mariadb-connector-cpp/test/framework/test_timer.cpp

/*
 * Copyright (c) 2009, 2018, Oracle and/or its affiliates. All rights reserved.
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License, version 2.0, as
 * published by the Free Software Foundation.
 *
 * This program is also distributed with certain software (including
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 * as designated in a particular file or component or in included license
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 * additional permission to link the program and your derivative works
 * with the separately licensed software that they have included with
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 *
 * Without limiting anything contained in the foregoing, this file,
 * which is part of MySQL Connector/C++, is also subject to the
 * Universal FOSS Exception, version 1.0, a copy of which can be found at
 * http://oss.oracle.com/licenses/universal-foss-exception.
 *
 * This program is distributed in the hope that it will be useful, but
 * WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
 * See the GNU General Public License, version 2.0, for more details.
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 */



#include "test_timer.h"


namespace testsuite
{

Timer::Timer()
{

}

clock_t Timer::startTest(const String & test)
{
  std::map<String, test_timer>::const_iterator cit=theInstance().timeRecorder.find(test);

  if (cit == theInstance().timeRecorder.end())
  {
    theInstance().currentTest=test;
    test_timer t=test_timer();
    theInstance().timeRecorder[test]=t;
    return theInstance().timeRecorder[test].cpu;
  }

  return static_cast<clock_t> (-1);
}

clock_t Timer::stopTest(const String & test)
{
  std::map<String, test_timer>::const_iterator cit=theInstance().timeRecorder.find(test);

  if (cit != theInstance().timeRecorder.end())
  {
    clock_t now=clock();
    theInstance().timeRecorder[test].cpu=now - theInstance().timeRecorder[test].cpu;
    return theInstance().timeRecorder[test].cpu;
  }

  return static_cast<clock_t> (-1);
}

clock_t Timer::startTimer(const String & name, const String & file, const unsigned int line)
{
  // HACK
  return startTimer(theInstance().currentTest, name, file, line);
}

clock_t Timer::startTimer(const String & test, const String & name, const String & file, const unsigned int line)
{
  std::map<String, test_timer>::const_iterator cit=theInstance().timeRecorder.find(test);
  if (cit == theInstance().timeRecorder.end())
    // unknown test - must not happen
    return static_cast<clock_t> (-1);

  std::map<String, timer>::const_iterator it=theInstance().timeRecorder[test].timers.find(name);

  clock_t now=clock();
  if (it == theInstance().timeRecorder[test].timers.end())
  {
    timer t=timer(now, file, line);
    theInstance().timeRecorder[test].timers[name]=t;
  }
  else
  {
    /* TODO: API semantics are somewhat unclear - not sure what is best */
    theInstance().timeRecorder[test].timers[name].start=now;
    theInstance().timeRecorder[name].timers[name].stopped=false;
  }

  return theInstance().timeRecorder[name].timers[name].start;
}

clock_t Timer::stopTimer(const String & name)
{
  // hack
  return stopTimer(theInstance().currentTest, name);
}

clock_t Timer::stopTimer(const String & test, const String & name)
{
  std::map<String, test_timer>::const_iterator cit=theInstance().timeRecorder.find(test);
  if (cit == theInstance().timeRecorder.end())
    // unknown test - must not happen
    return static_cast<clock_t> (-1);

  std::map<String, timer>::const_iterator it=theInstance().timeRecorder[test].timers.find(name);

  if (it == theInstance().timeRecorder[test].timers.end())
    // unknown timer
    return static_cast<clock_t> (-1);

  if (theInstance().timeRecorder[test].timers[name].stopped)
    // has been stopped before
    return static_cast<clock_t> (-1);

  clock_t runtime=clock() - theInstance().timeRecorder[test].timers[name].start;
  theInstance().timeRecorder[test].timers[name].stopped=true;
  theInstance().timeRecorder[test].timers[name].total_cpu+=runtime;
  theInstance().timeRecorder[test].timers[name].start=static_cast<clock_t> (0);

  return runtime;
}

clock_t Timer::getTime(const String &name)
{
  return getTime(theInstance().currentTest, name);
}

clock_t Timer::getTime(const String & test, const String & name)
{
  std::map<String, test_timer>::const_iterator cit=theInstance().timeRecorder.find(test);
  if (cit == theInstance().timeRecorder.end())
    // unknown test - must not happen
    return static_cast<clock_t> (-1);

  std::map<String, timer>::const_iterator it=theInstance().timeRecorder[test].timers.find(name);

  if (it == theInstance().timeRecorder[test].timers.end())
    // unknown timer
    return static_cast<clock_t> (-1);


  return theInstance().timeRecorder[test].timers[name].total_cpu;
}

float Timer::getSeconds(const String & name)
{
  return translate2seconds(getTime(name));
}

float Timer::translate2seconds(clock_t inWallClocks)
{
#ifdef CLOCKS_PER_SEC
  /* it looks like CLOCKS_PER_SEC should be defined on all platforms... just to feel safe.
  Maybe use sysconf(_SC_CLK_TCK) */

  return static_cast<float> (inWallClocks) / CLOCKS_PER_SEC;
#else
  return static_cast<float> (inWallClocks);
#endif
}

unsigned int Timer::getLine(const String &name)
{
  return getLine(theInstance().currentTest, name);
}

unsigned int Timer::getLine(const String & test, const String & name)
{
  std::map<String, test_timer>::const_iterator cit=theInstance().timeRecorder.find(test);
  if (cit == theInstance().timeRecorder.end())
    // unknown test - must not happen
    return 0;

  std::map<String, timer>::const_iterator it=theInstance().timeRecorder[test].timers.find(name);

  if (it == theInstance().timeRecorder[test].timers.end())
    // unknown timer
    return 0;

  return theInstance().timeRecorder[test].timers[name].line;
}

const String Timer::getFile(const String &name)
{
  return getFile(theInstance().currentTest, name);
}

const String Timer::getFile(const String & test, const String & name)
{
  std::map<String, test_timer>::const_iterator cit=theInstance().timeRecorder.find(test);
  if (cit == theInstance().timeRecorder.end())
    // unknown test - must not happen
    return 0;

  std::map<String, timer>::const_iterator it=theInstance().timeRecorder[test].timers.find(name);

  if (it == theInstance().timeRecorder[test].timers.end())
    // unknown timer
    return 0;

  return theInstance().timeRecorder[test].timers[name].file;
}

const List & Timer::getNames()
{
  static List names;

  std::map<String, test_timer>::const_iterator cit=theInstance().timeRecorder.find("perf_statement::anonymousSelect");
  std::map<String, timer>::const_iterator it;

  for (; cit != theInstance().timeRecorder.end(); ++cit)
  {
    for (it=theInstance().timeRecorder[cit->first].timers.begin(); it != theInstance().timeRecorder[cit->first].timers.end(); ++it)
    {
      names.push_back(it->first);
    }
  }

  return names;
}

const List & Timer::getNames(const String & test)
{
  static List names;

  std::map<String, test_timer>::const_iterator cit=theInstance().timeRecorder.find(test);
  if (cit == theInstance().timeRecorder.end())
  {
    return names;
  }
  std::map<String, timer>::const_iterator it;

  for (it=theInstance().timeRecorder[cit->first].timers.begin(); it != theInstance().timeRecorder[cit->first].timers.end(); ++it)
  {
    names.push_back(it->first);
  }

  return names;
}

}