OU
/
CWE-ou-minkata
mirror of https://foundry.openuru.org/gitblit/r/CWE-ou-minkata.git
2
1
Fork 0
Code Releases Activity
Browse Source

Merge pull request #418 from dpogue/timer 

std::chrono hsTimer
Adam Johnson 10 years ago
parent
f783af5eff f5b2bddbb2
commit
04cb57a2ad
21 changed files with 183 additions and 525 deletions
Whitespace
Show all changes Ignore whitespace when comparing lines Ignore changes in amount of whitespace Ignore changes in whitespace at EOL
Split View
Diff Options
Show Stats Download Patch File Download Diff File
  1. 4
      Sources/Plasma/FeatureLib/pfConsole/pfConsole.cpp
  2. 4
      Sources/Plasma/FeatureLib/pfConsole/pfDispatchLog.cpp
  3. 174
      Sources/Plasma/NucleusLib/inc/hsTimer.h
  4. 10
      Sources/Plasma/NucleusLib/inc/plProfile.h
  5. 148
      Sources/Plasma/NucleusLib/inc/plProfileManager.cpp
  6. 10
      Sources/Plasma/NucleusLib/inc/plProfileManager.h
  7. 10
      Sources/Plasma/NucleusLib/pnDispatch/plDispatch.cpp
  8. 2
      Sources/Plasma/NucleusLib/pnNetCli/pnNetCli.h
  9. 192
      Sources/Plasma/NucleusLib/pnTimer/hsTimer.cpp
  10. 79
      Sources/Plasma/NucleusLib/pnUtils/pnUtTime.cpp
  11. 18
      Sources/Plasma/NucleusLib/pnUtils/pnUtTime.h
  12. 1
      Sources/Plasma/PubUtilLib/plNetGameLib/Pch.h
  13. 4
      Sources/Plasma/PubUtilLib/plNetGameLib/Private/plNglAuth.cpp
  14. 14
      Sources/Plasma/PubUtilLib/plNetGameLib/Private/plNglFile.cpp
  15. 2
      Sources/Plasma/PubUtilLib/plNetGameLib/Private/plNglGame.cpp
  16. 4
      Sources/Plasma/PubUtilLib/plNetGameLib/Private/plNglGateKeeper.cpp
  17. 8
      Sources/Plasma/PubUtilLib/plNetGameLib/Private/plNglTrans.cpp
  18. 2
      Sources/Plasma/PubUtilLib/plPipeline/plDTProgressMgr.cpp
  19. 14
      Sources/Plasma/PubUtilLib/plResMgr/plResManager.cpp
  20. 6
      Sources/Plasma/PubUtilLib/plStatGather/plAutoProfile.cpp
  21. 2
      Sources/Plasma/PubUtilLib/plVault/plVaultClientApi.cpp

4
Sources/Plasma/FeatureLib/pfConsole/pfConsole.cpp
Unescape View File

@ -1024,8 +1024,8 @@ void pfConsole::Draw( plPipeline *p )
plDebugText& drawText = plDebugText::Instance();
thisTime = (float)hsTimer::PrecTicksToSecs( hsTimer::GetPrecTickCount() );
thisTime = hsTimer::GetSeconds<float>();
if( fMode == kModeHidden && fEffectCounter == 0 )
{

4
Sources/Plasma/FeatureLib/pfConsole/pfDispatchLog.cpp
Unescape View File

@ -52,7 +52,7 @@ static bool DumpSpecificMsgInfo(plMessage* msg, plString& info);
plDispatchLog::plDispatchLog() :
fLog(nil),
fStartTicks(hsTimer::GetFullTickCount())
fStartTicks(hsTimer::GetTicks())
{
fLog = plStatusLogMgr::GetInstance().CreateStatusLog(20, "Dispatch.log", plStatusLog::kAlignToTop | plStatusLog::kFilledBackground | plStatusLog::kRawTimeStamp);
fIncludeTypes.SetSize(plFactory::GetNumClasses());
@ -130,7 +130,7 @@ void plDispatchLog::DumpMsg(plMessage* msg, int numReceivers, int sendTimeMs, in
fLog->AddLine("\n");
}
float sendTime = hsTimer::FullTicksToMs(hsTimer::GetFullTickCount() - fStartTicks);
float sendTime = hsTimer::GetMilliSeconds<float>(hsTimer::GetTicks() - fStartTicks);
char indentStr[50];
indent = hsMinimum(indent, sizeof(indentStr)-1);

