virtualx-engine/thirdparty/embree/kernels/common/profile.h

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// Copyright 2009-2021 Intel Corporation
2020-12-19 14:50:20 +01:00
// SPDX-License-Identifier: Apache-2.0
#pragma once
#include "default.h"
namespace embree
{
/*! helper structure for the implementation of the profile functions below */
struct ProfileTimer
{
static const size_t N = 20;
ProfileTimer () {}
ProfileTimer (const size_t numSkip) : i(0), j(0), maxJ(0), numSkip(numSkip), t0(0)
{
for (size_t i=0; i<N; i++) names[i] = nullptr;
for (size_t i=0; i<N; i++) dt_fst[i] = 0.0;
for (size_t i=0; i<N; i++) dt_min[i] = pos_inf;
for (size_t i=0; i<N; i++) dt_avg[i] = 0.0;
for (size_t i=0; i<N; i++) dt_max[i] = neg_inf;
}
__forceinline void begin()
{
j=0;
t0 = tj = getSeconds();
}
__forceinline void end() {
absolute("total");
i++;
}
__forceinline void operator() (const char* name) {
relative(name);
}
__forceinline void absolute (const char* name)
{
const double t1 = getSeconds();
const double dt = t1-t0;
assert(names[j] == nullptr || names[j] == name);
names[j] = name;
if (i == 0) dt_fst[j] = dt;
if (i>=numSkip) {
dt_min[j] = min(dt_min[j],dt);
dt_avg[j] = dt_avg[j] + dt;
dt_max[j] = max(dt_max[j],dt);
}
j++;
maxJ = max(maxJ,j);
}
__forceinline void relative (const char* name)
{
const double t1 = getSeconds();
const double dt = t1-tj;
tj = t1;
assert(names[j] == nullptr || names[j] == name);
names[j] = name;
if (i == 0) dt_fst[j] = dt;
if (i>=numSkip) {
dt_min[j] = min(dt_min[j],dt);
dt_avg[j] = dt_avg[j] + dt;
dt_max[j] = max(dt_max[j],dt);
}
j++;
maxJ = max(maxJ,j);
}
void print(size_t numElements)
{
for (size_t k=0; k<N; k++)
dt_avg[k] /= double(i-numSkip);
printf(" profile [M/s]:\n");
for (size_t j=0; j<maxJ; j++)
printf("%20s: fst = %7.2f M/s, min = %7.2f M/s, avg = %7.2f M/s, max = %7.2f M/s\n",
names[j],numElements/dt_fst[j]*1E-6,numElements/dt_max[j]*1E-6,numElements/dt_avg[j]*1E-6,numElements/dt_min[j]*1E-6);
printf(" profile [ms]:\n");
for (size_t j=0; j<maxJ; j++)
printf("%20s: fst = %7.2f ms, min = %7.2f ms, avg = %7.2f ms, max = %7.2fms\n",
names[j],1000.0*dt_fst[j],1000.0*dt_min[j],1000.0*dt_avg[j],1000.0*dt_max[j]);
}
void print()
{
printf(" profile:\n");
for (size_t k=0; k<N; k++)
dt_avg[k] /= double(i-numSkip);
for (size_t j=0; j<maxJ; j++) {
printf("%20s: fst = %7.2f ms, min = %7.2f ms, avg = %7.2f ms, max = %7.2fms\n",
names[j],1000.0*dt_fst[j],1000.0*dt_min[j],1000.0*dt_avg[j],1000.0*dt_max[j]);
}
}
double avg() {
return dt_avg[maxJ-1]/double(i-numSkip);
}
private:
size_t i;
size_t j;
size_t maxJ;
size_t numSkip;
double t0;
double tj;
const char* names[N];
double dt_fst[N];
double dt_min[N];
double dt_avg[N];
double dt_max[N];
};
/*! This function executes some code block multiple times and measured sections of it.
Use the following way:
profile(1,10,1000,[&](ProfileTimer& timer) {
// code
timer("A");
// code
timer("B");
});
*/
template<typename Closure>
void profile(const size_t numSkip, const size_t numIter, const size_t numElements, const Closure& closure)
{
ProfileTimer timer(numSkip);
for (size_t i=0; i<numSkip+numIter; i++)
{
timer.begin();
closure(timer);
timer.end();
}
timer.print(numElements);
}
/*! similar as the function above, but the timer object comes externally */
template<typename Closure>
void profile(ProfileTimer& timer, const size_t numSkip, const size_t numIter, const size_t numElements, const Closure& closure)
{
timer = ProfileTimer(numSkip);
for (size_t i=0; i<numSkip+numIter; i++)
{
timer.begin();
closure(timer);
timer.end();
}
timer.print(numElements);
}
}