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Add sys_clockprecision to see if it helps with timer precision on windows. Set to 1 if having issues.
git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5806 fc73d0e0-1445-4013-8a0c-d673dee63da5
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e26f26e170
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1 changed files with 143 additions and 91 deletions
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@ -48,6 +48,7 @@ __declspec(dllexport) int AmdPowerXpressRequestHighPerformance = 1; //13.35+
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static void Sys_InitClock(void);
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static void Sys_ClockType_Changed(cvar_t *var, char *oldval);
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static void Sys_ClockPrecision_Changed(cvar_t *var, char *oldval);
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#ifdef WINRT //you're going to need a different sys_ port.
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qboolean isDedicated = false;
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@ -1537,7 +1538,8 @@ static void QDECL Sys_Priority_Changed(cvar_t *var, char *oldval)
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SetPriorityClass(h, pc);
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}
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static cvar_t sys_priority = CVARFCD("sys_highpriority", "0", CVAR_NOTFROMSERVER, Sys_Priority_Changed, "Controls the process priority");
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static cvar_t sys_clocktype = CVARFCD("sys_clocktype", "", CVAR_NOTFROMSERVER, Sys_ClockType_Changed, "Controls which system clock to base timings from.\n0: auto\n1: timeGetTime (low precision).\n2: QueryPerformanceCounter (may drift, desync between cpu cores, or run fast with longer uptimes depending on cpu(s) and windows version).");
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static cvar_t sys_clocktype = CVARFCD("sys_clocktype", "", CVAR_NOTFROMSERVER, Sys_ClockType_Changed, "Controls which system clock to base timings from.\n0: auto\n1: timeGetTime (low precision).\n2: QueryPerformanceCounter (may drift, desync between cpu cores, or run fast with longer uptimes depending on cpu(s) and windows version).\n3: QueryPerformanceCounter-with-force-affinity (shouldn't drift, but may result in less cpu time available).");
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static cvar_t sys_clockprecision = CVARFCD("sys_clockprecision", "", CVAR_NOTFROMSERVER, Sys_ClockPrecision_Changed, "Attempts to control windows' interrupt interval, in milliseconds. This can cause windows to give better clock precision and shorter waits, but also more overhead from process rescheduling.");
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/*
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================
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Sys_Init
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@ -1553,6 +1555,7 @@ void Sys_Init (void)
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Cvar_Register(&sys_priority, "System vars");
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Cvar_Register(&sys_clocktype, "System vars");
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Cvar_Register(&sys_clockprecision, "System vars");
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#ifndef SERVERONLY
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Cvar_Register(&sys_disableWinKeys, "System vars");
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Cvar_Register(&sys_disableTaskSwitch, "System vars");
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@ -1744,8 +1747,147 @@ void VARGS Sys_Printf (char *fmt, ...)
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}
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}
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static quint64_t timer_qpc_frequency;
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static unsigned int timer_tgt_period;
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static quint64_t timer_basetime; //used by all clocks to bias them to starting at 0
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static DWORD_PTR timer_threadaffinity;
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static enum
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{
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CLOCK_TGT = 1,
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CLOCK_QPC = 2,
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CLOCK_QPC_SINGLE = 3,
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} timer_clocktype;
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static quint64_t Sys_GetClock(quint64_t *freq)
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{
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if (timer_clocktype == CLOCK_QPC || timer_clocktype == CLOCK_QPC_SINGLE)
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{
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static LARGE_INTEGER last;
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LARGE_INTEGER pc;
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QueryPerformanceCounter(&pc);
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*freq = timer_qpc_frequency;
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if (last.QuadPart <= pc.QuadPart) //never let it go backwards. multiple cpus are bad. ignore it till it catches up.
