// 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: // //----------------------------------------------------------------------------- #include #include #include #include #include #include #include #include #include #define WIN32_LEAN_AND_MEAN #include #include #include "hardware.h" #include "doomerrors.h" #include #include "doomtype.h" #include "version.h" #include "doomdef.h" #include "cmdlib.h" #include "m_argv.h" #include "m_misc.h" #include "i_video.h" #include "i_sound.h" #include "i_music.h" #include "resource.h" #include "d_main.h" #include "d_net.h" #include "g_game.h" #include "i_input.h" #include "i_system.h" #include "c_dispatch.h" #include "templates.h" #include "stats.h" EXTERN_CVAR (String, language) #ifdef USEASM extern "C" void STACK_ARGS CheckMMX (CPUInfo *cpu); #endif extern "C" { double SecondsPerCycle = 1e-8; double CyclesPerSecond = 1e8; // 100 MHz CPUInfo CPU; } extern HWND Window, ConWindow; extern HINSTANCE g_hInst; UINT TimerPeriod; UINT TimerEventID; UINT MillisecondsPerTic; HANDLE NewTicArrived; DWORD LanguageIDs[4]; void CalculateCPUSpeed (); int (*I_GetTime) (bool saveMS); int (*I_WaitForTic) (int); os_t OSPlatform; void I_Tactile (int on, int off, int total) { // UNUSED. on = off = total = 0; } ticcmd_t emptycmd; ticcmd_t *I_BaseTiccmd(void) { return &emptycmd; } static DWORD basetime = 0; // [RH] Returns time in milliseconds unsigned int I_MSTime (void) { DWORD tm; tm = timeGetTime(); if (!basetime) basetime = tm; return tm - basetime; } static DWORD TicStart; static DWORD TicNext; // // I_GetTime // returns time in 1/35th second tics // int I_GetTimePolled (bool saveMS) { DWORD tm; tm = timeGetTime(); if (!basetime) basetime = tm; if (saveMS) { TicStart = tm; TicNext = (tm * TICRATE / 1000 + 1) * 1000 / TICRATE; } return ((tm-basetime)*TICRATE)/1000; } int I_WaitForTicPolled (int prevtic) { int time; while ((time = I_GetTimePolled(false)) <= prevtic) ; return time; } static int tics; DWORD ted_start, ted_next; int I_GetTimeEventDriven (bool saveMS) { if (saveMS) { TicStart = ted_start; TicNext = ted_next; } return tics; } int I_WaitForTicEvent (int prevtic) { while (prevtic >= tics) { WaitForSingleObject (NewTicArrived, 1000/TICRATE); } return tics; } void CALLBACK TimerTicked (UINT id, UINT msg, DWORD user, DWORD dw1, DWORD dw2) { tics++; ted_start = timeGetTime (); ted_next = ted_start + MillisecondsPerTic; SetEvent (NewTicArrived); } // Returns the fractional amount of a tic passed since the most recent tic fixed_t I_GetTimeFrac (DWORD *ms) { DWORD now = timeGetTime(); if (ms) *ms = TicNext; DWORD step = TicNext - TicStart; if (step == 0) { return FRACUNIT; } else { fixed_t frac = clamp ((now - TicStart)*FRACUNIT/step, 0, FRACUNIT); return frac; } } void I_WaitVBL (int count) { // I_WaitVBL is never used to actually synchronize to the // vertical blank. Instead, it's used for delay purposes. Sleep (1000 * count / 70); } // [RH] Detect the OS the game is running under void I_DetectOS (void) { OSVERSIONINFO info; const char *osname; info.dwOSVersionInfoSize = sizeof(OSVERSIONINFO); GetVersionEx (&info); switch (info.dwPlatformId) { case VER_PLATFORM_WIN32s: OSPlatform = os_Win32s; osname = "3.x"; break; case VER_PLATFORM_WIN32_WINDOWS: OSPlatform = os_Win95; if (info.dwMinorVersion < 10) { osname = "95"; } else if (info.dwMinorVersion < 90) { osname = "98"; } else { osname = "Me"; } break; case VER_PLATFORM_WIN32_NT: OSPlatform = info.dwMajorVersion < 5 ? os_WinNT : os_Win2k; if (OSPlatform == os_WinNT) { osname = "NT"; } else if (info.dwMinorVersion == 0) { osname = "2000"; } else { osname = "XP"; } break; default: OSPlatform = os_unknown; osname = "Unknown OS"; break; } Printf ("OS: Windows %s %lu.%lu (Build %lu)\n", osname, info.dwMajorVersion, info.dwMinorVersion, OSPlatform == os_Win95 ? info.dwBuildNumber & 0xffff : info.dwBuildNumber); if (info.szCSDVersion[0]) { Printf (" %s\n", info.szCSDVersion); } if (OSPlatform == os_Win32s) { I_FatalError ("Sorry, Win32s is not supported.\n" "Upgrade to a newer version of Windows."); } else if (OSPlatform == os_unknown) { Printf ("(Assuming Windows 95)\n"); OSPlatform = os_Win95; } } // // SubsetLanguageIDs // static void SubsetLanguageIDs (LCID id, LCTYPE type, int idx) { char buf[8]; LCID langid; char *idp; if (!GetLocaleInfo (id, type, buf, 8)) return; langid = MAKELCID (strtoul(buf, NULL, 16), SORT_DEFAULT); if (!GetLocaleInfo (langid, LOCALE_SABBREVLANGNAME, buf, 8)) return; idp = (char *)(&LanguageIDs[idx]); memset (idp, 0, 4); idp[0] = tolower(buf[0]); idp[1] = tolower(buf[1]); idp[2] = tolower(buf[2]); idp[3] = 0; } // // SetLanguageIDs // void SetLanguageIDs () { size_t langlen = strlen (language); if (langlen < 2 || langlen > 3) { memset (LanguageIDs, 0, sizeof(LanguageIDs)); SubsetLanguageIDs (LOCALE_USER_DEFAULT, LOCALE_ILANGUAGE, 0); SubsetLanguageIDs (LOCALE_USER_DEFAULT, LOCALE_IDEFAULTLANGUAGE, 1); SubsetLanguageIDs (LOCALE_SYSTEM_DEFAULT, LOCALE_ILANGUAGE, 2); SubsetLanguageIDs (LOCALE_SYSTEM_DEFAULT, LOCALE_IDEFAULTLANGUAGE, 3); } else { DWORD lang = 0; ((BYTE *)&lang)[0] = (language)[0]; ((BYTE *)&lang)[1] = (language)[1]; ((BYTE *)&lang)[2] = (language)[2]; LanguageIDs[0] = lang; LanguageIDs[1] = lang; LanguageIDs[2] = lang; LanguageIDs[3] = lang; } } // // I_Init // void I_Init (void) { #ifndef USEASM memset (&CPU, 0, sizeof(CPU)); #else CheckMMX (&CPU); CalculateCPUSpeed (); // Why does Intel right-justify this string? char *f = CPU.CPUString, *t = f; while (*f == ' ') { ++f; } if (f != t) { while (*f != 0) { *t++ = *f++; } } #endif if (CPU.VendorID[0]) { Printf ("CPU Vendor ID: %s\n", CPU.VendorID); if (CPU.CPUString[0]) { Printf (" Name: %s\n", CPU.CPUString); } if (CPU.bIsAMD) { Printf (" Family %d (%d), Model %d, Stepping %d\n", CPU.Family, CPU.AMDFamily, CPU.AMDModel, CPU.AMDStepping); } else { Printf (" Family %d, Model %d, Stepping %d\n", CPU.Family, CPU.Model, CPU.Stepping); } Printf (" Features:"); if (CPU.bMMX) Printf (" MMX"); if (CPU.bMMXPlus) Printf (" MMX+"); if (CPU.bSSE) Printf (" SSE"); if (CPU.bSSE2) Printf (" SSE2"); if (CPU.bSSE3) Printf (" SSE3"); if (CPU.b3DNow) Printf (" 3DNow!"); if (CPU.b3DNowPlus) Printf (" 3DNow!