// Emacs style mode select -*- C++ -*- //----------------------------------------------------------------------------- // // $Id:$ // // Copyright (C) 1993-1996 by id Software, Inc. // // This source is available for distribution and/or modification // only under the terms of the DOOM Source Code License as // published by id Software. All rights reserved. // // The source is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // FITNESS FOR A PARTICULAR PURPOSE. See the DOOM Source Code License // for more details. // // // $Log:$ // // DESCRIPTION: // Default Config File. // Screenshots. // //----------------------------------------------------------------------------- #include #include #include #include #include #include #include #include "doomtype.h" #include "version.h" #if defined(_WIN32) #include #else #include #endif #include #include "doomdef.h" #include "m_swap.h" #include "m_argv.h" #include "w_wad.h" #include "c_cvars.h" #include "c_dispatch.h" #include "c_bind.h" #include "i_system.h" #include "i_video.h" #include "v_video.h" #include "r_defs.h" #include "hu_stuff.h" // State. #include "doomstat.h" // Data. #include "m_misc.h" #include "m_png.h" #include "cmdlib.h" #include "g_game.h" #include "gi.h" #include "gameconfigfile.h" FGameConfigFile *GameConfig; CVAR(Bool, screenshot_quiet, false, CVAR_ARCHIVE|CVAR_GLOBALCONFIG); CVAR(String, screenshot_type, "png", CVAR_ARCHIVE|CVAR_GLOBALCONFIG); CVAR(String, screenshot_dir, "", CVAR_ARCHIVE|CVAR_GLOBALCONFIG); EXTERN_CVAR(Bool, longsavemessages); static long ParseCommandLine (const char *args, int *argc, char **argv); // // M_WriteFile // #ifndef O_BINARY #define O_BINARY 0 #endif bool M_WriteFile (char const *name, void *source, int length) { int handle; int count; handle = open ( name, O_WRONLY | O_CREAT | O_TRUNC | O_BINARY, 0666); if (handle == -1) return false; count = write (handle, source, length); close (handle); if (count < length) return false; return true; } // // M_ReadFile // int M_ReadFile (char const *name, BYTE **buffer) { int handle, count, length; struct stat fileinfo; BYTE *buf; handle = open (name, O_RDONLY | O_BINARY, 0666); if (handle == -1) I_Error ("Couldn't read file %s", name); // [BL] Use stat instead of fstat for v140_xp hack if (stat (name,&fileinfo) == -1) I_Error ("Couldn't read file %s", name); length = fileinfo.st_size; buf = new BYTE[length]; count = read (handle, buf, length); close (handle); if (count < length) I_Error ("Couldn't read file %s", name); *buffer = buf; return length; } // // M_ReadFile (same as above but use malloc instead of new to allocate the buffer.) // int M_ReadFileMalloc (char const *name, BYTE **buffer) { int handle, count, length; struct stat fileinfo; BYTE *buf; handle = open (name, O_RDONLY | O_BINARY, 0666); if (handle == -1) I_Error ("Couldn't read file %s", name); // [BL] Use stat instead of fstat for v140_xp hack if (stat (name,&fileinfo) == -1) I_Error ("Couldn't read file %s", name); length = fileinfo.st_size; buf = (BYTE*)M_Malloc(length); count = read (handle, buf, length); close (handle); if (count < length) I_Error ("Couldn't read file %s", name); *buffer = buf; return length; } //--------------------------------------------------------------------------- // // PROC M_FindResponseFile // //--------------------------------------------------------------------------- void M_FindResponseFile (void) { const int limit = 100; // avoid infinite recursion int added_stuff = 0; int i = 1; while (i < Args->NumArgs()) { if (Args->GetArg(i)[0] != '@') { i++; } else { char **argv; char *file = NULL; int argc = 0; FILE *handle; int size; long argsize = 0; int index; // Any more response files after the limit will be removed from the // command line. if (added_stuff < limit) { // READ THE RESPONSE FILE INTO MEMORY handle = fopen (Args->GetArg(i) + 1,"rb"); if (!handle) { // [RH] Make this a warning, not an error. Printf ("No such response file (%s)!