174
Sources/Plasma/NucleusLib/inc/hsTimer.h
Unescape View File

@ -42,117 +42,139 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
#ifndef hsTimer_Defined
#define hsTimer_Defined
#include "hsWide.h"
#include <chrono>
class plTimerShare
{
private:
typedef std::chrono::high_resolution_clock Clock;
typedef std::chrono::time_point<Clock> TimePoint;
typedef Clock::duration Duration;
protected:
mutable bool fFirstTime;
mutable hsWide fRawTimeZero;
mutable TimePoint fRawTimeZero;
mutable bool fResetSmooth;
enum {
kSmoothBuffLen = 10
};
double fSmoothBuff[kSmoothBuffLen];
int fCurrSlot;
float fSysTimeScale;
double fRealSeconds;
double fSysSeconds;
float fDelSysSeconds;
float fFrameTimeInc;
bool fRunningFrameTime;
float fTimeClampSecs;
float fSmoothingClampSecs;
bool fClamping;
hsWide* FactorInTimeZero(hsWide* ticks) const;
double GetSeconds() const;
double GetMilliSeconds() const;
hsWide* GetRawTicks(hsWide* ticks) const;
double RawTicksToDSeconds(const hsWide& ticks);
hsWide DSecondsToRawTicks(double secs);
float GetDelSysSeconds() const { return fDelSysSeconds; }
double GetSysSeconds() const { return fSysSeconds; }
double IncSysSeconds();
double fSmoothBuff[kSmoothBuffLen];
int fCurrSlot;
float fSysTimeScale;
double fRealSeconds;
double fSysSeconds;
float fDelSysSeconds;
float fFrameTimeInc;
bool fRunningFrameTime;
float fTimeClampSecs;
float fSmoothingClampSecs;
bool fClamping;
template<typename T = double>
T GetSeconds() const
{
typedef std::chrono::duration<T> duration_type;
Duration d = GetRawTicks();
return std::chrono::duration_cast<duration_type>(d).count();
}
template<typename T = double>
T GetSeconds(uint64_t ticks) const
{
typedef std::chrono::duration<T> duration_type;
Duration d(ticks);
return std::chrono::duration_cast<duration_type>(d).count();
}
template<typename T = double>
T GetMilliSeconds() const
{
typedef std::chrono::duration<T, std::milli> duration_type;
Duration d = GetRawTicks();
return std::chrono::duration_cast<duration_type>(d).count();
}
template<typename T = double>
T GetMilliSeconds(uint64_t ticks) const
{
typedef std::chrono::duration<T, std::milli> duration_type;
Duration d(ticks);
return std::chrono::duration_cast<duration_type>(d).count();
}
uint64_t GetTicks() const;
float GetDelSysSeconds() const { return fDelSysSeconds; }
double GetSysSeconds() const { return fSysSeconds; }
double IncSysSeconds();
void SetRealTime(bool realTime);
bool IsRealTime() const { return !fRunningFrameTime; }
void SetFrameTimeInc(float inc) { fFrameTimeInc = inc; }
void SetTimeScale(float s) { fSysTimeScale = s; }
float GetTimeScale() const { return fSysTimeScale; }
void SetTimeClamp(float secs) { fTimeClampSecs = secs; }
void SetSmoothingCap(float secs) { fSmoothingClampSecs = secs; }
float GetTimeClamp() const { return fTimeClampSecs; }
bool IsClamping() const { return fClamping; }
void SetRealTime(bool realTime);
bool IsRealTime() const { return !fRunningFrameTime; }
friend class hsTimer;
void SetFrameTimeInc(float inc) { fFrameTimeInc = inc; }
void SetTimeScale(float s) { fSysTimeScale = s; }
float GetTimeScale() const { return fSysTimeScale; }
private:
Duration GetRawTicks() const;
void SetTimeClamp(float secs) { fTimeClampSecs = secs; }
void SetSmoothingCap(float secs) { fSmoothingClampSecs = secs; }
float GetTimeClamp() const { return fTimeClampSecs; }
bool IsClamping() const { return fClamping; }
friend class hsTimer;
public:
plTimerShare();
~plTimerShare();
};
class hsTimer
class hsTimer
{
protected:
static const double fPrecTicksPerSec;
static const hsWide fRawBase;
static hsWide IInitRawBase();
static plTimerShare* fTimer;
public:
static bool VerifyRawBase() { return fRawBase == IInitRawBase(); }
static const hsWide& GetRawBase() { return fRawBase; }
static hsWide* GetRawTicks(hsWide* ticks) { return fTimer->GetRawTicks(ticks); }
public:
template<typename T = double>
static T GetSeconds() { return fTimer->GetSeconds<T>(); }
static double GetSeconds() { return fTimer->GetSeconds(); }
static double GetMilliSeconds() { return fTimer->GetMilliSeconds(); }
template<typename T = double>
static T GetSeconds(uint64_t ticks) { return fTimer->GetSeconds<T>(ticks); }
static double RawTicksToDSeconds(const hsWide& ticks) { return fTimer->RawTicksToDSeconds(ticks); }
static hsWide DSecondsToRawTicks(double secs) { return fTimer->DSecondsToRawTicks(secs); }
template<typename T = double>
static T GetMilliSeconds() { return fTimer->GetMilliSeconds<T>(); }
static float GetDelSysSeconds() { return fTimer->GetDelSysSeconds(); }
static double GetSysSeconds() { return fTimer->GetSysSeconds(); }
template<typename T = double>
static T GetMilliSeconds(uint64_t ticks) { return fTimer->GetMilliSeconds<T>(ticks); }
static double IncSysSeconds() { return fTimer->IncSysSeconds(); }
static uint64_t GetTicks() { return fTimer->GetTicks(); }
static void SetRealTime(bool realTime) { fTimer->SetRealTime(realTime); }
static bool IsRealTime() { return fTimer->IsRealTime(); }
static float GetDelSysSeconds() { return fTimer->GetDelSysSeconds(); }
static double GetSysSeconds() { return fTimer->GetSysSeconds(); }
static void SetFrameTimeInc(float inc) { fTimer->SetFrameTimeInc(inc); }
static double IncSysSeconds() { return fTimer->IncSysSeconds(); }
static void SetTimeScale(float s) { fTimer->SetTimeScale(s); }
static float GetTimeScale() { return fTimer->GetTimeScale(); }
static void SetRealTime(bool realTime) { fTimer->SetRealTime(realTime); }
static bool IsRealTime() { return fTimer->IsRealTime(); }
static void SetTimeClamp(float secs) { fTimer->SetTimeClamp(secs); }
static void SetTimeSmoothingClamp(float secs) { fTimer->SetSmoothingCap(secs); }
static float GetTimeClamp() { return fTimer->GetTimeClamp(); }
static bool IsClamping() { return fTimer->IsClamping(); }
static void SetFrameTimeInc(float inc) { fTimer->SetFrameTimeInc(inc); }
///////////////////////////
// Precision timer routines - these are stateless and implemented as statics.
///////////////////////////
static uint32_t GetPrecTickCount();
static double GetPrecTicksPerSec();
static uint32_t PrecSecsToTicks(float secs);
static double PrecTicksToSecs(uint32_t ticks);
static double PrecTicksToHz(uint32_t ticks);
static void SetTimeScale(float s) { fTimer->SetTimeScale(s); }
static float GetTimeScale() { return fTimer->GetTimeScale(); }
// If you need to time something longer than 20 seconds, use this instead of
// the precision timer. It works the same, it just gives you full resolution.
static uint64_t GetFullTickCount();
static float FullTicksToMs(uint64_t ticks);
static void SetTimeClamp(float secs) { fTimer->SetTimeClamp(secs); }
static void SetTimeSmoothingClamp(float secs) { fTimer->SetSmoothingCap(secs); }
static float GetTimeClamp() { return fTimer->GetTimeClamp(); }
static bool IsClamping() { return fTimer->IsClamping(); }
//
// Pass GetTheTimer() into other process space, and then call SetTheTimer() on it.

