contrib/json_spirit/json_spirit_writer_template.h - ChronoShare - Gitiles

 #ifndef JSON_SPIRIT_WRITER_TEMPLATE
 #define JSON_SPIRIT_WRITER_TEMPLATE

 //          Copyright John W. Wilkinson 2007 - 2011
 // Distributed under the MIT License, see accompanying file LICENSE.txt

 // json spirit version 4.05

 #if defined(_MSC_VER) && (_MSC_VER >= 1020)
 # pragma once
 #endif

 #include "json_spirit_value.h"
 #include "json_spirit_writer_options.h"

 #include <cassert>
 #include <sstream>
 #include <iomanip>
 #include <boost/io/ios_state.hpp>

 namespace json_spirit
 {
     inline char to_hex_char( unsigned int c )
     {
         assert( c <= 0xF );

         const char ch = static_cast< char >( c );

         if( ch < 10 ) return '0' + ch;

         return 'A' - 10 + ch;
     }

     template< class String_type >
     String_type non_printable_to_string( unsigned int c )
     {
         typedef typename String_type::value_type Char_type;

         String_type result( 6, '\\' );

         result[1] = 'u';

         result[ 5 ] = to_hex_char( c & 0x000F ); c >>= 4;
         result[ 4 ] = to_hex_char( c & 0x000F ); c >>= 4;
         result[ 3 ] = to_hex_char( c & 0x000F ); c >>= 4;
         result[ 2 ] = to_hex_char( c & 0x000F );

         return result;
     }

     template< typename Char_type, class String_type >
     bool add_esc_char( Char_type c, String_type& s )
     {
         switch( c )
         {
             case '"':  s += to_str< String_type >( "\\\"" ); return true;
             case '\\': s += to_str< String_type >( "\\\\" ); return true;
             case '\b': s += to_str< String_type >( "\\b"  ); return true;
             case '\f': s += to_str< String_type >( "\\f"  ); return true;
             case '\n': s += to_str< String_type >( "\\n"  ); return true;
             case '\r': s += to_str< String_type >( "\\r"  ); return true;
             case '\t': s += to_str< String_type >( "\\t"  ); return true;
         }

         return false;
     }

     template< class String_type >
     String_type add_esc_chars( const String_type& s, bool raw_utf8 )
     {
         typedef typename String_type::const_iterator Iter_type;
         typedef typename String_type::value_type     Char_type;

         String_type result;

         const Iter_type end( s.end() );

         for( Iter_type i = s.begin(); i != end; ++i )
         {
             const Char_type c( *i );

             if( add_esc_char( c, result ) ) continue;

             if( raw_utf8 )
             {
                 result += c;
             }
             else
             {
                 const wint_t unsigned_c( ( c >= 0 ) ? c : 256 + c );

                 if( iswprint( unsigned_c ) )
                 {
                     result += c;
                 }
                 else
                 {
                     result += non_printable_to_string< String_type >( unsigned_c );
                 }
             }
         }

         return result;
     }

     template< class Ostream >
     void append_double( Ostream& os, const double d, const int precision )
     {
         os << std::showpoint << std::setprecision( precision ) << d;
     }

     template< class String_type >
     void erase_and_extract_exponent( String_type& str, String_type& exp )
     {
         const typename String_type::size_type exp_start= str.find( 'e' );

         if( exp_start != String_type::npos )
         {
             exp = str.substr( exp_start );
             str.erase( exp_start );
         }
     }

     template< class String_type >
     typename String_type::size_type find_first_non_zero( const String_type& str )
     {
         typename String_type::size_type result = str.size() - 1;

         for( ; result != 0; --result )
         {
             if( str[ result ] != '0' )
             {
                 break;
             }
         }

         return result;
     }

     template< class String_type >
     void remove_trailing( String_type& str )
     {
         String_type exp;

         erase_and_extract_exponent( str, exp );

         const typename String_type::size_type first_non_zero = find_first_non_zero( str );

         if( first_non_zero != 0 )
         {
             const int offset = str[first_non_zero] == '.' ? 2 : 1;  // note zero digits following a decimal point is non standard
             str.erase( first_non_zero + offset );
         }

         str += exp;
     }

     // this class generates the JSON text,
     // it keeps track of the indentation level etc.
     //
     template< class Value_type, class Ostream_type >
     class Generator
     {
         typedef typename Value_type::Config_type Config_type;
         typedef typename Config_type::String_type String_type;
         typedef typename Config_type::Object_type Object_type;
         typedef typename Config_type::Array_type Array_type;
         typedef typename String_type::value_type Char_type;
         typedef typename Object_type::value_type Obj_member_type;

     public:

         Generator( const Value_type& value, Ostream_type& os, unsigned int options )
         :   os_( os )
         ,   indentation_level_( 0 )
         ,   pretty_( ( options & pretty_print ) != 0 || ( options & single_line_arrays ) != 0 )
         ,   raw_utf8_( ( options & raw_utf8 ) != 0 )
         ,   remove_trailing_zeros_( ( options & remove_trailing_zeros ) != 0 )
         ,   single_line_arrays_( ( options & single_line_arrays ) != 0 )
         ,   ios_saver_( os )
         {
             output( value );
         }

     private:

         void output( const Value_type& value )
         {
             switch( value.type() )
             {
                 case obj_type:   output( value.get_obj() );   break;
                 case array_type: output( value.get_array() ); break;
                 case str_type:   output( value.get_str() );   break;
                 case bool_type:  output( value.get_bool() );  break;
                 case real_type:  output( value.get_real() );  break;
                 case int_type:   output_int( value );         break;
                 case null_type:  os_ << "null";               break;
                 default: assert( false );
             }
         }

         void output( const Object_type& obj )
         {
             output_array_or_obj( obj, '{', '}' );
         }

         void output( const Obj_member_type& member )
         {
             output( Config_type::get_name( member ) ); space();
             os_ << ':'; space();
             output( Config_type::get_value( member ) );
         }

         void output_int( const Value_type& value )
         {
             if( value.is_uint64() )
             {
                 os_ << value.get_uint64();
             }
             else
             {
                os_ << value.get_int64();
             }
         }

         void output( const String_type& s )
         {
             os_ << '"' << add_esc_chars( s, raw_utf8_ ) << '"';
         }

         void output( bool b )
         {
             os_ << to_str< String_type >( b ? "true" : "false" );
         }

         void output( double d )
         {
             if( remove_trailing_zeros_ )
             {
                 std::basic_ostringstream< Char_type > os;

                 append_double( os, d, 16 );  // note precision is 16 so that we get some trailing space that we can remove,
                                              // otherwise, 0.1234 gets converted to "0.12399999..."

                 String_type str = os.str();

                 remove_trailing( str );

                 os_ << str;
             }
             else
             {
                 append_double( os_, d, 17 );
             }
         }

         static bool contains_composite_elements( const Array_type& arr )
         {
             for( typename Array_type::const_iterator i = arr.begin(); i != arr.end(); ++i )
             {
                 const Value_type& val = *i;

                 if( val.type() == obj_type ||
                     val.type() == array_type )
                 {
                     return true;
                 }
             }

             return false;
         }

         template< class Iter >
         void output_composite_item( Iter i, Iter last )
         {
             output( *i );

             if( ++i != last )
             {
                 os_ << ',';
             }
         }

         void output( const Array_type& arr )
         {
             if( single_line_arrays_ && !contains_composite_elements( arr )  )
             {
                 os_ << '['; space();

                 for( typename Array_type::const_iterator i = arr.begin(); i != arr.end(); ++i )
                 {
                     output_composite_item( i, arr.end() );

                     space();
                 }

                 os_ << ']';
             }
             else
             {
                 output_array_or_obj( arr, '[', ']' );
             }
         }

         template< class T >
         void output_array_or_obj( const T& t, Char_type start_char, Char_type end_char )
         {
             os_ << start_char; new_line();

             ++indentation_level_;

             for( typename T::const_iterator i = t.begin(); i != t.end(); ++i )
             {
                 indent();

                 output_composite_item( i, t.end() );

                 new_line();
             }

             --indentation_level_;

             indent(); os_ << end_char;
         }

         void indent()
         {
             if( !pretty_ ) return;

             for( int i = 0; i < indentation_level_; ++i )
             {
                 os_ << "    ";
             }
         }

         void space()
         {
             if( pretty_ ) os_ << ' ';
         }

         void new_line()
         {
             if( pretty_ ) os_ << '\n';
         }

         Generator& operator=( const Generator& ); // to prevent "assignment operator could not be generated" warning

         Ostream_type& os_;
         int indentation_level_;
         bool pretty_;
         bool raw_utf8_;
         bool remove_trailing_zeros_;
         bool single_line_arrays_;
         boost::io::basic_ios_all_saver< Char_type > ios_saver_;  // so that ostream state is reset after control is returned to the caller
     };

     // writes JSON Value to a stream, e.g.
     //
     // write_stream( value, os, pretty_print );
     //
     template< class Value_type, class Ostream_type >
     void write_stream( const Value_type& value, Ostream_type& os, unsigned int options = 0 )
     {
         os << std::dec;
         Generator< Value_type, Ostream_type >( value, os, options );
     }

     // writes JSON Value to a stream, e.g.
     //
     // const string json_str = write( value, pretty_print );
     //
     template< class Value_type >
     typename Value_type::String_type write_string( const Value_type& value, unsigned int options = 0 )
     {
         typedef typename Value_type::String_type::value_type Char_type;

         std::basic_ostringstream< Char_type > os;

         write_stream( value, os, options );

         return os.str();
     }
 }

 #endif
	#ifndef JSON_SPIRIT_WRITER_TEMPLATE
	#define JSON_SPIRIT_WRITER_TEMPLATE

	// Copyright John W. Wilkinson 2007 - 2011
	// Distributed under the MIT License, see accompanying file LICENSE.txt

	// json spirit version 4.05

	#if defined(_MSC_VER) && (_MSC_VER >= 1020)
	# pragma once
	#endif

	#include "json_spirit_value.h"
	#include "json_spirit_writer_options.h"

	#include <cassert>
	#include <sstream>
	#include <iomanip>
	#include <boost/io/ios_state.hpp>

	namespace json_spirit
	{
	inline char to_hex_char( unsigned int c )
	{
	assert( c <= 0xF );

	const char ch = static_cast< char >( c );

	if( ch < 10 ) return '0' + ch;

	return 'A' - 10 + ch;
	}

	template< class String_type >
	String_type non_printable_to_string( unsigned int c )
	{
	typedef typename String_type::value_type Char_type;

	String_type result( 6, '\\' );

	result[1] = 'u';

	result[ 5 ] = to_hex_char( c & 0x000F ); c >>= 4;
	result[ 4 ] = to_hex_char( c & 0x000F ); c >>= 4;
	result[ 3 ] = to_hex_char( c & 0x000F ); c >>= 4;
	result[ 2 ] = to_hex_char( c & 0x000F );

	return result;
	}

	template< typename Char_type, class String_type >
	bool add_esc_char( Char_type c, String_type& s )
	{
	switch( c )
	{
	case '"': s += to_str< String_type >( "\\\"" ); return true;
	case '\\': s += to_str< String_type >( "\\\\" ); return true;
	case '\b': s += to_str< String_type >( "\\b" ); return true;
	case '\f': s += to_str< String_type >( "\\f" ); return true;
	case '\n': s += to_str< String_type >( "\\n" ); return true;
	case '\r': s += to_str< String_type >( "\\r" ); return true;
	case '\t': s += to_str< String_type >( "\\t" ); return true;
	}

	return false;
	}

	template< class String_type >
	String_type add_esc_chars( const String_type& s, bool raw_utf8 )
	{
	typedef typename String_type::const_iterator Iter_type;
	typedef typename String_type::value_type Char_type;

	String_type result;

	const Iter_type end( s.end() );

	for( Iter_type i = s.begin(); i != end; ++i )
	{
	const Char_type c( *i );

	if( add_esc_char( c, result ) ) continue;

	if( raw_utf8 )
	{
	result += c;
	}
	else
	{
	const wint_t unsigned_c( ( c >= 0 ) ? c : 256 + c );

	if( iswprint( unsigned_c ) )
	{
	result += c;
	}
	else
	{
	result += non_printable_to_string< String_type >( unsigned_c );
	}
	}
	}

	return result;
	}

	template< class Ostream >
	void append_double( Ostream& os, const double d, const int precision )
	{
	os << std::showpoint << std::setprecision( precision ) << d;
	}

	template< class String_type >
	void erase_and_extract_exponent( String_type& str, String_type& exp )
	{
	const typename String_type::size_type exp_start= str.find( 'e' );

	if( exp_start != String_type::npos )
	{
	exp = str.substr( exp_start );
	str.erase( exp_start );
	}
	}

	template< class String_type >
	typename String_type::size_type find_first_non_zero( const String_type& str )
	{
	typename String_type::size_type result = str.size() - 1;

	for( ; result != 0; --result )
	{
	if( str[ result ] != '0' )
	{
	break;
	}
	}

	return result;
	}

	template< class String_type >
	void remove_trailing( String_type& str )
	{
	String_type exp;

	erase_and_extract_exponent( str, exp );

	const typename String_type::size_type first_non_zero = find_first_non_zero( str );

	if( first_non_zero != 0 )
	{
	const int offset = str[first_non_zero] == '.' ? 2 : 1; // note zero digits following a decimal point is non standard
	str.erase( first_non_zero + offset );
	}

	str += exp;
	}

	// this class generates the JSON text,
	// it keeps track of the indentation level etc.
	//
	template< class Value_type, class Ostream_type >
	class Generator
	{
	typedef typename Value_type::Config_type Config_type;
	typedef typename Config_type::String_type String_type;
	typedef typename Config_type::Object_type Object_type;
	typedef typename Config_type::Array_type Array_type;
	typedef typename String_type::value_type Char_type;
	typedef typename Object_type::value_type Obj_member_type;

	public:

	Generator( const Value_type& value, Ostream_type& os, unsigned int options )
	: os_( os )
	, indentation_level_( 0 )
	, pretty_( ( options & pretty_print ) != 0 \|\| ( options & single_line_arrays ) != 0 )
	, raw_utf8_( ( options & raw_utf8 ) != 0 )
	, remove_trailing_zeros_( ( options & remove_trailing_zeros ) != 0 )
	, single_line_arrays_( ( options & single_line_arrays ) != 0 )
	, ios_saver_( os )
	{
	output( value );
	}

	private:

	void output( const Value_type& value )
	{
	switch( value.type() )
	{
	case obj_type: output( value.get_obj() ); break;
	case array_type: output( value.get_array() ); break;
	case str_type: output( value.get_str() ); break;
	case bool_type: output( value.get_bool() ); break;
	case real_type: output( value.get_real() ); break;
	case int_type: output_int( value ); break;
	case null_type: os_ << "null"; break;
	default: assert( false );
	}
	}

	void output( const Object_type& obj )
	{
	output_array_or_obj( obj, '{', '}' );
	}

	void output( const Obj_member_type& member )
	{
	output( Config_type::get_name( member ) ); space();
	os_ << ':'; space();
	output( Config_type::get_value( member ) );
	}

	void output_int( const Value_type& value )
	{
	if( value.is_uint64() )
	{
	os_ << value.get_uint64();
	}
	else
	{
	os_ << value.get_int64();
	}
	}

	void output( const String_type& s )
	{
	os_ << '"' << add_esc_chars( s, raw_utf8_ ) << '"';
	}

	void output( bool b )
	{
	os_ << to_str< String_type >( b ? "true" : "false" );
	}

	void output( double d )
	{
	if( remove_trailing_zeros_ )
	{
	std::basic_ostringstream< Char_type > os;

	append_double( os, d, 16 ); // note precision is 16 so that we get some trailing space that we can remove,
	// otherwise, 0.1234 gets converted to "0.12399999..."

	String_type str = os.str();

	remove_trailing( str );

	os_ << str;
	}
	else
	{
	append_double( os_, d, 17 );
	}
	}

	static bool contains_composite_elements( const Array_type& arr )
	{
	for( typename Array_type::const_iterator i = arr.begin(); i != arr.end(); ++i )
	{
	const Value_type& val = *i;

	if( val.type() == obj_type \|\|
	val.type() == array_type )
	{
	return true;
	}
	}

	return false;
	}

	template< class Iter >
	void output_composite_item( Iter i, Iter last )
	{
	output( *i );

	if( ++i != last )
	{
	os_ << ',';
	}
	}

	void output( const Array_type& arr )
	{
	if( single_line_arrays_ && !contains_composite_elements( arr ) )
	{
	os_ << '['; space();

	for( typename Array_type::const_iterator i = arr.begin(); i != arr.end(); ++i )
	{
	output_composite_item( i, arr.end() );

	space();
	}

	os_ << ']';
	}
	else
	{
	output_array_or_obj( arr, '[', ']' );
	}
	}

	template< class T >
	void output_array_or_obj( const T& t, Char_type start_char, Char_type end_char )
	{
	os_ << start_char; new_line();

	++indentation_level_;

	for( typename T::const_iterator i = t.begin(); i != t.end(); ++i )
	{
	indent();

	output_composite_item( i, t.end() );

	new_line();
	}

	--indentation_level_;

	indent(); os_ << end_char;
	}

	void indent()
	{
	if( !pretty_ ) return;

	for( int i = 0; i < indentation_level_; ++i )
	{
	os_ << " ";
	}
	}

	void space()
	{
	if( pretty_ ) os_ << ' ';
	}

	void new_line()
	{
	if( pretty_ ) os_ << '\n';
	}

	Generator& operator=( const Generator& ); // to prevent "assignment operator could not be generated" warning

	Ostream_type& os_;
	int indentation_level_;
	bool pretty_;
	bool raw_utf8_;
	bool remove_trailing_zeros_;
	bool single_line_arrays_;
	boost::io::basic_ios_all_saver< Char_type > ios_saver_; // so that ostream state is reset after control is returned to the caller
	};

	// writes JSON Value to a stream, e.g.
	//
	// write_stream( value, os, pretty_print );
	//
	template< class Value_type, class Ostream_type >
	void write_stream( const Value_type& value, Ostream_type& os, unsigned int options = 0 )
	{
	os << std::dec;
	Generator< Value_type, Ostream_type >( value, os, options );
	}

	// writes JSON Value to a stream, e.g.
	//
	// const string json_str = write( value, pretty_print );
	//
	template< class Value_type >
	typename Value_type::String_type write_string( const Value_type& value, unsigned int options = 0 )
	{
	typedef typename Value_type::String_type::value_type Char_type;

	std::basic_ostringstream< Char_type > os;

	write_stream( value, os, options );

	return os.str();
	}
	}

	#endif