/* ///////////////////////////////////////////////////////////////////////// * File: winstl/performance/threadtimes_counter.hpp * * Purpose: WinSTL thread-time performance counter class. * * Created: 22nd March 2002 * Updated: 6th May 2010 * * Home: http://stlsoft.org/ * * Copyright (c) 2002-2010, Matthew Wilson and Synesis Software * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * - Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * - Neither the name(s) of Matthew Wilson and Synesis Software nor the names of * any contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * * ////////////////////////////////////////////////////////////////////// */ /** \file winstl/performance/threadtimes_counter.hpp * * \brief [C++ only] Definition of the * \link winstl::threadtimes_counter threadtimes_counter\endlink class * (\ref group__library__performance "Performance" Library). */ #ifndef WINSTL_INCL_WINSTL_PERFORMANCE_HPP_THREADTIMES_COUNTER #define WINSTL_INCL_WINSTL_PERFORMANCE_HPP_THREADTIMES_COUNTER #ifndef STLSOFT_DOCUMENTATION_SKIP_SECTION # define WINSTL_VER_WINSTL_PERFORMANCE_HPP_THREADTIMES_COUNTER_MAJOR 4 # define WINSTL_VER_WINSTL_PERFORMANCE_HPP_THREADTIMES_COUNTER_MINOR 0 # define WINSTL_VER_WINSTL_PERFORMANCE_HPP_THREADTIMES_COUNTER_REVISION 3 # define WINSTL_VER_WINSTL_PERFORMANCE_HPP_THREADTIMES_COUNTER_EDIT 48 #endif /* !STLSOFT_DOCUMENTATION_SKIP_SECTION */ /* ///////////////////////////////////////////////////////////////////////// * Includes */ #ifndef WINSTL_INCL_WINSTL_H_WINSTL # include #endif /* !WINSTL_INCL_WINSTL_H_WINSTL */ /* ///////////////////////////////////////////////////////////////////////// * Namespace */ #ifndef _WINSTL_NO_NAMESPACE # if defined(_STLSOFT_NO_NAMESPACE) || \ defined(STLSOFT_DOCUMENTATION_SKIP_SECTION) /* There is no stlsoft namespace, so must define ::winstl */ namespace winstl { # else /* Define stlsoft::winstl_project */ namespace stlsoft { namespace winstl_project { # endif /* _STLSOFT_NO_NAMESPACE */ #endif /* !_WINSTL_NO_NAMESPACE */ /* ///////////////////////////////////////////////////////////////////////// * Classes */ // class threadtimes_counter /** \brief A performance counter that provides thread-specific performance timings * * \ingroup group__library__performance * * This class uses the operating system's performance monitoring facilities to provide timing * information pertaining to the calling thread only, irrespective of the activities of other * threads on the system. This class does not provide meaningful timing information on operating * systems that do not provide thread-specific monitoring. */ class threadtimes_counter { public: /// This type typedef threadtimes_counter class_type; private: typedef ws_sint64_t epoch_type; public: /// \brief The interval type /// /// The type of the interval measurement, a 64-bit signed integer typedef ws_sint64_t interval_type; // Construction public: /// \brief Constructor /// /// Creates an instance of the class, and caches the thread token so that measurements will /// be taken with respect to the thread in which the class was created. threadtimes_counter(); // Operations public: /// \brief Starts measurement /// /// Begins the measurement period void start(); /// \brief Ends measurement /// /// Ends the measurement period void stop(); // Attributes public: // Kernel /// \brief The elapsed count in the measurement period for kernel mode activity /// /// This represents the extent, in machine-specific increments, of the measurement period for kernel mode activity interval_type get_kernel_period_count() const; /// \brief The number of whole seconds in the measurement period for kernel mode activity /// /// This represents the extent, in whole seconds, of the measurement period for kernel mode activity interval_type get_kernel_seconds() const; /// \brief The number of whole milliseconds in the measurement period for kernel mode activity /// /// This represents the extent, in whole milliseconds, of the measurement period for kernel mode activity interval_type get_kernel_milliseconds() const; /// \brief The number of whole microseconds in the measurement period for kernel mode activity /// /// This represents the extent, in whole microseconds, of the measurement period for kernel mode activity interval_type get_kernel_microseconds() const; // User /// \brief The elapsed count in the measurement period for user mode activity /// /// This represents the extent, in machine-specific increments, of the measurement period for user mode activity interval_type get_user_period_count() const; /// \brief The number of whole seconds in the measurement period for user mode activity /// /// This represents the extent, in whole seconds, of the measurement period for user mode activity interval_type get_user_seconds() const; /// \brief The number of whole milliseconds in the measurement period for user mode activity /// /// This represents the extent, in whole milliseconds, of the measurement period for user mode activity interval_type get_user_milliseconds() const; /// \brief The number of whole microseconds in the measurement period for user mode activity /// /// This represents the extent, in