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https://github.com/KhronosGroup/SPIRV-Tools
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65ecfd1093
Found via `codespell -q 3 -L fo,lod,parm
393 lines
14 KiB
C++
393 lines
14 KiB
C++
// Copyright (c) 2018 Google LLC.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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// Contains utils for getting resource utilization
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#ifndef SOURCE_UTIL_TIMER_H_
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#define SOURCE_UTIL_TIMER_H_
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#if defined(SPIRV_TIMER_ENABLED)
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#include <sys/resource.h>
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#include <cassert>
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#include <iostream>
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// A macro to call spvtools::utils::PrintTimerDescription(std::ostream*, bool).
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// The first argument must be given as std::ostream*. If it is NULL, the
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// function does nothing. Otherwise, it prints resource types measured by Timer
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// class. The second is optional and if it is true, the function also prints
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// resource type fields related to memory. Otherwise, it does not print memory
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// related fields. Its default is false. In usual, this must be placed before
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// calling Timer::Report() to inform what those fields printed by
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// Timer::Report() indicate (or spvtools::utils::PrintTimerDescription() must be
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// used instead).
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#define SPIRV_TIMER_DESCRIPTION(...) \
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spvtools::utils::PrintTimerDescription(__VA_ARGS__)
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// Creates an object of ScopedTimer to measure the resource utilization for the
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// scope surrounding it as the following example:
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//
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// { // <-- beginning of this scope
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//
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// /* ... code out of interest ... */
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//
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// SPIRV_TIMER_SCOPED(std::cout, tag);
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//
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// /* ... lines of code that we want to know its resource usage ... */
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//
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// } // <-- end of this scope. The destructor of ScopedTimer prints tag and
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// the resource utilization to std::cout.
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#define SPIRV_TIMER_SCOPED(...) \
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spvtools::utils::ScopedTimer<spvtools::utils::Timer> timer##__LINE__( \
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__VA_ARGS__)
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namespace spvtools {
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namespace utils {
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// Prints the description of resource types measured by Timer class. If |out| is
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// NULL, it does nothing. Otherwise, it prints resource types. The second is
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// optional and if it is true, the function also prints resource type fields
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// related to memory. Its default is false. In usual, this must be placed before
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// calling Timer::Report() to inform what those fields printed by
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// Timer::Report() indicate.
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void PrintTimerDescription(std::ostream*, bool = false);
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// Status of Timer. kGetrusageFailed means it failed in calling getrusage().
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// kClockGettimeWalltimeFailed means it failed in getting wall time when calling
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// clock_gettime(). kClockGettimeCPUtimeFailed means it failed in getting CPU
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// time when calling clock_gettime().
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enum UsageStatus {
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kSucceeded = 0,
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kGetrusageFailed = 1 << 0,
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kClockGettimeWalltimeFailed = 1 << 1,
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kClockGettimeCPUtimeFailed = 1 << 2,
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};
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// Timer measures the resource utilization for a range of code. The resource
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// utilization consists of CPU time (i.e., process time), WALL time (elapsed
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// time), USR time, SYS time, RSS delta, and the delta of the number of page
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// faults. RSS delta and the delta of the number of page faults are measured
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// only when |measure_mem_usage| given to the constructor is true. This class
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// should be used as the following example:
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//
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// spvtools::utils::Timer timer(std::cout);
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// timer.Start(); // <-- set |usage_before_|, |wall_before_|,
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// and |cpu_before_|
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//
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// /* ... lines of code that we want to know its resource usage ... */
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//
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// timer.Stop(); // <-- set |cpu_after_|, |wall_after_|, and
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// |usage_after_|
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// timer.Report(tag); // <-- print tag and the resource utilization to
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// std::cout.
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class Timer {
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public:
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Timer(std::ostream* out, bool measure_mem_usage = false)
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: report_stream_(out),
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usage_status_(kSucceeded),
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measure_mem_usage_(measure_mem_usage) {}
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// Sets |usage_before_|, |wall_before_|, and |cpu_before_| as results of
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// getrusage(), clock_gettime() for the wall time, and clock_gettime() for the
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// CPU time respectively. Note that this method erases all previous state of
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// |usage_before_|, |wall_before_|, |cpu_before_|.
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virtual void Start();
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// Sets |cpu_after_|, |wall_after_|, and |usage_after_| as results of
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// clock_gettime() for the wall time, and clock_gettime() for the CPU time,
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// getrusage() respectively. Note that this method erases all previous state
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// of |cpu_after_|, |wall_after_|, |usage_after_|.
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virtual void Stop();
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// If |report_stream_| is NULL, it does nothing. Otherwise, it prints the
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// resource utilization (i.e., CPU/WALL/USR/SYS time, RSS delta) between the
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// time of calling Timer::Start() and the time of calling Timer::Stop(). If we
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// cannot get a resource usage because of failures, it prints "Failed" instead
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// for the resource.
