.Nb_bits) && Write_dword_le(file,header.Compression) && Write_dword_le(file,header.Size_3) && Write_dword_le(file,header.XPM) && Write_dword_le(file,header.YPM) && Write_dword_le(file,header.Nb_Clr) && Write_dword_le(file,header.Clr_Imprt)) { // Chez Bill, ils ont dit: "On va mettre les couleur dans l'ordre // inverse, et pour faire chier, on va les mettre sur une échelle de // 0 à 255 parce que le standard VGA c'est de 0 à 63 (logique!). Et // puis comme c'est pas assez débile, on va aussi y rajouter un octet // toujours à 0 pour forcer les gens à s'acheter des gros disques // durs... Comme ça, ça fera passer la pillule lorsqu'on sortira // Windows 95." ... for (index=0; index<256; index++) { local_palette[index][0]=context->Palette[index].B; local_palette[index][1]=context->Palette[index].G; local_palette[index][2]=context->Palette[index].R; local_palette[index][3]=0; } if (Write_bytes(file,local_palette,1024)) { // ... Et Bill, il a dit: "OK les gars! Mais seulement si vous rangez // les pixels dans l'ordre inverse, mais que sur les Y quand-même // parce que faut pas pousser." for (y_pos=context->Height-1; ((y_pos>=0) && (!File_error)); y_pos--) for (x_pos=0; x_pos 0) File_error=0; } } void Load_ICO(T_IO_Context * context) { FILE *file; struct { word Reserved; word Type; // Specifies image type: 1 for icon (.ICO) image, 2 for cursor (.CUR) image. Other values are invalid. word Count; // Specifies number of images in the file. } header; T_ICO_ImageEntry * images; T_ICO_ImageEntry * entry; unsigned int i; word width, max_width = 0; word max_bpp = 0; word min_bpp = 0xffff; dword mask[3]; // R G B File_error=0; if ((file=Open_file_read(context))) { if (Read_word_le(file,&(header.Reserved)) && Read_word_le(file,&(header.Type)) && Read_word_le(file,&(header.Count))) { images = malloc(sizeof(T_ICO_ImageEntry) * header.Count); if (images == NULL) { fclose(file); File_error=1; return; } for (i = 0; i < header.Count; i++) { entry = images + i; if (!Read_byte(file,&entry->width) || !Read_byte(file,&entry->height) || !Read_byte(file,&entry->ncolors) || !Read_byte(file,&entry->reserved) || !Read_word_le(file,&entry->planes) || !Read_word_le(file,&entry->bpp) || !Read_dword_le(file,&entry->bytecount) || !Read_dword_le(file,&entry->offset)) { free(images); fclose(file); File_error=1; return; } width = entry->width; if (width == 0) width = 256; if (width > max_width) max_width = width; } // select the picture with the maximum width and 256 colors or less //printf("max width = %d\n", max_width); for (i = 0; i < header.Count; i++) { if (images[i].width == (max_width & 0xff)) { if (header.Type == 2) // .CUR files have hotspot instead of planes/bpp in header break; if (images[i].bpp == 8) break; if (images[i].bpp < 8 && images[i].bpp > max_bpp) max_bpp = images[i].bpp; if (images[i].bpp < min_bpp) min_bpp = images[i].bpp; } } if (i >= header.Count && header.Type == 1) { // 256 color not found, select another one for (i = 0; i < header.Count; i++) { if (images[i].width == (max_width & 0xff)) { if ((max_bpp != 0 && images[i].bpp == max_bpp) || (images[i].bpp == min_bpp)) { break; } } } } if (i >= header.Count) { File_error=2; } else { byte png_header[8]; entry = images + i; fseek(file, entry->offset, SEEK_SET); // detect PNG icons // Load header (8 first bytes) if (!Read_bytes(file,png_header,8)) { File_error = 1; } else { // Do we recognize a png file signature ? #ifndef __no_pnglib__ if (png_sig_cmp(png_header, 0, 8) == 0) { Load_PNG_Sub(context, file); } #else if (0 == memcmp(png_header, "\x89PNG", 4)) { // NO PNG Support Warning("PNG Signature : Compiled without libpng support"); File_error = 2; } #endif else { T_BMP_Header bmpheader; fseek(file, -8, SEEK_CUR); // back // BMP if (Read_dword_le(file,&(bmpheader.Size_2)) // 40 && Read_dword_le(file,&(bmpheader.Width)) && Read_dword_le(file,(dword *)&(bmpheader.Height)) && Read_word_le(file,&(bmpheader.Planes)) && Read_word_le(file,&(bmpheader.Nb_bits)) && Read_dword_le(file,&(bmpheader.Compression)) && Read_dword_le(file,&(bmpheader.Size_3)) && Read_dword_le(file,&(bmpheader.XPM)) && Read_dword_le(file,&(bmpheader.YPM)) && Read_dword_le(file,&(bmpheader.Nb_Clr)) && Read_dword_le(file,&(bmpheader.Clr_Imprt)) ) { short real_height; word nb_colors = 0; if (bmpheader.Nb_Clr != 0) nb_colors=bmpheader.Nb_Clr; else nb_colors=1<height if (real_height != entry->height) { Warning("Load_ICO() : real_height != entry->height"); } // Image 16/24/32 bits if (bmpheader.Nb_bits == 16) { mask[0] = 0x00007C00; mask[1] = 0x000003E0; mask[2] = 0x0000001F; } else { mask[0] = 0x00FF0000; mask[1] = 0x0000FF00; mask[2] = 0x000000FF; } Pre_load(context, bmpheader.Width,real_height,File_length_file(file),FORMAT_ICO,PIXEL_SIMPLE,bmpheader.Nb_bits); if (bmpheader.Nb_bits <= 8) Load_BMP_Palette(context, file, nb_colors, 0); else { if (bmpheader.Compression == 3) // BI_BITFIELDS { if (!Read_dword_le(file,&mask[0]) || !Read_dword_le(file,&mask[1]) || !Read_dword_le(file,&mask[2])) File_error=2; } } if (File_error == 0) { Load_BMP_Pixels(context, file, bmpheader.Compression, bmpheader.Nb_bits, (bmpheader.Height < 0) ? LOAD_BMP_PIXEL_FLAG_TOP_DOWN : 0, mask); // load transparency // TODO : load transparency for True color images too if (bmpheader.Nb_bits <= 8) { context->Transparent_color = 0xff; // TODO : pick an unused color if possible context->Background_transparent = 1; Load_BMP_Pixels(context, file, bmpheader.Compression, 1, (bmpheader.Height < 0) ? (LOAD_BMP_PIXEL_FLAG_TOP_DOWN|LOAD_BMP_PIXEL_FLAG_TRANSP_PLANE) : LOAD_BMP_PIXEL_FLAG_TRANSP_PLANE, mask); } } } } } } free(images); } fclose(file); } else { File_error=1; } } void Save_ICO(T_IO_Context * context) { FILE *file; short x_pos; short y_pos; long row_size; long row_size_mask; if (context->Width > 256 || context->Height > 256) { File_error=1; Warning(".ICO files can handle images up to 256x256"); return; } File_error=0; if ((file=Open_file_write(context)) == NULL) File_error=1; else { row_size = (context->Width + 3) & ~3; // 8bpp (=1Byte) rounded up to dword row_size_mask = (((context->Width + 7) >> 3) + 3) & ~3; // 1bpp rounded up to dword // ICO Header if (!(Write_word_le(file,0) && // 0 Write_word_le(file,1) && // TYPE 1 = .ICO (2=.CUR) Write_word_le(file,1))) // Image count File_error=1; if (File_error == 0) { T_ICO_ImageEntry entry; // ICO image entry entry.width = context->Width & 0xff; //Specifies image width in pixels. Value 0 means image width is 256 pixels. entry.height = context->Height & 0xff;//Specifies image height in pixels. Value 0 means image height is 256 pixels. entry.ncolors = 0; entry.reserved = 0; entry.planes = 1; entry.bpp = 8; entry.bytecount = (row_size + row_size_mask) * context->Height + 40 + 1024; entry.offset = 6 + 16; if (!(Write_byte(file,entry.width) && Write_byte(file,entry.height) && Write_byte(file,entry.ncolors) && Write_byte(file,entry.reserved) && Write_word_le(file,entry.planes) && Write_word_le(file,entry.bpp) && Write_dword_le(file,entry.bytecount) && Write_dword_le(file,entry.offset))) File_error=1; } if (File_error == 0) { T_BMP_Header bmpheader; // BMP Header bmpheader.Size_2 = 40; bmpheader.Width = context->Width; bmpheader.Height = context->Height * 2; // *2 because of mask (transparency) data added after the pixel data bmpheader.Planes = 1; bmpheader.Nb_bits = 8; bmpheader.Compression = 0; bmpheader.Size_3 = 0; bmpheader.XPM = 0; bmpheader.YPM = 0; bmpheader.Nb_Clr = 0; bmpheader.Clr_Imprt = 0; if (!