timemory  3.2.1
Modular C++ Toolkit for Performance Analysis and Logging. Profiling API and Tools for C, C++, CUDA, Fortran, and Python. The C++ template API is essentially a framework to creating tools: it is designed to provide a unifying interface for recording various performance measurements alongside data logging and interfaces to other tools.
Public Types | Public Member Functions | Static Public Member Functions | List of all members
tim::component::thread_cpu_clock Struct Reference

this clock measures the CPU time within the current thread (excludes sibling/child threads). Only relevant as a time when a different is computed Do not use a single CPU time as an amount of time; it doesn't work that way. More...

#include "timemory/components/timing/components.hpp"

+ Collaboration diagram for tim::component::thread_cpu_clock:

Public Types

using ratio_t = std::nano
 
using value_type = int64_t
 
using base_type = base< thread_cpu_clock, value_type >
 

Public Member Functions

double get () const noexcept
 
double get_display () const noexcept
 
void start () noexcept
 
void stop () noexcept
 

Static Public Member Functions

static std::string label ()
 
static std::string description ()
 
static value_type record () noexcept
 

Detailed Description

this clock measures the CPU time within the current thread (excludes sibling/child threads). Only relevant as a time when a different is computed Do not use a single CPU time as an amount of time; it doesn't work that way.

Definition at line 217 of file components.hpp.

Member Typedef Documentation

◆ base_type

using tim::component::thread_cpu_clock::base_type = base<thread_cpu_clock, value_type>

Definition at line 221 of file components.hpp.

◆ ratio_t

using tim::component::thread_cpu_clock::ratio_t = std::nano

Definition at line 219 of file components.hpp.

◆ value_type

using tim::component::thread_cpu_clock::value_type = int64_t

Definition at line 220 of file components.hpp.

Member Function Documentation

◆ description()

static std::string tim::component::thread_cpu_clock::description ( )
inlinestatic

Definition at line 224 of file components.hpp.

224 { return "CPU-clock timer for the calling thread"; }

◆ get()

double tim::component::thread_cpu_clock::get ( ) const
inlinenoexcept

Definition at line 229 of file components.hpp.

230  {
231  auto val = load();
232  return static_cast<double>(val / static_cast<double>(ratio_t::den) *
233  base_type::get_unit());
234  }
tim::component::base::get_unit
static int64_t get_unit()

References tim::component::base< Tp, Value >::get_unit(), and tim::component::base< thread_cpu_clock >::load().

Referenced by get_display().

◆ get_display()

double tim::component::thread_cpu_clock::get_display ( ) const
inlinenoexcept

Definition at line 235 of file components.hpp.

235 { return get(); }
tim::component::thread_cpu_clock::get
double get() const noexcept
Definition: components.hpp:229

References get().

◆ label()

static std::string tim::component::thread_cpu_clock::label ( )
inlinestatic

Definition at line 223 of file components.hpp.

223 { return "thread_cpu"; }

◆ record()

static value_type tim::component::thread_cpu_clock::record ( )
inlinestaticnoexcept

Definition at line 225 of file components.hpp.

226  {
227  return tim::get_clock_thread_now<int64_t, ratio_t>();
228  }

Referenced by tim::component::thread_cpu_util::record(), start(), and stop().

◆ start()

void tim::component::thread_cpu_clock::start ( )
inlinenoexcept

Definition at line 236 of file components.hpp.

236 { value = record(); }
tim::component::thread_cpu_clock::record
static value_type record() noexcept
Definition: components.hpp:225

References record().

◆ stop()

void tim::component::thread_cpu_clock::stop ( )
inlinenoexcept

Definition at line 237 of file components.hpp.

238  {
239  value = (record() - value);
240  accum += value;
241  }

References record().

The documentation for this struct was generated from the following file: