ext/dsent/util/Result.cc - testing/jenkins-gem5-prod - Git at Google

 /* Copyright (c) 2012 Massachusetts Institute of Technology
  *
  * Permission is hereby granted, free of charge, to any person obtaining a copy
  * of this software and associated documentation files (the "Software"), to deal
  * in the Software without restriction, including without limitation the rights
  * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
  * copies of the Software, and to permit persons to whom the Software is
  * furnished to do so, subject to the following conditions:
  *
  * The above copyright notice and this permission notice shall be included in
  * all copies or substantial portions of the Software.
  *
  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
  * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
  * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
  * THE SOFTWARE.
  */

 #include "util/Result.h"

 #include <iostream>

 #include "libutil/Log.h"
 #include "libutil/Assert.h"

 namespace DSENT
 {
     using std::ostream;
     using std::endl;

     Result::SubResult::SubResult(const Result* sub_result_, const String& producer_, double num_results_)
         : m_result_(sub_result_), m_producer_(producer_), m_num_results_(num_results_)
     {
         // Check if the result is not a null pointer
         ASSERT((sub_result_ != NULL), "Internal error: sub_result_ is null");

         // Check if the number of results greater than 0
         ASSERT((num_results_ >= 0), "Internal error: num_results_ (" + String(num_results_) + ") is less than 0");
     }

     Result::SubResult::~SubResult()
     {}

     const Result* Result::SubResult::getResult() const
     {
         return m_result_;
     }

     const String& Result::SubResult::getProducer() const
     {
         return m_producer_;
     }

     double Result::SubResult::getNumResults() const
     {
         return m_num_results_;
     }

     Result::SubResult* Result::SubResult::clone() const
     {
         return new SubResult(*this);
     }

     Result::SubResult::SubResult(const SubResult& sub_result_)
         : m_result_(sub_result_.m_result_), m_producer_(sub_result_.m_producer_), m_num_results_(sub_result_.m_num_results_)
     {}

     Result::Result()
     {}

     Result::Result(const String& result_name_)
         : m_result_name_(result_name_)
     {}

     Result::~Result()
     {
         // Clear all sub results
         for(vector<SubResult*>::iterator it = m_sub_results_.begin();
             it != m_sub_results_.end(); ++it)
         {
             SubResult* sub_result = (*it);
             delete sub_result;
         }
     }

     const String& Result::getName() const
     {
         return m_result_name_;
     }

     void Result::setValue(double /* value_ */)
     {
         throw LibUtil::Exception("[Error] " + getName() + " -> Cannot set the value of a non-atomic result!");
         return;
     }

     void Result::addValue(double /* value_ */)
     {
         throw LibUtil::Exception("[Error] " + getName() +
                 " -> Cannot add the value of a non-atomic result");
         return;
     }

     double Result::getValue() const
     {
         throw LibUtil::Exception("[Error] " + getName() + " -> Cannot get the value of a non-atomic result!");
         return 0.0;
     }

     void Result::addSubResult(const Result* sub_result_, const String& result_producer_, double num_results_)
     {
         SubResult* new_sub_result = new SubResult(sub_result_, result_producer_, num_results_);
         m_sub_results_.push_back(new_sub_result);
         return;
     }

     void Result::removeAllSubResults()
     {
         // Clear all sub results
         for(vector<SubResult*>::iterator it = m_sub_results_.begin();
             it != m_sub_results_.end(); ++it)
         {
             SubResult* sub_result = (*it);
             delete sub_result;
         }
         m_sub_results_.clear();
         return;
     }

     double Result::calculateSum() const
     {
         double sum = 0.0;

