// SONIC ROBO BLAST 2 //----------------------------------------------------------------------------- // Copyright (C) 1993-1996 by id Software, Inc. // Copyright (C) 1998-2000 by DooM Legacy Team. // Copyright (C) 1999-2022 by Sonic Team Junior. // // This program is free software distributed under the // terms of the GNU General Public License, version 2. // See the 'LICENSE' file for more details. //----------------------------------------------------------------------------- /// \file i_time.c /// \brief Timing for the system layer. #include "i_time.h" #include #include "command.h" #include "doomtype.h" #include "d_netcmd.h" #include "m_fixed.h" #include "i_system.h" timestate_t g_time; static CV_PossibleValue_t timescale_cons_t[] = {{FRACUNIT/20, "MIN"}, {20*FRACUNIT, "MAX"}, {0, NULL}}; consvar_t cv_timescale = CVAR_INIT ("timescale", "1.0", CV_NETVAR|CV_CHEAT|CV_FLOAT, timescale_cons_t, NULL); static precise_t enterprecise, oldenterprecise; static fixed_t entertic, oldentertics; static double tictimer; // A little more than the minimum sleep duration on Windows. // May be incorrect for other platforms, but we don't currently have a way to // query the scheduler granularity. SDL will do what's needed to make this as // low as possible though. #define MIN_SLEEP_DURATION_MS 2.1 tic_t I_GetTime(void) { return g_time.time; } void I_InitializeTime(void) { g_time.time = 0; g_time.timefrac = 0; enterprecise = 0; oldenterprecise = 0; tictimer = 0.0; CV_RegisterVar(&cv_timescale); // I_StartupTimer is preserved for potential subsystems that need to setup // timing information for I_GetPreciseTime and sleeping I_StartupTimer(); } void I_UpdateTime(fixed_t timescale) { double ticratescaled; double elapsedseconds; tic_t realtics; // get real tics ticratescaled = (double)TICRATE * FIXED_TO_FLOAT(timescale); enterprecise = I_GetPreciseTime(); elapsedseconds = (double)(enterprecise - oldenterprecise) / I_GetPrecisePrecision(); tictimer += elapsedseconds; while (tictimer > 1.0/ticratescaled) { entertic += 1; tictimer -= 1.0/ticratescaled; } realtics = entertic - oldentertics; oldentertics = entertic; oldenterprecise = enterprecise; // Update global time state g_time.time += realtics; { double fractional, integral; fractional = modf(tictimer * ticratescaled, &integral); g_time.timefrac = FLOAT_TO_FIXED(fractional); } } void I_SleepDuration(precise_t duration) { UINT64 precision = I_GetPrecisePrecision(); INT32 sleepvalue = cv_sleep.value; UINT64 delaygranularity; precise_t cur; precise_t dest; { double gran = round(((double)(precision / 1000) * sleepvalue * MIN_SLEEP_DURATION_MS)); delaygranularity = (UINT64)gran; } cur = I_GetPreciseTime(); dest = cur + duration; // the reason this is not dest > cur is because the precise counter may wrap // two's complement arithmetic is our friend here, though! // e.g. cur 0xFFFFFFFFFFFFFFFE = -2, dest 0x0000000000000001 = 1 // 0x0000000000000001 - 0xFFFFFFFFFFFFFFFE = 3 while ((INT64)(dest - cur) > 0) { // If our cv_sleep value exceeds the remaining sleep duration, use the // hard sleep function. if (sleepvalue > 0 && (dest - cur) > delaygranularity) { I_Sleep(sleepvalue); } // Otherwise, this is a spinloop. cur = I_GetPreciseTime(); } }