+"); Printf ("\n"); } // Use a timer event if possible NewTicArrived = CreateEvent (NULL, FALSE, FALSE, NULL); if (NewTicArrived) { UINT delay; char *cmdDelay; cmdDelay = Args.CheckValue ("-timerdelay"); delay = 0; if (cmdDelay != 0) { delay = atoi (cmdDelay); } if (delay == 0) { delay = 1000/TICRATE; } TimerEventID = timeSetEvent ( delay, 0, TimerTicked, 0, TIME_PERIODIC ); MillisecondsPerTic = delay; } if (TimerEventID != 0) { I_GetTime = I_GetTimeEventDriven; I_WaitForTic = I_WaitForTicEvent; } else { // If no timer event, busy-loop with timeGetTime I_GetTime = I_GetTimePolled; I_WaitForTic = I_WaitForTicPolled; } atterm (I_ShutdownSound); I_InitSound (); I_InitInput (Window); I_InitHardware (); } void CalculateCPUSpeed () { LARGE_INTEGER freq; QueryPerformanceFrequency (&freq); if (freq.QuadPart != 0 && CPU.bRDTSC) { LARGE_INTEGER count1, count2; DWORD minDiff; cycle_t ClockCalibration = 0; // Count cycles for at least 55 milliseconds. // The performance counter is very low resolution compared to CPU // speeds today, so the longer we count, the more accurate our estimate. // On the other hand, we don't want to count too long, because we don't // want the user to notice us spend time here, since most users will // probably never use the performance statistics. minDiff = freq.LowPart * 11 / 200; // Minimize the chance of task switching during the testing by going very // high priority. This is another reason to avoid timing for too long. SetPriorityClass (GetCurrentProcess (), REALTIME_PRIORITY_CLASS); SetThreadPriority (GetCurrentThread (), THREAD_PRIORITY_TIME_CRITICAL); clock (ClockCalibration); QueryPerformanceCounter (&count1); do { QueryPerformanceCounter (&count2); } while ((DWORD)((unsigned __int64)count2.QuadPart - (unsigned __int64)count1.QuadPart) < minDiff); unclock (ClockCalibration); QueryPerformanceCounter (&count2); SetPriorityClass (GetCurrentProcess (), NORMAL_PRIORITY_CLASS); SetThreadPriority (GetCurrentThread (), THREAD_PRIORITY_NORMAL); CyclesPerSecond = (double)ClockCalibration * (double)freq.QuadPart / (double)((__int64)count2.QuadPart - (__int64)count1.QuadPart); SecondsPerCycle = 1.0 / CyclesPerSecond; } else { Printf ("Can't determine CPU speed, so pretending.\n"); } Printf ("CPU Speed: %f MHz\n", CyclesPerSecond / 1e6); } // // I_Quit // static int has_exited; void I_Quit (void) { has_exited = 1; /* Prevent infinitely recursive exits -- killough */ if (TimerEventID) timeKillEvent (TimerEventID); if (NewTicArrived) CloseHandle (NewTicArrived); timeEndPeriod (TimerPeriod); if (demorecording) G_CheckDemoStatus(); G_ClearSnapshots (); } // // I_Error // extern FILE *Logfile; BOOL gameisdead; void STACK_ARGS I_FatalError (const char *error, ...) { static BOOL alreadyThrown = false; gameisdead = true; if (!alreadyThrown) // ignore all but the first message -- killough { char errortext[MAX_ERRORTEXT]; int index; va_list argptr; va_start (argptr, error); index = vsprintf (errortext, error, argptr); // GetLastError() is usually useless because we don't do a lot of Win32 stuff // sprintf (errortext + index, "\nGetLastError = %ld", GetLastError()); va_end (argptr); // Record error to log (if