         // Loop through all sub results and calculate the sum
         for(vector<SubResult*>::const_iterator it = m_sub_results_.begin();
             it != m_sub_results_.end(); ++it)
         {
             const SubResult* temp_sub_result = (*it);
             const Result* temp_result = temp_sub_result->getResult();
             double num_results = temp_sub_result->getNumResults();
             sum += temp_result->calculateSum()*num_results;
         }
         return sum;
     }

     void Result::print(const String& prepend_str_, int detail_level_, ostream& ost_) const
     {
         print(prepend_str_, 1.0, detail_level_, ost_);
         return;
     }

     Result* Result::clone() const
     {
         return new Result(*this);
     }

     Result::Result(const Result& result_)
     {
         // Copy the result name
         m_result_name_ = result_.m_result_name_;

         // Clone all sub results
         for(vector<SubResult*>::const_iterator it = m_sub_results_.begin();
             it != m_sub_results_.end(); ++it)
         {
             const SubResult* temp_sub_result = (*it);
             SubResult* new_sub_result = temp_sub_result->clone();
             m_sub_results_.push_back(new_sub_result);
         }
     }

     void Result::print(const String& prepend_str_, double num_results_, int detail_level_, ostream& ost_) const
     {
         // Go down to lower level if detail_level_ > 0, else print the sthe sthe sthe sum
         if(detail_level_ > 0)
         {
             for(vector<SubResult*>::const_iterator it = m_sub_results_.begin();
                     it != m_sub_results_.end(); ++it)
             {
                 const SubResult* temp_sub_result = (*it);
                 const Result* temp_result = temp_sub_result->getResult();
                 const String& temp_producer = temp_sub_result->getProducer();
                 const String& temp_result_name = temp_result->getName();
                 double temp_num_results = temp_sub_result->getNumResults();
                 String temp_prepend_str = prepend_str_ + "->" + temp_producer;

                 if(!temp_result_name.empty())
                 {
                     temp_prepend_str += ":" + temp_result_name;
                 }
                 temp_result->print(temp_prepend_str, num_results_*temp_num_results, detail_level_ - 1, ost_);
             }
         }
         else
         {
             ost_ << prepend_str_ << " = " << calculateSum()*num_results_;
             ost_ << " (" << calculateSum() << " * " << num_results_ << ")" << endl;
         }
         return;
     }

     void Result::printHierarchy(const String& prepend_str_, int detail_level_, ostream& ost_) const
     {
         if(detail_level_ > 0)
         {
             for(vector<SubResult*>::const_iterator it = m_sub_results_.begin(); it != m_sub_results_.end(); ++it)
             {
                 const SubResult* temp_sub_result = (*it);
                 const Result* temp_result = temp_sub_result->getResult();
                 const String& temp_producer = temp_sub_result->getProducer();
                 const String& temp_result_name = temp_result->getName();
                 String temp_prepend_str = prepend_str_ + "    ";

                 ost_ << prepend_str_ << " |--" << temp_producer << "->" << temp_result_name << endl;

                 temp_result->printHierarchy(temp_prepend_str, detail_level_ - 1, ost_);
             }
         }
         return;
     }

     AtomicResult::AtomicResult(const String& result_name_, double value_)
         : Result(result_name_), m_value_(value_)
     {}

     AtomicResult::~AtomicResult()
     {}

     void AtomicResult::setValue(double value_)
     {
         m_value_ = value_;
         return;
     }

     void AtomicResult::addValue(double value_)
     {
         m_value_ += value_;
         return;
     }

     double AtomicResult::getValue() const
     {
         return m_value_;
     }

     double AtomicResult::calculateSum() const
     {
         return m_value_;
     }

     AtomicResult* AtomicResult::clone() const
     {
         return new AtomicResult(*this);
     }

