boost_1_45_0/libs/xpressive/perf/main.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 /*
  *
  * Copyright (c) 2002
  * John Maddock
  *
  * Use, modification and distribution are subject to the
  * Boost Software License, Version 1.0. (See accompanying file
  * LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
  *
  */

 #include <iostream>
 #include <fstream>
 #include <iterator>
 #include <cassert>
 #include <boost/test/execution_monitor.hpp>
 #include "./regex_comparison.hpp"

 void test_match(const std::string& re, const std::string& text, const std::string& description)
 {
     double time;
     results r(re, description);

     std::cout << "Testing: \"" << re << "\" against \"" << description << "\"" << std::endl;
     if(time_greta == true)
     {
         //      time = g::time_match(re, text);
         //      r.greta_time = time;
         //      std::cout << "\tGRETA regex: " << time << "s\n";
     }
     if(time_safe_greta == true)
     {
         //      time = gs::time_match(re, text);
         //      r.safe_greta_time = time;
         //      std::cout << "\tSafe GRETA regex: " << time << "s\n";
     }
     if(time_dynamic_xpressive == true)
     {
         time = dxpr::time_match(re, text);
         r.dynamic_xpressive_time = time;
         std::cout << "\tdynamic xpressive regex: " << time << "s\n";
     }
     if(time_static_xpressive == true)
     {
         time = sxpr::time_match(re, text);
         r.static_xpressive_time = time;
         std::cout << "\tstatic xpressive regex: " << time << "s\n";
     }
     if(time_boost == true)
     {
         time = b::time_match(re, text);
         r.boost_time = time;
         std::cout << "\tBoost regex: " << time << "s\n";
     }
     //if(time_posix == true)
     //{
     //   time = posix::time_match(re, text);
     //   r.posix_time = time;
     //   std::cout << "\tPOSIX regex: " << time << "s\n";
     //}
     //if(time_pcre == true)
     //{
     //   time = pcr::time_match(re, text);
     //   r.pcre_time = time;
     //   std::cout << "\tPCRE regex: " << time << "s\n";
     //}
     r.finalise();
     result_list.push_back(r);
 }

 void test_find_all(const std::string& re, const std::string& text, const std::string& description)
 {
     std::cout << "Testing: " << re << std::endl;

     double time;
     results r(re, description);

 #if defined(_MSC_VER) && (_MSC_VER >= 1300)
     if(time_greta == true)
     {
         //      time = g::time_find_all(re, text);
         //      r.greta_time = time;
         //      std::cout << "\tGRETA regex: " << time << "s\n";
     }
     if(time_safe_greta == true)
     {
         //      time = gs::time_find_all(re, text);
         //      r.safe_greta_time = time;
         //      std::cout << "\tSafe GRETA regex: " << time << "s\n";
     }
 #endif
     if(time_dynamic_xpressive == true)
     {
         time = dxpr::time_find_all(re, text);
         r.dynamic_xpressive_time = time;
         std::cout << "\tdynamic xpressive regex: " << time << "s\n";
     }
     if(time_static_xpressive == true)
     {
         time = sxpr::time_find_all(re, text);
         r.static_xpressive_time = time;
         std::cout << "\tstatic xpressive regex: " << time << "s\n";
     }
     if(time_boost == true)
     {
         time = b::time_find_all(re, text);
         r.boost_time = time;
         std::cout << "\tBoost regex: " << time << "s\n";
     }
     //if(time_posix == true)
     //{
     //   time = posix::time_find_all(re, text);
     //   r.posix_time = time;
     //   std::cout << "\tPOSIX regex: " << time << "s\n";
     //}
     //if(time_pcre == true)
     //{
     //   time = pcr::time_find_all(re, text);
     //   r.pcre_time = time;
     //   std::cout << "\tPCRE regex: " << time << "s\n";
     //}
     r.finalise();
     result_list.push_back(r);
 }