\n", Args->GetArg(i) + 1); } else { Printf ("Found response file %s!\n", Args->GetArg(i) + 1); fseek (handle, 0, SEEK_END); size = ftell (handle); fseek (handle, 0, SEEK_SET); file = new char[size+1]; fread (file, size, 1, handle); file[size] = 0; fclose (handle); argsize = ParseCommandLine (file, &argc, NULL); } } else { Printf ("Ignored response file %s.\n", Args->GetArg(i) + 1); } if (argc != 0) { argv = (char **)M_Malloc (argc*sizeof(char *) + argsize); argv[0] = (char *)argv + argc*sizeof(char *); ParseCommandLine (file, NULL, argv); // Create a new argument vector DArgs *newargs = new DArgs; // Copy parameters before response file. for (index = 0; index < i; ++index) newargs->AppendArg(Args->GetArg(index)); // Copy parameters from response file. for (index = 0; index < argc; ++index) newargs->AppendArg(argv[index]); // Copy parameters after response file. for (index = i + 1; index < Args->NumArgs(); ++index) newargs->AppendArg(Args->GetArg(index)); // Use the new argument vector as the global Args object. Args = newargs; if (++added_stuff == limit) { Printf("Response file limit of %d hit.\n", limit); } } else { // Remove the response file from the Args object Args->RemoveArg(i); } if (file != NULL) { delete[] file; } } } if (added_stuff > 0) { // DISPLAY ARGS Printf ("Added %d response file%s, now have %d command-line args:\n", added_stuff, added_stuff > 1 ? "s" : "", Args->NumArgs ()); for (int k = 1; k < Args->NumArgs (); k++) Printf ("%s\n", Args->GetArg (k)); } } // ParseCommandLine // // This is just like the version in c_dispatch.cpp, except it does not // do cvar expansion. static long ParseCommandLine (const char *args, int *argc, char **argv) { int count; char *buffplace; count = 0; buffplace = NULL; if (argv != NULL) { buffplace = argv[0]; } for (;;) { while (*args <= ' ' && *args) { // skip white space args++; } if (*args == 0) { break; } else if (*args == '\"') { // read quoted string char stuff; if (argv != NULL) { argv[count] = buffplace; } count++; args++; do { stuff = *args++; if (stuff == '\\' && *args == '\"') { stuff = '\"', args++; } else if (stuff == '\"') { stuff = 0; } else if (stuff == 0) { args--; } if (argv != NULL) { *buffplace = stuff; } buffplace++; } while (stuff); } else { // read unquoted string const char *start = args++, *end; while (*args && *args > ' ' && *args != '\"') args++; end = args; if (argv != NULL) { argv[count] = buffplace; while (start < end) *buffplace++ = *start++; *buffplace++ = 0; } else { buffplace += end - start + 1; } count++; } } if (argc != NULL) { *argc = count; } return (long)(buffplace - (char *)0); } // // M_SaveDefaults // bool M_SaveDefaults (const char *filename) { FString oldpath; bool success; if (filename != NULL) { oldpath = GameConfig->GetPathName(); GameConfig->ChangePathName (filename); } GameConfig->ArchiveGlobalData (); if (gameinfo.ConfigName.IsNotEmpty()) { GameConfig->ArchiveGameData (gameinfo.ConfigName); } success = GameConfig->WriteConfigFile (); if (filename != NULL) { GameConfig->ChangePathName (filename); } return success; } void M_SaveDefaultsFinal () { while (!M_SaveDefaults (NULL) && I_WriteIniFailed ()) { /* Loop until the config saves or I_WriteIniFailed() returns false */ } delete GameConfig; GameConfig = NULL; } CCMD (writeini) { const char *filename = (argv.argc() == 1) ? NULL : argv[1]; if (!M_SaveDefaults (filename)) { Printf ("Writing config failed: %s\n", strerror(errno)); } else { Printf ("Config saved.