// From github.com/nbsdx/SimpleJSON. // Released under the DWTFYW PL // #pragma once #ifndef SIMPLEJSON_HPP #define SIMPLEJSON_HPP #include #include #include #include #include #include #include #include #include #include namespace json { using std::map; using std::deque; using std::string; using std::enable_if; using std::initializer_list; using std::is_same; using std::is_convertible; using std::is_integral; using std::is_floating_point; namespace { string json_escape( const string &str ) { string output; for( unsigned i = 0; i < str.length(); ++i ) switch( str[i] ) { case '\"': output += "\\\""; break; case '\\': output += "\\\\"; break; case '\b': output += "\\b"; break; case '\f': output += "\\f"; break; case '\n': output += "\\n"; break; case '\r': output += "\\r"; break; case '\t': output += "\\t"; break; default : output += str[i]; break; } return output; } } class JSON { union BackingData { BackingData( double d ) : Float( d ){} BackingData( long l ) : Int( l ){} BackingData( bool b ) : Bool( b ){} BackingData( string s ) : String( new string( s ) ){} BackingData() : Int( 0 ){} deque *List; map *Map; string *String; double Float; long Int; bool Bool; } Internal; public: enum class Class { Null, Object, Array, String, Floating, Integral, Boolean }; template class JSONWrapper { Container *object; public: JSONWrapper( Container *val ) : object( val ) {} JSONWrapper( std::nullptr_t ) : object( nullptr ) {} typename Container::iterator begin() { return object ? object->begin() : typename Container::iterator(); } typename Container::iterator end() { return object ? object->end() : typename Container::iterator(); } typename Container::const_iterator begin() const { return object ? object->begin() : typename Container::iterator(); } typename Container::const_iterator end() const { return object ? object->end() : typename Container::iterator(); } }; template class JSONConstWrapper { const Container *object; public: JSONConstWrapper( const Container *val ) : object( val ) {} JSONConstWrapper( std::nullptr_t ) : object( nullptr ) {} typename Container::const_iterator begin() const { return object ? object->begin() : typename Container::const_iterator(); } typename Container::const_iterator end() const { return object ? object->end() : typename Container::const_iterator(); } }; JSON() : Internal(), Type( Class::Null ){} explicit JSON(Class type) : JSON() { SetType( type ); } JSON( initializer_list list ) : JSON() { SetType( Class::Object ); for( auto i = list.begin(), e = list.end(); i != e; ++i, ++i ) operator[]( i->ToString() ) = *std::next( i ); } JSON( JSON&& other ) : Internal( other.Internal ) , Type( other.Type ) { other.Type = Class::Null; other.Internal.Map = nullptr; } JSON& operator=( JSON&& other ) { Internal = other.Internal; Type = other.Type; other.Internal.Map = nullptr; other.Type = Class::Null; return *this; } JSON( const JSON &other ) { switch( other.Type ) { case Class::Object: Internal.Map = new map( other.Internal.Map->begin(), other.Internal.Map->end() ); break; case Class::Array: Internal.List = new deque( other.Internal.List->begin(), other.Internal.List->end() ); break; case Class::String: Internal.String = new string( *other.Internal.String ); break; default: Internal = other.Internal; } Type = other.Type; } JSON& operator=( const JSON &other ) { if (&other == this) return *this; switch( other.Type ) { case Class::Object: Internal.Map = new map( other.Internal.Map->begin(), other.Internal.Map->end() ); break; case Class::Array: Internal.List = new deque( other.Internal.List->begin(), other.Internal.List->end() ); break; case Class::String: Internal.String = new string( *other.Internal.String ); break; default: Internal = other.Internal; } Type = other.Type; return *this; } ~JSON() { switch( Type ) { case Class::Array: delete Internal.List; break; case Class::Object: delete Internal.Map; break; case Class::String: delete Internal.String; break; default:; } } template JSON( T b, typename enable_if::value>::type* = 0 ) : Internal( b ), Type( Class::Boolean ){} template JSON( T i, typename enable_if::value && !is_same::value>::type* = 0 ) : Internal( (long)i ), Type( Class::Integral ){} template JSON( T f, typename enable_if::value>::type* = 0 ) : Internal( (double)f ), Type( Class::Floating ){} template JSON( T s, typename enable_if::value>::type* = 0 ) : Internal( string( s ) ), Type( Class::String ){} JSON( std::nullptr_t ) : Internal(), Type( Class::Null ){} static JSON Make( Class type ) { return JSON(type); } static JSON Load( const string & ); template void append( T arg ) { SetType( Class::Array ); Internal.List->emplace_back( arg ); } template void append( T arg, U... args ) { append( arg ); append( args... ); } template typename