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authorAndrey Lihatskiy <alihatskiy@productengine.com>2024-04-29 07:43:28 +0300
committerAndrey Lihatskiy <alihatskiy@productengine.com>2024-04-29 07:56:09 +0300
commit1b68f71348ecf3983b76b40d7940da8377f049b7 (patch)
tree2974eddaef130a067c26033d60a59fc790365b3d /indra/llcommon/lltimer.cpp
parentaf4ea94efc1999f3b19fd8d643d0331f0b77e265 (diff)
#824 Process source files in bulk: replace tabs with spaces, convert CRLF to LF, and trim trailing whitespaces as needed
Diffstat (limited to 'indra/llcommon/lltimer.cpp')
-rw-r--r--indra/llcommon/lltimer.cpp524
1 files changed, 262 insertions, 262 deletions
diff --git a/indra/llcommon/lltimer.cpp b/indra/llcommon/lltimer.cpp
index 1a99ac2886..6f74bf3fc8 100644
--- a/indra/llcommon/lltimer.cpp
+++ b/indra/llcommon/lltimer.cpp
@@ -1,25 +1,25 @@
-/**
+/**
* @file lltimer.cpp
- * @brief Cross-platform objects for doing timing
+ * @brief Cross-platform objects for doing timing
*
* $LicenseInfo:firstyear=2000&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2010, Linden Research, Inc.
- *
+ *
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
- *
+ *
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
- *
+ *
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
- *
+ *
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
@@ -34,12 +34,12 @@
#include <thread>
#if LL_WINDOWS
-# include "llwin32headerslean.h"
+# include "llwin32headerslean.h"
#elif LL_LINUX || LL_DARWIN
# include <errno.h>
-# include <sys/time.h>
-#else
-# error "architecture not supported"
+# include <sys/time.h>
+#else
+# error "architecture not supported"
#endif
//
@@ -83,7 +83,7 @@ U32 micro_sleep(U64 us, U32 max_yields)
{
// max_yields is unused; just fiddle with it to avoid warnings.
max_yields = 0;
- ms_sleep((U32)(us / 1000));
+ ms_sleep((U32)(us / 1000));
return 0;
}
@@ -118,43 +118,43 @@ void ms_sleep(U32 ms)
#elif LL_LINUX || LL_DARWIN
static void _sleep_loop(struct timespec& thiswait)
{
- struct timespec nextwait;
- bool sleep_more = false;
-
- do {
- int result = nanosleep(&thiswait, &nextwait);
-
- // check if sleep was interrupted by a signal; unslept
- // remainder was written back into 't' and we just nanosleep
- // again.
- sleep_more = (result == -1 && EINTR == errno);
-
- if (sleep_more)
- {
- if ( nextwait.tv_sec > thiswait.tv_sec ||
- (nextwait.tv_sec == thiswait.tv_sec &&
- nextwait.tv_nsec >= thiswait.tv_nsec) )
- {
- // if the remaining time isn't actually going
- // down then we're being shafted by low clock
- // resolution - manually massage the sleep time
- // downward.
- if (nextwait.tv_nsec > 1000000) {
- // lose 1ms
- nextwait.tv_nsec -= 1000000;
- } else {
- if (nextwait.tv_sec == 0) {
- // already so close to finished
- sleep_more = false;
- } else {
- // lose up to 1ms
- nextwait.tv_nsec = 0;
- }
- }
- }
- thiswait = nextwait;
- }
- } while (sleep_more);
+ struct timespec nextwait;
+ bool sleep_more = false;
+
+ do {
+ int result = nanosleep(&thiswait, &nextwait);
+
+ // check if sleep was interrupted by a signal; unslept
+ // remainder was written back into 't' and we just nanosleep
+ // again.
+ sleep_more = (result == -1 && EINTR == errno);
+
+ if (sleep_more)
+ {
+ if ( nextwait.tv_sec > thiswait.tv_sec ||
+ (nextwait.tv_sec == thiswait.tv_sec &&
+ nextwait.tv_nsec >= thiswait.tv_nsec) )
+ {
+ // if the remaining time isn't actually going
+ // down then we're being shafted by low clock
+ // resolution - manually massage the sleep time
+ // downward.