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void Report(const char* tag);
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// Returns the measured CPU Time (i.e., process time) for a range of code
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// execution. If kClockGettimeCPUtimeFailed is set by the failure of calling
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// clock_gettime(), it returns -1.
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virtual double CPUTime() {
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if (usage_status_ & kClockGettimeCPUtimeFailed) return -1;
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return TimeDifference(cpu_before_, cpu_after_);
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}
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// Returns the measured Wall Time (i.e., elapsed time) for a range of code
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// execution. If kClockGettimeWalltimeFailed is set by the failure of
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// calling clock_gettime(), it returns -1.
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virtual double WallTime() {
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if (usage_status_ & kClockGettimeWalltimeFailed) return -1;
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return TimeDifference(wall_before_, wall_after_);
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}
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// Returns the measured USR Time for a range of code execution. If
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// kGetrusageFailed is set because of the failure of calling getrusage(), it
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// returns -1.
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virtual double UserTime() {
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if (usage_status_ & kGetrusageFailed) return -1;
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return TimeDifference(usage_before_.ru_utime, usage_after_.ru_utime);
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}
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// Returns the measured SYS Time for a range of code execution. If
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// kGetrusageFailed is set because of the failure of calling getrusage(), it
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// returns -1.
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virtual double SystemTime() {
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if (usage_status_ & kGetrusageFailed) return -1;
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return TimeDifference(usage_before_.ru_stime, usage_after_.ru_stime);
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}
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// Returns the measured RSS delta for a range of code execution. If
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// kGetrusageFailed is set because of the failure of calling getrusage(), it
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// returns -1.
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virtual long RSS() const {
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if (usage_status_ & kGetrusageFailed) return -1;
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return usage_after_.ru_maxrss - usage_before_.ru_maxrss;
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}
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// Returns the measured the delta of the number of page faults for a range of
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// code execution. If kGetrusageFailed is set because of the failure of
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// calling getrusage(), it returns -1.
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virtual long PageFault() const {
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if (usage_status_ & kGetrusageFailed) return -1;
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return (usage_after_.ru_minflt - usage_before_.ru_minflt) +
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(usage_after_.ru_majflt - usage_before_.ru_majflt);
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}
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virtual ~Timer() {}
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private:
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// Returns the time gap between |from| and |to| in seconds.
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static double TimeDifference(const timeval& from, const timeval& to) {
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assert((to.tv_sec > from.tv_sec) ||
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(to.tv_sec == from.tv_sec && to.tv_usec >= from.tv_usec));
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return static_cast<double>(to.tv_sec - from.tv_sec) +
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static_cast<double>(to.tv_usec - from.tv_usec) * .000001;
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}
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// Returns the time gap between |from| and |to| in seconds.
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static double TimeDifference(const timespec& from, const timespec& to) {
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assert((to.tv_sec > from.tv_sec) ||
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(to.tv_sec == from.tv_sec && to.tv_nsec >= from.tv_nsec));
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return static_cast<double>(to.tv_sec - from.tv_sec) +
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static_cast<double>(to.tv_nsec - from.tv_nsec) * .000000001;
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}
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// Output stream to print out the resource utilization. If it is NULL,
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// Report() does nothing.
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std::ostream* report_stream_;
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// Status to stop measurement if a system call returns an error.
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unsigned usage_status_;
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// Variable to save the result of clock_gettime(CLOCK_PROCESS_CPUTIME_ID) when
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// Timer::Start() is called. It is used as the base status of CPU time.
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timespec cpu_before_;
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// Variable to save the result of clock_gettime(CLOCK_MONOTONIC) when
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// Timer::Start() is called. It is used as the base status of WALL time.
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timespec wall_before_;
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// Variable to save the result of getrusage() when Timer::Start() is called.
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// It is used as the base status of USR time, SYS time, and RSS.
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rusage usage_before_;
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// Variable to save the result of clock_gettime(CLOCK_PROCESS_CPUTIME_ID) when
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// Timer::Stop() is called. It is used as the last status of CPU time. The
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// resource usage is measured by subtracting |cpu_before_| from it.
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timespec cpu_after_;
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// Variable to save the result of clock_gettime(CLOCK_MONOTONIC) when
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// Timer::Stop() is called. It is used as the last status of WALL time. The
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// resource usage is measured by subtracting |wall_before_| from it.
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timespec wall_after_;
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// Variable to save the result of getrusage() when Timer::Stop() is called. It
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// is used as the last status of USR time, SYS time, and RSS. Those resource
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// usages are measured by subtracting |usage_before_| from it.
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rusage usage_after_;
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// If true, Timer reports the memory usage information too. Otherwise, Timer
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// reports only USR time, WALL time, SYS time.