10
Sources/Plasma/NucleusLib/inc/plProfile.h
Unescape View File

@ -153,7 +153,7 @@ public:
protected:
const char* fName; // Name of timer
uint32_t fValue;
uint64_t fValue;
uint32_t fAvgCount;
uint64_t fAvgTotal;
@ -168,7 +168,7 @@ protected:
void IAddAvg();
void IPrintValue(uint32_t value, char* buf, bool printType);
void IPrintValue(uint64_t value, char* buf, bool printType);
public:
plProfileBase();
@ -179,7 +179,7 @@ public:
void UpdateAvg();
uint32_t GetValue();
uint64_t GetValue();
void PrintValue(char* buf, bool printType=true);
void PrintAvg(char* buf, bool printType=true);
@ -230,7 +230,7 @@ public:
void Inc(int i = 1) { fValue += i;}
void Dec(int i = 1) { fValue -= i;}
void Set(uint32_t value) { fValue = value; }
void Set(uint64_t value) { fValue = value; }
//
// For multiple timings per frame of the same thing ie. Each particle system
@ -249,4 +249,4 @@ public:
void SetLapsActive(bool s) { fLapsActive = s; }
};
#endif // plProfile_h_inc
#endif // plProfile_h_inc

148
Sources/Plasma/NucleusLib/inc/plProfileManager.cpp
Unescape View File

@ -42,136 +42,10 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
#include "plProfileManager.h"
#include "plProfile.h"
#include "hsTimer.h"
#include "hsWindows.h"
static uint32_t gCyclesPerMS = 0;
#ifdef HS_BUILD_FOR_WIN32
#define USE_FAST_TIMER
#endif
#ifdef USE_FAST_TIMER
#pragma warning (push)
#pragma warning (disable : 4035) // disable no return value warning
#ifdef _MSC_VER
#define forceinline __forceinline
#else
#define forceinline inline
#endif
forceinline uint32_t GetPentiumCounter()
{
#ifdef _MSC_VER
__asm {
xor eax,eax // VC won't realize that eax is modified w/out this
// instruction to modify the val.
// Problem shows up in release mode builds
_emit 0x0F // Pentium high-freq counter to edx;eax
_emit 0x31 // only care about low 32 bits in eax
xor edx,edx // so VC gets that edx is modified
}
#endif
}
#pragma warning (pop)
static uint32_t GetProcSpeed()
{
const char* keypath[] =
{
"HARDWARE",
"DESCRIPTION",
"System",
"CentralProcessor",
"0"
};
HKEY hKey = HKEY_LOCAL_MACHINE;
int numKeys = sizeof(keypath) / sizeof(char*);
for (int i = 0; i < numKeys; i++)
{
HKEY thisKey = NULL;
bool success = (RegOpenKeyEx(hKey, keypath[i], 0, KEY_READ, &thisKey) == ERROR_SUCCESS);
RegCloseKey(hKey);
hKey = thisKey;
if (!success)
return 0;
}
DWORD value=0, size=sizeof(DWORD);
bool success = (RegQueryValueEx(hKey, "~MHz", 0, NULL, (BYTE*)&value, &size) == ERROR_SUCCESS);
RegCloseKey(hKey);
return value*1000000;
}
uint32_t GetProcSpeedAlt()
{
const uint32_t kSamplePeriodMS = 250;
// Raise priority to avoid interference from other threads.
int priority = GetThreadPriority(GetCurrentThread());
SetThreadPriority(GetCurrentThread(), THREAD_PRIORITY_TIME_CRITICAL);
uint32_t startTicks, endTicks;
uint64_t pcStart, pcEnd;
// Count number of processor cycles inside the specified interval
QueryPerformanceCounter((LARGE_INTEGER*)&pcStart);
startTicks = plProfileManager::GetTime();
Sleep(kSamplePeriodMS);
endTicks = plProfileManager::GetTime();
QueryPerformanceCounter((LARGE_INTEGER*)&pcEnd);
// Restore thread priority.
SetThreadPriority(GetCurrentThread(), priority);
// Calculate Rdtsc/PerformanceCounter ratio;
uint32_t numTicks = endTicks - startTicks;
uint64_t pcDiff = pcEnd - pcStart;
double ratio = double(numTicks) / double(pcDiff);
uint64_t pcFreq;
QueryPerformanceFrequency((LARGE_INTEGER*)&pcFreq);
// Calculate CPU frequency.
uint64_t cpuFreq = uint64_t(pcFreq * ratio);
return (uint32_t)cpuFreq;
}
#define GetProfileTicks() GetPentiumCounter()
#else
#define GetProfileTicks() hsTimer::GetPrecTickCount()
#endif // USE_FAST_TIMER
#define TicksToMSec(t) (float(t) / float(gCyclesPerMS))
#define MSecToTicks(t) (float(t) * float(gCyclesPerMS))
plProfileManager::plProfileManager() : fLastAvgTime(0), fProcessorSpeed(0)
{
#ifdef USE_FAST_TIMER
fProcessorSpeed = GetProcSpeed();
// Registry stuff only works on NT OS's, have to calc it otherwise
if (fProcessorSpeed == 0)
fProcessorSpeed = GetProcSpeedAlt();
gCyclesPerMS = fProcessorSpeed / 1000;
#else
gCyclesPerMS = hsTimer::GetPrecTicksPerSec() / 1000;
#endif
}
plProfileManager::~plProfileManager()
@ -251,9 +125,9 @@ void plProfileManager::EndFrame()
}
}
uint32_t plProfileManager::GetTime()
uint64_t plProfileManager::GetTime()
{
return GetProfileTicks();
return hsTimer::GetTicks();
}
///////////////////////////////////////////////////////////////////////////////
@ -300,10 +174,10 @@ void plProfileBase::UpdateAvg()
}
}
uint32_t plProfileBase::GetValue()
uint64_t plProfileBase::GetValue()
{
if (hsCheckBits(fDisplayFlags, kDisplayTime))
return (uint32_t)TicksToMSec(fValue);
return hsTimer::GetMilliSeconds<uint64_t>(fValue);
else
return fValue;
}
@ -334,7 +208,7 @@ static const char *insertCommas(unsigned int value)
return str;
}
void plProfileBase::IPrintValue(uint32_t value, char* buf, bool printType)
void plProfileBase::IPrintValue(uint64_t value, char* buf, bool printType)
{
if (hsCheckBits(fDisplayFlags, kDisplayCount))
{
@ -348,11 +222,11 @@ void plProfileBase::IPrintValue(uint32_t value, char* buf, bool printType)
}
else if (hsCheckBits(fDisplayFlags, kDisplayFPS))
{
sprintf(buf, "%.2f", 1000.0f / TicksToMSec(value));
sprintf(buf, "%.2f", 1000.0f / hsTimer::GetMilliSeconds<float>(value));
}
else if (hsCheckBits(fDisplayFlags, kDisplayTime))
{
sprintf(buf, "%.2f", TicksToMSec(value));
sprintf(buf, "%.2f", hsTimer::GetMilliSeconds<float>(value));
if (printType)
strcat(buf, " ms");
}
@ -416,7 +290,7 @@ plProfileLaps::LapInfo* plProfileLaps::IFindLap(const char* lapName)
return nil;
}
void plProfileLaps::BeginLap(uint32_t curValue, const char* name)
void plProfileLaps::BeginLap(uint64_t curValue, const char* name)
{
LapInfo* lap = IFindLap(name);
if (!lap)
@ -432,7 +306,7 @@ void plProfileLaps::BeginLap(uint32_t curValue, const char* name)
lap->BeginTiming(curValue);
}
void plProfileLaps::EndLap(uint32_t curValue, const char* name)
void plProfileLaps::EndLap(uint64_t curValue, const char* name)
{
LapInfo* lap = IFindLap(name);
@ -526,12 +400,12 @@ void plProfileVar::IBeginTiming()
if( hsCheckBits( fDisplayFlags, kDisplayResetEveryBegin ) )
fValue = 0;
fValue -= GetProfileTicks();
fValue -= hsTimer::GetTicks();
}
void plProfileVar::IEndTiming()
{
fValue += GetProfileTicks();
fValue += hsTimer::GetTicks();
fTimerSamples++;

