forked from OSchip/llvm-project
251 lines
6.2 KiB
C++
251 lines
6.2 KiB
C++
//===-- Timer.cpp -----------------------------------------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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#include "lldb/Core/Timer.h"
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#include <map>
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#include <vector>
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#include <algorithm>
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#include "lldb/Core/Stream.h"
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#include "lldb/Host/Mutex.h"
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#include <stdio.h>
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using namespace lldb_private;
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#define TIMER_INDENT_AMOUNT 2
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static bool g_quiet = true;
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uint32_t Timer::g_depth = 0;
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uint32_t Timer::g_display_depth = 0;
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FILE * Timer::g_file = NULL;
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typedef std::vector<Timer *> TimerStack;
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typedef std::map<const char *, uint64_t> TimerCategoryMap;
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static pthread_key_t g_key;
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static Mutex &
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GetCategoryMutex()
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{
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static Mutex g_category_mutex(Mutex::eMutexTypeNormal);
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return g_category_mutex;
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}
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static TimerCategoryMap &
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GetCategoryMap()
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{
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static TimerCategoryMap g_category_map;
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return g_category_map;
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}
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static TimerStack *
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GetTimerStackForCurrentThread ()
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{
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void *timer_stack = ::pthread_getspecific (g_key);
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if (timer_stack == NULL)
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{
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::pthread_setspecific (g_key, new TimerStack);
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timer_stack = ::pthread_getspecific (g_key);
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}
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return (TimerStack *)timer_stack;
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}
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void
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ThreadSpecificCleanup (void *p)
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{
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delete (TimerStack *)p;
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}
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void
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Timer::SetQuiet (bool value)
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{
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g_quiet = value;
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}
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void
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Timer::Initialize ()
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{
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Timer::g_file = stdout;
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::pthread_key_create (&g_key, ThreadSpecificCleanup);
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}
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Timer::Timer (const char *category, const char *format, ...) :
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m_category (category),
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m_total_start (),
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m_timer_start (),
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m_total_ticks (0),
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m_timer_ticks (0)
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{
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if (g_depth++ < g_display_depth)
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{
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if (g_quiet == false)
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{
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// Indent
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::fprintf (g_file, "%*s", g_depth * TIMER_INDENT_AMOUNT, "");
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// Print formatted string
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va_list args;
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va_start (args, format);
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::vfprintf (g_file, format, args);
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va_end (args);
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// Newline
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::fprintf (g_file, "\n");
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}
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TimeValue start_time(TimeValue::Now());
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m_total_start = start_time;
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m_timer_start = start_time;
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TimerStack *stack = GetTimerStackForCurrentThread ();
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if (stack)
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{
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if (stack->empty() == false)
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stack->back()->ChildStarted (start_time);
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stack->push_back(this);
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}
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}
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}
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Timer::~Timer()
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{
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if (m_total_start.IsValid())
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{
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TimeValue stop_time = TimeValue::Now();
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if (m_total_start.IsValid())
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{
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m_total_ticks += (stop_time - m_total_start);
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m_total_start.Clear();
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}
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if (m_timer_start.IsValid())
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{
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m_timer_ticks += (stop_time - m_timer_start);
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m_timer_start.Clear();
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}
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TimerStack *stack = GetTimerStackForCurrentThread ();
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if (stack)
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{
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assert (stack->back() == this);
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stack->pop_back();
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if (stack->empty() == false)
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stack->back()->ChildStopped(stop_time);
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}
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const uint64_t total_nsec_uint = GetTotalElapsedNanoSeconds();
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const uint64_t timer_nsec_uint = GetTimerElapsedNanoSeconds();
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const double total_nsec = total_nsec_uint;
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const double timer_nsec = timer_nsec_uint;
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if (g_quiet == false)
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{
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::fprintf (g_file,
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"%*s%.9f sec (%.9f sec)\n",
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(g_depth - 1) *TIMER_INDENT_AMOUNT, "",
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total_nsec / 1000000000.0,
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timer_nsec / 1000000000.0);
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}
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// Keep total results for each category so we can dump results.
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Mutex::Locker locker (GetCategoryMutex());
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TimerCategoryMap &category_map = GetCategoryMap();
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category_map[m_category] += timer_nsec_uint;
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}
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if (g_depth > 0)
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--g_depth;
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}
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uint64_t
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Timer::GetTotalElapsedNanoSeconds()
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{
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uint64_t total_ticks = m_total_ticks;
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// If we are currently running, we need to add the current
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// elapsed time of the running timer...
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if (m_total_start.IsValid())
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total_ticks += (TimeValue::Now() - m_total_start);
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return total_ticks;
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}
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uint64_t
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Timer::GetTimerElapsedNanoSeconds()
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{
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uint64_t timer_ticks = m_timer_ticks;
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// If we are currently running, we need to add the current
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// elapsed time of the running timer...
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if (m_timer_start.IsValid())
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timer_ticks += (TimeValue::Now() - m_timer_start);
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return timer_ticks;
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}
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void
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Timer::ChildStarted (const TimeValue& start_time)
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{
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if (m_timer_start.IsValid())
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{
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m_timer_ticks += (start_time - m_timer_start);
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m_timer_start.Clear();
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}
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}
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void
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Timer::ChildStopped (const TimeValue& stop_time)
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{
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if (!m_timer_start.IsValid())
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m_timer_start = stop_time;
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}
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void
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Timer::SetDisplayDepth (uint32_t depth)
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{
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g_display_depth = depth;
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}
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/* binary function predicate:
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* - returns whether a person is less than another person
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*/
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static bool
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CategoryMapIteratorSortCriterion (const TimerCategoryMap::const_iterator& lhs, const TimerCategoryMap::const_iterator& rhs)
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{
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return lhs->second > rhs->second;
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}
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void
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Timer::ResetCategoryTimes ()
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{
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Mutex::Locker locker (GetCategoryMutex());
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TimerCategoryMap &category_map = GetCategoryMap();
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category_map.clear();
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}
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void
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Timer::DumpCategoryTimes (Stream *s)
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{
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Mutex::Locker locker (GetCategoryMutex());
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TimerCategoryMap &category_map = GetCategoryMap();
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std::vector<TimerCategoryMap::const_iterator> sorted_iterators;
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TimerCategoryMap::const_iterator pos, end = category_map.end();
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for (pos = category_map.begin(); pos != end; ++pos)
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{
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sorted_iterators.push_back (pos);
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}
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std::sort (sorted_iterators.begin(), sorted_iterators.end(), CategoryMapIteratorSortCriterion);
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const size_t count = sorted_iterators.size();
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for (size_t i=0; i<count; ++i)
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{
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const double timer_nsec = sorted_iterators[i]->second;
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s->Printf("%.9f sec for %s\n", timer_nsec / 1000000000.0, sorted_iterators[i]->first);
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}
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}
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