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-rwxr-xr-xindra/llcommon/llfasttimer_class.cpp14
1 files changed, 13 insertions, 1 deletions
diff --git a/indra/llcommon/llfasttimer_class.cpp b/indra/llcommon/llfasttimer_class.cpp
index 59f8547a12..055660e85b 100755
--- a/indra/llcommon/llfasttimer_class.cpp
+++ b/indra/llcommon/llfasttimer_class.cpp
@@ -63,6 +63,8 @@ BOOL LLFastTimer::sMetricLog = FALSE;
LLMutex* LLFastTimer::sLogLock = NULL;
std::queue<LLSD> LLFastTimer::sLogQueue;
+#define USE_RDTSC 0
+
#if LL_LINUX || LL_SOLARIS
U64 LLFastTimer::sClockResolution = 1000000000; // Nanosecond resolution
#else
@@ -236,10 +238,20 @@ U64 LLFastTimer::countsPerSecond() // counts per second for the *32-bit* timer
#else // windows or x86-mac or x86-linux or x86-solaris
U64 LLFastTimer::countsPerSecond() // counts per second for the *32-bit* timer
{
+#if USE_RDTSC || !LL_WINDOWS
//getCPUFrequency returns MHz and sCPUClockFrequency wants to be in Hz
static U64 sCPUClockFrequency = U64(LLProcessorInfo().getCPUFrequency()*1000000.0);
// we drop the low-order byte in our timers, so report a lower frequency
+#else
+ static bool firstcall = true;
+ static U64 sCPUClockFrequency;
+ if (firstcall)
+ {
+ QueryPerformanceFrequency((LARGE_INTEGER*)&sCPUClockFrequency);
+ firstcall = false;
+ }
+#endif
return sCPUClockFrequency >> 8;
}
#endif
@@ -813,7 +825,7 @@ LLFastTimer::LLFastTimer(LLFastTimer::FrameState* state)
// shift off lower 8 bits for lower resolution but longer term timing
// on 1Ghz machine, a 32-bit word will hold ~1000 seconds of timing
-#ifdef USE_RDTSC
+#if USE_RDTSC
U32 LLFastTimer::getCPUClockCount32()
{
U32 ret_val;