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last.QuadPart = pc.QuadPart;
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return last.QuadPart - timer_basetime;
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}
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else //if (timer_clocktype == CLOCK_TGT)
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{
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static DWORD last;
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DWORD cur = timeGetTime();
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if (last > cur)
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{
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timer_basetime -= (quint64_t)1 << 32; //if it wrapped then try to compensate with the 64bit var that we do use so that Sys_DoubleTime won't suddenly go backwards
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if (host_initialized)
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Con_Printf("Clock wrapped\n");
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}
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last = cur;
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*freq = 1000;
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return last - timer_basetime;
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}
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}
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static void Sys_ClockType_Changed(cvar_t *var, char *oldval)
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{
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int newtype = var?var->ival:0;
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if (newtype <= 0)
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newtype = CLOCK_QPC;
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if ((newtype == CLOCK_QPC || newtype == CLOCK_QPC_SINGLE) && !timer_qpc_frequency)
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newtype = CLOCK_TGT; //QueryPerformanceCounter can fail on older versions of windows.
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if (newtype != timer_clocktype)
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{
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quint64_t oldtime, oldfreq;
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quint64_t newtime, newfreq;
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oldtime = Sys_GetClock(&oldfreq);
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//kill old clock's evil global settings
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if (timer_clocktype == CLOCK_TGT)
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timeEndPeriod(timer_tgt_period);
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if (timer_clocktype == CLOCK_QPC_SINGLE) //restore it.
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SetThreadAffinityMask(GetCurrentThread(), timer_threadaffinity);
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//override necessary global state for new clock mode
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if (newtype == CLOCK_QPC_SINGLE) //lock it down to a single core
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{
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DWORD_PTR old = timer_threadaffinity, sys, m;
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if (!old)
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{ //try and get the default/existing value....
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GetProcessAffinityMask(GetCurrentProcess(), &old, &sys); //wtf? there is no thread call!
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old &= sys;
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}
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for (m = 1; old > m; m<<=1)
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; //scan to find the LAST cpu. First cpu often has overheads like interrupt handling, second is weird and unreliable (and often hyperthreads with the first).
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old = SetThreadAffinityMask(GetCurrentThread(), old);
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if (!timer_threadaffinity)
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timer_threadaffinity = old;
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}
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if (newtype == CLOCK_TGT)
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{
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timeBeginPeriod(timer_tgt_period);
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if (host_initialized && timer_tgt_period > 1)
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Con_Printf(CON_WARNING"System timer is limited to only %ums precision\n", timer_tgt_period);
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}
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//switch over internal state
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timer_clocktype = newtype;
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timer_basetime = 0;
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newtime = Sys_GetClock(&newfreq);
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//and fix the bias to avoid crazy stalls due to offsets/frequencies changing.
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timer_basetime = newtime - (newfreq * (oldtime) / oldfreq);
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}
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}
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static void Sys_InitClock(void)
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{
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quint64_t freq;
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TIMECAPS tc;
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LARGE_INTEGER t;
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//QPC timer
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if (QueryPerformanceFrequency(&t))
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timer_qpc_frequency = t.QuadPart;
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else
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timer_qpc_frequency = 0;
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//TGT timer
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timeGetDevCaps(&tc, sizeof(tc));
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timer_tgt_period = max(1,tc.wPeriodMin); //make sure its at least 1, because 0 is probably a bug...
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//calibrate it, and apply.
