boost_1_45_0/libs/filesystem/v2/example/path_table.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 //  Generate an HTML table showing path decomposition  -----------------------//

 //  Copyright Beman Dawes 2005.  Distributed under 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)

 //  See http://www.boost.org/libs/filesystem for documentation.

 //  For purposes of generating the table, support both POSIX and Windows paths
 #define BOOST_FILESYSTEM_NAMESPACE posix
 #define BOOST_POSIX_PATH
 #include "boost/filesystem/path.hpp"

 #undef BOOST_FILESYSTEM_PATH_HPP
 #undef BOOST_FILESYSTEM_NAMESPACE
 #define BOOST_FILESYSTEM_NAMESPACE windows
 #define BOOST_WINDOWS_PATH
 #include "boost/filesystem/path.hpp"

 namespace pos = boost::posix;
 namespace win = boost::windows;

 #include <iostream>
 #include <fstream>

 using std::string;
 using std::cout;

 namespace
 {
   std::ifstream infile;
   std::ofstream outfile;

   const string empty_string;

   struct column_abc
   {
     virtual string heading() const = 0;
     virtual string cell_value( const pos::path & p ) const = 0;
     virtual string cell_value( const win::path & p ) const = 0;
   };

   struct c0 : public column_abc
   {
     string heading() const { return string("<code>string()</code>"); }
     string cell_value( const pos::path & p ) const
     {
       return p.string();
     }
     string cell_value( const win::path & p ) const
     {
       return p.string();
     }
   } o0;

     struct c1 : public column_abc
   {
     string heading() const { return string("<code>file_<br>string()"); }
     string cell_value( const pos::path & p ) const { return p.file_string(); }
     string cell_value( const win::path & p ) const { return p.file_string(); }
   } o1;

   struct c2 : public column_abc
   {
     string heading() const { return string("Elements found<br>by iteration"); }
     string cell_value( const pos::path & p ) const
     {
       string s;
       for( pos::path::iterator i(p.begin()); i != p.end(); ++i )
       {
         if ( i != p.begin() ) s += ',';
         s += '\"';
         s += *i;
         s += '\"';
       }
       if ( s.empty() ) s += "\"\"";
       return s;
     }
     string cell_value( const win::path & p ) const
     {
       string s;
       for( win::path::iterator i(p.begin()); i != p.end(); ++i )
       {
         if ( i != p.begin() ) s += ',';
         s += '\"';
         s += *i;
         s += '\"';
       }
       if ( s.empty() ) s += "\"\"";
       return s;
     }
   } o2;

   struct c3 : public column_abc
   {
     string heading() const { return string("<code>root_<br>path()<br>.string()</code>"); }
     string cell_value( const pos::path & p ) const { return p.root_path().string(); }
     string cell_value( const win::path & p ) const { return p.root_path().string(); }
   } o3;

   struct c4 : public column_abc
   {
     string heading() const { return string("<code>root_<br>name()</code>"); }
     string cell_value( const pos::path & p ) const { return p.root_name(); }
     string cell_value( const win::path & p ) const { return p.root_name(); }
   } o4;

   struct c5 : public column_abc
   {
     string heading() const { return string("<code>root_<br>directory()</code>"); }
     string cell_value( const pos::path & p ) const { return p.root_directory(); }
     string cell_value( const win::path & p ) const { return p.root_directory(); }
   } o5;

   struct c6 : public column_abc
   {
     string heading() const { return string("<code>relative_<br>path()<br>.string()</code>"); }
     string cell_value( const pos::path & p ) const { return p.relative_path().string(); }
     string cell_value( const win::path & p ) const { return p.relative_path().string(); }
   } o6;

   struct c7 : public column_abc
   {
     string heading() const { return string("<code>branch_<br>path()<br>.string()</code>"); }
     string cell_value( const pos::path & p ) const { return p.branch_path().string(); }
     string cell_value( const win::path & p ) const { return p.branch_path().string(); }
   } o7;

   struct c8 : public column_abc
   {
     string heading() const { return string("<code>leaf()</code>"); }
     string cell_value( const pos::path & p ) const { return p.leaf(); }
     string cell_value( const win::path & p ) const { return p.leaf(); }
   } o8;

   const column_abc * column[] = { &o2, &o0, &o1, &o3, &o4, &o5, &o6, &o7, &o8 };

   //  do_cell  ---------------------------------------------------------------//

   void do_cell( const string & test_case, int i )
   {

     string posix_result( column[i]->cell_value( pos::path(test_case) ) );
     string windows_result( column[i]->cell_value( win::path(test_case) ) );

     outfile <<
       (posix_result != windows_result
         ? "<td bgcolor=\"#CCFF99\"><code>"
         : "<td><code>");

     if ( posix_result.empty() || posix_result[0] != '\"' )
       outfile << '\"' << posix_result << '\"';
     else
       outfile << posix_result;

     if ( posix_result != windows_result )
     {
       outfile << "<br>";
       if ( windows_result.empty() || windows_result[0] != '\"' )
         outfile << '\"' << windows_result << '\"';
       else
         outfile << windows_result;
     }

     outfile << "</code></td>\n";
   }

 //  do_row  ------------------------------------------------------------------//

   void do_row( const string & test_case )
   {
     outfile << "<tr>\n<td><code>\"" << test_case << "\"</code></td>\n";

     for ( int i = 0; i < sizeof(column)/sizeof(column_abc&); ++i )
     {
       do_cell( test_case, i );
     }

     outfile << "</tr>\n";
   }

 //  do_table  ----------------------------------------------------------------//

   void do_table()
   {
     outfile <<
       "<h1>Path Decomposition Table for <i>POSIX</i> and <i>Windows</i></h1>\n"
       "<p>Shaded entries indicate cases where <i>POSIX</i> and <i>Windows</i>\n"
       "implementations yield different results. The top value is the\n"
       "<i>POSIX</i> result and the bottom value is the <i>Windows</i> result.\n"
       "<table border=\"1\" cellspacing=\"0\" cellpadding=\"5\">\n"
       "<p>\n"
       ;

     // generate the column headings

     outfile << "<tr><td><b>Constructor<br>argument</b></td>\n";

     for ( int i = 0; i < sizeof(column)/sizeof(column_abc&); ++i )
     {
       outfile << "<td><b>" << column[i]->heading() << "</b></td>\n";
     }

     outfile << "</tr>\n";

     // generate a row for each input line

     string test_case;
     while ( std::getline( infile, test_case ) )
     {
       do_row( test_case );
     }

     outfile << "</table>\n";
   }

 } // unnamed namespace

 //  main  --------------------------------------------------------------------//

 #define BOOST_NO_CPP_MAIN_SUCCESS_MESSAGE
 #include <boost/test/included/prg_exec_monitor.hpp>

 int cpp_main( int argc, char * argv[] ) // note name!
 {
   if ( argc != 3 )
   {
     std::cerr <<
       "Usage: path_table input-file output-file\n"
       "  input-file contains the paths to appear in the table.\n"
       "  output-file will contain the generated HTML.\n"
       ;
     return 1;
   }

   infile.open( argv[1] );
   if ( !infile )
   {
     std::cerr << "Could not open input file: " << argv[1] << std::endl;
     return 1;
   }

   outfile.open( argv[2] );
   if ( !outfile )
   {
     std::cerr << "Could not open output file: " << argv[2] << std::endl;
     return 1;
   }

   outfile << "<html>\n"
           "<head>\n"
           "<title>Path Decomposition Table</title>\n"
           "</head>\n"
           "<body bgcolor=\"#ffffff\" text=\"#000000\">\n"
           ;

   do_table();

   outfile << "</body>\n"
           "</html>\n"
           ;

   return 0;
 }
	// Generate an HTML table showing path decomposition -----------------------//

	// Copyright Beman Dawes 2005. Distributed under 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)

	// See http://www.boost.org/libs/filesystem for documentation.

	// For purposes of generating the table, support both POSIX and Windows paths
	#define BOOST_FILESYSTEM_NAMESPACE posix
	#define BOOST_POSIX_PATH
	#include "boost/filesystem/path.hpp"

	#undef BOOST_FILESYSTEM_PATH_HPP
	#undef BOOST_FILESYSTEM_NAMESPACE
	#define BOOST_FILESYSTEM_NAMESPACE windows
	#define BOOST_WINDOWS_PATH
	#include "boost/filesystem/path.hpp"

	namespace pos = boost::posix;
	namespace win = boost::windows;

	#include <iostream>
	#include <fstream>

	using std::string;
	using std::cout;

	namespace
	{
	std::ifstream infile;
	std::ofstream outfile;

	const string empty_string;

	struct column_abc
	{
	virtual string heading() const = 0;
	virtual string cell_value( const pos::path & p ) const = 0;
	virtual string cell_value( const win::path & p ) const = 0;
	};

	struct c0 : public column_abc
	{
	string heading() const { return string("<code>string()</code>"); }
	string cell_value( const pos::path & p ) const
	{
	return p.string();
	}
	string cell_value( const win::path & p ) const
	{
	return p.string();
	}
	} o0;

	struct c1 : public column_abc
	{
	string heading() const { return string("<code>file_<br>string()"); }
	string cell_value( const pos::path & p ) const { return p.file_string(); }
	string cell_value( const win::path & p ) const { return p.file_string(); }
	} o1;

	struct c2 : public column_abc
	{
	string heading() const { return string("Elements found<br>by iteration"); }
	string cell_value( const pos::path & p ) const
	{
	string s;
	for( pos::path::iterator i(p.begin()); i != p.end(); ++i )
	{
	if ( i != p.begin() ) s += ',';
	s += '\"';
	s += *i;
	s += '\"';
	}
	if ( s.empty() ) s += "\"\"";
	return s;
	}
	string cell_value( const win::path & p ) const
	{
	string s;
	for( win::path::iterator i(p.begin()); i != p.end(); ++i )
	{
	if ( i != p.begin() ) s += ',';
	s += '\"';
	s += *i;
	s += '\"';
	}
	if ( s.empty() ) s += "\"\"";
	return s;
	}
	} o2;