 //int cpp_main(int argc, char**const argv)
 int main(int argc, char**const argv)
 {
     // start by processing the command line args:
     if(argc < 2)
         return show_usage();
     int result = 0;
     for(int c = 1; c < argc; ++c)
     {
         result += handle_argument(argv[c]);
     }
     if(result)
         return result;

     if(test_matches)
     {
         // these are from the regex docs:
         test_match("^([0-9]+)(\\-| |$)(.*)$", "100- this is a line of ftp response which contains a message string");
         test_match("([[:digit:]]{4}[- ]){3}[[:digit:]]{3,4}", "1234-5678-1234-456");
         // these are from http://www.regxlib.com/
         test_match("^([a-zA-Z0-9_\\-\\.]+)@((\\[[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.)|(([a-zA-Z0-9\\-]+\\.)+))([a-zA-Z]{2,4}|[0-9]{1,3})(\\]?)$", "john_maddock@compuserve.com");
         test_match("^([a-zA-Z0-9_\\-\\.]+)@((\\[[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.)|(([a-zA-Z0-9\\-]+\\.)+))([a-zA-Z]{2,4}|[0-9]{1,3})(\\]?)$", "foo12@foo.edu");
         test_match("^([a-zA-Z0-9_\\-\\.]+)@((\\[[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.)|(([a-zA-Z0-9\\-]+\\.)+))([a-zA-Z]{2,4}|[0-9]{1,3})(\\]?)$", "bob.smith@foo.tv");
         test_match("^[a-zA-Z]{1,2}[0-9][0-9A-Za-z]{0,1} {0,1}[0-9][A-Za-z]{2}$", "EH10 2QQ");
         test_match("^[a-zA-Z]{1,2}[0-9][0-9A-Za-z]{0,1} {0,1}[0-9][A-Za-z]{2}$", "G1 1AA");
         test_match("^[a-zA-Z]{1,2}[0-9][0-9A-Za-z]{0,1} {0,1}[0-9][A-Za-z]{2}$", "SW1 1ZZ");
         test_match("^[[:digit:]]{1,2}/[[:digit:]]{1,2}/[[:digit:]]{4}$", "4/1/2001");
         test_match("^[[:digit:]]{1,2}/[[:digit:]]{1,2}/[[:digit:]]{4}$", "12/12/2001");
         test_match("^[-+]?[[:digit:]]*\\.?[[:digit:]]*$", "123");
         test_match("^[-+]?[[:digit:]]*\\.?[[:digit:]]*$", "+3.14159");
         test_match("^[-+]?[[:digit:]]*\\.?[[:digit:]]*$", "-3.14159");

         output_xml_results(true, "Short Matches", "short_matches.xml");
     }
     std::string twain;

     if(test_short_twain)
     {
         load_file(twain, "short_twain.txt");

         test_find_all("Twain", twain);
         test_find_all("Huck[[:alpha:]]+", twain);
         test_find_all("[[:alpha:]]+ing", twain);
         test_find_all("^[^\n]*?Twain", twain);
         test_find_all("Tom|Sawyer|Huckleberry|Finn", twain);
         test_find_all("(Tom|Sawyer|Huckleberry|Finn).{0,30}river|river.{0,30}(Tom|Sawyer|Huckleberry|Finn)", twain);

         output_xml_results(false, "Moderate Searches", "short_twain_search.xml");
     }

     if(test_long_twain)
     {
         load_file(twain, "3200.txt");

         test_find_all("Twain", twain);
         test_find_all("Huck[[:alpha:]]+", twain);
         test_find_all("[[:alpha:]]+ing", twain);
         test_find_all("^[^\n]*?Twain", twain);
         test_find_all("Tom|Sawyer|Huckleberry|Finn", twain);
         //time_posix = false;
         test_find_all("(Tom|Sawyer|Huckleberry|Finn).{0,30}river|river.{0,30}(Tom|Sawyer|Huckleberry|Finn)", twain);
         //time_posix = true;

         output_xml_results(false, "Long Searches", "long_twain_search.xml");
     }

     return 0;
 }
	/*
	*
	* Copyright (c) 2002
	* John Maddock
	*
	* Use, modification and distribution are subject to the
	* Boost Software License, Version 1.0. (See accompanying file
	* LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
	*
	*/