(Write_dword_le(file,bmpheader.Size_2) // 40 && Write_dword_le(file,bmpheader.Width) && Write_dword_le(file,bmpheader.Height) && Write_word_le(file,bmpheader.Planes) && Write_word_le(file,bmpheader.Nb_bits) && Write_dword_le(file,bmpheader.Compression) && Write_dword_le(file,bmpheader.Size_3) && Write_dword_le(file,bmpheader.XPM) && Write_dword_le(file,bmpheader.YPM) && Write_dword_le(file,bmpheader.Nb_Clr) && Write_dword_le(file,bmpheader.Clr_Imprt)) ) File_error=1; } if (File_error == 0) { int i; // palette for (i = 0; i < 256; i++) { if (!Write_dword_le(file, context->Palette[i].R << 16 | context->Palette[i].G << 8 | context->Palette[i].B)) { File_error=1; break; } } } if (File_error == 0) { // Image Data for (y_pos=context->Height-1; ((y_pos>=0) && (!File_error)); y_pos--) for (x_pos=0; x_posHeight-1; ((y_pos>=0) && (!File_error)); y_pos--) for (x_pos=0; x_posBackground_transparent && Get_pixel(context, x_pos,y_pos) == context->Transparent_color) value |= 1; // 1 = Transparent pixel if ((x_pos & 7) == 7) { Write_one_byte(file,value); } } } fclose(file); if (File_error != 0) Remove_file(context); } } //////////////////////////////////// GIF //////////////////////////////////// typedef struct { word Width; // Width of the complete image area word Height; // Height of the complete image area byte Resol; // Informations about the resolution (and other) byte Backcol; // Proposed background color byte Aspect; // Informations about aspect ratio (and other) } T_GIF_LSDB; // Logical Screen Descriptor Block typedef struct { word Pos_X; // X offset where the image should be pasted word Pos_Y; // Y offset where the image should be pasted word Image_width; // Width of image word Image_height; // Height of image byte Indicator; // Misc image information byte Nb_bits_pixel; // Nb de bits par pixel } T_GIF_IDB; // Image Descriptor Block typedef struct { byte Block_identifier; // 0x21 byte Function; // 0xF9 byte Block_size; // 4 byte Packed_fields; // 11100000 : Reserved // 00011100 : Disposal method // 00000010 : User input flag // 00000001 : Transparent flag word Delay_time; // Time for this frame to stay displayed byte Transparent_color; // Which color index acts as transparent word Block_terminator; // 0x00 } T_GIF_GCE; // Graphic Control Extension enum DISPOSAL_METHOD { DISPOSAL_METHOD_UNDEFINED = 0, DISPOSAL_METHOD_DO_NOT_DISPOSE = 1, DISPOSAL_METHOD_RESTORE_BGCOLOR = 2, DISPOSAL_METHOD_RESTORE_PREVIOUS = 3, }; // -- Tester si un fichier est au format GIF -------------------------------- void Test_GIF(T_IO_Context * context, FILE * file) { char signature[6]; (void)context; File_error=1; if (Read_bytes(file,signature,6)) { if ((!memcmp(signature,"GIF87a",6))||(!memcmp(signature,"GIF89a",6))) File_error=0; } } // -- Lire un fichier au format GIF ----------------------------------------- // Définition de quelques variables globales au chargement du GIF87a word GIF_nb_bits; // Nb de bits composants un code complet word GIF_remainder_bits; // Nb de bits encore dispos dans GIF_last_byte byte GIF_remainder_byte; // Nb d'octets avant le prochain bloc de Raster Data word GIF_current_code; // Code traité (qui vient d'être lu en général) byte GIF_last_byte; // Octet de lecture des bits word GIF_pos_X; // Coordonnées d'affichage de l'image word GIF_pos_Y; word GIF_interlaced; // L'image est entrelacée word GIF_finished_interlaced_image; // L'image entrelacée est finie de charger word GIF_pass; // index de passe de l'image entrelacée FILE *GIF_file; // L'handle du fichier // -- Lit le code à GIF_nb_bits suivant -- word GIF_get_next_code(void) { word nb_bits_to_process=GIF_nb_bits; word nb_bits_processed =0; word current_nb_bits; GIF_current_code=0; while (nb_bits_to_process) { if (GIF_remainder_bits==0) // Il ne reste plus de bits... { // Lire l'octet suivant: // Si on a atteint la fin du bloc de Raster Data if (GIF_remainder_byte==0) // Lire l'octet nous donnant la taille du bloc de Raster Data suivant if(Read_byte(GIF_file, &GIF_remainder_byte)!=1) File_error=2; if(Read_byte(GIF_file,&GIF_last_byte)!=1) File_error = 2; GIF_remainder_byte--; GIF_remainder_bits=8; } current_nb_bits=(nb_bits_to_process<=GIF_remainder_bits)?nb_bits_to_process:GIF_remainder_bits; GIF_current_code|=(GIF_last_byte & ((1<>=current_nb_bits; nb_bits_processed +=current_nb_bits; nb_bits_to_process-=current_nb_bits; GIF_remainder_bits -=current_nb_bits; } return GIF_current_code; } // -- Affiche un nouveau pixel -- void GIF_new_pixel(T_IO_Context * context, T_GIF_IDB *idb, int is_transparent, byte color) { if (!is_transparent || color!=context->Transparent_color) Set_pixel(context, idb->Pos_X+GIF_pos_X, idb->Pos_Y+GIF_pos_Y,color); GIF_pos_X++; if (GIF_pos_X>=idb->Image_width) { GIF_pos_X=0; if (!GIF_interlaced) GIF_pos_Y++; else { switch (GIF_pass) { case 0 : GIF_pos_Y+=8; break; case 1 : GIF_pos_Y+=8; break; case 2 : GIF_pos_Y+=4; break; default: GIF_pos_Y+=2; } if (GIF_pos_Y>=idb->Image_height) { switch(++GIF_pass) { case 1 : GIF_pos_Y=4; break; case 2 : GIF_pos_Y=2; break; case 3 : GIF_pos_Y=1; break; case 4 : GIF_finished_interlaced_image=1; } } } } } void Load_GIF(T_IO_Context * context) { char signature[6]; word * alphabet_stack; // Pile de décodage d'une chaîne word * alphabet_prefix; // Table des préfixes des codes word * alphabet_suffix; // Table des suffixes des codes word alphabet_free; // Position libre dans l'alphabet word alphabet_max; // Nombre d'entrées possibles dans l'alphabet word alphabet_stack_pos; // Position dans la pile de décodage d'un chaîne T_GIF_LSDB LSDB; T_GIF_IDB IDB; T_GIF_GCE GCE; word nb_colors; // Nombre de couleurs dans l'image word color_index; // index de traitement d'une couleur byte size_to_read; // Nombre de données à lire (divers) byte block_identifier; // Code indicateur du type de bloc en cours byte initial_nb_bits; // Nb de bits au début du traitement LZW word special_case=0; // Mémoire pour le cas spécial word old_code=0; // Code précédent word byte_read; // Sauvegarde du code en cours de lecture word value_clr; // Valeur <=> Clear tables word value_eof; // Valeur <=> End d'image long file_size; int number_LID; // Nombre d'images trouvées dans le fichier int current_layer = 0; int last_delay = 0; byte is_transparent = 0; byte is_looping=0; enum PIXEL_RATIO ratio; byte disposal_method = DISPOSAL_METHOD_RESTORE_BGCOLOR; byte previous_disposal_method = DISPOSAL_METHOD_RESTORE_BGCOLOR; word previous_width=0; word previous_height=0; word previous_pos_x=0; word previous_pos_y=0; /////////////////////////////////////////////////// FIN DES DECLARATIONS // number_LID=0; if ((GIF_file=Open_file_read(context))) { file_size=File_length_file(GIF_file); if ( (Read_bytes(GIF_file,signature,6)) && ( (memcmp(signature,"GIF87a",6)==0) || (memcmp(signature,"GIF89a",6)==0) ) ) { // Allocation de mémoire pour les tables & piles de traitement: alphabet_stack =(word *)malloc(4096*sizeof(word)); alphabet_prefix=(word *)malloc(4096*sizeof(word)); alphabet_suffix=(word *)malloc(4096*sizeof(word)); if (Read_word_le(GIF_file,&(LSDB.Width)) && Read_word_le(GIF_file,&(LSDB.Height)) && Read_byte(GIF_file,&(LSDB.Resol)) && Read_byte(GIF_file,&(LSDB.Backcol)) && Read_byte(GIF_file,&(LSDB.Aspect)) ) { // Lecture du Logical Screen Descriptor Block réussie: Original_screen_X=LSDB.Width; Original_screen_Y=LSDB.Height; if (LSDB.Aspect==17) ratio=PIXEL_TALL; else if (LSDB.Aspect==113) ratio=PIXEL_WIDE; else ratio=PIXEL_SIMPLE; Pre_load(context, LSDB.Width,LSDB.Height,file_size,FORMAT_GIF,ratio,(LSDB.Resol&7)+1); context->Width=LSDB.Width; context->Height=LSDB.Height; // Palette globale dispo = (LSDB.Resol and $80) // Profondeur de couleur =((LSDB.Resol and $70) shr 4)+1 // Nombre de bits/pixel = (LSDB.Resol and $07)+1 // Ordre de Classement = (LSDB.Aspect and $80) nb_colors=(1 << ((LSDB.Resol & 0x07)+1)); if (LSDB.Resol & 0x80) { // Palette globale dispo: if (Config.Clear_palette) memset(context->Palette,0,sizeof(T_Palette)); // Load the palette for(color_index=0;color_indexPalette[color_index].R)); Read_byte(GIF_file,&(context->Palette[color_index].G)); Read_byte(GIF_file,&(context->Palette[color_index].B)); } } // On lit un indicateur de block Read_byte(GIF_file,&block_identifier); while (block_identifier!=0x3B && !File_error) { switch (block_identifier) { case 0x21: // Bloc d'extension { byte function_code; // Lecture du code de fonction: Read_byte(GIF_file,&function_code); // Lecture de la taille du bloc: Read_byte(GIF_file,&size_to_read); while (size_to_read!=0 && !File_error) { switch(function_code) { case 0xFE: // Comment Block Extension // On récupère le premier commentaire non-vide, // on jette les autres. if (context->Comment[0]=='\0') { int nb_char_to_keep=Min(size_to_read,COMMENT_SIZE); Read_bytes(GIF_file,context->Comment,nb_char_to_keep); context->Comment[nb_char_to_keep+1]='\0'; // Si le commentaire etait trop long, on fait avance-rapide // sur la suite. if (size_to_read>nb_char_to_keep) fseek(GIF_file,size_to_read-nb_char_to_keep,SEEK_CUR); } // Lecture de la taille du bloc suivant: Read_byte(GIF_file,&size_to_read); break; case 0xF9: // Graphics Control Extension // Prévu pour la transparence if ( Read_byte(GIF_file,&(GCE.Packed_fields)) && Read_word_le(GIF_file,&(GCE.Delay_time)) && Read_byte(GIF_file,&(GCE.Transparent_color))) { previous_disposal_method = disposal_method; disposal_method = (GCE.Packed_fields >> 2) & 7; last_delay = GCE.Delay_time; context->Transparent_color= GCE.Transparent_color; is_transparent = GCE.Packed_fields & 1; if (number_LID == 0) context->Background_transparent = is_transparent; is_transparent &= is_looping; } else File_error=2; // Lecture de la taille du bloc suivant: Read_byte(GIF_file,&size_to_read); break; case 0xFF: // Application Extension // Normally, always a 11-byte block if (size_to_read == 0x0B) { char aeb[0x0B]; Read_bytes(GIF_file,aeb, 0x0B); if (File_error) ; else if (!memcmp(aeb,"NETSCAPE2.0",0x0B)) { is_looping=1; // The well-known Netscape extension. // Load as an animation if (context->Type == CONTEXT_MAIN_IMAGE) { Main.backups->Pages->Image_mode = IMAGE_MODE_ANIMATION; Update_screen_targets(); } // Skip sub-block do { if (! Read_byte(GIF_file,&size_to_read)) File_error=1; fseek(GIF_file,size_to_read,SEEK_CUR); } while (!File_error && size_to_read!