	struct c3 : public column_abc
	{
	string heading() const { return string("<code>root_<br>path()<br>.string()</code>"); }
	string cell_value( const pos::path & p ) const { return p.root_path().string(); }
	string cell_value( const win::path & p ) const { return p.root_path().string(); }
	} o3;

	struct c4 : public column_abc
	{
	string heading() const { return string("<code>root_<br>name()</code>"); }
	string cell_value( const pos::path & p ) const { return p.root_name(); }
	string cell_value( const win::path & p ) const { return p.root_name(); }
	} o4;

	struct c5 : public column_abc
	{
	string heading() const { return string("<code>root_<br>directory()</code>"); }
	string cell_value( const pos::path & p ) const { return p.root_directory(); }
	string cell_value( const win::path & p ) const { return p.root_directory(); }
	} o5;

	struct c6 : public column_abc
	{
	string heading() const { return string("<code>relative_<br>path()<br>.string()</code>"); }
	string cell_value( const pos::path & p ) const { return p.relative_path().string(); }
	string cell_value( const win::path & p ) const { return p.relative_path().string(); }
	} o6;

	struct c7 : public column_abc
	{
	string heading() const { return string("<code>branch_<br>path()<br>.string()</code>"); }
	string cell_value( const pos::path & p ) const { return p.branch_path().string(); }
	string cell_value( const win::path & p ) const { return p.branch_path().string(); }
	} o7;

	struct c8 : public column_abc
	{
	string heading() const { return string("<code>leaf()</code>"); }
	string cell_value( const pos::path & p ) const { return p.leaf(); }
	string cell_value( const win::path & p ) const { return p.leaf(); }
	} o8;

	const column_abc * column[] = { &o2, &o0, &o1, &o3, &o4, &o5, &o6, &o7, &o8 };

	// do_cell ---------------------------------------------------------------//

	void do_cell( const string & test_case, int i )
	{

	string posix_result( column[i]->cell_value( pos::path(test_case) ) );
	string windows_result( column[i]->cell_value( win::path(test_case) ) );

	outfile <<
	(posix_result != windows_result
	? "<td bgcolor=\"#CCFF99\"><code>"
	: "<td><code>");

	if ( posix_result.empty() \|\| posix_result[0] != '\"' )
	outfile << '\"' << posix_result << '\"';
	else
	outfile << posix_result;

	if ( posix_result != windows_result )
	{
	outfile << "<br>";
	if ( windows_result.empty() \|\| windows_result[0] != '\"' )
	outfile << '\"' << windows_result << '\"';
	else
	outfile << windows_result;
	}

	outfile << "</code></td>\n";
	}

	// do_row ------------------------------------------------------------------//

	void do_row( const string & test_case )
	{
	outfile << "<tr>\n<td><code>\"" << test_case << "\"</code></td>\n";

	for ( int i = 0; i < sizeof(column)/sizeof(column_abc&); ++i )
	{
	do_cell( test_case, i );
	}

	outfile << "</tr>\n";
	}

	// do_table ----------------------------------------------------------------//

	void do_table()
	{
	outfile <<
	"<h1>Path Decomposition Table for <i>POSIX</i> and <i>Windows</i></h1>\n"
	"<p>Shaded entries indicate cases where <i>POSIX</i> and <i>Windows</i>\n"
	"implementations yield different results. The top value is the\n"
	"<i>POSIX</i> result and the bottom value is the <i>Windows</i> result.\n"
	"<table border=\"1\" cellspacing=\"0\" cellpadding=\"5\">\n"
	"<p>\n"
	;

	// generate the column headings

	outfile << "<tr><td><b>Constructor<br>argument</b></td>\n";

	for ( int i = 0; i < sizeof(column)/sizeof(column_abc&); ++i )
	{
	outfile << "<td><b>" << column[i]->heading() << "</b></td>\n";
	}

	outfile << "</tr>\n";

	// generate a row for each input line

	string test_case;
	while ( std::getline( infile, test_case ) )
	{
	do_row( test_case );
	}

	outfile << "</table>\n";
	}

	} // unnamed namespace

	// main --------------------------------------------------------------------//

	#define BOOST_NO_CPP_MAIN_SUCCESS_MESSAGE
	#include <boost/test/included/prg_exec_monitor.hpp>

	int cpp_main( int argc, char * argv[] ) // note name!
	{
	if ( argc != 3 )
	{
	std::cerr <<
	"Usage: path_table input-file output-file\n"
	" input-file contains the paths to appear in the table.\n"
	" output-file will contain the generated HTML.\n"
	;
	return 1;
	}

	infile.open( argv[1] );
	if ( !infile )
	{
	std::cerr << "Could not open input file: " << argv[1] << std::endl;
	return 1;
	}

	outfile.open( argv[2] );
	if ( !outfile )
	{
	std::cerr << "Could not open output file: " << argv[2] << std::endl;
	return 1;
	}

	outfile << "<html>\n"
	"<head>\n"
	"<title>Path Decomposition Table</title>\n"
	"</head>\n"
	"<body bgcolor=\"#ffffff\" text=\"#000000\">\n"
	;

	do_table();

	outfile << "</body>\n"
	"</html>\n"
	;

	return 0;
	}