enable_if::value, JSON&>::type operator=( T b ) { SetType( Class::Boolean ); Internal.Bool = b; return *this; } template typename enable_if::value && !is_same::value, JSON&>::type operator=( T i ) { SetType( Class::Integral ); Internal.Int = i; return *this; } template typename enable_if::value, JSON&>::type operator=( T f ) { SetType( Class::Floating ); Internal.Float = f; return *this; } template typename enable_if::value, JSON&>::type operator=( T s ) { SetType( Class::String ); *Internal.String = string( s ); return *this; } JSON& operator[]( const string &key ) { SetType( Class::Object ); return Internal.Map->operator[]( key ); } JSON& operator[]( unsigned index ) { SetType( Class::Array ); if( index >= Internal.List->size() ) Internal.List->resize( index + 1 ); return Internal.List->operator[]( index ); } JSON &at( const string &key ) { return operator[]( key ); } const JSON &at( const string &key ) const { return Internal.Map->at( key ); } JSON &at( unsigned index ) { return operator[]( index ); } const JSON &at( unsigned index ) const { return Internal.List->at( index ); } int length() const { if( Type == Class::Array ) return static_cast(Internal.List->size()); else return -1; } bool hasKey( const string &key ) const { if( Type == Class::Object ) return Internal.Map->find( key ) != Internal.Map->end(); return false; } int size() const { if( Type == Class::Object ) return static_cast(Internal.Map->size()); else if( Type == Class::Array ) return static_cast(Internal.List->size()); else return -1; } Class JSONType() const { return Type; } /// Functions for getting primitives from the JSON object. bool IsNull() const { return Type == Class::Null; } string ToString() const { bool b; return ToString( b ); } string ToString( bool &ok ) const { ok = (Type == Class::String); return ok ? std::move( json_escape( *Internal.String ) ): string(""); } double ToFloat() const { bool b; return ToFloat( b ); } double ToFloat( bool &ok ) const { ok = (Type == Class::Floating); return ok ? Internal.Float : 0.0; } long ToInt() const { bool b; return ToInt( b ); } long ToInt( bool &ok ) const { ok = (Type == Class::Integral); return ok ? Internal.Int : 0; } bool ToBool() const { bool b; return ToBool( b ); } bool ToBool( bool &ok ) const { ok = (Type == Class::Boolean); return ok ? Internal.Bool : false; } JSONWrapper> ObjectRange() { if( Type == Class::Object ) return JSONWrapper>( Internal.Map ); return JSONWrapper>( nullptr ); } JSONWrapper> ArrayRange() { if( Type == Class::Array ) return JSONWrapper>( Internal.List ); return JSONWrapper>( nullptr ); } JSONConstWrapper> ObjectRange() const { if( Type == Class::Object ) return JSONConstWrapper>( Internal.Map ); return JSONConstWrapper>( nullptr ); } JSONConstWrapper> ArrayRange() const { if( Type == Class::Array ) return JSONConstWrapper>( Internal.List ); return JSONConstWrapper>( nullptr ); } string dump( int depth = 1, string tab = " ") const { switch( Type ) { case Class::Null: return "null"; case Class::Object: { string pad = ""; for( int i = 0; i < depth; ++i, pad += tab ); string s = "{\n"; bool skip = true; for( auto &p : *Internal.Map ) { if( !skip ) s += ",\n"; s += ( pad + "\"" + p.first + "\" : " + p.second.dump( depth + 1, tab ) ); skip = false; } s += ( "\n" + pad.erase( 0, 2 ) + "}" ) ; return s; } case Class::Array: { string s = "["; bool skip = true; for( auto &p : *Internal.List ) { if( !skip ) s += ", "; s += p.dump( depth + 1, tab ); skip = false; } s += "]"; return s; } case Class::String: return "\"" + json_escape( *Internal.String ) + "\""; case Class::Floating: return std::to_string( Internal.Float ); case Class::Integral: return std::to_string( Internal.Int ); case Class::Boolean: return Internal.Bool ? "true" : "false"; default: return ""; } } friend std::ostream& operator<<( std::ostream&, const JSON & ); private: void SetType( Class type ) { if( type == Type ) return; switch( Type ) { case Class::Object: delete Internal.Map; break; case Class::Array: delete Internal.List; break; case Class::String: delete Internal.String; break; default:; } switch( type ) { case Class::Null: Internal.Map = nullptr; break; case Class::Object: Internal.Map = new map(); break; case Class::Array: Internal.List = new deque(); break; case Class::String: Internal.String = new string(); break; case Class::Floating: Internal.Float = 0.0; break; case Class::Integral: Internal.Int = 0; break; case Class::Boolean: Internal.Bool = false; break; } Type = type; } private: Class Type = Class::Null; }; JSON Array() { return JSON::Make( JSON::Class::Array ); } template JSON Array( T... args ) { JSON arr = JSON::Make( JSON::Class::Array ); arr.append( args... ); return arr; } JSON Object() { return JSON::Make( JSON::Class::Object ); } std::ostream& operator<<( std::ostream &os, const JSON &json ) { os << json.dump(); return os; } namespace { JSON parse_next( const string &, size_t & ); void consume_ws( const string &str, size_t &offset ) { while( isspace( str[offset] ) ) ++offset; } JSON parse_object( const string &str, size_t &offset ) { JSON Object = JSON::Make( JSON::Class::Object ); ++offset; consume_ws( str, offset ); if( str[offset] == '}' ) { ++offset; return Object; } for (;;) { JSON Key = parse_next( str, offset ); consume_ws( str, offset ); if( str[offset] != ':' ) { std::cerr << "Error: Object: Expected colon, found '" << str[offset] << "'\n"; break; } consume_ws( str, ++offset ); JSON Value = parse_next( str, offset ); Object[Key.ToString()] = Value; consume_ws( str, offset ); if( str[offset] == ',' ) { ++offset; continue; } else if( str[offset] == '}' ) { ++offset; break; } else { std::cerr << "ERROR: Object: Expected comma, found '" << str[offset] << "'\n"; break; } } return Object; } JSON parse_array( const string &str, size_t &offset ) { JSON Array = JSON::Make( JSON::Class::Array ); unsigned index = 0; ++offset; consume_ws( str, offset ); if( str[offset] == ']' ) { ++offset; return Array; } for (;;) { Array[index++] = parse_next( str, offset ); consume_ws( str, offset ); if( str[offset] == ',' ) { ++offset; continue; } else if( str[offset] == ']' ) { ++offset; break; } else { std::cerr << "ERROR: Array: Expected ',' or ']', found '" << str[offset] << "'\n"; return JSON::Make( JSON::Class::Array ); } } return Array; } JSON parse_string( const string &str, size_t &offset ) { string val; for( char c = str[++offset]; c != '\"' ; c = str[++offset] ) { if( c == '\\' ) { switch( str[ ++offset ] ) { case '\"': val += '\"'; break; case '\\': val += '\\'; break; case '/' : val += '/' ; break; case 'b' : val += '\b'; break; case 'f' : val += '\f'; break; case 'n' : val += '\n'; break; case 'r' : val += '\r'; break; case 't' : val += '\t'; break; case 'u' : { val += "\\u" ; for( unsigned i = 1; i <= 4; ++i ) { c = str[offset+i]; if( (c >= '0' && c <= '9') || (c >= 'a' && c <= 'f') || (c >= 'A' && c <= 'F') ) val += c; else { std::cerr << "ERROR: String: Expected hex character in unicode escape, found '" << c << "'\n"; return JSON::Make( JSON::Class::String ); } } offset += 4; } break; default : val += '\\'; break; } } else val += c; } ++offset; return JSON(val); } JSON parse_number( const string &str, size_t &offset ) { JSON Number; string val, exp_str; char c; bool isDouble = false; long exp = 0; for (;;) { c = str[offset++]; if( (c == '-') || (c >= '0' && c <= '9') ) val += c; else if( c == '.' ) { val += c; isDouble = true; } else break; } if( c == 'E' || c == 'e' ) { c = str[ offset++ ]; if( c == '-' ){ ++offset; exp_str += '-';} for (;;) { c = str[ offset++ ]; if( c >= '0' && c <= '9' ) exp_str += c; else if( !isspace( c ) && c != ',' && c != ']' && c != '}' ) { std::cerr << "ERROR: Number: Expected a number for exponent, found '" << c << "'\n"; return JSON::Make( JSON::Class::Null ); } else break; } exp = std::stol( exp_str ); } else if( !isspace( c ) && c != ',' && c != ']' && c != '}' ) { std::cerr << "ERROR: Number: unexpected character '" << c << "'\n"; return JSON::Make( JSON::Class::Null ); } --offset; if( isDouble ) Number = std::stod( val ) * std::pow( 10, exp ); else { if( !exp_str.empty() ) Number = std::stol( val ) * std::pow( 10, exp ); else Number = std::stol( val ); } return Number; } JSON parse_bool( const string &str, size_t &offset ) { JSON Bool; if( str.substr( offset, 4 ) == "true" ) Bool = true; else if( str.substr( offset, 5 ) == "false" ) Bool = false; else { std::cerr << "ERROR: Bool: Expected 'true' or 'false', found '" << str.substr( offset, 5 ) << "'\n"; return JSON::Make( JSON::Class::Null ); } offset += (Bool.ToBool() ? 4 : 5); return Bool; } JSON parse_null( const string &str, size_t &offset ) { if( str.substr( offset, 4 ) != "null" ) { std::cerr << "ERROR: Null: Expected 'null', found '" << str.substr( offset, 4 ) << "'\n"; return JSON::Make( JSON::Class::Null ); } offset += 4; return JSON(); } JSON parse_next( const string &str, size_t &offset ) { char value; consume_ws( str, offset ); value = str[offset]; switch( value ) { case '[' : return parse_array( str, offset ); case '{' : return parse_object( str, offset ); case '\"': return parse_string( str, offset ); case 't' : case 'f' : return parse_bool( str, offset ); case 'n' : return parse_null( str, offset ); default : if( ( value <= '9' && value >= '0' ) || value == '-' ) return parse_number( str, offset ); } std::cerr << "ERROR: Parse: Unknown starting character '" << value << "'\n"; return JSON(); } } JSON JSON::Load( const string &str ) { size_t offset = 0; return parse_next( str, offset ); } } // End Namespace json #endif