137 lines
3.4 KiB
Plaintext
137 lines
3.4 KiB
Plaintext
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/***
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Copyright (C) 2022 J Reece Wilson (a/k/a "Reece"). All rights reserved.
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File: ThroughputCalculator.hpp
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Date: 2022-12-06
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Author: Reece
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***/
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#pragma once
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namespace Aurora::Utility
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{
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struct ThroughputCalculator
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{
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// call me arbitrarily
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double inline OnUpdate(AuUInt uUnit)
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{
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AU_LOCK_GUARD(this->lock);
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OnTick(uUnit);
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return this->dCurFreq;
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}
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// then call me arbitrarily:
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double inline GetEstimatedHertz()
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{
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AU_LOCK_GUARD(this->lock);
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auto uNow = Aurora::Time::SteadyClockNS();
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auto uDelta = uNow - this->uLast;
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// we cannot do anything on frame zero
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if (!this->dCurFreq)
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{
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return 0;
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}
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return this->dCurFreq;
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}
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AuUInt inline GetTotalStats()
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{
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return this->uTotalLifetime;
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}
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AuInt64 inline GetLastFrameTimeWall()
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{
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return this->uLastWall;
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}
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private:
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void inline OnTick(AuUInt64 uUnit)
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{
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struct EntryTable
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{
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AuUInt32 uBits {};
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AuUInt32 uTimeDelta {};
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};
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auto uNow = Aurora::Time::SteadyClockNS();
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auto uDelta = uNow - this->uLast;
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AuMemmove(uVecTable + 1, uVecTable, sizeof(uVecTable) - sizeof(*uVecTable));
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auto pTable = ((EntryTable *)uVecTable);
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bool bFirst = !this->uLast;
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this->uLast = uNow;
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if (bFirst)
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{
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return;
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}
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this->uLastWall = Aurora::Time::CurrentClockMS();
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static const auto kOneSecond = AuMSToNS<AuUInt64>(AuSToMS<AuUInt64>(1));
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pTable[0].uBits = (AuUInt32)uUnit;
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pTable[0].uTimeDelta = (AuUInt32)(uDelta / 1000ull);
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if (!pTable[0].uTimeDelta)
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{
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pTable[0].uTimeDelta = 1;
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}
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if (uVecSize < 10)
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{
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uVecSize++;
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}
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AuLogDbg("Added: {} {}", pTable[0].uBits, pTable[0].uTimeDelta * 1000ull);
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double dTotal {};
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double dTotalBits {};
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double dTotalTime {};
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double dSamples {};
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for (AU_ITR_N(i, uVecSize))
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{
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if (!pTable[i].uTimeDelta)
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{
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pTable[i].uTimeDelta = 1;
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}
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double dDeltaSeconds = ((double)((AuUInt64)pTable[i].uTimeDelta * 1000ull) / (double)kOneSecond);
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dTotalBits += pTable[i].uBits;
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dTotalTime += dDeltaSeconds;
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dTotal += (double)pTable[i].uBits / dDeltaSeconds;
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dSamples++;
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}
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AuLogDbg("{}/{} ({})", dTotal, dSamples, uVecSize);
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this->dCurFreq = dTotal / dSamples;
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double a = dTotalBits / dTotalTime;
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//if (this->dCurFreq > a)
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//{
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//}
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//this->dCurFreq = AuMin(a, this->dCurFreq);
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}
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AuUInt8 uVecSize {};
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AuUInt64 uVecTable[10];
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AuThreadPrimitives::SpinLock lock;
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AuUInt64 uLast {};
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AuUInt uTotalLifetime {};
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AuInt64 uLastWall {};
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double dCurFreq {};
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};
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}
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