+ if (nextwait.tv_nsec > 1000000) {
+ // lose 1ms
+ nextwait.tv_nsec -= 1000000;
+ } else {
+ if (nextwait.tv_sec == 0) {
+ // already so close to finished
+ sleep_more = false;
+ } else {
+ // lose up to 1ms
+ nextwait.tv_nsec = 0;
+ }
+ }
+ }
+ thiswait = nextwait;
+ }
+ } while (sleep_more);
}
U32 micro_sleep(U64 us, U32 max_yields)
@@ -193,10 +193,10 @@ U32 micro_sleep(U64 us, U32 max_yields)
void ms_sleep(U32 ms)
{
- long mslong = ms; // tv_nsec is a long
- struct timespec thiswait;
- thiswait.tv_sec = ms / 1000;
- thiswait.tv_nsec = (mslong % 1000) * 1000000l;
+ long mslong = ms; // tv_nsec is a long
+ struct timespec thiswait;
+ thiswait.tv_sec = ms / 1000;
+ thiswait.tv_nsec = (mslong % 1000) * 1000000l;
_sleep_loop(thiswait);
}
#else
@@ -210,25 +210,25 @@ void ms_sleep(U32 ms)
#if LL_WINDOWS
U64 get_clock_count()
{
- static bool firstTime = true;
- static U64 offset;
- // ensures that callers to this function never have to deal with wrap
+ static bool firstTime = true;
+ static U64 offset;
+ // ensures that callers to this function never have to deal with wrap
- // QueryPerformanceCounter implementation
- LARGE_INTEGER clock_count;
- QueryPerformanceCounter(&clock_count);
- if (firstTime) {
- offset = clock_count.QuadPart;
- firstTime = false;
- }
- return clock_count.QuadPart - offset;
+ // QueryPerformanceCounter implementation
+ LARGE_INTEGER clock_count;
+ QueryPerformanceCounter(&clock_count);
+ if (firstTime) {
+ offset = clock_count.QuadPart;
+ firstTime = false;
+ }
+ return clock_count.QuadPart - offset;
}
F64 calc_clock_frequency()
{
- __int64 freq;
- QueryPerformanceFrequency((LARGE_INTEGER *) &freq);
- return (F64)freq;
+ __int64 freq;
+ QueryPerformanceFrequency((LARGE_INTEGER *) &freq);
+ return (F64)freq;
}
#endif // LL_WINDOWS
@@ -237,81 +237,81 @@ F64 calc_clock_frequency()
// Both Linux and Mac use gettimeofday for accurate time
F64 calc_clock_frequency()
{
- return 1000000.0; // microseconds, so 1 MHz.
+ return 1000000.0; // microseconds, so 1 MHz.
}
U64 get_clock_count()
{
- // Linux clocks are in microseconds
- struct timeval tv;
- gettimeofday(&tv, NULL);
- return tv.tv_sec*SEC_TO_MICROSEC_U64 + tv.tv_usec;
+ // Linux clocks are in microseconds
+ struct timeval tv;
+ gettimeofday(&tv, NULL);
+ return tv.tv_sec*SEC_TO_MICROSEC_U64 + tv.tv_usec;
}
#endif
TimerInfo::TimerInfo()
-: mClockFrequency(0.0),
- mTotalTimeClockCount(0),
- mLastTotalTimeClockCount(0)
+: mClockFrequency(0.0),
+ mTotalTimeClockCount(0),
+ mLastTotalTimeClockCount(0)
{}
void TimerInfo::update()
{
- mClockFrequency = calc_clock_frequency();
- mClockFrequencyInv = 1.0/mClockFrequency;
- mClocksToMicroseconds = mClockFrequencyInv;
+ mClockFrequency = calc_clock_frequency();
+ mClockFrequencyInv = 1.0/mClockFrequency;
+ mClocksToMicroseconds = mClockFrequencyInv;
}
TimerInfo& get_timer_info()
{
- static TimerInfo sTimerInfo;
- return sTimerInfo;
+ static TimerInfo sTimerInfo;
+ return sTimerInfo;
}
///////////////////////////////////////////////////////////////////////////////
-// returns a U64 number that represents the number of
+// returns a U64 number that represents the number of
// microseconds since the Unix epoch - Jan 1, 1970
U64MicrosecondsImplicit totalTime()
{
- U64 current_clock_count = get_clock_count();
- if (!get_timer_info().mTotalTimeClockCount || get_timer_info().mClocksToMicroseconds.value() == 0)
- {
- get_timer_info().update();
- get_timer_info().mTotalTimeClockCount = current_clock_count;
+ U64 current_clock_count = get_clock_count();
+ if (!get_timer_info().mTotalTimeClockCount || get_timer_info().mClocksToMicroseconds.value() == 0)
+ {
+ get_timer_info().update();
+ get_timer_info().mTotalTimeClockCount = current_clock_count;
#if LL_WINDOWS
- // Sync us up with local time (even though we PROBABLY don't need to, this is how it was implemented)
- // Unix platforms use gettimeofday so they are synced, although this probably isn't a good assumption to
- // make in the future.
