#include "timer.h" #include "build.h" #include "compat.h" #include using namespace std; using namespace chrono; EDUKE32_STATIC_ASSERT((steady_clock::period::den/steady_clock::period::num) >= 1000000000); static time_point timerlastsample; static int timerticspersec; static void(*usertimercallback)(void) = NULL; int timerGetRate(void) { return timerticspersec; } uint32_t timerGetTicks(void) { return duration_cast(steady_clock::now().time_since_epoch()).count(); } uint64_t timerGetTicksU64(void) { return steady_clock::now().time_since_epoch().count() * steady_clock::period::num; } uint64_t timerGetFreqU64(void) { return steady_clock::period::den; } // Returns the time since an unspecified starting time in milliseconds. // (May be not monotonic for certain configurations.) double timerGetHiTicks(void) { return duration(steady_clock::now().time_since_epoch()).count() / 1000000.0; } int timerInit(int const tickspersecond) { timerticspersec = tickspersecond; timerlastsample = steady_clock::now(); usertimercallback = NULL; return 0; } ATTRIBUTE((flatten)) void timerUpdate(void) { auto time = steady_clock::now(); auto elapsedTime = time - timerlastsample; int n = elapsedTime.count() * (uint64_t) timerticspersec / timerGetFreqU64() * steady_clock::period::num; if (n <= 0) return; totalclock += n; timerlastsample += n*nanoseconds(1000000000/timerticspersec); if (usertimercallback) for (; n > 0; n--) usertimercallback(); } void(*timerSetCallback(void(*callback)(void)))(void) { void(*oldtimercallback)(void); oldtimercallback = usertimercallback; usertimercallback = callback; return oldtimercallback; }