10
Sources/Plasma/NucleusLib/inc/plProfileManager.h
Unescape View File

@ -76,7 +76,7 @@ public:
uint32_t GetProcessorSpeed() { return fProcessorSpeed; }
// Backdoor for hack timers in calculated profiles
static uint32_t GetTime();
static uint64_t GetTime();
};
class plProfileLaps
@ -91,16 +91,16 @@ protected:
LapInfo(const char* name) { fName = name; fDisplayFlags = kDisplayTime; }
bool operator<(const LapInfo& rhs) const { return fLastAvg < rhs.fLastAvg; }
void BeginTiming(uint32_t value) { fValue -= value; }
void EndTiming(uint32_t value) { fValue += value; fTimerSamples++; }
void BeginTiming(uint64_t value) { fValue -= value; }
void EndTiming(uint64_t value) { fValue += value; fTimerSamples++; }
};
std::vector<LapInfo> fLapTimes;
LapInfo* IFindLap(const char* lapName);
public:
void BeginLap(uint32_t curValue, const char* name);
void EndLap(uint32_t curValue, const char* name);
void BeginLap(uint64_t curValue, const char* name);
void EndLap(uint64_t curValue, const char* name);
void BeginFrame();
void EndFrame();

10
Sources/Plasma/NucleusLib/pnDispatch/plDispatch.cpp
Unescape View File

@ -311,7 +311,7 @@ void plDispatch::IMsgDispatch()
static uint64_t startTicks = 0;
if (plDispatchLogBase::IsLogging())
startTicks = hsTimer::GetFullTickCount();
startTicks = hsTimer::GetTicks();
int i, numReceivers=0;
for( i = 0; fMsgCurrent && i < fMsgCurrent->GetNumReceivers(); i++ )
@ -343,7 +343,7 @@ void plDispatch::IMsgDispatch()
}
#ifndef PLASMA_EXTERNAL_RELEASE
uint32_t rcvTicks = hsTimer::GetPrecTickCount();
uint64_t rcvTicks = hsTimer::GetTicks();
// Object could be deleted by this message, so we need to log this stuff now
plString keyname = "(unknown)";
@ -373,9 +373,9 @@ void plDispatch::IMsgDispatch()
#ifndef PLASMA_EXTERNAL_RELEASE
if (plDispatchLogBase::IsLoggingLong())
{
rcvTicks = hsTimer::GetPrecTickCount() - rcvTicks;
rcvTicks = hsTimer::GetTicks() - rcvTicks;
float rcvTime = (float)(hsTimer::PrecTicksToSecs(rcvTicks) * 1000.f);
float rcvTime = hsTimer::GetMilliSeconds<float>(rcvTicks);
// If the receiver takes more than 5 ms to process its message, log it
if (rcvTime > 5.f)
plDispatchLogBase::GetInstance()->LogLongReceive(keyname.c_str(), className, clonePlayerID, msg, rcvTime);
@ -392,7 +392,7 @@ void plDispatch::IMsgDispatch()
// for message logging
// if (plDispatchLogBase::IsLogging())
// {
// float sendTime = hsTimer::FullTicksToMs(hsTimer::GetFullTickCount() - startTicks);
// float sendTime = hsTimer::GetMilliSeconds<float>(hsTimer::GetTicks() - startTicks);
//
// plDispatchLogBase::GetInstance()->DumpMsg(msg, numReceivers, (int)sendTime, responseLevel*2 /* indent */);
// if (origTail==fMsgCurrent)

