// Package json is a JSON parser following the specifications at http://json.org/. package json // import "github.com/tdewolff/parse/json" import ( "io" "strconv" "github.com/tdewolff/parse" "github.com/tdewolff/parse/buffer" ) // GrammarType determines the type of grammar type GrammarType uint32 // GrammarType values. const ( ErrorGrammar GrammarType = iota // extra grammar when errors occur WhitespaceGrammar LiteralGrammar NumberGrammar StringGrammar StartObjectGrammar // { EndObjectGrammar // } StartArrayGrammar // [ EndArrayGrammar // ] ) // String returns the string representation of a GrammarType. func (gt GrammarType) String() string { switch gt { case ErrorGrammar: return "Error" case WhitespaceGrammar: return "Whitespace" case LiteralGrammar: return "Literal" case NumberGrammar: return "Number" case StringGrammar: return "String" case StartObjectGrammar: return "StartObject" case EndObjectGrammar: return "EndObject" case StartArrayGrammar: return "StartArray" case EndArrayGrammar: return "EndArray" } return "Invalid(" + strconv.Itoa(int(gt)) + ")" } //////////////////////////////////////////////////////////////// // State determines the current state the parser is in. type State uint32 // State values. const ( ValueState State = iota // extra token when errors occur ObjectKeyState ObjectValueState ArrayState ) // String returns the string representation of a State. func (state State) String() string { switch state { case ValueState: return "Value" case ObjectKeyState: return "ObjectKey" case ObjectValueState: return "ObjectValue" case ArrayState: return "Array" } return "Invalid(" + strconv.Itoa(int(state)) + ")" } //////////////////////////////////////////////////////////////// // Parser is the state for the lexer. type Parser struct { r *buffer.Lexer state []State err error needComma bool } // NewParser returns a new Parser for a given io.Reader. func NewParser(r io.Reader) *Parser { return &Parser{ r: buffer.NewLexer(r), state: []State{ValueState}, } } // Err returns the error encountered during tokenization, this is often io.EOF but also other errors can be returned. func (p *Parser) Err() error { if p.err != nil { return p.err } return p.r.Err() } // Restore restores the NULL byte at the end of the buffer. func (p *Parser) Restore() { p.r.Restore() } // Next returns the next Grammar. It returns ErrorGrammar when an error was encountered. Using Err() one can retrieve the error message. func (p *Parser) Next() (GrammarType, []byte) { p.moveWhitespace() c := p.r.Peek(0) state := p.state[len(p.state)-1] if c == ',' { if state != ArrayState && state != ObjectKeyState { p.err = parse.NewErrorLexer("unexpected comma character outside an array or object", p.r) return ErrorGrammar, nil } p.r.Move(1) p.moveWhitespace() p.needComma = false c = p.r.Peek(0) } p.r.Skip() if p.needComma && c != '}' && c != ']' && c != 0 { p.err = parse.NewErrorLexer("expected comma character or an array or object ending", p.r) return ErrorGrammar, nil } else if c == '{' { p.state = append(p.state, ObjectKeyState) p.r.Move(1) return StartObjectGrammar, p.r.Shift() } else if c == '}' { if state != ObjectKeyState { p.err = parse.NewErrorLexer("unexpected right brace character", p.r) return ErrorGrammar, nil } p.needComma = true p.state = p.state[:len(p.state)-1] if p.state[len(p.state)-1] == ObjectValueState { p.state[len(p.state)-1] = ObjectKeyState } p.r.Move(1) return EndObjectGrammar, p.r.Shift() } else if c == '[' { p.state = append(p.state, ArrayState) p.r.Move(1) return StartArrayGrammar, p.r.Shift() } else if c == ']' { p.needComma = true if state != ArrayState { p.err = parse.NewErrorLexer("unexpected right bracket character", p.r) return ErrorGrammar, nil } p.state = p.state[:len(p.state)-1] if p.state[len(p.state)-1] == ObjectValueState { p.state[len(p.state)-1] = ObjectKeyState } p.r.Move(1) return EndArrayGrammar, p.r.Shift() } else if state == ObjectKeyState { if c != '"' || !p.consumeStringToken() { p.err = parse.NewErrorLexer("expected object key to be a quoted string", p.r) return ErrorGrammar, nil } n := p.r.Pos() p.moveWhitespace() if c := p.r.Peek(0); c != ':' { p.err = parse.NewErrorLexer("expected colon character after object key", p.r) return ErrorGrammar, nil } p.r.Move(1) p.state[len(p.state)-1] = ObjectValueState return StringGrammar, p.r.Shift()[:n] } else { p.needComma = true if state == ObjectValueState { p.state[len(p.state)-1] = ObjectKeyState } if c == '"' && p.consumeStringToken() { return StringGrammar, p.r.Shift() } else if p.consumeNumberToken() { return NumberGrammar, p.r.Shift() } else if p.consumeLiteralToken() { return LiteralGrammar, p.r.Shift() } } return ErrorGrammar, nil } // State returns the state the parser is currently in (ie. which token is expected). func (p *Parser) State() State { return p.state[len(p.state)-1] } //////////////////////////////////////////////////////////////// /* The following functions follow the specifications at http://json.org/ */ func (p *Parser) moveWhitespace() { for { if c := p.r.Peek(0); c != ' ' && c != '\n' && c != '\r' && c != '\t' { break } p.r.Move(1) } } func (p *Parser) consumeLiteralToken() bool { c := p.r.Peek(0) if c == 't' && p.r.Peek(1) == 'r' && p.r.Peek(2) == 'u' && p.r.Peek(3) == 'e' { p.r.Move(4) return true } else if c == 'f' && p.r.Peek(1) == 'a' && p.r.Peek(2) == 'l' && p.r.Peek(3) == 's' && p.r.Peek(4) == 'e' { p.r.Move(5) return true } else if c == 'n' && p.r.Peek(1) == 'u' && p.r.Peek(2) == 'l' && p.r.Peek(3) == 'l' { p.r.Move(4) return true } return false } func (p *Parser) consumeNumberToken() bool { mark := p.r.Pos() if p.r.Peek(0) == '-' { p.r.Move(1) } c := p.r.Peek(0) if c >= '1' && c <= '9' { p.r.Move(1) for { if c := p.r.Peek(0); c < '0' || c > '9' { break } p.r.Move(1) } } else if c != '0' { p.r.Rewind(mark) return false } else { p.r.Move(1) // 0 } if c := p.r.Peek(0); c == '.' { p.r.Move(1) if c := p.r.Peek(0); c < '0' || c > '9' { p.r.Move(-1) return true } for { if c := p.r.Peek(0); c < '0' || c > '9' { break } p.r.Move(1) } } mark = p.r.Pos() if c := p.r.Peek(0); c == 'e' || c == 'E' { p.r.Move(1) if c := p.r.Peek(0); c == '+' || c == '-' { p.r.Move(1) } if c := p.r.Peek(0); c < '0' || c > '9' { p.r.Rewind(mark) return true } for { if c := p.r.Peek(0); c < '0' || c > '9' { break } p.r.Move(1) } } return true } func (p *Parser) consumeStringToken() bool { // assume to be on " p.r.Move(1) for { c := p.r.Peek(0) if c == '"' { escaped := false for i := p.r.Pos() - 1; i >= 0; i-- { if p.r.Lexeme()[i] == '\\' { escaped = !escaped } else { break } } if !escaped { p.r.Move(1) break } } else if c == 0 { return false } p.r.Move(1) } return true }