#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 #include #include #include 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 ) { 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