logging) if (Logfile) fprintf (Logfile, "\n**** DIED WITH FATAL ERROR:\n%s\n", errortext); throw CFatalError (errortext); } if (!has_exited) // If it hasn't exited yet, exit now -- killough { has_exited = 1; // Prevent infinitely recursive exits -- killough exit(-1); } } void STACK_ARGS I_Error (const char *error, ...) { va_list argptr; char errortext[MAX_ERRORTEXT]; va_start (argptr, error); vsprintf (errortext, error, argptr); va_end (argptr); throw CRecoverableError (errortext); } char DoomStartupTitle[256] = { 0 }; void I_SetTitleString (const char *title) { int i; for (i = 0; title[i]; i++) DoomStartupTitle[i] = title[i]; } void I_PrintStr (const char *cp, bool lineBreak) { if (ConWindow == NULL) return; static bool newLine = true; HWND edit = (HWND)(LONG_PTR)GetWindowLongPtr (ConWindow, GWLP_USERDATA); char buf[256]; int bpos = 0; SendMessage (edit, EM_SETSEL, (WPARAM)-1, 0); if (lineBreak && !newLine) { buf[0] = '\r'; buf[1] = '\n'; bpos = 2; } while (*cp != 0) { if (*cp == 28) { // Skip color changes if (*++cp != 0) cp++; continue; } if (bpos < 253) { // Stupid edit controls need CR-LF pairs if (*cp == '\n') { buf[bpos++] = '\r'; } } else { buf[bpos] = 0; SendMessage (edit, EM_REPLACESEL, FALSE, (LPARAM)buf); newLine = buf[bpos-1] == '\n'; bpos = 0; } buf[bpos++] = *cp++; } if (bpos != 0) { buf[bpos] = 0; SendMessage (edit, EM_REPLACESEL, FALSE, (LPARAM)buf); newLine = buf[bpos-1] == '\n'; } } EXTERN_CVAR (Bool, queryiwad); static WadStuff *WadList; static int NumWads; static void SetQueryIWad (HWND dialog) { HWND checkbox = GetDlgItem (dialog, IDC_DONTASKIWAD); int state = SendMessage (checkbox, BM_GETCHECK, 0, 0); queryiwad = (state != BST_CHECKED); } BOOL CALLBACK IWADBoxCallback (HWND hDlg, UINT message, WPARAM wParam, LPARAM lParam) { HWND list; int i; switch (message) { case WM_INITDIALOG: list = GetDlgItem (hDlg, IDC_IWADLIST); for (i = 0; i < NumWads; i++) { char work[256]; char *filepart = strrchr (WadList[i].Path, '/'); if (filepart == NULL) filepart = WadList[i].Path; else filepart++; sprintf (work, "%s (%s)", IWADTypeNames[WadList[i].Type], filepart); SendMessage (list, LB_ADDSTRING, 0, (LPARAM)work); SendMessage (list, LB_SETITEMDATA, i, (LPARAM)i); } SendMessage (list, LB_SETCURSEL, 0, 0); SetFocus (list); break; case WM_COMMAND: if (LOWORD(wParam) == IDCANCEL) { EndDialog (hDlg, -1); } else if (LOWORD(wParam) == IDOK || (LOWORD(wParam) == IDC_IWADLIST && HIWORD(wParam) == LBN_DBLCLK)) { SetQueryIWad (hDlg); list = GetDlgItem (hDlg, IDC_IWADLIST); EndDialog (hDlg, SendMessage (list, LB_GETCURSEL, 0, 0)); } break; } return FALSE; } int I_PickIWad (WadStuff *wads, int numwads) { WadList = wads; NumWads = numwads; return DialogBox (g_hInst, MAKEINTRESOURCE(IDD_IWADDIALOG), (HWND)Window, (DLGPROC)IWADBoxCallback); } void *I_FindFirst (const char *filespec, findstate_t *fileinfo) { return FindFirstFileA (filespec, (LPWIN32_FIND_DATAA)fileinfo); } int I_FindNext (void *handle, findstate_t *fileinfo) { return !FindNextFileA ((HANDLE)handle, (LPWIN32_FIND_DATAA)fileinfo); } int I_FindClose (void *handle) { return FindClose ((HANDLE)handle); }