\n"); } } // // M_LoadDefaults // void M_LoadDefaults () { GameConfig = new FGameConfigFile; GameConfig->DoGlobalSetup (); atterm (M_SaveDefaultsFinal); } // // SCREEN SHOTS // struct pcx_t { char manufacturer; char version; char encoding; char bits_per_pixel; unsigned short xmin; unsigned short ymin; unsigned short xmax; unsigned short ymax; unsigned short hdpi; unsigned short vdpi; unsigned char palette[48]; char reserved; char color_planes; unsigned short bytes_per_line; unsigned short palette_type; char filler[58]; }; inline void putc(unsigned char chr, FileWriter *file) { file->Write(&chr, 1); } // // WritePCXfile // void WritePCXfile (FileWriter *file, const BYTE *buffer, const PalEntry *palette, ESSType color_type, int width, int height, int pitch) { BYTE temprow[MAXWIDTH * 3]; const BYTE *data; int x, y; int runlen; int bytes_per_row_minus_one; BYTE color; pcx_t pcx; pcx.manufacturer = 10; // PCX id pcx.version = 5; // 256 (or more) colors pcx.encoding = 1; pcx.bits_per_pixel = 8; // 256 (or more) colors pcx.xmin = 0; pcx.ymin = 0; pcx.xmax = LittleShort((unsigned short)(width-1)); pcx.ymax = LittleShort((unsigned short)(height-1)); pcx.hdpi = LittleShort((unsigned short)75); pcx.vdpi = LittleShort((unsigned short)75); memset (pcx.palette, 0, sizeof(pcx.palette)); pcx.reserved = 0; pcx.color_planes = (color_type == SS_PAL) ? 1 : 3; // chunky image pcx.bytes_per_line = width + (width & 1); pcx.palette_type = 1; // not a grey scale memset (pcx.filler, 0, sizeof(pcx.filler)); file->Write(&pcx, 128); bytes_per_row_minus_one = ((color_type == SS_PAL) ? width : width * 3) - 1; // pack the image for (y = height; y > 0; y--) { switch (color_type) { case SS_PAL: data = buffer; break; case SS_RGB: // Unpack RGB into separate planes. for (int i = 0; i < width; ++i) { temprow[i ] = buffer[i*3]; temprow[i + width ] = buffer[i*3 + 1]; temprow[i + width * 2] = buffer[i*3 + 2]; } data = temprow; break; case SS_BGRA: // Unpack RGB into separate planes, discarding A. for (int i = 0; i < width; ++i) { temprow[i ] = buffer[i*4 + 2]; temprow[i + width ] = buffer[i*4 + 1]; temprow[i + width * 2] = buffer[i*4]; } data = temprow; break; default: // Should never happen. return; } buffer += pitch; color = *data++; runlen = 1; for (x = bytes_per_row_minus_one; x > 0; x--) { if (*data == color) { runlen++; } else { if (runlen > 1 || color >= 0xc0) { while (runlen > 63) { putc (0xff, file); putc (color, file); runlen -= 63; } if (runlen > 0) { putc (0xc0 + runlen, file); } } if (runlen > 0) { putc (color, file); } runlen = 1; color = *data; } data++; } if (runlen > 1 || color >= 0xc0) { while (runlen > 63) { putc (0xff, file); putc (color, file); runlen -= 63; } if (runlen > 0) { putc (0xc0 + runlen, file); } } if (runlen > 0) { putc (color, file); } if (width & 1) putc (0, file); } // write the palette if (color_type == SS_PAL) { putc (12, file); // palette ID byte for (x = 0; x < 256; x++, palette++) { putc (palette->r, file); putc (palette->g, file); putc (palette->b, file); } } } // // WritePNGfile // void WritePNGfile (FileWriter *file, const BYTE *buffer, const PalEntry *palette, ESSType color_type, int width, int height, int pitch) { char software[100]; mysnprintf(software, countof(software), GAMENAME " %s", GetVersionString()); if (!M_CreatePNG (file, buffer, palette, color_type, width, height, pitch) || !M_AppendPNGText (file, "Software", software) || !M_FinishPNG (file)) { Printf ("Could not create screenshot.