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fractorium/Source/Ember/Timing.h

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--User changes -Add new preset dimensions to the right click menu of the width and height fields in the editor. -Change QSS stylesheets to properly handle tabs. -Make tabs rectangular by default. For some reason, they had always been triangular. --Bug fixes -Incremental rendering times in the editor were wrong. --Code changes -Migrate to Qt6. There is probably more work to be done here. -Migrate to VS2022. -Migrate to Wix 4 installer. -Change installer to install to program files for all users. -Fix many VS2022 code analysis warnings. -No longer use byte typedef, because std::byte is now a type. Revert all back to unsigned char. -Upgrade OpenCL headers to version 3.0 and keep locally now rather than trying to look for system files. -No longer link to Nvidia or AMD specific OpenCL libraries. Use the generic installer located at OCL_ROOT too. -Add the ability to change OpenCL grid dimensions. This was attempted for investigating possible performance improvments, but made no difference. This has not been verified on Linux or Mac yet.
2023-04-25 19:59:54 -04:00
#pragma once
#include "EmberDefines.h"
/// <summary>
/// Timing and CriticalSection classes.
/// </summary>
namespace EmberNs
{
/// <summary>
/// Since the algorithm is so computationally intensive, timing and benchmarking are an integral portion
/// of both the development process and the execution results. This class provides an easy way to time
/// things by simply calling its Tic() and Toc() member functions. It also assists with formatting the
/// elapsed time as a string.
/// </summary>
class EMBER_API Timing
{
public:
/// <summary>
/// Constructor that takes an optional precision argument which specifies how many digits after the decimal place should be printed for seconds.
/// As a convenience, the Tic() function is called automatically.
/// </summary>
/// <param name="precision">The precision of the seconds field of the elapsed time. Default: 2.</param>
Timing(int precision = 2) noexcept
{
m_Precision = precision;
Init();
Tic();
}
/// <summary>
/// Set the begin time.
/// </summary>
/// <returns>The begin time cast to a double</returns>
double Tic() noexcept
{
m_BeginTime = NowMsD();
return BeginTime();
}
/// <summary>
/// Set the end time and optionally output a string showing the elapsed time.
/// </summary>
/// <param name="str">The string to output. Default: nullptr.</param>
/// <param name="fullString">If true, output the string verbatim, else output the text " processing time: " in between str and the formatted time.</param>
/// <returns>The elapsed time in milliseconds as a double</returns>
double Toc(const char* str = nullptr, bool fullString = false)
{
m_EndTime = NowMsD();
const auto ms = ElapsedTime();
if (str)
{
cout << string(str) << (fullString ? "" : " processing time: ") << Format(ms) << "\n";
}
return ms;
}
/// <summary>
/// Return the begin time as a double.
/// </summary>
/// <returns></returns>
double BeginTime() const noexcept { return static_cast<double>(m_BeginTime.time_since_epoch().count()); }
/// <summary>
/// Return the end time as a double.
/// </summary>
/// <returns></returns>
double EndTime() const noexcept { return static_cast<double>(m_EndTime.time_since_epoch().count()); }
/// <summary>
/// Return the elapsed time in milliseconds.
/// </summary>
/// <returns>The elapsed time in milliseconds as a double</returns>
double ElapsedTime() const noexcept
{
return (m_EndTime - m_BeginTime).count();
}
/// <summary>
/// Formats a specified milliseconds value as a string.
/// This uses some intelligence to determine what to return depending on how much time has elapsed.
/// Days, hours and minutes are only included if 1 or more of them has elapsed. Seconds are always
/// included as a decimal value with the precision the user specified in the constructor.
/// </summary>
/// <param name="ms">The time in milliseconds to format</param>
/// <returns>The formatted string</returns>
string Format(double ms) const
{
stringstream ss;
double x = ms / 1000;
const auto secs = fmod(x, 60);
x /= 60;
const auto mins = fmod(x, 60);
x /= 60;
const auto hours = fmod(x, 24);
x /= 24;
const auto days = x;
if (days >= 1)
ss << static_cast<int>(days) << "d ";
if (hours >= 1)
ss << static_cast<int>(hours) << "h ";
if (mins >= 1)
ss << static_cast<int>(mins) << "m ";
ss << std::fixed << std::setprecision(m_Precision) << secs << "s";
return ss.str();
}
/// <summary>
/// Return the number of cores in the system.
/// </summary>
/// <returns>The number of cores in the system</returns>
static uint ProcessorCount()
{
Init();
return m_ProcessorCount;
}
private:
/// <summary>
/// Query and store the performance info of the system.
/// Since it will never change it only needs to be queried once.
/// This is achieved by keeping static state and performance variables.
/// </summary>
static void Init() noexcept
{
if (!m_TimingInit)
{
m_ProcessorCount = thread::hardware_concurrency();
m_TimingInit = true;
}
}
int m_Precision;//How many digits after the decimal place to print for seconds.
DoubleMsTimePoint m_BeginTime;//The start of the timing, set with Tic().
DoubleMsTimePoint m_EndTime;//The end of the timing, set with Toc().
static bool m_TimingInit;//Whether the performance info has bee queried.
static uint m_ProcessorCount;//The number of cores on the system, set in Init().
};
}
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