2
Sources/Plasma/NucleusLib/pnNetCli/pnNetCli.h
Unescape View File

@ -193,7 +193,7 @@ How to create a message sender/receiver:
static void SendPing (NetCli player) {
const uintptr_t msgPing[] = {
kMsgPing,
TimeGetMs(),
hsTimer::GetMilliSeconds<uint32_t>(),
};
NetCliSend(player, msgPing, arrsize(msgPing));
}

192
Sources/Plasma/NucleusLib/pnTimer/hsTimer.cpp
Unescape View File

@ -41,7 +41,6 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
*==LICENSE==*/
#include "hsTimer.h"
#include "HeadSpin.h"
#include "hsWindows.h"
#include "plTweak.h"
@ -69,47 +68,12 @@ plTimerShare::~plTimerShare()
{
}
double plTimerShare::GetSeconds() const
uint64_t plTimerShare::GetTicks() const
{
hsWide ticks;
return hsTimer::GetRawTicks(&ticks)->AsDouble() / hsTimer::GetRawBase().AsDouble();
}
double plTimerShare::GetMilliSeconds() const
{
return GetSeconds() * 1.e3;
}
hsWide plTimerShare::DSecondsToRawTicks(double secs)
{
hsWide retVal;
double ticks = secs * hsTimer::GetRawBase().AsDouble();
double hi = ticks / double(65536) / double(65536);
ticks -= hi;
retVal.fHi = int32_t(hi);
retVal.fLo = int32_t(ticks);
return retVal;
}
plTimerShare::Duration d = plTimerShare::Clock::now().time_since_epoch();
typedef std::chrono::duration<uint64_t, plTimerShare::Clock::period> ticks;
double plTimerShare::RawTicksToDSeconds(const hsWide& ticks)
{
return ticks.AsDouble() / hsTimer::GetRawBase().AsDouble();
}
inline hsWide* plTimerShare::FactorInTimeZero(hsWide* ticks) const
{
if( fFirstTime )
{
fFirstTime = false;
fRawTimeZero = *ticks;
ticks->Set(0, 0);
}
else
{
ticks->Sub(&fRawTimeZero);
}
return ticks;
return std::chrono::duration_cast<ticks>(d).count();
}
double plTimerShare::IncSysSeconds()
@ -198,157 +162,39 @@ double plTimerShare::IncSysSeconds()
}
void plTimerShare::SetRealTime(bool realTime)
{
fRunningFrameTime = !realTime;
if( realTime )
{
fRunningFrameTime = !realTime;
if (realTime)
{
fRealSeconds = GetSeconds();
}
}
#if HS_BUILD_FOR_WIN32
hsWide* plTimerShare::GetRawTicks(hsWide* ticks) const
plTimerShare::Duration plTimerShare::GetRawTicks() const
{
LARGE_INTEGER large;
plTimerShare::TimePoint tp = Clock::now();
if (::QueryPerformanceCounter(&large))
{
ticks->Set(large.HighPart, large.LowPart);
if (fFirstTime)
{
fFirstTime = false;
fRawTimeZero = tp;
return plTimerShare::Duration(0);
}
else
{
ticks->Set(0, ::GetTickCount());
return plTimerShare::Duration(tp - fRawTimeZero);
}
return FactorInTimeZero(ticks);
}
hsWide hsTimer::IInitRawBase()
{
hsWide base;
LARGE_INTEGER large;
if (::QueryPerformanceFrequency(&large))
base.Set(large.HighPart, large.LowPart);
else
base.Set(0, 1000);
return base;
}
#elif HS_BUILD_FOR_UNIX
#include <sys/time.h>
#define kMicroSecondsUnit 1000000
static uint32_t gBaseTime = 0;
hsWide* plTimerShare::GetRawTicks(hsWide* ticks) const
{
timeval tv;
(void)::gettimeofday(&tv, nil);
if (gBaseTime == 0)
gBaseTime = tv.tv_sec;
ticks->Mul(tv.tv_sec - gBaseTime, kMicroSecondsUnit)->Add(tv.tv_usec);
return ticks;
}
hsWide hsTimer::IInitRawBase()
{
hsWide base;
base.Set(0, kMicroSecondsUnit);
return base;
}
#endif
//
// hsTimer - thin static interface to plTimerShare. Also keeps a couple of
// constants.
//
static plTimerShare staticTimer;
plTimerShare* hsTimer::fTimer = &staticTimer; // until overridden.
const double hsTimer::fPrecTicksPerSec = hsTimer::GetPrecTicksPerSec();
const hsWide hsTimer::fRawBase = hsTimer::IInitRawBase();
// hsTimer - thin static interface to plTimerShare.
//
static plTimerShare staticTimer;
plTimerShare* hsTimer::fTimer = &staticTimer; // until overridden.
void hsTimer::SetTheTimer(plTimerShare* timer)
{
fTimer = timer;
}
///////////////////////////
// Precision timer routines
// These remain as statics
// since they are stateless
// anyway.
///////////////////////////
double hsTimer::GetPrecTicksPerSec()
{
#if HS_BUILD_FOR_WIN32
LARGE_INTEGER freq;
if( !QueryPerformanceFrequency(&freq) )
{
return 1000.f;
}
return ((double) freq.LowPart);
#endif
return 1;
}
uint32_t hsTimer::GetPrecTickCount()
{
#if HS_BUILD_FOR_WIN32
LARGE_INTEGER ti;
if( !QueryPerformanceCounter(&ti) )
return GetTickCount();
return ti.LowPart;
#else
return 1;
#endif
}
uint32_t hsTimer::PrecSecsToTicks(float secs)
{
return (uint32_t)(((double)secs) * fPrecTicksPerSec);
}
double hsTimer::PrecTicksToSecs(uint32_t ticks)
{
return ((double)ticks) / fPrecTicksPerSec;
}
double hsTimer::PrecTicksToHz(uint32_t ticks)
{
return fPrecTicksPerSec / ((double)ticks);
}
uint64_t hsTimer::GetFullTickCount()
{
#if HS_BUILD_FOR_WIN32
LARGE_INTEGER ticks;
QueryPerformanceCounter(&ticks);
return ticks.QuadPart;
#else
return 0;
#endif
}
float hsTimer::FullTicksToMs(uint64_t ticks)
{
#ifdef HS_BUILD_FOR_WIN32
static uint64_t ticksPerTenthMs = 0;
if (ticksPerTenthMs == 0)
{
LARGE_INTEGER perfFreq;
QueryPerformanceFrequency(&perfFreq);
ticksPerTenthMs = perfFreq.QuadPart / 10000;
}
return float(ticks / ticksPerTenthMs) / 10.f;
#else
return 0.f;
#endif
}