=0); } else if (!memcmp(aeb,"GFX2PATH\x00\x00\x00",0x0B)) { // Original file path if (context->Original_file_name && context->Original_file_directory) { Read_byte(GIF_file,&size_to_read); if (!File_error && size_to_read) { Read_bytes(GIF_file,context->Original_file_directory, size_to_read); Read_byte(GIF_file,&size_to_read); if (!File_error && size_to_read) { Read_bytes(GIF_file,context->Original_file_name, size_to_read); Read_byte(GIF_file,&size_to_read); // Normally 0 } } } else { // Nothing to do, just skip sub-block Read_byte(GIF_file,&size_to_read); while (size_to_read!=0 && !File_error) { fseek(GIF_file,size_to_read,SEEK_CUR); Read_byte(GIF_file,&size_to_read); } } } else if (!memcmp(aeb,"CRNG\0\0\0\0" "1.0",0x0B)) { // Color animation. Similar to a CRNG chunk in IFF file format. word rate; word flags; byte min_col; byte max_col; // Read_byte(GIF_file,&size_to_read); for(;size_to_read>0 && !File_error;size_to_read-=6) { if ( (Read_word_be(GIF_file,&rate)) && (Read_word_be(GIF_file,&flags)) && (Read_byte(GIF_file,&min_col)) && (Read_byte(GIF_file,&max_col))) { if (min_col != max_col) { // Valid cycling range if (max_colCycle_range[context->Color_cycles].Start=min_col; context->Cycle_range[context->Color_cycles].End=max_col; context->Cycle_range[context->Color_cycles].Inverse=(flags&2)?1:0; context->Cycle_range[context->Color_cycles].Speed=(flags&1)?rate/78:0; context->Color_cycles++; } } else { File_error=1; } } // Read end-of-block delimiter if (!File_error) Read_byte(GIF_file,&size_to_read); if (size_to_read!=0) File_error=1; } else { // Unknown extension, skip. Read_byte(GIF_file,&size_to_read); while (size_to_read!=0 && !File_error) { fseek(GIF_file,size_to_read,SEEK_CUR); Read_byte(GIF_file,&size_to_read); } } } else { fseek(GIF_file,size_to_read,SEEK_CUR); // Lecture de la taille du bloc suivant: Read_byte(GIF_file,&size_to_read); } break; default: // On saute le bloc: fseek(GIF_file,size_to_read,SEEK_CUR); // Lecture de la taille du bloc suivant: Read_byte(GIF_file,&size_to_read); break; } } } break; case 0x2C: // Local Image Descriptor { if (number_LID!=0) { // This a second layer/frame, or more. // Attempt to add a layer to current image current_layer++; Set_loading_layer(context, current_layer); if (context->Type == CONTEXT_MAIN_IMAGE && Main.backups->Pages->Image_mode == IMAGE_MODE_ANIMATION) { // Copy the content of previous layer. memcpy( Main.backups->Pages->Image[Main.current_layer].Pixels, Main.backups->Pages->Image[Main.current_layer-1].Pixels, Main.backups->Pages->Width*Main.backups->Pages->Height); } else { Fill_canvas(context, is_transparent ? context->Transparent_color : LSDB.Backcol); } } else { // First frame/layer, fill canvas with backcolor Fill_canvas(context, is_transparent ? context->Transparent_color : LSDB.Backcol); } // Duration was set in the previously loaded GCE Set_frame_duration(context, last_delay*10); number_LID++; // lecture de 10 derniers octets if ( Read_word_le(GIF_file,&(IDB.Pos_X)) && Read_word_le(GIF_file,&(IDB.Pos_Y)) && Read_word_le(GIF_file,&(IDB.Image_width)) && Read_word_le(GIF_file,&(IDB.Image_height)) && Read_byte(GIF_file,&(IDB.Indicator)) && IDB.Image_width && IDB.Image_height) { // Palette locale dispo = (IDB.Indicator and $80) // Image entrelacée = (IDB.Indicator and $40) // Ordre de classement = (IDB.Indicator and $20) // Nombre de bits/pixel = (IDB.Indicator and $07)+1 (si palette locale dispo) if (IDB.Indicator & 0x80) { // Palette locale dispo if (Config.Clear_palette) memset(context->Palette,0,sizeof(T_Palette)); nb_colors=(1 << ((IDB.Indicator & 0x07)+1)); // Load the palette for(color_index=0;color_indexPalette[color_index].R)); Read_byte(GIF_file,&(context->Palette[color_index].G)); Read_byte(GIF_file,&(context->Palette[color_index].B)); } } if (number_LID!=1) { // This a second layer/frame, or more. if (context->Type == CONTEXT_MAIN_IMAGE && Main.backups->Pages->Image_mode == IMAGE_MODE_ANIMATION) { // Need to clear previous image to back-color. if (previous_disposal_method==DISPOSAL_METHOD_RESTORE_BGCOLOR) { int y; for (y=0; yPages->Image[Main.current_layer].Pixels + (previous_pos_y+y)* Main.backups->Pages->Width+previous_pos_x, is_transparent ? context->Transparent_color : LSDB.Backcol, previous_width); } } } previous_height=IDB.Image_height; previous_width=IDB.Image_width; previous_pos_x=IDB.Pos_X; previous_pos_y=IDB.Pos_Y; File_error=0; if (!Read_byte(GIF_file,&(initial_nb_bits))) File_error=1; value_clr =(1<value_clr) { alphabet_stack[alphabet_stack_pos++]=alphabet_suffix[GIF_current_code]; GIF_current_code=alphabet_prefix[GIF_current_code]; } special_case=alphabet_stack[alphabet_stack_pos++]=GIF_current_code; do GIF_new_pixel(context, &IDB, is_transparent, alphabet_stack[--alphabet_stack_pos]); while (alphabet_stack_pos!=0); alphabet_prefix[alphabet_free ]=old_code; alphabet_suffix[alphabet_free++]=GIF_current_code; old_code=byte_read; if (alphabet_free>alphabet_max) { if (GIF_nb_bits<12) alphabet_max =((1 << (++GIF_nb_bits))-1); } } else // Code Clear rencontré { GIF_nb_bits =initial_nb_bits + 1; alphabet_max =((1 << GIF_nb_bits)-1); alphabet_free =(1<=0) if ( /* (GIF_pos_X!=0) || */ ( ( (!GIF_interlaced) && (GIF_pos_Y!=IDB.Image_height) && (GIF_pos_X!=0)) || ( (GIF_interlaced) && (!GIF_finished_interlaced_image) ) ) ) File_error=2; // No need to read more than one frame in animation preview mode if (context->Type == CONTEXT_PREVIEW && is_looping) { goto early_exit; } // Same with brush if (context->Type == CONTEXT_BRUSH && is_looping) { goto early_exit; } } // Le fichier contenait un IDB else File_error=2; } default: break; } // Lecture du code de fonction suivant: if (!Read_byte(GIF_file,&block_identifier)) File_error=2; } } // Le fichier contenait un LSDB else File_error=1; early_exit: // Libération de la mémoire utilisée par les tables & piles de traitement: free(alphabet_suffix); free(alphabet_prefix); free(alphabet_stack); alphabet_suffix = alphabet_prefix = alphabet_stack = NULL; } // Le fichier contenait au moins la signature GIF87a ou GIF89a else File_error=1; fclose(GIF_file); } // Le fichier était ouvrable else File_error=1; } // -- Sauver un fichier au format GIF --------------------------------------- int GIF_stop; // "On peut arrêter la sauvegarde du fichier" byte GIF_buffer[256]; // buffer d'écriture de bloc de données compilées // -- Vider le buffer GIF dans le buffer KM -- void GIF_empty_buffer(void) { word index; if (GIF_remainder_byte) { GIF_buffer[0]=GIF_remainder_byte; for (index=0;index<=GIF_remainder_byte;index++) Write_one_byte(GIF_file,GIF_buffer[index]); GIF_remainder_byte=0; } } // -- Ecrit un code à GIF_nb_bits -- void GIF_set_code(word Code) { word nb_bits_to_process=GIF_nb_bits; word nb_bits_processed =0; word current_nb_bits; while (nb_bits_to_process) { current_nb_bits=(nb_bits_to_process<=(8-GIF_remainder_bits))?nb_bits_to_process:(8-GIF_remainder_bits); GIF_last_byte|=(Code & ((1<>=current_nb_bits; GIF_remainder_bits +=current_nb_bits; nb_bits_processed +=current_nb_bits; nb_bits_to_process-=current_nb_bits; if (GIF_remainder_bits==8) // Il ne reste plus de bits à coder sur l'octet courant { // Ecrire l'octet à balancer: GIF_buffer[++GIF_remainder_byte]=GIF_last_byte; // Si on a atteint la fin du bloc de Raster Data if (GIF_remainder_byte==255) // On doit vider le buffer qui est maintenant plein GIF_empty_buffer(); GIF_last_byte=0; GIF_remainder_bits=0; } } } // -- Lire le pixel suivant -- byte GIF_next_pixel(T_IO_Context *context, T_GIF_IDB *idb) { byte temp; temp=Get_pixel(context, GIF_pos_X,GIF_pos_Y); if (++GIF_pos_X >= (idb->Image_width + idb->Pos_X)) { GIF_pos_X = idb->Pos_X; if (++GIF_pos_Y >= (idb->Image_height + idb->Pos_Y)) GIF_stop=1; } return temp; } void Save_GIF(T_IO_Context * context) { word * alphabet_prefix; // Table des préfixes des codes word * alphabet_suffix; // Table des suffixes des codes word * alphabet_daughter; // Table des chaînes filles (plus longues) word * alphabet_sister; // Table