+ // Sync us up with local time (even though we PROBABLY don't need to, this is how it was implemented)
+ // Unix platforms use gettimeofday so they are synced, although this probably isn't a good assumption to
+ // make in the future.
- get_timer_info().mTotalTimeClockCount = (U64)(time(NULL) * get_timer_info().mClockFrequency);
+ get_timer_info().mTotalTimeClockCount = (U64)(time(NULL) * get_timer_info().mClockFrequency);
#endif
- // Update the last clock count
- get_timer_info().mLastTotalTimeClockCount = current_clock_count;
- }
- else
- {
- if (current_clock_count >= get_timer_info().mLastTotalTimeClockCount)
- {
- // No wrapping, we're all okay.
- get_timer_info().mTotalTimeClockCount += current_clock_count - get_timer_info().mLastTotalTimeClockCount;
- }
- else
- {
- // We've wrapped. Compensate correctly
- get_timer_info().mTotalTimeClockCount += (0xFFFFFFFFFFFFFFFFULL - get_timer_info().mLastTotalTimeClockCount) + current_clock_count;
- }
-
- // Update the last clock count
- get_timer_info().mLastTotalTimeClockCount = current_clock_count;
- }
+ // Update the last clock count
+ get_timer_info().mLastTotalTimeClockCount = current_clock_count;
+ }
+ else
+ {
+ if (current_clock_count >= get_timer_info().mLastTotalTimeClockCount)
+ {
+ // No wrapping, we're all okay.
+ get_timer_info().mTotalTimeClockCount += current_clock_count - get_timer_info().mLastTotalTimeClockCount;
+ }
+ else
+ {
+ // We've wrapped. Compensate correctly
+ get_timer_info().mTotalTimeClockCount += (0xFFFFFFFFFFFFFFFFULL - get_timer_info().mLastTotalTimeClockCount) + current_clock_count;
+ }
+
+ // Update the last clock count
+ get_timer_info().mLastTotalTimeClockCount = current_clock_count;
+ }
- // Return the total clock tick count in microseconds.
- U64Microseconds time(get_timer_info().mTotalTimeClockCount*get_timer_info().mClocksToMicroseconds);
- return time;
+ // Return the total clock tick count in microseconds.
+ U64Microseconds time(get_timer_info().mTotalTimeClockCount*get_timer_info().mClocksToMicroseconds);
+ return time;
}
@@ -319,13 +319,13 @@ U64MicrosecondsImplicit totalTime()
LLTimer::LLTimer()
{
- if (!get_timer_info().mClockFrequency)
- {
- get_timer_info().update();
- }
+ if (!get_timer_info().mClockFrequency)
+ {
+ get_timer_info().update();
+ }
- mStarted = TRUE;
- reset();
+ mStarted = TRUE;
+ reset();
}
LLTimer::~LLTimer()
@@ -334,47 +334,47 @@ LLTimer::~LLTimer()
// static
void LLTimer::initClass()
{
- if (!sTimer) sTimer = new LLTimer;
+ if (!sTimer) sTimer = new LLTimer;
}
// static
void LLTimer::cleanupClass()
{
- delete sTimer; sTimer = NULL;
+ delete sTimer; sTimer = NULL;
}
// static
U64MicrosecondsImplicit LLTimer::getTotalTime()
{
- // simply call into the implementation function.
- U64MicrosecondsImplicit total_time = totalTime();
- return total_time;
-}
+ // simply call into the implementation function.