79
Sources/Plasma/NucleusLib/pnUtils/pnUtTime.cpp
Unescape View File

@ -58,50 +58,6 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
*
*****************************************************************************/
namespace pnUtilsExe {
uint32_t TimeGetTickCount () {
#if HS_BUILD_FOR_WIN32
return GetTickCount();
#else
struct timeval tv;
if (gettimeofday(&tv, NULL) != 0)
return 0;
return (tv.tv_sec * 1000) + (tv.tv_usec / 1000);
#endif
}
/*****************************************************************************
*
* Time adjustment functions
*
* For debug builds, adjust the initial time value so that the high
* bit or the time value itself is about to wrap, to catch application
* bugs that don't handle wrapping or depend on the high bit's value.
*
***/
static uint32_t s_adjustment;
//===========================================================================
static void InitializeAdjustment () {
ASSERT(!s_adjustment);
uint32_t currTime = TimeGetTickCount();
uint32_t startBits = (currTime & 0x80) ? 0x7fff0000 : 0xffff0000;
uint32_t startMask = 0xffff0000;
s_adjustment = (((currTime & ~startMask) | startBits) - currTime) | 1;
ASSERT(s_adjustment);
}
//===========================================================================
AUTO_INIT_FUNC(AutoInitializeAdjustment) {
if (!s_adjustment)
InitializeAdjustment();
}
} using namespace pnUtilsExe;
/*****************************************************************************
*
@ -109,37 +65,14 @@ AUTO_INIT_FUNC(AutoInitializeAdjustment) {
*
***/
uint32_t TimeGetSecondsSince2001Utc () {
uint64_t time = TimeGetTime();
uint32_t seconds = (uint32_t)((time - kTime1601To2001) / kTimeIntervalsPerSecond);
return seconds;
}
uint64_t TimeGetTime () {
#ifdef HS_BUILD_FOR_WIN32
uint64_t time;
static_assert(sizeof(uint64_t) == sizeof(FILETIME), "FILETIME is not a uint64");
GetSystemTimeAsFileTime((FILETIME *) &time);
return time;
uint32_t TimeGetMs () {
#if HS_BUILD_FOR_WIN32
return GetTickCount();
#else
struct timespec ts;
if (clock_gettime(CLOCK_MONOTONIC, &ts))
struct timeval tv;
if (gettimeofday(&tv, NULL) != 0)
return 0;
long long time = ts.tv_sec * 1000000000LL + ts.tv_nsec;
return time / 100;
#endif
}
uint32_t TimeGetMs () {
#ifdef HS_DEBUGGING
// For debug builds, return an adjusted timer value
if (!s_adjustment)
InitializeAdjustment();
return TimeGetTickCount() + s_adjustment;
#else
// For release builds, just return the operating system's timer
return TimeGetTickCount();
return (tv.tv_sec * 1000) + (tv.tv_usec / 1000);
#endif
}

18
Sources/Plasma/NucleusLib/pnUtils/pnUtTime.h
Unescape View File

@ -55,24 +55,6 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
* Time query functions
*
***/
const uint64_t kTimeIntervalsPerMs = 10000;
const uint64_t kTimeIntervalsPerSecond = 1000 * kTimeIntervalsPerMs;
const uint64_t kTimeIntervalsPerMinute = 60 * kTimeIntervalsPerSecond;
const uint64_t kTimeIntervalsPerHour = 60 * kTimeIntervalsPerMinute;
const uint64_t kTimeIntervalsPerDay = 24 * kTimeIntervalsPerHour;
// millisecond timer; wraps ~49 days
uint32_t TimeGetMs ();
// 100 nanosecond intervals; won't wrap in our lifetimes
uint64_t TimeGetTime ();
// Seconds elapsed since 00:00:00 January 1, 2001 UTC
uint32_t TimeGetSecondsSince2001Utc ();
// These magic numbers taken from Microsoft's "Shared Source CLI implementation" source code.
// http://msdn.microsoft.com/library/en-us/Dndotnet/html/mssharsourcecli.asp
static const uint64_t kTime1601To2001 = 12622780800 * kTimeIntervalsPerSecond;
#endif

1
Sources/Plasma/PubUtilLib/plNetGameLib/Pch.h
Unescape View File

@ -57,6 +57,7 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
#include "pnNetCli/pnNetCli.h"
#include "plProduct.h"
#include "hsThread.h"
#include "hsTimer.h"
#define USES_PROTOCOL_CLI2AUTH
#define USES_PROTOCOL_CLI2GAME

4
Sources/Plasma/PubUtilLib/plNetGameLib/Private/plNglAuth.cpp
Unescape View File

@ -1272,7 +1272,7 @@ static ENetError FixupPlayerName (wchar_t * name) {
//===========================================================================
static unsigned GetNonZeroTimeMs () {
if (unsigned ms = TimeGetMs())
if (unsigned ms = hsTimer::GetMilliSeconds<uint32_t>())
return ms;
return 1;
}
@ -2523,7 +2523,7 @@ bool PingRequestTrans::Recv (
const Auth2Cli_PingReply & reply = *(const Auth2Cli_PingReply *)msg;
m_payload.Set(reply.payload, reply.payloadBytes);
m_replyAtMs = TimeGetMs();
m_replyAtMs = hsTimer::GetMilliSeconds<uint32_t>();
m_result = kNetSuccess;
m_state = kTransStateComplete;