	#include <iostream>
	#include <fstream>
	#include <iterator>
	#include <cassert>
	#include <boost/test/execution_monitor.hpp>
	#include "./regex_comparison.hpp"

	void test_match(const std::string& re, const std::string& text, const std::string& description)
	{
	double time;
	results r(re, description);

	std::cout << "Testing: \"" << re << "\" against \"" << description << "\"" << std::endl;
	if(time_greta == true)
	{
	// time = g::time_match(re, text);
	// r.greta_time = time;
	// std::cout << "\tGRETA regex: " << time << "s\n";
	}
	if(time_safe_greta == true)
	{
	// time = gs::time_match(re, text);
	// r.safe_greta_time = time;
	// std::cout << "\tSafe GRETA regex: " << time << "s\n";
	}
	if(time_dynamic_xpressive == true)
	{
	time = dxpr::time_match(re, text);
	r.dynamic_xpressive_time = time;
	std::cout << "\tdynamic xpressive regex: " << time << "s\n";
	}
	if(time_static_xpressive == true)
	{
	time = sxpr::time_match(re, text);
	r.static_xpressive_time = time;
	std::cout << "\tstatic xpressive regex: " << time << "s\n";
	}
	if(time_boost == true)
	{
	time = b::time_match(re, text);
	r.boost_time = time;
	std::cout << "\tBoost regex: " << time << "s\n";
	}
	//if(time_posix == true)
	//{
	// time = posix::time_match(re, text);
	// r.posix_time = time;
	// std::cout << "\tPOSIX regex: " << time << "s\n";
	//}
	//if(time_pcre == true)
	//{
	// time = pcr::time_match(re, text);
	// r.pcre_time = time;
	// std::cout << "\tPCRE regex: " << time << "s\n";
	//}
	r.finalise();
	result_list.push_back(r);
	}

	void test_find_all(const std::string& re, const std::string& text, const std::string& description)
	{
	std::cout << "Testing: " << re << std::endl;

	double time;
	results r(re, description);

	#if defined(_MSC_VER) && (_MSC_VER >= 1300)
	if(time_greta == true)
	{
	// time = g::time_find_all(re, text);
	// r.greta_time = time;
	// std::cout << "\tGRETA regex: " << time << "s\n";
	}
	if(time_safe_greta == true)
	{
	// time = gs::time_find_all(re, text);
	// r.safe_greta_time = time;
	// std::cout << "\tSafe GRETA regex: " << time << "s\n";
	}
	#endif
	if(time_dynamic_xpressive == true)
	{
	time = dxpr::time_find_all(re, text);
	r.dynamic_xpressive_time = time;
	std::cout << "\tdynamic xpressive regex: " << time << "s\n";
	}
	if(time_static_xpressive == true)
	{
	time = sxpr::time_find_all(re, text);
	r.static_xpressive_time = time;
	std::cout << "\tstatic xpressive regex: " << time << "s\n";
	}
	if(time_boost == true)
	{
	time = b::time_find_all(re, text);
	r.boost_time = time;
	std::cout << "\tBoost regex: " << time << "s\n";
	}
	//if(time_posix == true)
	//{
	// time = posix::time_find_all(re, text);
	// r.posix_time = time;
	// std::cout << "\tPOSIX regex: " << time << "s\n";
	//}
	//if(time_pcre == true)
	//{
	// time = pcr::time_find_all(re, text);
	// r.pcre_time = time;
	// std::cout << "\tPCRE regex: " << time << "s\n";
	//}
	r.finalise();
	result_list.push_back(r);
	}