+ U64MicrosecondsImplicit total_time = totalTime();
+ return total_time;
+}
// static
F64SecondsImplicit LLTimer::getTotalSeconds()
{
- return F64Microseconds(U64_to_F64(getTotalTime()));
+ return F64Microseconds(U64_to_F64(getTotalTime()));
}
void LLTimer::reset()
{
- mLastClockCount = get_clock_count();
- mExpirationTicks = 0;
+ mLastClockCount = get_clock_count();
+ mExpirationTicks = 0;
}
///////////////////////////////////////////////////////////////////////////////
U64 LLTimer::getCurrentClockCount()
{
- return get_clock_count();
+ return get_clock_count();
}
///////////////////////////////////////////////////////////////////////////////
void LLTimer::setLastClockCount(U64 current_count)
{
- mLastClockCount = current_count;
+ mLastClockCount = current_count;
}
///////////////////////////////////////////////////////////////////////////////
@@ -382,152 +382,152 @@ void LLTimer::setLastClockCount(U64 current_count)
static
U64 getElapsedTimeAndUpdate(U64& lastClockCount)
{
- U64 current_clock_count = get_clock_count();
- U64 result;
+ U64 current_clock_count = get_clock_count();
+ U64 result;
- if (current_clock_count >= lastClockCount)
- {
- result = current_clock_count - lastClockCount;
- }
- else
- {
- // time has gone backward
- result = 0;
- }
+ if (current_clock_count >= lastClockCount)
+ {
+ result = current_clock_count - lastClockCount;
+ }
+ else
+ {
+ // time has gone backward
+ result = 0;
+ }
- lastClockCount = current_clock_count;
+ lastClockCount = current_clock_count;
- return result;
+ return result;
}
F64SecondsImplicit LLTimer::getElapsedTimeF64() const
{
- U64 last = mLastClockCount;
- return (F64)getElapsedTimeAndUpdate(last) * get_timer_info().mClockFrequencyInv;
+ U64 last = mLastClockCount;
+ return (F64)getElapsedTimeAndUpdate(last) * get_timer_info().mClockFrequencyInv;
}
F32SecondsImplicit LLTimer::getElapsedTimeF32() const
{
- return (F32)getElapsedTimeF64();
+ return (F32)getElapsedTimeF64();
}
F64SecondsImplicit LLTimer::getElapsedTimeAndResetF64()
{
- return (F64)getElapsedTimeAndUpdate(mLastClockCount) * get_timer_info().mClockFrequencyInv;
+ return (F64)getElapsedTimeAndUpdate(mLastClockCount) * get_timer_info().mClockFrequencyInv;
}
F32SecondsImplicit LLTimer::getElapsedTimeAndResetF32()
{
- return (F32)getElapsedTimeAndResetF64();
+ return (F32)getElapsedTimeAndResetF64();
}
///////////////////////////////////////////////////////////////////////////////
void LLTimer::setTimerExpirySec(F32SecondsImplicit expiration)
{
- mExpirationTicks = get_clock_count()
- + (U64)((F32)(expiration * get_timer_info().mClockFrequency.value()));
+ mExpirationTicks = get_clock_count()
+ + (U64)((F32)(expiration * get_timer_info().mClockFrequency.value()));
}
F32SecondsImplicit LLTimer::getRemainingTimeF32() const
{
- U64 cur_ticks = get_clock_count();
- if (cur_ticks > mExpirationTicks)
- {
- return 0.0f;
- }
- return F32((mExpirationTicks - cur_ticks) * get_timer_info().mClockFrequencyInv);
+ U64 cur_ticks = get_clock_count();
+ if (cur_ticks > mExpirationTicks)
+ {
+ return 0.0f;
+ }
+ return F32((mExpirationTicks - cur_ticks) * get_timer_info().mClockFrequencyInv);
}
BOOL LLTimer::checkExpirationAndReset(F32 expiration)
{
- U64 cur_ticks = get_clock_count();
- if (cur_ticks < mExpirationTicks)
- {
- return FALSE;
- }