14
Sources/Plasma/PubUtilLib/plNetGameLib/Private/plNglFile.cpp
Unescape View File

@ -243,7 +243,7 @@ const unsigned kMinValidConnectionMs = 25 * 1000;
//===========================================================================
static unsigned GetNonZeroTimeMs () {
if (unsigned ms = TimeGetMs())
if (unsigned ms = hsTimer::GetMilliSeconds<uint32_t>())
return ms;
return 1;
}
@ -299,7 +299,7 @@ static void UnlinkAndAbandonConn_CS (CliFileConn * conn) {
static void NotifyConnSocketConnect (CliFileConn * conn) {
conn->TransferRef("Connecting", "Connected");
conn->connectStartMs = TimeGetMs();
conn->connectStartMs = hsTimer::GetMilliSeconds<uint32_t>();
conn->numFailedConnects = 0;
// Make this the active server
@ -372,7 +372,7 @@ static void NotifyConnSocketDisconnect (CliFileConn * conn) {
#ifdef SERVER
{
if (TimeGetMs() - conn->connectStartMs > kMinValidConnectionMs)
if (hsTimer::GetMilliSeconds<uint32_t>() - conn->connectStartMs > kMinValidConnectionMs)
conn->reconnectStartMs = 0;
else
conn->reconnectStartMs = GetNonZeroTimeMs() + kMaxReconnectIntervalMs;
@ -386,7 +386,7 @@ static void NotifyConnSocketDisconnect (CliFileConn * conn) {
// less time elapsed then the connection was likely to a server
// with an open port but with no notification procedure registered
// for this type of communication channel.
if (TimeGetMs() - conn->connectStartMs > kMinValidConnectionMs) {
if (hsTimer::GetMilliSeconds<uint32_t>() - conn->connectStartMs > kMinValidConnectionMs) {
conn->reconnectStartMs = 0;
}
else {
@ -400,7 +400,7 @@ static void NotifyConnSocketDisconnect (CliFileConn * conn) {
// send us to a new server, therefore attempt a reconnection to the same
// address even if the disconnect was immediate. This is safe because the
// file server is stateless with respect to clients.
if (TimeGetMs() - conn->connectStartMs <= kMinValidConnectionMs) {
if (hsTimer::GetMilliSeconds<uint32_t>() - conn->connectStartMs <= kMinValidConnectionMs) {
if (++conn->numImmediateDisconnects < kMaxImmediateDisconnects)
conn->reconnectStartMs = GetNonZeroTimeMs() + kMaxReconnectIntervalMs;
else
@ -963,7 +963,7 @@ bool ManifestRequestTrans::Recv (
const uint8_t msg[],
unsigned bytes
) {
m_timeoutAtMs = TimeGetMs() + NetTransGetTimeoutMs(); // Reset the timeout counter
m_timeoutAtMs = hsTimer::GetMilliSeconds<uint32_t>() + NetTransGetTimeoutMs(); // Reset the timeout counter
const File2Cli_ManifestReply & reply = *(const File2Cli_ManifestReply *) msg;
@ -1178,7 +1178,7 @@ bool DownloadRequestTrans::Recv (
const uint8_t msg[],
unsigned bytes
) {
m_timeoutAtMs = TimeGetMs() + NetTransGetTimeoutMs(); // Reset the timeout counter
m_timeoutAtMs = hsTimer::GetMilliSeconds<uint32_t>() + NetTransGetTimeoutMs(); // Reset the timeout counter
const File2Cli_FileDownloadReply & reply = *(const File2Cli_FileDownloadReply *) msg;

2
Sources/Plasma/PubUtilLib/plNetGameLib/Private/plNglGame.cpp
Unescape View File

@ -167,7 +167,7 @@ static std::atomic<long> s_perf[kNumPerf];
//===========================================================================
static unsigned GetNonZeroTimeMs () {
if (unsigned ms = TimeGetMs())
if (unsigned ms = hsTimer::GetMilliSeconds<uint32_t>())
return ms;
return 1;
}

4
Sources/Plasma/PubUtilLib/plNetGameLib/Private/plNglGateKeeper.cpp
Unescape View File

@ -200,7 +200,7 @@ static std::atomic<long> s_perf[kNumPerf];
//===========================================================================
static unsigned GetNonZeroTimeMs () {
if (unsigned ms = TimeGetMs())
if (unsigned ms = hsTimer::GetMilliSeconds<uint32_t>())
return ms;
return 1;
}
@ -812,7 +812,7 @@ bool PingRequestTrans::Recv (
const GateKeeper2Cli_PingReply & reply = *(const GateKeeper2Cli_PingReply *)msg;
m_payload.Set(reply.payload, reply.payloadBytes);
m_replyAtMs = TimeGetMs();
m_replyAtMs = hsTimer::GetMilliSeconds<uint32_t>();
m_result = kNetSuccess;
m_state = kTransStateComplete;