des chaînes soeurs (même longueur) word alphabet_free; // Position libre dans l'alphabet word alphabet_max; // Nombre d'entrées possibles dans l'alphabet word start; // Code précédent (sert au linkage des chaînes) int descend; // Booléen "On vient de descendre" T_GIF_LSDB LSDB; T_GIF_IDB IDB; byte block_identifier; // Code indicateur du type de bloc en cours word current_string; // Code de la chaîne en cours de traitement byte current_char; // Caractère à coder word index; // index de recherche de chaîne int current_layer; word clear; // LZW clear code word eof; // End of image code /////////////////////////////////////////////////// FIN DES DECLARATIONS // File_error=0; if ((GIF_file=Open_file_write(context))) { setvbuf(GIF_file, NULL, _IOFBF, 64*1024); // On écrit la signature du fichier if (Write_bytes(GIF_file,"GIF89a",6)) { // La signature du fichier a été correctement écrite. // Allocation de mémoire pour les tables alphabet_prefix=(word *)malloc(4096*sizeof(word)); alphabet_suffix=(word *)malloc(4096*sizeof(word)); alphabet_daughter =(word *)malloc(4096*sizeof(word)); alphabet_sister =(word *)malloc(4096*sizeof(word)); // On initialise le LSDB du fichier if (Config.Screen_size_in_GIF) { LSDB.Width=Screen_width; LSDB.Height=Screen_height; } else { LSDB.Width=context->Width; LSDB.Height=context->Height; } LSDB.Resol = 0xF7; // Global palette of 256 entries, 256 color image // 0xF7 = 1111 0111 // = Global Color Table Flag 1 Bit // Color Resolution 3 Bits // Sort Flag 1 Bit // Size of Global Color Table 3 Bits LSDB.Backcol=context->Transparent_color; switch(context->Ratio) { case PIXEL_TALL: LSDB.Aspect = 17; // 1:2 break; case PIXEL_WIDE: LSDB.Aspect = 113; // 2:1 break; default: LSDB.Aspect = 0; // undefined, which is most frequent. // 49 would be 1:1 ratio } // On sauve le LSDB dans le fichier if (Write_word_le(GIF_file,LSDB.Width) && Write_word_le(GIF_file,LSDB.Height) && Write_byte(GIF_file,LSDB.Resol) && Write_byte(GIF_file,LSDB.Backcol) && Write_byte(GIF_file,LSDB.Aspect) ) { // Le LSDB a été correctement écrit. int i; // On sauve la palette for(i=0;i<256 && !File_error;i++) { if (!Write_byte(GIF_file,context->Palette[i].R) ||!Write_byte(GIF_file,context->Palette[i].G) ||!Write_byte(GIF_file,context->Palette[i].B)) File_error=1; } if (!File_error) { // La palette a été correctement écrite. // Ecriture de la transparence //Write_bytes(GIF_file,"\x21\xF9\x04\x01\x00\x00\xNN\x00",8); // "Netscape" animation extension // Write_bytes(GIF_file,"\x21\xFF\x0BNETSCAPE2.0\x03\xLL\xSS\xSS\x00",19); // LL : 01 to loop // SSSS : number of loops if (context->Type == CONTEXT_MAIN_IMAGE && Main.backups->Pages->Image_mode == IMAGE_MODE_ANIMATION) if (context->Nb_layers>1) Write_bytes(GIF_file,"\x21\xFF\x0BNETSCAPE2.0\x03\x01\x00\x00\x00",19); // Ecriture du commentaire if (context->Comment[0]) { Write_bytes(GIF_file,"\x21\xFE",2); Write_byte(GIF_file,strlen(context->Comment)); Write_bytes(GIF_file,context->Comment,strlen(context->Comment)+1); } // Write cycling colors if (context->Color_cycles) { int i; Write_bytes(GIF_file,"\x21\xff\x0B" "CRNG\0\0\0\0" "1.0",14); Write_byte(GIF_file,context->Color_cycles*6); for (i=0; iColor_cycles; i++) { word flags=0; flags|= context->Cycle_range[i].Speed?1:0; // Cycling or not flags|= context->Cycle_range[i].Inverse?2:0; // Inverted Write_word_be(GIF_file,context->Cycle_range[i].Speed*78); // Rate Write_word_be(GIF_file,flags); // Flags Write_byte(GIF_file,context->Cycle_range[i].Start); // Min color Write_byte(GIF_file,context->Cycle_range[i].End); // Max color } Write_byte(GIF_file,0); } // Loop on all layers for (current_layer=0; current_layer < context->Nb_layers && !File_error; current_layer++) { // Write a Graphic Control Extension T_GIF_GCE GCE; byte disposal_method; Set_saving_layer(context, current_layer); GCE.Block_identifier = 0x21; GCE.Function = 0xF9; GCE.Block_size=4; if (context->Type == CONTEXT_MAIN_IMAGE && Main.backups->Pages->Image_mode == IMAGE_MODE_ANIMATION) { // Animation frame int duration; if(context->Background_transparent) disposal_method = DISPOSAL_METHOD_RESTORE_BGCOLOR; else disposal_method = DISPOSAL_METHOD_DO_NOT_DISPOSE; GCE.Packed_fields=(disposal_method<<2)|(context->Background_transparent); duration=Get_frame_duration(context)/10; GCE.Delay_time=duration<0xFFFF?duration:0xFFFF; } else { // Layered image or brush disposal_method = DISPOSAL_METHOD_DO_NOT_DISPOSE; if (current_layer==0) GCE.Packed_fields=(disposal_method<<2)|(context->Background_transparent); else GCE.Packed_fields=(disposal_method<<2)|(1); GCE.Delay_time=5; // Duration 5/100s (minimum viable value for current web browsers) if (current_layer == context->Nb_layers -1) GCE.Delay_time=0xFFFF; // Infinity (10 minutes) } GCE.Transparent_color=context->Transparent_color; GCE.Block_terminator=0x00; if (Write_byte(GIF_file,GCE.Block_identifier) && Write_byte(GIF_file,GCE.Function) && Write_byte(GIF_file,GCE.Block_size) && Write_byte(GIF_file,GCE.Packed_fields) && Write_word_le(GIF_file,GCE.Delay_time) && Write_byte(GIF_file,GCE.Transparent_color) && Write_byte(GIF_file,GCE.Block_terminator) ) { byte temp, max = 0; IDB.Pos_X=0; IDB.Pos_Y=0; IDB.Image_width=context->Width; IDB.Image_height=context->Height; if(current_layer > 0) { word min_X, max_X, min_Y, max_Y; // find bounding box of changes for Animated GIFs min_X = min_Y = 0xffff; max_X = max_Y = 0; temp = LSDB.Backcol;//=context->Transparent_color; for(GIF_pos_Y = 0; GIF_pos_Y < context->Height; GIF_pos_Y++) { for(GIF_pos_X = 0; GIF_pos_X < context->Width; GIF_pos_X++) { // compare Pixel from previous layer or from background depending on disposal method if(disposal_method == DISPOSAL_METHOD_DO_NOT_DISPOSE) temp = Main.backups->Pages->Image[current_layer - 1].Pixels[GIF_pos_Y * context->Pitch + GIF_pos_X]; if(temp != Get_pixel(context, GIF_pos_X, GIF_pos_Y)) { if(GIF_pos_X < min_X) min_X = GIF_pos_X; if(GIF_pos_X > max_X) max_X = GIF_pos_X; if(GIF_pos_Y < min_Y) min_Y = GIF_pos_Y; if(GIF_pos_Y > max_Y) max_Y = GIF_pos_Y; } } } if((min_X <= max_X) && (min_Y <= max_Y)) { IDB.Pos_X = min_X; IDB.Pos_Y = min_Y; IDB.Image_width = max_X + 1 - min_X; IDB.Image_height = max_Y + 1 - min_Y; } else { // if no pixel changes, store a 1 pixel image IDB.Image_width = 1; IDB.Image_height = 1; } } // look for the maximum pixel value // to decide how many bit per pixel are needed. for(GIF_pos_Y = IDB.Pos_Y; GIF_pos_Y < IDB.Image_height + IDB.Pos_Y; GIF_pos_Y++) { for(GIF_pos_X = IDB.Pos_X; GIF_pos_X < IDB.Image_width + IDB.Pos_X; GIF_pos_X++) { temp=Get_pixel(context, GIF_pos_X, GIF_pos_Y); if(temp > max) max = temp; } } IDB.Nb_bits_pixel=2; // Find the minimum bpp value to fit all pixels while((int)max >= (1 << IDB.Nb_bits_pixel)) { IDB.Nb_bits_pixel++; } // On va écrire un block indicateur d'IDB et l'IDB du fichier block_identifier=0x2C; IDB.Indicator=0x07; // Image non entrelacée, pas de palette locale. clear = 1 << IDB.Nb_bits_pixel; // Clear Code eof = clear + 1; // End of Picture Code if ( Write_byte(GIF_file,block_identifier) && Write_word_le(GIF_file,IDB.Pos_X) && Write_word_le(GIF_file,IDB.Pos_Y) && Write_word_le(GIF_file,IDB.Image_width) && Write_word_le(GIF_file,IDB.Image_height) && Write_byte(GIF_file,IDB.Indicator) && Write_byte(GIF_file,IDB.Nb_bits_pixel)) { // Le block indicateur d'IDB et l'IDB ont étés correctements // écrits. GIF_pos_X=IDB.Pos_X; GIF_pos_Y=IDB.Pos_Y; GIF_last_byte=0; GIF_remainder_bits=0; GIF_remainder_byte=0; #define GIF_INVALID_CODE (65535) index=GIF_INVALID_CODE; File_error=0; GIF_stop=0; // Réintialisation de la table: alphabet_free=clear + 2; // 258 for 8bpp GIF_nb_bits =IDB.Nb_bits_pixel + 1; // 9 for 8 bpp alphabet_max =clear+clear-1; // 511 for 8bpp GIF_set_code(clear); //256 for 8bpp for (start=0;start<4096;start++) { alphabet_daughter[start] = GIF_INVALID_CODE; alphabet_sister[start] = GIF_INVALID_CODE; } ////////////////////////////////////////////// COMPRESSION LZW // start=current_string=GIF_next_pixel(context, &IDB); descend=1; while ((!GIF_stop) && (!File_error)) { current_char=GIF_next_pixel(context, &IDB); // look for (current_string,current_char) in the alphabet while ( (index != GIF_INVALID_CODE) && ( (current_string!=alphabet_prefix[index]) || (current_char !=alphabet_suffix[index]) ) ) { descend=0; start=index; index=alphabet_sister[index]; } if (index != GIF_INVALID_CODE) { // (current_string,current_char) == (alphabet_prefix,alphabet_suffix)[index] // We have found (current_string,current_char) in the alphabet // at the index position. So go on and prepare for then next character descend=1; start=current_string=index; index=alphabet_daughter[index]; } else { // (current_string,current_char) was not found in the alphabet // so write current_string to the Gif stream GIF_set_code(current_string); if(alphabet_free < 4096) { // link current_string and the new one if (descend) alphabet_daughter[start]=alphabet_free; else alphabet_sister[start]=alphabet_free; // add (current_string,current_char) to the alphabet alphabet_prefix[alphabet_free]=current_string; alphabet_suffix[alphabet_free]=current_char; alphabet_free++; } if (alphabet_free >= 4096) { // clear alphabet GIF_set_code(clear); // 256 for 8bpp alphabet_free=clear+2; // 258 for 8bpp GIF_nb_bits =IDB.Nb_bits_pixel + 1; // 9 for 8bpp alphabet_max =clear+clear-1; // 511 for 8bpp for (start=0;start<4096;start++) { alphabet_daughter[start] = GIF_INVALID_CODE; alphabet_sister[start] = GIF_INVALID_CODE; } } else if (alphabet_free>alphabet_max+1) { // On augmente le nb de bits GIF_nb_bits++; alphabet_max=(1<

// 00 if (context->Original_file_name != NULL && context->Original_file_directory != NULL) { long name_size = 1+strlen(context->Original_file_name); long dir_size = 1+strlen(context->Original_file_directory); if (name_size<256 && dir_size<256) { if (! Write_bytes(GIF_file,"\x21\xFF\x0BGFX2PATH\x00\x00\x00", 14) || ! Write_byte(GIF_file,dir_size) || ! Write_bytes(GIF_file, context->Original_file_directory, dir_size) || ! Write_byte(GIF_file,name_size) || ! Write_bytes(GIF_file, context->Original_file_name, name_size) || ! Write_byte(GIF_file,0)) File_error=1; } } // On écrit un GIF TERMINATOR, exigé par SVGA et SEA. if (! Write_byte(GIF_file,'\x3B')) File_error=1; } } // On a pu écrire la palette else File_error=1; } // On a pu écrire le LSDB else File_error=1; // Libération de la mémoire utilisée par les tables free(alphabet_sister); free(alphabet_daughter); free(alphabet_suffix); free(alphabet_prefix); } // On a pu écrire la signature du fichier else File_error=1; fclose(GIF_file); if (File_error) Remove_file(context); } // On a pu ouvrir le fichier en écriture else File_error=1; } //////////////////////////////////// PCX //////////////////////////////////// typedef struct { byte Manufacturer; // |_ Il font chier ces cons! Ils auraient pu byte Version; // | mettre une vraie signature! byte Compression; // L'image est-elle compressée? byte Depth; // Nombre de bits pour coder un pixel (inutile puisqu'on se sert de Plane) word X_min; // |_ Coin haut-gauche | word Y_min; // | de l'image |_ (Crétin!) word X_max; // |_ Coin bas-droit | word Y_max; // | de l'image | word X_dpi; // |_ Densité de |_ (Presque inutile parce que word Y_dpi; // | l'image | aucun moniteur n'est pareil!) byte Palette_16c[48]; // Palette 16 coul (inutile pour 256c) (débile!) byte Reserved; // Ca me plait ça aussi! byte Plane; // 4 => 16c , 1 => 256c , ... word Bytes_per_plane_line;// Doit toujours être pair word Palette_info; // 1 => color , 2 => Gris (ignoré à partir de la version 4) word Screen_X; // |_ Dimensions de word Screen_Y; // | l'écran d'origine byte Filler[54]; // Ca... J'adore! } T_PCX_Header; T_PCX_Header PCX_header; // -- Tester si un fichier est au format PCX -------------------------------- void Test_PCX(T_IO_Context * context, FILE * file) { (void)context; File_error=0; if (Read_byte(file,&(PCX_header.Manufacturer)) && Read_byte(file,&(PCX_header.Version)) && Read_byte(file,&(PCX_header.Compression)) && Read_byte(file,&(PCX_header.Depth)) && Read_word_le(file,&(PCX_header.X_min)) && Read_word_le(file,&(PCX_header.Y_min)) && Read_word_le(file,&(PCX_header.X_max)) && Read_word_le(file,&(PCX_header.Y_max)) && Read_word_le(file,&(PCX_header.X_dpi)) && Read_word_le(file,&(PCX_header.Y_dpi)) && Read_bytes(file,&(PCX_header.Palette_16c),48) && Read_byte(file,&(PCX_header.Reserved)) && Read_byte(file,&(PCX_header.Plane)) && Read_word_le(file,&(PCX_header.Bytes_per_plane_line)) && Read_word_le(file,&(PCX_header.Palette_info)) && Read_word_le(file,&(PCX_header.Screen_X)) && Read_word_le(file,&(PCX_header.Screen_Y)) && Read_bytes(file,&(PCX_header.Filler),54) ) { // Vu que ce header a une signature de merde et peu significative, il // va falloir que je teste différentes petites valeurs dont je connais // l'intervalle. Grrr! if ( (PCX_header.Manufacturer!=10) || (PCX_header.Compression>1) || ( (PCX_header.Depth!=1) && (PCX_header.Depth!=2) && (PCX_header.Depth!=4) && (PCX_header.Depth!=8) ) || ( (PCX_header.Plane!=1) && (PCX_header.Plane!=2) && (PCX_header.Plane!=4) && (PCX_header.Plane!=8) && (PCX_header.Plane!=3) ) || (PCX_header.X_maxWidth; x_pos++) { color=(buffer[x_pos/reduction]>>((reduction_minus_one-(x_pos%reduction))*depth)) & byte_mask; Set_pixel(context, x_pos,y_pos,color); } } // generate CGA RGBI colors. static void Set_CGA_Color(int i, T_Components * comp) { int intensity = (i & 8) ? 85 : 0; comp->R = ((i & 4) ? 170 : 0) + intensity; if (i == 6) comp->G = 85; // color 6 is brown instead of yellow on IBM CGA display else comp->G = ((i & 2) ? 170 : 0) + intensity; comp->B = ((i & 1) ? 170 : 0) + intensity; } void Load_PCX(T_IO_Context * context) { FILE *file; short line_size; short real_line_size; // width de l'image corrigée short width_read; short x_pos; short y_pos; byte byte1; byte byte2; byte index; dword nb_colors; long file_size; long position; long image_size; byte * buffer; File_error=0; if ((file=Open_file_read(context))) { file_size=File_length_file(file); if (Read_byte(file,&(PCX_header.Manufacturer)) && Read_byte(file,&(PCX_header.Version)) && Read_byte(file,&(PCX_header.Compression)) && Read_byte(file,&(PCX_header.Depth)) && Read_word_le(file,&(PCX_header.X_min)) && Read_word_le(file,&(PCX_header.Y_min)) && Read_word_le(file,&(PCX_header.X_max)) && Read_word_le(file,&(PCX_header.Y_max)) && Read_word_le(file,&(PCX_header.X_dpi)) && Read_word_le(file,&(PCX_header.Y_dpi)) && Read_bytes(file,&(PCX_header.Palette_16c),48) && Read_byte(file,&(PCX_header.Reserved)) && Read_byte(file,&(PCX_header.Plane)) && Read_word_le(file,&(PCX_header.Bytes_per_plane_line)) && Read_word_le(file,&(PCX_header.Palette_info)) && Read_word_le(file,&(PCX_header.Screen_X)) && Read_word_le(file,&(PCX_header.Screen_Y)) && Read_bytes(file,&(PCX_header.Filler),54) ) { context->Width=PCX_header.X_max-PCX_header.X_min+1; context->Height=PCX_header.Y_max-PCX_header.Y_min+1; Original_screen_X=PCX_header.Screen_X; Original_screen_Y=PCX_header.Screen_Y; Pre_load(context, context->Width, context->Height, file_size, FORMAT_PCX, PIXEL_SIMPLE, PCX_header.Plane * PCX_header.Depth); if (!(PCX_header.Plane==3 && PCX_header.Depth==8)) { if (File_error==0) { // On prépare la palette à accueillir les valeurs du fichier PCX if (Config.Clear_palette) memset(context->Palette,0,sizeof(T_Palette)); nb_colors=(dword)(1<Palette,PCX_header.Palette_16c,48); if (nb_colors<=4) { // CGA ! int i; if (PCX_header.Version < 5 // Detect if the palette is usable || (nb_colors == 4 && (PCX_header.Palette_16c[6]&15) == 0 && (PCX_header.Palette_16c[7]&15) == 0 && (PCX_header.Palette_16c[8]&15) == 0 && (PCX_header.Palette_16c[9]&15) == 0 && (PCX_header.Palette_16c[10]&15) == 0 && (PCX_header.Palette_16c[11]&15) == 0) || (nb_colors == 2 && PCX_header.Palette_16c[1] == 0 && PCX_header.Palette_16c[2] == 0)) { // special CGA palette meaning : if (nb_colors == 2) { // Background : BLACK context->Palette[0].R=0; context->Palette[0].G=0; context->Palette[0].B=0; // Foreground : 4 MSB of palette[0] is index of the CGA color to use. i = (PCX_header.Palette_16c[0] >> 4); if (i==0) i = 15; // Bright White by default Set_CGA_Color(i, &context->Palette[1]); } else { // Color CGA // background color : 4 MSB of palette[0] Set_CGA_Color((PCX_header.Palette_16c[0] >> 4), &context->Palette[0]); // Palette_16c[3] : 8 bits CPIx xxxx // C bit : Color burst enabled => disable it to set 3rd palette // P bit : palette : 0 = yellow/ 1 = white // I bit : intensity // CGA Palette 0 : 2 green, 4 red, 6 brown // CGA Palette 1 : 3 cyan, 5 magenta, 7 white // CGA 3rd palette : 3 cyan, 4 red, 7 white // After some tests in PC Paintbrush 3.11, it looks like // the Color burst bit is not taken into acount. i = 2; // 2 - CGA Green if (PCX_header.Palette_16c[3] & 0x40) i++; // Palette 1 (3 = cyan) if (PCX_header.Palette_16c[3] & 0x20) i += 8; // High intensity Set_CGA_Color(i++, &context->Palette[1]); i++; // Skip 1 color Set_CGA_Color(i++, &context->Palette[2]); i++; // Skip 1 color Set_CGA_Color(i, &context->Palette[3]); } } } // On se positionne à la fin du fichier - 769 octets pour voir s'il y // a une palette. if ( (PCX_header.Depth==8) && (PCX_header.Version>=5) && (file_size>(256*3+128)) ) { fseek(file,file_size-((256*3)+1),SEEK_SET); // On regarde s'il y a une palette après les données de l'image if (Read_byte(file,&byte1)) if (byte1==12) // Lire la palette si c'est une image en 256 couleurs { int index; // On lit la palette 256c que ces crétins ont foutue à la fin du fichier for(index=0;index<256;index++) if ( ! Read_byte(file,&(context->Palette[index].R)) || ! Read_byte(file,&(context->Palette[index].G)) || ! Read_byte(file,&(context->Palette[index].B)) ) { File_error=2; DEBUG("ERROR READING PCX PALETTE !",index); break; } } } // Maintenant qu'on a lu la palette que ces crétins sont allés foutre // à la fin, on retourne juste après le header pour lire l'image. fseek(file,128,SEEK_SET); if (!File_error) { line_size=PCX_header.Bytes_per_plane_line*PCX_header.Plane; real_line_size=(short)PCX_header.Bytes_per_plane_line<<3; // On se sert de données ILBM car le dessin de ligne en moins de 256 // couleurs se fait comme avec la structure ILBM. buffer=(byte *)malloc(line_size); // Chargement de l'image if (PCX_header.Compression) // Image compressée { /*Init_lecture();*/ image_size=(long)PCX_header.Bytes_per_plane_line*context->Height; if (PCX_header.Depth==8) // 256 couleurs (1 plan) { for (position=0; ((positionHeight) && (!File_error)); y_pos++) { for (x_pos=0; ((x_posHeight) && (!File_error);y_pos++) { if ((width_read=Read_bytes(file,buffer,line_size))) { if (PCX_header.Plane==1) for (x_pos=0; x_posWidth;x_pos++) Set_pixel(context, x_pos,y_pos,buffer[x_pos]); else { if (PCX_header.Depth==1) Draw_IFF_line(context, buffer, y_pos,real_line_size,PCX_header.Plane); else Draw_PCX_line(context, buffer, y_pos,PCX_header.Depth); } } else File_error=2; } } free(buffer); } } } else { // Image 24 bits!!! if (File_error==0) { line_size=PCX_header.Bytes_per_plane_line*3; buffer=(byte *)malloc(line_size); if (!PCX_header.Compression) { for (y_pos=0;(y_posHeight) && (!File_error);y_pos++) { if (Read_bytes(file,buffer,line_size)) { for (x_pos=0; x_posWidth; x_pos++) Set_pixel_24b(context, x_pos,y_pos,buffer[x_pos+(PCX_header.Bytes_per_plane_line*0)],buffer[x_pos+(PCX_header.Bytes_per_plane_line*1)],buffer[x_pos+(PCX_header.Bytes_per_plane_line*2)]); } else File_error=2; } } else { /*Init_lecture();*/ for (y_pos=0,position=0;(y_posHeight) && (!File_error);) { // Lecture et décompression de la ligne if(Read_byte(file,&byte1)!=1) File_error=2; if (!File_error) { if ((byte1 & 0xC0)==0xC0) { byte1-=0xC0; // facteur de répétition if(Read_byte(file,&byte2)!=1) File_error=2; // octet à répéter if (!File_error) { for (index=0; (index=line_size) { for (x_pos=0; x_posWidth; x_pos++) Set_pixel_24b(context, x_pos,y_pos,buffer[x_pos+(PCX_header.Bytes_per_plane_line*0)],buffer[x_pos+(PCX_header.Bytes_per_plane_line*1)],buffer[x_pos+(PCX_header.Bytes_per_plane_line*2)]); y_pos++; position=0; } } } } else { buffer[position++]=byte1; if (position>=line_size) { for (x_pos=0; x_posWidth; x_pos++) Set_pixel_24b(context, x_pos,y_pos,buffer[x_pos+(PCX_header.Bytes_per_plane_line*0)],buffer[x_pos+(PCX_header.Bytes_per_plane_line*1)],buffer[x_pos+(PCX_header.Bytes_per_plane_line*2)]); y_pos++; position=0; } } } } if (position!=0) File_error=2; /*Close_lecture();*/ } free(buffer); buffer = NULL; } } } else { File_error=1; } fclose(file); } else File_error=1; } // -- Ecrire un fichier au format PCX --------------------------------------- void Save_PCX(T_IO_Context * context) { FILE *file; short line_size; short x_pos; short y_pos; byte counter; byte last_pixel; byte pixel_read; File_error=0; if ((file=Open_file_write(context))) { setvbuf(file, NULL, _IOFBF, 64*1024); PCX_header.Manufacturer=10; PCX_header.Version=5; PCX_header.Compression=1; PCX_header.Depth=8; PCX_header.X_min=0; PCX_header.Y_min=0; PCX_header.X_max=context->Width-1; PCX_header.Y_max=context->Height-1; PCX_header.X_dpi=0; PCX_header.Y_dpi=0; memcpy(PCX_header.Palette_16c,context->Palette,48); PCX_header.Reserved=0; PCX_header.Plane=1; PCX_header.Bytes_per_plane_line=(context->Width&1)?context->Width+1:context->Width; PCX_header.Palette_info=1; PCX_header.Screen_X=Screen_width; PCX_header.Screen_Y=Screen_height; memset(PCX_header.Filler,0,54); if (Write_bytes(file,&(PCX_header.Manufacturer),1) && Write_bytes(file,&(PCX_header.Version),1) && Write_bytes(file,&(PCX_header.Compression),1) && Write_bytes(file,&(PCX_header.Depth),1) && Write_word_le(file,PCX_header.X_min) && Write_word_le(file,PCX_header.Y_min) && Write_word_le(file,PCX_header.X_max) && Write_word_le(file,PCX_header.Y_max) && Write_word_le(file,PCX_header.X_dpi) && Write_word_le(file,PCX_header.Y_dpi) && Write_bytes(file,&(PCX_header.Palette_16c),48) && Write_bytes(file,&(PCX_header.Reserved),1) && Write_bytes(file,&(PCX_header.Plane),1) && Write_word_le(file,PCX_header.Bytes_per_plane_line) && Write_word_le(file,PCX_header.Palette_info) && Write_word_le(file,PCX_header.Screen_X) && Write_word_le(file,PCX_header.Screen_Y) && Write_bytes(file,&(PCX_header.Filler),54) ) { line_size=PCX_header.Bytes_per_plane_line*PCX_header.Plane; for (y_pos=0; ((y_posHeight) && (!File_error)); y_pos++) { pixel_read=Get_pixel(context, 0,y_pos); // Compression et écriture de la ligne for (x_pos=0; ((x_pos1) || (last_pixel>=0xC0) ) Write_one_byte(file,counter|0xC0); Write_one_byte(file,last_pixel); } } // Ecriture de l'octet (12) indiquant que la palette arrive if (!File_error) Write_one_byte(file,12); // Ecriture de la palette if (!File_error) { if (! Write_bytes(file,context->Palette,sizeof(T_Palette))) File_error=1; } } else File_error=1; fclose(file); if (File_error) Remove_file(context); } else File_error=1; } //////////////////////////////////// SCx //////////////////////////////////// typedef struct { byte Filler1[4]; word Width; word Height; byte Filler2; byte Planes; } T_SCx_Header; // -- Tester si un fichier est au format SCx -------------------------------- void Test_SCx(T_IO_Context * context, FILE * file) { //byte Signature[3]; T_SCx_Header SCx_header; (void)context; File_error=1; // Ouverture du fichier // Lecture et vérification de la signature if (Read_bytes(file,SCx_header.Filler1,4) && Read_word_le(file, &(SCx_header.Width)) && Read_word_le(file, &(SCx_header.Height)) && Read_byte(file, &(SCx_header.Filler2)) && Read_byte(file, &(SCx_header.Planes)) ) { if ( (!memcmp(SCx_header.Filler1,"RIX",3)) && SCx_header.Width && SCx_header.Height) File_error=0; } } // -- Lire un fichier au format SCx ----------------------------------------- void Load_SCx(T_IO_Context * context) { FILE *file; word x_pos,y_pos; long size,real_size; long file_size; T_SCx_Header SCx_header; T_Palette SCx_Palette; byte * buffer; File_error=0; if ((file=Open_file_read(context))) { file_size=File_length_file(file); if (Read_bytes(file,SCx_header.Filler1,4) && Read_word_le(file, &(SCx_header.Width)) && Read_word_le(file, &(SCx_header.Height)) && Read_byte(file, &(SCx_header.Filler2)) && Read_byte(file, &(SCx_header.Planes)) ) { Pre_load(context, SCx_header.Width,SCx_header.Height,file_size,FORMAT_SCx,PIXEL_SIMPLE,0); if (File_error==0) { if (!SCx_header.Planes) size=sizeof(T_Palette); else size=sizeof(T_Components)*(1<Palette,0,sizeof(T_Palette)); Palette_64_to_256(SCx_Palette); memcpy(context->Palette,SCx_Palette,size); context->Width=SCx_header.Width; context->Height=SCx_header.Height; if (!SCx_header.Planes) { // 256 couleurs (raw) buffer=(byte *)malloc(context->Width); for (y_pos=0;(y_posHeight) && (!File_error);y_pos++) { if (Read_bytes(file,buffer,context->Width)) for (x_pos=0; x_posWidth;x_pos++) Set_pixel(context, x_pos,y_pos,buffer[x_pos]); else File_error=2; } } else { // moins de 256 couleurs (planar) size=((context->Width+7)>>3)*SCx_header.Planes; real_size=(size/SCx_header.Planes)<<3; buffer=(byte *)malloc(size); for (y_pos=0;(y_posHeight) && (!File_error);y_pos++) { if (Read_bytes(file,buffer,size)) Draw_IFF_line(context, buffer, y_pos,real_size,SCx_header.Planes); else File_error=2; } } free(buffer); } else File_error=1; } } else File_error=1; fclose(file); } else File_error=1; } // -- Sauver un fichier au format SCx --------------------------------------- void Save_SCx(T_IO_Context * context) { FILE *file; short x_pos,y_pos; T_SCx_Header SCx_header; byte last_char; last_char=strlen(context->File_name)-1; if (context->File_name[last_char]=='?') { if (context->Width<=320) context->File_name[last_char]='I'; else { if (context->Width<=360) context->File_name[last_char]='Q'; else { if (context->Width<=640) context->File_name[last_char]='F'; else { if (context->Width<=800) context->File_name[last_char]='N'; else context->File_name[last_char]='O'; } } } } File_error=0; // Ouverture du fichier if ((file=Open_file_write(context))) { T_Palette palette_64; setvbuf(file, NULL, _IOFBF, 64*1024); memcpy(palette_64,context->Palette,sizeof(T_Palette)); Palette_256_to_64(palette_64); memcpy(SCx_header.Filler1,"RIX3",4); SCx_header.Width=context->Width; SCx_header.Height=context->Height; SCx_header.Filler2=0xAF; SCx_header.Planes=0x00; if (Write_bytes(file,SCx_header.Filler1,4) && Write_word_le(file, SCx_header.Width) && Write_word_le(file, SCx_header.Height) && Write_byte(file, SCx_header.Filler2) && Write_byte(file, SCx_header.Planes) && Write_bytes(file,&palette_64,sizeof(T_Palette)) ) { for (y_pos=0; ((y_posHeight) && (!File_error)); y_pos++) for (x_pos=0; x_posWidth; x_pos++) Write_one_byte(file,Get_pixel(context, x_pos,y_pos)); fclose(file); if (File_error) Remove_file(context); } else // Error d'écriture (disque plein ou protégé) { fclose(file); Remove_file(context); File_error=1; } } else { fclose(file); Remove_file(context); File_error=1; } } //////////////////////////////////// XPM //////////////////////////////////// void Save_XPM(T_IO_Context* context) { // XPM are unix files, so use LF '\n' line endings FILE* file; int i,j; byte max_color = 0; word color_count; File_error = 0; file = Open_file_write(context); if (file == NULL) { File_error = 1; return; } setvbuf(file, NULL, _IOFBF, 64*1024); // in case there are less colors than 256, we could // optimize, and use only 1 character per pixel if possible // printable characters are from 0x20 to 0x7e, minus " 0x22 and \ 0x5c #define XPM_USABLE_CHARS (0x7f - 0x20 - 2) for (j = 0; j < context->Height; j++) for (i = 0; i < context->Width; i++) { byte value = Get_pixel(context, i, j); if (value > max_color) max_color = value; } color_count = (word)max_color + 1; fprintf(file, "/* XPM */\nstatic char* pixmap[] = {\n"); fprintf(file, "\"%d %d %d %d\",\n", context->Width, context->Height, color_count, color_count > XPM_USABLE_CHARS ? 2 : 1); if (color_count > XPM_USABLE_CHARS) { for (i = 0; i < color_count; i++) { if (context->Background_transparent && (i == context->Transparent_color)) fprintf(file, "\"%2.2X\tc None\",\n", i); // None is for transparent color else fprintf(file,"\"%2.2X\tc #%2.2x%2.2x%2.2x\",\n", i, context->Palette[i].R, context->Palette[i].G, context->Palette[i].B); } for (j = 0; j < context->Height; j++) { fprintf(file, "\""); for (i = 0; i < context->Width; i++) fprintf(file, "%2.2X", Get_pixel(context, i, j)); if (j == (context->Height - 1)) fprintf(file,"\"\n"); else fprintf(file,"\",\n"); } } else { int c; for (i = 0; i < color_count; i++) { c = (i < 2) ? i + 0x20 : i + 0x21; if (c >= 0x5c) c++; if (context->Background_transparent && (i == context->Transparent_color)) fprintf(file, "\"%c\tc None\",\n", c); // None is for transparent color else fprintf(file,"\"%c\tc #%2.2x%2.2x%2.2x\",\n", c, context->Palette[i].R, context->Palette[i].G, context->Palette[i].B); } for (j = 0; j < context->Height; j++) { fprintf(file, "\""); for (i = 0; i < context->Width; i++) { c = Get_pixel(context, i, j); c = (c < 2) ? c + 0x20 : c + 0x21; if (c >= 0x5c) c++; fprintf(file, "%c", c); } if (j == (context->Height - 1)) fprintf(file,"\"\n"); else fprintf(file,"\",\n"); } } fprintf(file, "};\n"); fclose(file); } //////////////////////////////////// PNG //////////////////////////////////// #ifndef __no_pnglib__ // -- Tester si un fichier est au format PNG -------------------------------- void Test_PNG(T_IO_Context * context, FILE * file) { byte png_header[8]; (void)context; File_error=1; // Lecture du header du fichier if (Read_bytes(file,png_header,8)) { if ( !png_sig_cmp(png_header, 0, 8)) File_error=0; } } /// Used by a callback in Load_PNG T_IO_Context * PNG_current_context; int PNG_read_unknown_chunk(png_structp ptr, png_unknown_chunkp chunk) { (void)ptr; // unused // png_unknown_chunkp members: // png_byte name[5]; // png_byte *data; // png_size_t size; if (!strcmp((const char *)chunk->name, "crNg")) { // Color animation. Similar to a CRNG chunk in an IFF file. unsigned int i; byte *chunk_ptr = chunk->data; // Should be a multiple of 6 if (chunk->size % 6) return (-1); for(i=0;isize/6 && i<16; i++) { word rate; word flags; byte min_col; byte max_col; // Rate (big-endian word) rate = *(chunk_ptr++) << 8; rate |= *(chunk_ptr++); // Flags (big-endian) flags = *(chunk_ptr++) << 8; flags |= *(chunk_ptr++); // Min color min_col = *(chunk_ptr++); // Max color max_col = *(chunk_ptr++); // Check validity if (min_col != max_col) { // Valid cycling range if (max_colCycle_range[i].Start=min_col; PNG_current_context->Cycle_range[i].End=max_col; PNG_current_context->Cycle_range[i].Inverse=(flags&2)?1:0; PNG_current_context->Cycle_range[i].Speed=(flags&1) ? rate/78 : 0; PNG_current_context->Color_cycles=i+1; } } return (1); // >0 = success } return (0); /* did not recognize */ } // -- Lire un fichier au format PNG ----------------------------------------- static void Load_PNG_Sub(T_IO_Context * context, FILE * file) { png_structp png_ptr; png_infop info_ptr = NULL; // Prepare internal PNG loader png_ptr = png_create_read_struct(PNG_LIBPNG_VER_STRING, NULL, NULL, NULL); if (png_ptr) { // Prepare internal PNG loader info_ptr = png_create_info_struct(png_ptr); if (info_ptr) { png_byte color_type; png_byte bit_depth; png_voidp user_chunk_ptr; byte bpp; // Setup a return point. If a pnglib loading error occurs // in this if(), the else will be executed. if (!setjmp(png_jmpbuf(png_ptr))) { png_init_io(png_ptr, file); // Inform pnglib we already loaded the header. png_set_sig_bytes(png_ptr, 8); // Hook the handler for unknown chunks user_chunk_ptr = png_get_user_chunk_ptr(png_ptr); png_set_read_user_chunk_fn(png_ptr, user_chunk_ptr, &PNG_read_unknown_chunk); // This is a horrid way to pass parameters, but we don't get // much choice. PNG loader can't be reintrant. PNG_current_context=context; // Load file information png_read_info(png_ptr, info_ptr); color_type = png_get_color_type(png_ptr,info_ptr); bit_depth = png_get_bit_depth(png_ptr,info_ptr); switch (color_type) { case PNG_COLOR_TYPE_GRAY_ALPHA: bpp = bit_depth * 2; break; case PNG_COLOR_TYPE_RGB: bpp = bit_depth * 3; break; case PNG_COLOR_TYPE_RGB_ALPHA: bpp = bit_depth * 4; break; case PNG_COLOR_TYPE_PALETTE: case PNG_COLOR_TYPE_GRAY: default: bpp = bit_depth; } // If it's any supported file // (Note: As of writing this, this test covers every possible // image format of libpng) if (color_type == PNG_COLOR_TYPE_PALETTE || color_type == PNG_COLOR_TYPE_GRAY || color_type == PNG_COLOR_TYPE_GRAY_ALPHA || color_type == PNG_COLOR_TYPE_RGB || color_type == PNG_COLOR_TYPE_RGB_ALPHA ) { int num_text; png_text *text_ptr; int unit_type; png_uint_32 res_x; png_uint_32 res_y; // Comment (tEXt) context->Comment[0]='\0'; // Clear the previous comment if ((num_text=png_get_text(png_ptr, info_ptr, &text_ptr, NULL))) { while (num_text--) { if (!strcmp(text_ptr[num_text].key,"Title")) { int size; size = Min(text_ptr[num_text].text_length, COMMENT_SIZE); strncpy(context->Comment, text_ptr[num_text].text, size); context->Comment[size]='\0'; break; // Skip all others tEXt chunks } } } // Pixel Ratio (pHYs) if (png_get_pHYs(png_ptr, info_ptr, &res_x, &res_y, &unit_type)) { // Ignore unit, and use the X/Y ratio as a hint for // WIDE or TALL pixels if (res_x>0 && res_y>0) { if (res_y/res_x>1) { context->Ratio=PIXEL_WIDE; } else if (res_x/res_y>1) { context->Ratio=PIXEL_TALL; } } } if (color_type == PNG_COLOR_TYPE_RGB || color_type == PNG_COLOR_TYPE_RGB_ALPHA) Pre_load(context,png_get_image_width(png_ptr,info_ptr),png_get_image_height(png_ptr,info_ptr),File_length_file(file),FORMAT_PNG,PIXEL_SIMPLE,bpp); else Pre_load(context,png_get_image_width(png_ptr,info_ptr),png_get_image_height(png_ptr,info_ptr),File_length_file(file),FORMAT_PNG,context->Ratio,bpp); if (File_error==0) { int x,y; png_colorp palette; int num_palette; png_bytep * Row_pointers = NULL; byte row_pointers_allocated = 0; int num_trans; png_bytep trans; png_color_16p trans_values; // 16-bit images if (bit_depth == 16) { // Reduce to 8-bit png_set_strip_16(png_ptr); } else if (bit_depth < 8) { // Inform libpng we want one byte per pixel, // even though the file was less than 8bpp png_set_packing(png_ptr); } // Images with alpha channel if (color_type & PNG_COLOR_MASK_ALPHA) { // Tell libpng to ignore it png_set_strip_alpha(png_ptr); } // Greyscale images : if (color_type == PNG_COLOR_TYPE_GRAY || color_type == PNG_COLOR_TYPE_GRAY_ALPHA) { // Map low bpp greyscales to full 8bit (0-255 range) if (bit_depth < 8) { #if (PNG_LIBPNG_VER_MAJOR <= 1) && (PNG_LIBPNG_VER_MINOR < 4) // Works well with png 1.2.8, but deprecated in 1.4 ... png_set_gray_1_2_4_to_8(png_ptr); #else // ...where this seems to replace it: png_set_expand_gray_1_2_4_to_8(png_ptr); #endif } // Create greyscale palette for (x=0;x<256;x++) { context->Palette[x].R=x; context->Palette[x].G=x; context->Palette[x].B=x; } } else if (color_type == PNG_COLOR_TYPE_PALETTE) // Palette images { if (bit_depth < 8) { // Clear unused colors if (Config.Clear_palette) memset(context->Palette,0,sizeof(T_Palette)); } // Get a pointer to the PNG palette png_get_PLTE(png_ptr, info_ptr, &palette, &num_palette); // Copy all colors to the context for (x=0;xPalette[x].R=palette[x].red; context->Palette[x].G=palette[x].green; context->Palette[x].B=palette[x].blue; } // The palette must not be freed: it is owned by libpng. palette = NULL; } // Transparency (tRNS) if (png_get_tRNS(png_ptr, info_ptr, &trans, &num_trans, &trans_values)) { if (color_type == PNG_COLOR_TYPE_PALETTE && trans!