+ U64 cur_ticks = get_clock_count();
+ if (cur_ticks < mExpirationTicks)
+ {
+ return FALSE;
+ }
- mExpirationTicks = cur_ticks
- + (U64)((F32)(expiration * get_timer_info().mClockFrequency));
- return TRUE;
+ mExpirationTicks = cur_ticks
+ + (U64)((F32)(expiration * get_timer_info().mClockFrequency));
+ return TRUE;
}
BOOL LLTimer::hasExpired() const
{
- return (get_clock_count() >= mExpirationTicks)
- ? TRUE : FALSE;
+ return (get_clock_count() >= mExpirationTicks)
+ ? TRUE : FALSE;
}
///////////////////////////////////////////////////////////////////////////////
BOOL LLTimer::knownBadTimer()
{
- BOOL failed = FALSE;
+ BOOL failed = FALSE;
#if LL_WINDOWS
- WCHAR bad_pci_list[][10] = {L"1039:0530",
- L"1039:0620",
- L"10B9:0533",
- L"10B9:1533",
- L"1106:0596",
- L"1106:0686",
- L"1166:004F",
- L"1166:0050",
- L"8086:7110",
- L"\0"
- };
-
- HKEY hKey = NULL;
- LONG nResult = ::RegOpenKeyEx(HKEY_LOCAL_MACHINE,L"SYSTEM\\CurrentControlSet\\Enum\\PCI", 0,
- KEY_EXECUTE | KEY_QUERY_VALUE | KEY_ENUMERATE_SUB_KEYS, &hKey);
-
- WCHAR name[1024];
- DWORD name_len = 1024;
- FILETIME scrap;
-
- S32 key_num = 0;
- WCHAR pci_id[10];
-
- wcscpy(pci_id, L"0000:0000"); /*Flawfinder: ignore*/
-
- while (nResult == ERROR_SUCCESS)
- {
- nResult = ::RegEnumKeyEx(hKey, key_num++, name, &name_len, NULL, NULL, NULL, &scrap);
-
- if (nResult == ERROR_SUCCESS)
- {
- memcpy(&pci_id[0],&name[4],4); /* Flawfinder: ignore */
- memcpy(&pci_id[5],&name[13],4); /* Flawfinder: ignore */
-
- for (S32 check = 0; bad_pci_list[check][0]; check++)
- {
- if (!wcscmp(pci_id, bad_pci_list[check]))
- {
-// LL_WARNS() << "unreliable PCI chipset found!! " << pci_id << endl;
- failed = TRUE;
- break;
- }
- }
-// llinfo << "PCI chipset found: " << pci_id << endl;
- name_len = 1024;
- }
- }
+ WCHAR bad_pci_list[][10] = {L"1039:0530",
+ L"1039:0620",
+ L"10B9:0533",
+ L"10B9:1533",
+ L"1106:0596",
+ L"1106:0686",
+ L"1166:004F",
+ L"1166:0050",
+ L"8086:7110",
+ L"\0"
+ };
+
+ HKEY hKey = NULL;
+ LONG nResult = ::RegOpenKeyEx(HKEY_LOCAL_MACHINE,L"SYSTEM\\CurrentControlSet\\Enum\\PCI", 0,
+ KEY_EXECUTE | KEY_QUERY_VALUE | KEY_ENUMERATE_SUB_KEYS, &hKey);
+
+ WCHAR name[1024];
+ DWORD name_len = 1024;
+ FILETIME scrap;
+
+ S32 key_num = 0;
+ WCHAR pci_id[10];
+
+ wcscpy(pci_id, L"0000:0000"); /*Flawfinder: ignore*/
+
+ while (nResult == ERROR_SUCCESS)
+ {
+ nResult = ::RegEnumKeyEx(hKey, key_num++, name, &name_len, NULL, NULL, NULL, &scrap);
+
+ if (nResult == ERROR_SUCCESS)
+ {
+ memcpy(&pci_id[0],&name[4],4); /* Flawfinder: ignore */
+ memcpy(&pci_id[5],&name[13],4); /* Flawfinder: ignore */
+
+ for (S32 check = 0; bad_pci_list[check][0]; check++)
+ {
+ if (!wcscmp(pci_id, bad_pci_list[check]))
+ {
+// LL_WARNS() << "unreliable PCI chipset found!! " << pci_id << endl;
+ failed = TRUE;
+ break;
+ }
+ }
+// llinfo << "PCI chipset found: " << pci_id << endl;
+ name_len = 1024;
+ }
+ }
#endif
- return(failed);
+ return(failed);
}
///////////////////////////////////////////////////////////////////////////////
-//
+//
// NON-MEMBER FUNCTIONS
//
///////////////////////////////////////////////////////////////////////////////
time_t time_corrected()
{
- return time(NULL) + gUTCOffset;
+ return time(NULL) + gUTCOffset;
}
@@ -535,75 +535,75 @@ time_t time_corrected()
// observing daylight savings time?