	//int cpp_main(int argc, char**const argv)
	int main(int argc, char**const argv)
	{
	// start by processing the command line args:
	if(argc < 2)
	return show_usage();
	int result = 0;
	for(int c = 1; c < argc; ++c)
	{
	result += handle_argument(argv[c]);
	}
	if(result)
	return result;

	if(test_matches)
	{
	// these are from the regex docs:
	test_match("^([0-9]+)(\\-\| \|$)(.*)$", "100- this is a line of ftp response which contains a message string");
	test_match("([[:digit:]]{4}[- ]){3}[[:digit:]]{3,4}", "1234-5678-1234-456");
	// these are from http://www.regxlib.com/
	test_match("^([a-zA-Z0-9_\\-\\.]+)@((\\[[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.)\|(([a-zA-Z0-9\\-]+\\.)+))([a-zA-Z]{2,4}\|[0-9]{1,3})(\\]?)$", "john_maddock@compuserve.com");
	test_match("^([a-zA-Z0-9_\\-\\.]+)@((\\[[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.)\|(([a-zA-Z0-9\\-]+\\.)+))([a-zA-Z]{2,4}\|[0-9]{1,3})(\\]?)$", "foo12@foo.edu");
	test_match("^([a-zA-Z0-9_\\-\\.]+)@((\\[[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.)\|(([a-zA-Z0-9\\-]+\\.)+))([a-zA-Z]{2,4}\|[0-9]{1,3})(\\]?)$", "bob.smith@foo.tv");
	test_match("^[a-zA-Z]{1,2}[0-9][0-9A-Za-z]{0,1} {0,1}[0-9][A-Za-z]{2}$", "EH10 2QQ");
	test_match("^[a-zA-Z]{1,2}[0-9][0-9A-Za-z]{0,1} {0,1}[0-9][A-Za-z]{2}$", "G1 1AA");
	test_match("^[a-zA-Z]{1,2}[0-9][0-9A-Za-z]{0,1} {0,1}[0-9][A-Za-z]{2}$", "SW1 1ZZ");
	test_match("^[[:digit:]]{1,2}/[[:digit:]]{1,2}/[[:digit:]]{4}$", "4/1/2001");
	test_match("^[[:digit:]]{1,2}/[[:digit:]]{1,2}/[[:digit:]]{4}$", "12/12/2001");
	test_match("^[-+]?[[:digit:]]\\.?[[:digit:]]$", "123");
	test_match("^[-+]?[[:digit:]]\\.?[[:digit:]]$", "+3.14159");
	test_match("^[-+]?[[:digit:]]\\.?[[:digit:]]$", "-3.14159");

	output_xml_results(true, "Short Matches", "short_matches.xml");
	}
	std::string twain;

	if(test_short_twain)
	{
	load_file(twain, "short_twain.txt");

	test_find_all("Twain", twain);
	test_find_all("Huck[[:alpha:]]+", twain);
	test_find_all("[[:alpha:]]+ing", twain);
	test_find_all("^[^\n]*?Twain", twain);
	test_find_all("Tom\|Sawyer\|Huckleberry\|Finn", twain);
	test_find_all("(Tom\|Sawyer\|Huckleberry\|Finn).{0,30}river\|river.{0,30}(Tom\|Sawyer\|Huckleberry\|Finn)", twain);

	output_xml_results(false, "Moderate Searches", "short_twain_search.xml");
	}

	if(test_long_twain)
	{
	load_file(twain, "3200.txt");

	test_find_all("Twain", twain);
	test_find_all("Huck[[:alpha:]]+", twain);
	test_find_all("[[:alpha:]]+ing", twain);
	test_find_all("^[^\n]*?Twain", twain);
	test_find_all("Tom\|Sawyer\|Huckleberry\|Finn", twain);
	//time_posix = false;
	test_find_all("(Tom\|Sawyer\|Huckleberry\|Finn).{0,30}river\|river.{0,30}(Tom\|Sawyer\|Huckleberry\|Finn)", twain);
	//time_posix = true;

	output_xml_results(false, "Long Searches", "long_twain_search.xml");
	}

	return 0;
	}