\n"); } } // // M_ScreenShot // static bool FindFreeName (FString &fullname, const char *extension) { FString lbmname; int i; for (i = 0; i <= 9999; i++) { const char *gamename = gameinfo.ConfigName; time_t now; tm *tm; time(&now); tm = localtime(&now); if (tm == NULL) { lbmname.Format ("%sScreenshot_%s_%04d.%s", fullname.GetChars(), gamename, i, extension); } else if (i == 0) { lbmname.Format ("%sScreenshot_%s_%04d%02d%02d_%02d%02d%02d.%s", fullname.GetChars(), gamename, tm->tm_year + 1900, tm->tm_mon + 1, tm->tm_mday, tm->tm_hour, tm->tm_min, tm->tm_sec, extension); } else { lbmname.Format ("%sScreenshot_%s_%04d%02d%02d_%02d%02d%02d_%02d.%s", fullname.GetChars(), gamename, tm->tm_year + 1900, tm->tm_mon + 1, tm->tm_mday, tm->tm_hour, tm->tm_min, tm->tm_sec, i, extension); } if (!FileExists (lbmname.GetChars())) { fullname = lbmname; return true; // file doesn't exist } } return false; } void M_ScreenShot (const char *filename) { FileWriter *file; FString autoname; bool writepcx = (stricmp (screenshot_type, "pcx") == 0); // PNG is the default // find a file name to save it to if (filename == NULL || filename[0] == '\0') { size_t dirlen; autoname = Args->CheckValue("-shotdir"); if (autoname.IsEmpty()) { autoname = screenshot_dir; } dirlen = autoname.Len(); if (dirlen == 0) { autoname = M_GetScreenshotsPath(); dirlen = autoname.Len(); } if (dirlen > 0) { if (autoname[dirlen-1] != '/' && autoname[dirlen-1] != '\\') { autoname += '/'; } } autoname = NicePath(autoname); CreatePath(autoname); if (!FindFreeName (autoname, writepcx ? "pcx" : "png")) { Printf ("M_ScreenShot: Delete some screenshots\n"); return; } } else { autoname = filename; DefaultExtension (autoname, writepcx ? ".pcx" : ".png"); } // save the screenshot const BYTE *buffer; int pitch; ESSType color_type; screen->GetScreenshotBuffer(buffer, pitch, color_type); if (buffer != NULL) { PalEntry palette[256]; if (color_type == SS_PAL) { screen->GetFlashedPalette(palette); } file = FileWriter::Open(autoname); if (file == NULL) { Printf ("Could not open %s\n", autoname.GetChars()); screen->ReleaseScreenshotBuffer(); return; } if (writepcx) { WritePCXfile(file, buffer, palette, color_type, screen->GetWidth(), screen->GetHeight(), pitch); } else { WritePNGfile(file, buffer, palette, color_type, screen->GetWidth(), screen->GetHeight(), pitch); } delete file; screen->ReleaseScreenshotBuffer(); if (!screenshot_quiet) { int slash = -1; if (!longsavemessages) slash = autoname.LastIndexOfAny(":/\\"); Printf ("Captured %s\n", autoname.GetChars()+slash+1); } } else { if (!screenshot_quiet) { Printf ("Could not create screenshot.\n"); } } } CCMD (screenshot) { if (argv.argc() == 1) G_ScreenShot (NULL); else G_ScreenShot (argv[1]); } // // M_ZlibError // FString M_ZLibError(int zerr) { if (zerr >= 0) { return "OK"; } else if (zerr < -6) { FString out; out.Format("%d", zerr); return out; } else { static const char *errs[6] = { "Errno", "Stream Error", "Data Error", "Memory Error", "Buffer Error", "Version Error" }; return errs[-zerr - 1]; } }