=NULL) { int i; for (i=0; iTransparent_color = i; context->Background_transparent = 1; break; } } } else if ((color_type == PNG_COLOR_TYPE_GRAY || color_type == PNG_COLOR_TYPE_RGB) && trans_values!=NULL) { // In this case, num_trans is supposed to be "1", // and trans_values[0] contains the reference color // (RGB triplet) that counts as transparent. // Ideally, we should reserve this color in the palette, // (so it's not merged and averaged with a neighbor one) // and after creating the optimized palette, find its // index and mark it transparent. // Current implementation: ignore. } } context->Width=png_get_image_width(png_ptr,info_ptr); context->Height=png_get_image_height(png_ptr,info_ptr); png_set_interlace_handling(png_ptr); png_read_update_info(png_ptr, info_ptr); // Allocate row pointers Row_pointers = (png_bytep*) malloc(sizeof(png_bytep) * context->Height); row_pointers_allocated = 0; /* read file */ if (!setjmp(png_jmpbuf(png_ptr))) { if (color_type == PNG_COLOR_TYPE_GRAY || color_type == PNG_COLOR_TYPE_GRAY_ALPHA || color_type == PNG_COLOR_TYPE_PALETTE ) { // 8bpp for (y=0; yHeight; y++) Row_pointers[y] = (png_byte*) malloc(png_get_rowbytes(png_ptr,info_ptr)); row_pointers_allocated = 1; png_read_image(png_ptr, Row_pointers); for (y=0; yHeight; y++) for (x=0; xWidth; x++) Set_pixel(context, x, y, Row_pointers[y][x]); } else { switch (context->Type) { case CONTEXT_PREVIEW: // 24bpp // It's a preview // Unfortunately we need to allocate loads of memory for (y=0; yHeight; y++) Row_pointers[y] = (png_byte*) malloc(png_get_rowbytes(png_ptr,info_ptr)); row_pointers_allocated = 1; png_read_image(png_ptr, Row_pointers); for (y=0; yHeight; y++) for (x=0; xWidth; x++) Set_pixel_24b(context, x, y, Row_pointers[y][x*3],Row_pointers[y][x*3+1],Row_pointers[y][x*3+2]); break; case CONTEXT_MAIN_IMAGE: case CONTEXT_BRUSH: case CONTEXT_SURFACE: // It's loading an actual image // We'll save memory and time by writing directly into // our pre-allocated 24bit buffer for (y=0; yHeight; y++) Row_pointers[y] = (png_byte*) (&(context->Buffer_image_24b[y * context->Width])); png_read_image(png_ptr, Row_pointers); break; case CONTEXT_PALETTE: case CONTEXT_PREVIEW_PALETTE: // No pixels to draw in a palette! break; } } } else File_error=2; /* cleanup heap allocation */ if (row_pointers_allocated) { for (y=0; yHeight; y++) { free(Row_pointers[y]); Row_pointers[y] = NULL; } } free(Row_pointers); Row_pointers = NULL; } else File_error=2; } else // Unsupported image type File_error=1; } else File_error=1; } else File_error=1; png_destroy_read_struct(&png_ptr, &info_ptr, NULL); } } void Load_PNG(T_IO_Context * context) { FILE *file; byte png_header[8]; File_error=0; if ((file=Open_file_read(context))) { // Load header (8 first bytes) if (Read_bytes(file,png_header,8)) { // Do we recognize a png file signature ? if ( !png_sig_cmp(png_header, 0, 8)) Load_PNG_Sub(context, file); else File_error=1; } else // Lecture header impossible: Error ne modifiant pas l'image File_error=1; fclose(file); } else // Ouv. fichier impossible: Error ne modifiant pas l'image File_error=1; } void Save_PNG(T_IO_Context * context) { FILE *file; int y; byte * pixel_ptr; png_structp png_ptr; png_infop info_ptr; png_unknown_chunk crng_chunk; byte cycle_data[16*6]; // Storage for color-cycling data, referenced by crng_chunk static png_bytep * Row_pointers; File_error=0; Row_pointers = NULL; // Ouverture du fichier if ((file=Open_file_write(context))) { setvbuf(file, NULL, _IOFBF, 64*1024); /* initialisation */ if ((png_ptr = png_create_write_struct(PNG_LIBPNG_VER_STRING, NULL, NULL, NULL)) && (info_ptr = png_create_info_struct(png_ptr))) { if (!setjmp(png_jmpbuf(png_ptr))) { png_init_io(png_ptr, file); /* en-tete */ if (!setjmp(png_jmpbuf(png_ptr))) { png_set_IHDR(png_ptr, info_ptr, context->Width, context->Height, 8, PNG_COLOR_TYPE_PALETTE, PNG_INTERLACE_NONE, PNG_COMPRESSION_TYPE_DEFAULT, PNG_FILTER_TYPE_DEFAULT); png_set_PLTE(png_ptr, info_ptr, (png_colorp)context->Palette, 256); { // Commentaires texte PNG // Cette partie est optionnelle #ifdef PNG_iTXt_SUPPORTED png_text text_ptr[2] = { {-1, "Software", "Grafx2", 6, 0, NULL, NULL}, {-1, "Title", NULL, 0, 0, NULL, NULL} #else png_text text_ptr[2] = { {-1, "Software", "Grafx2", 6}, {-1, "Title", NULL, 0} #endif }; int nb_text_chunks=1; if (context->Comment[0]) { text_ptr[1].text=context->Comment; text_ptr[1].text_length=strlen(context->Comment); nb_text_chunks=2; } png_set_text(png_ptr, info_ptr, text_ptr, nb_text_chunks); } if (context->Background_transparent) { // Transparency byte opacity[256]; // Need to fill a segment with '255', up to the transparent color // which will have a 0. This piece of data (1 to 256 bytes) // will be stored in the file. memset(opacity, 255,context->Transparent_color); opacity[context->Transparent_color]=0; png_set_tRNS(png_ptr, info_ptr, opacity, (int)1 + context->Transparent_color,0); } switch(Pixel_ratio) { case PIXEL_WIDE: case PIXEL_WIDE2: png_set_pHYs(png_ptr, info_ptr, 3000, 6000, PNG_RESOLUTION_METER); break; case PIXEL_TALL: case PIXEL_TALL2: case PIXEL_TALL3: png_set_pHYs(png_ptr, info_ptr, 6000, 3000, PNG_RESOLUTION_METER); break; default: break; } // Write cycling colors if (context->Color_cycles) { // Save a chunk called 'crNg' // The case is selected by the following rules from PNG standard: // char 1: non-mandatory = lowercase // char 2: private (not standard) = lowercase // char 3: reserved = always uppercase // char 4: can be copied by editors = lowercase // First, turn our nice structure into byte array // (just to avoid padding in structures) byte *chunk_ptr = cycle_data; int i; for (i=0; iColor_cycles; i++) { word flags=0; flags|= context->Cycle_range[i].Speed?1:0; // Cycling or not flags|= context->Cycle_range[i].Inverse?2:0; // Inverted // Big end of Rate *(chunk_ptr++) = (context->Cycle_range[i].Speed*78) >> 8; // Low end of Rate *(chunk_ptr++) = (context->Cycle_range[i].Speed*78) & 0xFF; // Big end of Flags *(chunk_ptr++) = (flags) >> 8; // Low end of Flags *(chunk_ptr++) = (flags) & 0xFF; // Min color *(chunk_ptr++) = context->Cycle_range[i].Start; // Max color *(chunk_ptr++) = context->Cycle_range[i].End; } // Build one unknown_chuck structure memcpy(crng_chunk.name, "crNg",5); crng_chunk.data=cycle_data; crng_chunk.size=context->Color_cycles*6; crng_chunk.location=PNG_HAVE_PLTE; // Give it to libpng png_set_unknown_chunks(png_ptr, info_ptr, &crng_chunk, 1); // libpng seems to ignore the location I provided earlier. png_set_unknown_chunk_location(png_ptr, info_ptr, 0, PNG_HAVE_PLTE); } png_write_info(png_ptr, info_ptr); /* ecriture des pixels de l'image */ Row_pointers = (png_bytep*) malloc(sizeof(png_bytep) * context->Height); pixel_ptr = context->Target_address; for (y=0; yHeight; y++) Row_pointers[y] = (png_byte*)(pixel_ptr+y*context->Pitch); if (!setjmp(png_jmpbuf(png_ptr))) { png_write_image(png_ptr, Row_pointers); /* cloture png */ if (!setjmp(png_jmpbuf(png_ptr))) { png_write_end(png_ptr, NULL); } else File_error=1; } else File_error=1; } else File_error=1; } else { File_error=1; } png_destroy_write_struct(&png_ptr, &info_ptr); } else File_error=1; // fermeture du fichier fclose(file); } // S'il y a eu une erreur de sauvegarde, on ne va tout de même pas laisser // ce fichier pourri trainait... Ca fait pas propre. if (File_error) Remove_file(context); if (Row_pointers) { free(Row_pointers); Row_pointers=NULL; } } #endif // __no_pnglib__