whole microseconds, of the measurement period for user mode activity interval_type get_user_microseconds() const; // Total /// \brief The elapsed count in the measurement period /// /// This represents the extent, in machine-specific increments, of the measurement period interval_type get_period_count() const; /// \brief The number of whole seconds in the measurement period /// /// This represents the extent, in whole seconds, of the measurement period interval_type get_seconds() const; /// \brief The number of whole milliseconds in the measurement period /// /// This represents the extent, in whole milliseconds, of the measurement period interval_type get_milliseconds() const; /// \brief The number of whole microseconds in the measurement period /// /// This represents the extent, in whole microseconds, of the measurement period interval_type get_microseconds() const; private: // Implementation static epoch_type convert_(FILETIME const& ft); // Members private: epoch_type m_kernelStart; epoch_type m_kernelEnd; epoch_type m_userStart; epoch_type m_userEnd; HANDLE m_thread; }; //////////////////////////////////////////////////////////////////////////// // Unit-testing #ifdef STLSOFT_UNITTEST # include "./unittest/threadtimes_counter_unittest_.h" #endif /* STLSOFT_UNITTEST */ //////////////////////////////////////////////////////////////////////////// // Implementation #ifndef STLSOFT_DOCUMENTATION_SKIP_SECTION inline /* static */ threadtimes_counter::epoch_type threadtimes_counter::convert_(FILETIME const& ft) { epoch_type r = ft.dwHighDateTime; r <<= 32; r += ft.dwLowDateTime; return r; } inline threadtimes_counter::threadtimes_counter() : m_thread(::GetCurrentThread()) { // Note that the constructor does nothing, for performance reasons. Calling // any of the Attribute methods before having gone through a start()-stop() // cycle will yield undefined results. } // Operations inline void threadtimes_counter::start() { FILETIME creationTime; FILETIME exitTime; FILETIME kernelTime; FILETIME userTime; if(!::GetThreadTimes(m_thread, &creationTime, &exitTime, &kernelTime, &userTime)) { m_kernelStart = 0; m_userStart = 0; #ifdef STLSOFT_CF_EXCEPTION_SUPPORT ; // TODO: throw #endif /* STLSOFT_CF_EXCEPTION_SUPPORT */ } else { m_kernelStart = convert_(kernelTime); m_userStart = convert_(userTime); } } inline void threadtimes_counter::stop() { FILETIME creationTime; FILETIME exitTime; FILETIME kernelTime; FILETIME userTime; if(!::GetThreadTimes(m_thread, &creationTime, &exitTime, &kernelTime, &userTime)) { m_kernelEnd = 0; m_userEnd = 0; #ifdef STLSOFT_CF_EXCEPTION_SUPPORT ; // TODO: throw #endif /* STLSOFT_CF_EXCEPTION_SUPPORT */ } else { m_kernelEnd = convert_(kernelTime); m_userEnd = convert_(userTime); } } // Attributes // Kernel inline threadtimes_counter::interval_type threadtimes_counter::get_kernel_period_count() const { return static_cast(m_kernelEnd - m_kernelStart); } inline threadtimes_counter::interval_type threadtimes_counter::get_kernel_seconds() const { return get_kernel_period_count() / interval_type(10000000); } inline threadtimes_counter::interval_type threadtimes_counter::get_kernel_milliseconds() const { return get_kernel_period_count() / interval_type(10000); } inline threadtimes_counter::interval_type threadtimes_counter::get_kernel_microseconds() const { return get_kernel_period_count() / interval_type(10); } // User inline threadtimes_counter::interval_type threadtimes_counter::get_user_period_count() const { return static_cast(m_userEnd - m_userStart); } inline threadtimes_counter::interval_type threadtimes_counter::get_user_seconds() const { return get_user_period_count() / interval_type(10000000); } inline threadtimes_counter::interval_type threadtimes_counter::get_user_milliseconds() const { return get_user_period_count() / interval_type(10000); } inline threadtimes_counter::interval_type threadtimes_counter::get_user_microseconds() const { return get_user_period_count() / interval_type(10); } // Total inline threadtimes_counter::interval_type threadtimes_counter::get_period_count() const { return get_kernel_period_count() + get_user_period_count(); } inline threadtimes_counter::interval_type threadtimes_counter::get_seconds() const { return get_period_count() / interval_type(10000000); } inline threadtimes_counter::interval_type threadtimes_counter::get_milliseconds() const { return get_period_count() / interval_type(10000); } inline threadtimes_counter::interval_type threadtimes_counter::get_microseconds() const { return get_period_count() / interval_type(10); } #endif /* !STLSOFT_DOCUMENTATION_SKIP_SECTION */ /* ////////////////////////////////////////////////////////////////////// */ #ifndef _WINSTL_NO_NAMESPACE # if defined(_STLSOFT_NO_NAMESPACE) || \ defined(STLSOFT_DOCUMENTATION_SKIP_SECTION) } // namespace winstl # else } // namespace winstl_project } // namespace stlsoft # endif /* _STLSOFT_NO_NAMESPACE */ #endif /* !_WINSTL_NO_NAMESPACE */ /* ////////////////////////////////////////////////////////////////////// */ #endif /* !WINSTL_INCL_WINSTL_PERFORMANCE_HPP_THREADTIMES_COUNTER */ /* ///////////////////////////// end of file //////////////////////////// */