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bool measure_mem_usage_;
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};
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// The purpose of ScopedTimer is to measure the resource utilization for a
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// scope. Simply creating a local variable of ScopedTimer will call
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// Timer::Start() and it calls Timer::Stop() and Timer::Report() at the end of
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// the scope by its destructor. When we use this class, we must choose the
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// proper Timer class (for class TimerType template) in advance. This class
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// should be used as the following example:
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//
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// { // <-- beginning of this scope
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//
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// /* ... code out of interest ... */
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//
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// spvtools::utils::ScopedTimer<spvtools::utils::Timer>
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// scopedtimer(std::cout, tag);
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//
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// /* ... lines of code that we want to know its resource usage ... */
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//
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// } // <-- end of this scope. The destructor of ScopedTimer prints tag and
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// the resource utilization to std::cout.
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//
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// The template<class TimerType> is used to choose a Timer class. Currently,
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// only options for the Timer class are Timer and MockTimer in the unit test.
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template <class TimerType>
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class ScopedTimer {
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public:
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ScopedTimer(std::ostream* out, const char* tag,
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bool measure_mem_usage = false)
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: timer(new TimerType(out, measure_mem_usage)), tag_(tag) {
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timer->Start();
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}
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// At the end of the scope surrounding the instance of this class, this
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// destructor saves the last status of resource usage and reports it.
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virtual ~ScopedTimer() {
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timer->Stop();
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timer->Report(tag_);
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delete timer;
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}
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private:
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// Actual timer that measures the resource utilization. It must be an instance
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// of Timer class if there is no special reason to use other class.
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TimerType* timer;
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// A tag that will be printed in front of the trace reported by Timer class.
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const char* tag_;
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};
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// CumulativeTimer is the same as Timer class, but it supports a cumulative
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// measurement as the following example:
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//
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// CumulativeTimer *ctimer = new CumulativeTimer(std::cout);
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// ctimer->Start();
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//
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// /* ... lines of code that we want to know its resource usage ... */
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//
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// ctimer->Stop();
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//
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// /* ... code out of interest ... */
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//
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// ctimer->Start();
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//
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// /* ... lines of code that we want to know its resource usage ... */
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//
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// ctimer->Stop();
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// ctimer->Report(tag);
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// delete ctimer;
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//
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class CumulativeTimer : public Timer {
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public:
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CumulativeTimer(std::ostream* out, bool measure_mem_usage = false)
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: Timer(out, measure_mem_usage),
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cpu_time_(0),
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wall_time_(0),
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usr_time_(0),
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sys_time_(0),
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rss_(0),
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pgfaults_(0) {}
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// If we cannot get a resource usage because of failures, it sets -1 for the
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// resource usage.
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void Stop() override {
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Timer::Stop();
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if (cpu_time_ >= 0 && Timer::CPUTime() >= 0)
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cpu_time_ += Timer::CPUTime();
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else
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cpu_time_ = -1;
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if (wall_time_ >= 0 && Timer::WallTime() >= 0)
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wall_time_ += Timer::WallTime();
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else
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wall_time_ = -1;
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if (usr_time_ >= 0 && Timer::UserTime() >= 0)
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usr_time_ += Timer::UserTime();
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else
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usr_time_ = -1;
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if (sys_time_ >= 0 && Timer::SystemTime() >= 0)
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sys_time_ += Timer::SystemTime();
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else
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sys_time_ = -1;
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if (rss_ >= 0 && Timer::RSS() >= 0)
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rss_ += Timer::RSS();
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else
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rss_ = -1;
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if (pgfaults_ >= 0 && Timer::PageFault() >= 0)
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pgfaults_ += Timer::PageFault();
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else
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pgfaults_ = -1;
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}
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// Returns the cumulative CPU Time (i.e., process time) for a range of code
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// execution.
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double CPUTime() override { return cpu_time_; }
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// Returns the cumulative Wall Time (i.e., elapsed time) for a range of code
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// execution.
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double WallTime() override { return wall_time_; }
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// Returns the cumulative USR Time for a range of code execution.
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double UserTime() override { return usr_time_; }
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// Returns the cumulative SYS Time for a range of code execution.
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double SystemTime() override { return sys_time_; }
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// Returns the cumulative RSS delta for a range of code execution.
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long RSS() const override { return rss_; }
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// Returns the cumulative delta of number of page faults for a range of code
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// execution.
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long PageFault() const override { return pgfaults_; }
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private:
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// Variable to save the cumulative CPU time (i.e., process time).
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double cpu_time_;
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// Variable to save the cumulative wall time (i.e., elapsed time).
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double wall_time_;
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// Variable to save the cumulative user time.
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double usr_time_;
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// Variable to save the cumulative system time.
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double sys_time_;
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// Variable to save the cumulative RSS delta.
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long rss_;
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// Variable to save the cumulative delta of the number of page faults.
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long pgfaults_;
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};
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} // namespace utils
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} // namespace spvtools
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#else // defined(SPIRV_TIMER_ENABLED)
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#define SPIRV_TIMER_DESCRIPTION(...)
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#define SPIRV_TIMER_SCOPED(...)
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#endif // defined(SPIRV_TIMER_ENABLED)
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#endif // SOURCE_UTIL_TIMER_H_
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