BOOL is_daylight_savings()
{
- time_t now = time(NULL);
+ time_t now = time(NULL);
- // Internal buffer to local server time
- struct tm* internal_time = localtime(&now);
+ // Internal buffer to local server time
+ struct tm* internal_time = localtime(&now);
- // tm_isdst > 0 => daylight savings
- // tm_isdst = 0 => not daylight savings
- // tm_isdst < 0 => can't tell
- return (internal_time->tm_isdst > 0);
+ // tm_isdst > 0 => daylight savings
+ // tm_isdst = 0 => not daylight savings
+ // tm_isdst < 0 => can't tell
+ return (internal_time->tm_isdst > 0);
}
struct tm* utc_to_pacific_time(time_t utc_time, BOOL pacific_daylight_time)
{
- S32Hours pacific_offset_hours;
- if (pacific_daylight_time)
- {
- pacific_offset_hours = S32Hours(7);
- }
- else
- {
- pacific_offset_hours = S32Hours(8);
- }
+ S32Hours pacific_offset_hours;
+ if (pacific_daylight_time)
+ {
+ pacific_offset_hours = S32Hours(7);
+ }
+ else
+ {
+ pacific_offset_hours = S32Hours(8);
+ }
+
+ // We subtract off the PST/PDT offset _before_ getting
+ // "UTC" time, because this will handle wrapping around
+ // for 5 AM UTC -> 10 PM PDT of the previous day.
+ utc_time -= S32SecondsImplicit(pacific_offset_hours);
- // We subtract off the PST/PDT offset _before_ getting
- // "UTC" time, because this will handle wrapping around
- // for 5 AM UTC -> 10 PM PDT of the previous day.
- utc_time -= S32SecondsImplicit(pacific_offset_hours);
-
- // Internal buffer to PST/PDT (see above)
- struct tm* internal_time = gmtime(&utc_time);
+ // Internal buffer to PST/PDT (see above)
+ struct tm* internal_time = gmtime(&utc_time);
- /*
- // Don't do this, this won't correctly tell you if daylight savings is active in CA or not.
- if (pacific_daylight_time)
- {
- internal_time->tm_isdst = 1;
- }
- */
+ /*
+ // Don't do this, this won't correctly tell you if daylight savings is active in CA or not.
+ if (pacific_daylight_time)
+ {
+ internal_time->tm_isdst = 1;
+ }
+ */
- return internal_time;
+ return internal_time;
}
void microsecondsToTimecodeString(U64MicrosecondsImplicit current_time, std::string& tcstring)
{
- U64 hours;
- U64 minutes;
- U64 seconds;
- U64 frames;
- U64 subframes;
+ U64 hours;
+ U64 minutes;
+ U64 seconds;
+ U64 frames;
+ U64 subframes;
- hours = current_time / (U64)3600000000ul;
- minutes = current_time / (U64)60000000;
- minutes %= 60;
- seconds = current_time / (U64)1000000;
- seconds %= 60;
- frames = current_time / (U64)41667;
- frames %= 24;
- subframes = current_time / (U64)42;
- subframes %= 100;
+ hours = current_time / (U64)3600000000ul;
+ minutes = current_time / (U64)60000000;
+ minutes %= 60;
+ seconds = current_time / (U64)1000000;
+ seconds %= 60;
+ frames = current_time / (U64)41667;
+ frames %= 24;
+ subframes = current_time / (U64)42;
+ subframes %= 100;
- tcstring = llformat("%3.3d:%2.2d:%2.2d:%2.2d.%2.2d",(int)hours,(int)minutes,(int)seconds,(int)frames,(int)subframes);
+ tcstring = llformat("%3.3d:%2.2d:%2.2d:%2.2d.%2.2d",(int)hours,(int)minutes,(int)seconds,(int)frames,(int)subframes);
}
void secondsToTimecodeString(F32SecondsImplicit current_time, std::string& tcstring)
{
- microsecondsToTimecodeString(current_time, tcstring);
+ microsecondsToTimecodeString(current_time, tcstring);
}