8
Sources/Plasma/PubUtilLib/plNetGameLib/Private/plNglTrans.cpp
Unescape View File

@ -219,7 +219,7 @@ bool NetTransRecv (unsigned transId, const uint8_t msg[], unsigned bytes) {
return true; // transaction was canceled.
// Update the timeout time
trans->m_timeoutAtMs = TimeGetMs() + s_timeoutMs;
trans->m_timeoutAtMs = hsTimer::GetMilliSeconds<uint32_t>() + s_timeoutMs;
bool result = trans->Recv(msg, bytes);
@ -315,7 +315,7 @@ void NetTransUpdate () {
// This is the default "next state", trans->Send() can override this
trans->m_state = kTransStateWaitServerResponse;
// Set timeout time before calling Send(), allowing Send() to change it if it wants to.
trans->m_timeoutAtMs = TimeGetMs() + s_timeoutMs;
trans->m_timeoutAtMs = hsTimer::GetMilliSeconds<uint32_t>() + s_timeoutMs;
if (!trans->Send()) {
// Revert back to current state so that we'll attempt to send again
trans->m_state = kTransStateWaitServerConnect;
@ -326,12 +326,12 @@ void NetTransUpdate () {
case kTransStateWaitServerResponse:
// Check for timeout
if ((int)(TimeGetMs() - trans->m_timeoutAtMs) > 0) {
if ((int)(hsTimer::GetMilliSeconds<uint32_t>() - trans->m_timeoutAtMs) > 0) {
// Check to see if the transaction wants to "abort" the timeout
if (trans->TimedOut())
CancelTrans_CS(trans, kNetErrTimeout);
else
trans->m_timeoutAtMs = TimeGetMs() + s_timeoutMs; // Reset the timeout counter
trans->m_timeoutAtMs = hsTimer::GetMilliSeconds<uint32_t>() + s_timeoutMs; // Reset the timeout counter
}
done = true;
break;

2
Sources/Plasma/PubUtilLib/plPipeline/plDTProgressMgr.cpp
Unescape View File

@ -153,7 +153,7 @@ void plDTProgressMgr::Draw( plPipeline *p )
if (fActivePlate)
{
float currentMs = hsTimer::FullTicksToMs(hsTimer::GetFullTickCount());
float currentMs = hsTimer::GetMilliSeconds<float>();
if ((currentMs - fLastDraw) > 30)
{
fCurrentImage++;

14
Sources/Plasma/PubUtilLib/plResMgr/plResManager.cpp
Unescape View File

@ -355,7 +355,7 @@ bool plResManager::IReadObject(plKeyImp* pKey, hsStream *stream)
uint64_t startTotalTime = totalTime;
uint64_t startTime = 0;
if (fLogReadTimes)
startTime = hsTimer::GetFullTickCount();
startTime = hsTimer::GetTicks();
hsKeyedObject* ko = nil;
@ -449,7 +449,7 @@ bool plResManager::IReadObject(plKeyImp* pKey, hsStream *stream)
if (fLogReadTimes)
{
uint64_t ourTime = hsTimer::GetFullTickCount() - startTime;
uint64_t ourTime = hsTimer::GetTicks() - startTime;
uint64_t childTime = totalTime - startTotalTime;
ourTime -= childTime;
@ -457,9 +457,9 @@ bool plResManager::IReadObject(plKeyImp* pKey, hsStream *stream)
pKey->GetUoid().GetObjectName().c_str(),
plFactory::GetNameOfClass(pKey->GetUoid().GetClassType()),
pKey->GetDataLen(),
hsTimer::FullTicksToMs(ourTime));
hsTimer::GetMilliSeconds<float>(ourTime));
totalTime += (hsTimer::GetFullTickCount() - startTime) - childTime;
totalTime += (hsTimer::GetTicks() - startTime) - childTime;
}
return (ko != nil);
@ -1132,7 +1132,7 @@ void plResManager::PageInRoom(const plLocation& page, uint16_t objClassToRef, pl
{
uint64_t readRoomTime = 0;
if (fLogReadTimes)
readRoomTime = hsTimer::GetFullTickCount();
readRoomTime = hsTimer::GetTicks();
plSynchEnabler ps(false); // disable dirty tracking while paging in
@ -1218,11 +1218,11 @@ void plResManager::PageInRoom(const plLocation& page, uint16_t objClassToRef, pl
if (fLogReadTimes)
{
readRoomTime = hsTimer::GetFullTickCount() - readRoomTime;
readRoomTime = hsTimer::GetTicks() - readRoomTime;
plStatusLog::AddLineS("readtimings.log", plStatusLog::kWhite, "----- Reading page %s>%s took %.1f ms",
pageNode->GetPageInfo().GetAge().c_str(), pageNode->GetPageInfo().GetPage().c_str(),
hsTimer::FullTicksToMs(readRoomTime));
hsTimer::GetMilliSeconds<float>(readRoomTime));
}
}

6
Sources/Plasma/PubUtilLib/plStatGather/plAutoProfile.cpp
Unescape View File

@ -337,7 +337,7 @@ bool plAutoProfileImp::MsgReceive(plMessage* msg)
{
if (!ageLoaded->fLoaded)
{
fLinkTime = hsTimer::GetFullTickCount();
fLinkTime = hsTimer::GetTicks();
hsStatusMessage("Age unloaded");
}
return true;
@ -348,8 +348,8 @@ bool plAutoProfileImp::MsgReceive(plMessage* msg)
{
if (fNextAge > 0)
{
fLinkTime = hsTimer::GetFullTickCount() - fLinkTime;
float ms = hsTimer::FullTicksToMs(fLinkTime);
fLinkTime = hsTimer::GetTicks() - fLinkTime;
float ms = hsTimer::GetMilliSeconds<float>(fLinkTime);
hsStatusMessageF("Age %s finished load, took %.1f ms",
fAges[fNextAge-1].c_str(),

2
Sources/Plasma/PubUtilLib/plVault/plVaultClientApi.cpp
Unescape View File

@ -729,7 +729,7 @@ static void SaveDirtyNodes () {
static const unsigned kSaveUpdateIntervalMs = 250;
static const unsigned kMaxBytesPerSaveUpdate = 5 * 1024;
static unsigned s_nextSaveMs;
unsigned currTimeMs = TimeGetMs() | 1;
unsigned currTimeMs = hsTimer::GetMilliSeconds<uint32_t>() | 1;
if (!s_nextSaveMs || signed(s_nextSaveMs - currTimeMs) <= 0) {
s_nextSaveMs = (currTimeMs + kSaveUpdateIntervalMs) | 1;
unsigned bytesWritten = 0;

Write Preview
Loading…
Cancel
Save