     AtomicResult::AtomicResult(const AtomicResult& atomic_result_)
         : Result(atomic_result_), m_value_(atomic_result_.m_value_)
     {}

     void AtomicResult::print(const String& prepend_str_, double num_results_, int /* detail_level_ */, ostream& ost_) const
     {
         ost_ << prepend_str_ << " = " << m_value_*num_results_;
         ost_ << " (" << m_value_ << " * " << num_results_ << ")" << endl;
         return;
     }
 } // namespace DSENT
	/* Copyright (c) 2012 Massachusetts Institute of Technology
	*
	* Permission is hereby granted, free of charge, to any person obtaining a copy
	* of this software and associated documentation files (the "Software"), to deal
	* in the Software without restriction, including without limitation the rights
	* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
	* copies of the Software, and to permit persons to whom the Software is
	* furnished to do so, subject to the following conditions:
	*
	* The above copyright notice and this permission notice shall be included in
	* all copies or substantial portions of the Software.
	*
	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
	* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
	* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
	* THE SOFTWARE.
	*/

	#include "util/Result.h"

	#include <iostream>

	#include "libutil/Log.h"
	#include "libutil/Assert.h"

	namespace DSENT
	{
	using std::ostream;
	using std::endl;

	Result::SubResult::SubResult(const Result* sub_result_, const String& producer_, double num_results_)
	: m_result_(sub_result_), m_producer_(producer_), m_num_results_(num_results_)
	{
	// Check if the result is not a null pointer
	ASSERT((sub_result_ != NULL), "Internal error: sub_result_ is null");

	// Check if the number of results greater than 0
	ASSERT((num_results_ >= 0), "Internal error: num_results_ (" + String(num_results_) + ") is less than 0");
	}

	Result::SubResult::~SubResult()
	{}

	const Result* Result::SubResult::getResult() const
	{
	return m_result_;
	}

	const String& Result::SubResult::getProducer() const
	{
	return m_producer_;
	}

	double Result::SubResult::getNumResults() const
	{
	return m_num_results_;
	}

	Result::SubResult* Result::SubResult::clone() const
	{
	return new SubResult(*this);
	}

	Result::SubResult::SubResult(const SubResult& sub_result_)
	: m_result_(sub_result_.m_result_), m_producer_(sub_result_.m_producer_), m_num_results_(sub_result_.m_num_results_)
	{}

	Result::Result()
	{}

	Result::Result(const String& result_name_)
	: m_result_name_(result_name_)
	{}

	Result::~Result()
	{
	// Clear all sub results
	for(vector<SubResult*>::iterator it = m_sub_results_.begin();
	it != m_sub_results_.end(); ++it)
	{
	SubResult* sub_result = (*it);
	delete sub_result;
	}
	}

	const String& Result::getName() const
	{
	return m_result_name_;
	}

	void Result::setValue(double /* value_ */)
	{
	throw LibUtil::Exception("[Error] " + getName() + " -> Cannot set the value of a non-atomic result!");
	return;
	}

	void Result::addValue(double /* value_ */)
	{
	throw LibUtil::Exception("[Error] " + getName() +
	" -> Cannot add the value of a non-atomic result");
	return;
	}

	double Result::getValue() const
	{
	throw LibUtil::Exception("[Error] " + getName() + " -> Cannot get the value of a non-atomic result!");
	return 0.0;
	}

	void Result::addSubResult(const Result* sub_result_, const String& result_producer_, double num_results_)
	{
	SubResult* new_sub_result = new SubResult(sub_result_, result_producer_, num_results_);
	m_sub_results_.push_back(new_sub_result);
	return;
	}

	void Result::removeAllSubResults()
	{
	// Clear all sub results
	for(vector<SubResult*>::iterator it = m_sub_results_.begin();
	it != m_sub_results_.end(); ++it)
	{
	SubResult* sub_result = (*it);
	delete sub_result;
	}
	m_sub_results_.clear();
	return;
	}

	double Result::calculateSum() const
	{
	double sum = 0.0;

	// Loop through all sub results and calculate the sum
	for(vector<SubResult*>::const_iterator it = m_sub_results_.begin();
	it != m_sub_results_.end(); ++it)
	{
	const SubResult* temp_sub_result = (*it);
	const Result* temp_result = temp_sub_result->getResult();
	double num_results = temp_sub_result->getNumResults();
	sum += temp_result->calculateSum()*num_results;
	}
	return sum;
	}

	void Result::print(const String& prepend_str_, int detail_level_, ostream& ost_) const
	{
	print(prepend_str_, 1.0, detail_level_, ost_);
	return;
	}