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timer_basetime = Sys_GetClock(&freq);
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Sys_ClockType_Changed(&sys_clocktype, NULL);
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}
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double Sys_DoubleTime (void)
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{
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quint64_t denum, num = Sys_GetClock(&denum);
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return num / (long double)denum;
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}
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unsigned int Sys_Milliseconds (void)
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{
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quint64_t denum, num = Sys_GetClock(&denum);
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num *= 1000;
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return num / denum;
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}
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static unsigned int sys_interrupt_freq;
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static void Sys_ClockPrecision_Changed(cvar_t *var, char *oldval)
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{
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if (sys_interrupt_freq)
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timeEndPeriod(sys_interrupt_freq);
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sys_interrupt_freq = 0;
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if (var && var->ival > 0)
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{
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sys_interrupt_freq = var->ival;
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if (TIMERR_NOERROR != timeBeginPeriod(sys_interrupt_freq))
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Con_Printf(CON_ERROR"%s: timeBeginPeriod(%u) failed.\n", var->name, sys_interrupt_freq);
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}
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}
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void Sys_Quit (void)
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{
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Sys_ClockType_Changed(NULL, NULL);
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Sys_ClockPrecision_Changed(NULL, NULL);
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#ifndef SERVERONLY
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SetHookState(false);
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@ -1770,97 +1912,7 @@ void Sys_Quit (void)
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exit(1);
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}
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static quint64_t timer_qpc_frequency;
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static unsigned int timer_tgt_period;
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static quint64_t timer_basetime; //used by all clocks to bias them to starting at 0
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static enum
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{
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CLOCK_TGT = 1,
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CLOCK_QPC = 2,
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} timer_clocktype;
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static quint64_t Sys_GetClock(quint64_t *freq)
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{
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if (timer_clocktype == CLOCK_QPC)
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{
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static LARGE_INTEGER last;
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LARGE_INTEGER pc;
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QueryPerformanceCounter(&pc);
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*freq = timer_qpc_frequency;
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if (last.QuadPart <= pc.QuadPart) //never let it go backwards. multiple cpus are bad. ignore it till it catches up.
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last.QuadPart = pc.QuadPart;
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return last.QuadPart - timer_basetime;
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}
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else //if (timer_clocktype == CLOCK_TGT)
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{
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static DWORD last;
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DWORD cur = timeGetTime();
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if (last > cur)
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timer_basetime -= (quint64_t)1 << 32; //if it wrapped then try to compensate with the 64bit var that we do use so that Sys_DoubleTime won't suddenly go backwards
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last = cur;
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*freq = 1000;
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return last - timer_basetime;
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}
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}
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static void Sys_ClockType_Changed(cvar_t *var, char *oldval)
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{
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int newtype = var?var->ival:0;
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if (newtype <= 0)
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newtype = CLOCK_QPC;
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if (newtype == CLOCK_QPC && !timer_qpc_frequency)
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newtype = CLOCK_TGT;
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if (newtype != timer_clocktype)
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{
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quint64_t oldtime, oldfreq;
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quint64_t newtime, newfreq;
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oldtime = Sys_GetClock(&oldfreq);
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if (timer_clocktype == CLOCK_TGT)
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timeEndPeriod(timer_tgt_period);
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if (newtype == CLOCK_TGT)
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{
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timeBeginPeriod(timer_tgt_period);
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if (host_initialized && timer_tgt_period > 1)
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Con_Printf(CON_WARNING"System timer is limited to only %ums precision\n", timer_tgt_period);
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}
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timer_clocktype = newtype;
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timer_basetime = 0;
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newtime = Sys_GetClock(&newfreq);
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timer_basetime = newtime - (newfreq * (oldtime) / oldfreq);
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}
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}
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static void Sys_InitClock(void)
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{
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quint64_t freq;
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TIMECAPS tc;
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LARGE_INTEGER t;
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//QPC timer
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if (QueryPerformanceFrequency(&t))
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timer_qpc_frequency = t.QuadPart;
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else
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timer_qpc_frequency = 0;
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//TGT timer
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timeGetDevCaps(&tc, sizeof(tc));
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timer_tgt_period = max(1,tc.wPeriodMin); //make sure its at least 1, because 0 is probably a bug...
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//calibrate it, and apply.
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timer_basetime = Sys_GetClock(&freq);
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Sys_ClockType_Changed(NULL, NULL);
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}
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double Sys_DoubleTime (void)
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{
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quint64_t denum, num = Sys_GetClock(&denum);
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return num / (long double)denum;
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}
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unsigned int Sys_Milliseconds (void)
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{
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quint64_t denum, num = Sys_GetClock(&denum);
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num *= 1000;
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return num / denum;
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}
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#if 0
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/*
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================
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