	Result* Result::clone() const
	{
	return new Result(*this);
	}

	Result::Result(const Result& result_)
	{
	// Copy the result name
	m_result_name_ = result_.m_result_name_;

	// Clone all sub results
	for(vector<SubResult*>::const_iterator it = m_sub_results_.begin();
	it != m_sub_results_.end(); ++it)
	{
	const SubResult* temp_sub_result = (*it);
	SubResult* new_sub_result = temp_sub_result->clone();
	m_sub_results_.push_back(new_sub_result);
	}
	}

	void Result::print(const String& prepend_str_, double num_results_, int detail_level_, ostream& ost_) const
	{
	// Go down to lower level if detail_level_ > 0, else print the sthe sthe sthe sum
	if(detail_level_ > 0)
	{
	for(vector<SubResult*>::const_iterator it = m_sub_results_.begin();
	it != m_sub_results_.end(); ++it)
	{
	const SubResult* temp_sub_result = (*it);
	const Result* temp_result = temp_sub_result->getResult();
	const String& temp_producer = temp_sub_result->getProducer();
	const String& temp_result_name = temp_result->getName();
	double temp_num_results = temp_sub_result->getNumResults();
	String temp_prepend_str = prepend_str_ + "->" + temp_producer;

	if(!temp_result_name.empty())
	{
	temp_prepend_str += ":" + temp_result_name;
	}
	temp_result->print(temp_prepend_str, num_results_*temp_num_results, detail_level_ - 1, ost_);
	}
	}
	else
	{
	ost_ << prepend_str_ << " = " << calculateSum()*num_results_;
	ost_ << " (" << calculateSum() << " * " << num_results_ << ")" << endl;
	}
	return;
	}

	void Result::printHierarchy(const String& prepend_str_, int detail_level_, ostream& ost_) const
	{
	if(detail_level_ > 0)
	{
	for(vector<SubResult*>::const_iterator it = m_sub_results_.begin(); it != m_sub_results_.end(); ++it)
	{
	const SubResult* temp_sub_result = (*it);
	const Result* temp_result = temp_sub_result->getResult();
	const String& temp_producer = temp_sub_result->getProducer();
	const String& temp_result_name = temp_result->getName();
	String temp_prepend_str = prepend_str_ + " ";

	ost_ << prepend_str_ << " \|--" << temp_producer << "->" << temp_result_name << endl;

	temp_result->printHierarchy(temp_prepend_str, detail_level_ - 1, ost_);
	}
	}
	return;
	}

	AtomicResult::AtomicResult(const String& result_name_, double value_)
	: Result(result_name_), m_value_(value_)
	{}

	AtomicResult::~AtomicResult()
	{}

	void AtomicResult::setValue(double value_)
	{
	m_value_ = value_;
	return;
	}

	void AtomicResult::addValue(double value_)
	{
	m_value_ += value_;
	return;
	}

	double AtomicResult::getValue() const
	{
	return m_value_;
	}

	double AtomicResult::calculateSum() const
	{
	return m_value_;
	}

	AtomicResult* AtomicResult::clone() const
	{
	return new AtomicResult(*this);
	}

	AtomicResult::AtomicResult(const AtomicResult& atomic_result_)
	: Result(atomic_result_), m_value_(atomic_result_.m_value_)
	{}

	void AtomicResult::print(const String& prepend_str_, double num_results_, int /* detail_level_ */, ostream& ost_) const
	{
	ost_ << prepend_str_ << " = " << m_value_*num_results_;
	ost_ << " (" << m_value_ << " * " << num_results_ << ")" << endl;
	return;
	}
	} // namespace DSENT