// Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Package scanner implements a scanner for Go source text. Takes a []byte as // source which can then be tokenized through repeated calls to the Scan // function. Typical use: // // var s Scanner // fset := token.NewFileSet() // position information is relative to fset // file := fset.AddFile(filename, fset.Base(), len(src)) // register file // s.Init(file, src, nil /* no error handler */, 0) // for { // pos, tok, lit := s.Scan() // if tok == token.EOF { // break // } // // do something here with pos, tok, and lit // } // package scanner import ( "bytes" "go/token" "path/filepath" "strconv" "unicode" "utf8" ) // A Scanner holds the scanner's internal state while processing // a given text. It can be allocated as part of another data // structure but must be initialized via Init before use. // type Scanner struct { // immutable state file *token.File // source file handle dir string // directory portion of file.Name() src []byte // source err ErrorHandler // error reporting; or nil mode uint // scanning mode // scanning state ch int // current character offset int // character offset rdOffset int // reading offset (position after current character) lineOffset int // current line offset insertSemi bool // insert a semicolon before next newline // public state - ok to modify ErrorCount int // number of errors encountered } // Read the next Unicode char into S.ch. // S.ch < 0 means end-of-file. // func (S *Scanner) next() { if S.rdOffset < len(S.src) { S.offset = S.rdOffset if S.ch == '\n' { S.lineOffset = S.offset S.file.AddLine(S.offset) } r, w := int(S.src[S.rdOffset]), 1 switch { case r == 0: S.error(S.offset, "illegal character NUL") case r >= 0x80: // not ASCII r, w = utf8.DecodeRune(S.src[S.rdOffset:]) if r == utf8.RuneError && w == 1 { S.error(S.offset, "illegal UTF-8 encoding") } } S.rdOffset += w S.ch = r } else { S.offset = len(S.src) if S.ch == '\n' { S.lineOffset = S.offset S.file.AddLine(S.offset) } S.ch = -1 // eof } } // The mode parameter to the Init function is a set of flags (or 0). // They control scanner behavior. // const ( ScanComments = 1 << iota // return comments as COMMENT tokens AllowIllegalChars // do not report an error for illegal chars InsertSemis // automatically insert semicolons ) // Init prepares the scanner S to tokenize the text src by setting the // scanner at the beginning of src. The scanner uses the file set file // for position information and it adds line information for each line. // It is ok to re-use the same file when re-scanning the same file as // line information which is already present is ignored. Init causes a // panic if the file size does not match the src size. // // Calls to Scan will use the error handler err if they encounter a // syntax error and err is not nil. Also, for each error encountered, // the Scanner field ErrorCount is incremented by one. The mode parameter // determines how comments, illegal characters, and semicolons are handled. // // Note that Init may call err if there is an error in the first character // of the file. // func (S *Scanner) Init(file *token.File, src []byte, err ErrorHandler, mode uint) { // Explicitly initialize all fields since a scanner may be reused. if file.Size() != len(src) { panic("file size does not match src len") } S.file = file S.dir, _ = filepath.Split(file.Name()) S.src = src S.err = err S.mode = mode S.ch = ' ' S.offset = 0 S.rdOffset = 0 S.lineOffset = 0 S.insertSemi = false S.ErrorCount = 0 S.next() } func charString(ch int) string { var s string switch ch { case -1: return `EOF` case '\a': s = `\a` case '\b': s = `\b` case '\f': s = `\f` case '\n': s = `\n` case '\r': s = `\r` case '\t': s = `\t` case '\v': s = `\v` case '\\': s = `\\` case '\'': s = `\'` default: s = string(ch) } return "'" + s + "' (U+" + strconv.Itob(ch, 16) + ")" } func (S *Scanner) error(offs int, msg string) { if S.err != nil { S.err.Error(S.file.Position(S.file.Pos(offs)), msg) } S.ErrorCount++ } var prefix = []byte("//line ") func (S *Scanner) interpretLineComment(text []byte) { if bytes.HasPrefix(text, prefix) { // get filename and line number, if any if i := bytes.LastIndex(text, []byte{':'}); i > 0 { if line, err := strconv.Atoi(string(text[i+1:])); err == nil && line > 0 { // valid //line filename:line comment; filename := filepath.Clean(string(text[len(prefix):i])) if !filepath.IsAbs(filename) { // make filename relative to current directory filename = filepath.Join(S.dir, filename) } // update scanner position S.file.AddLineInfo(S.lineOffset, filename, line-1) // -1 since comment applies to next line } } } } func (S *Scanner) scanComment() { // initial '/' already consumed; S.ch == '/' || S.ch == '*' offs := S.offset - 1 // position of initial '/' if S.ch == '/' { //-style comment S.next() for S.ch != '\n' && S.ch >= 0 { S.next() } if offs == S.lineOffset { // comment starts at the beginning of the current line S.interpretLineComment(S.src[offs:S.offset]) } return } /*-style comment */ S.next() for S.ch >= 0 { ch := S.ch S.next() if ch == '*' && S.ch == '/' { S.next() return } } S.error(offs, "comment not terminated") } func (S *Scanner) findLineEnd() bool { // initial '/' already consumed defer func(offs int) { // reset scanner state to where it was upon calling findLineEnd S.ch = '/' S.offset = offs S.rdOffset = offs + 1 S.next() // consume initial '/' again }(S.offset - 1) // read ahead until a newline, EOF, or non-comment token is found for S.ch == '/' || S.ch == '*' { if S.ch == '/' { //-style comment always contains a newline return true } /*-style comment: look for newline */ S.next() for S.ch >= 0 { ch := S.ch if ch == '\n' { return true } S.next() if ch == '*' && S.ch == '/' { S.next() break } } S.skipWhitespace() // S.insertSemi is set if S.ch < 0 || S.ch == '\n' { return true } if S.ch != '/' { // non-comment token return false } S.next() // consume '/' } return false } func isLetter(ch int) bool { return 'a' <= ch && ch <= 'z' || 'A' <= ch && ch <= 'Z' || ch == '_' || ch >= 0x80 && unicode.IsLetter(ch) } func isDigit(ch int) bool { return '0' <= ch && ch <= '9' || ch >= 0x80 && unicode.IsDigit(ch) } func (S *Scanner) scanIdentifier() token.Token { offs := S.offset for isLetter(S.ch) || isDigit(S.ch) { S.next() } return token.Lookup(S.src[offs:S.offset]) } func digitVal(ch int) int { switch { case '0' <= ch && ch <= '9': return ch - '0' case 'a' <= ch && ch <= 'f': return ch - 'a' + 10 case 'A' <= ch && ch <= 'F': return ch - 'A' + 10 } return 16 // larger than any legal digit val } func (S *Scanner) scanMantissa(base int) { for digitVal(S.ch) < base { S.next() } } func (S *Scanner) scanNumber(seenDecimalPoint bool) token.Token { // digitVal(S.ch) < 10 tok := token.INT if seenDecimalPoint { tok = token.FLOAT S.scanMantissa(10) goto exponent } if S.ch == '0' { // int or float offs := S.offset S.next() if S.ch == 'x' || S.ch == 'X' { // hexadecimal int S.next() S.scanMantissa(16) } else { // octal int or float seenDecimalDigit := false S.scanMantissa(8) if S.ch == '8' || S.ch == '9' { // illegal octal int or float seenDecimalDigit = true S.scanMantissa(10) } if S.ch == '.' || S.ch == 'e' || S.ch == 'E' || S.ch == 'i' { goto fraction } // octal int if seenDecimalDigit { S.error(offs, "illegal octal number") } } goto exit } // decimal int or float S.scanMantissa(10) fraction: if S.ch == '.' { tok = token.FLOAT S.next() S.scanMantissa(10) } exponent: if S.ch == 'e' || S.ch == 'E' { tok = token.FLOAT S.next() if S.ch == '-' || S.ch == '+' { S.next() } S.scanMantissa(10) } if S.ch == 'i' { tok = token.IMAG S.next() } exit: return tok } func (S *Scanner) scanEscape(quote int) { offs := S.offset var i, base, max uint32 switch S.ch { case 'a', 'b', 'f', 'n', 'r', 't', 'v', '\\', quote: S.next() return case '0', '1', '2', '3', '4', '5', '6', '7': i, base, max = 3, 8, 255 case 'x': S.next() i, base, max = 2, 16, 255 case 'u': S.next() i, base, max = 4, 16, unicode.MaxRune case 'U': S.next() i, base, max = 8, 16, unicode.MaxRune default: S.next() // always make progress S.error(offs, "unknown escape sequence") return } var x uint32 for ; i > 0 && S.ch != quote && S.ch >= 0; i-- { d := uint32(digitVal(S.ch)) if d >= base { S.error(S.offset, "illegal character in escape sequence") break } x = x*base + d S.next() } // in case of an error, consume remaining chars for ; i > 0 && S.ch != quote && S.ch >= 0; i-- { S.next() } if x > max || 0xd800 <= x && x < 0xe000 { S.error(offs, "escape sequence is invalid Unicode code point") } } func (S *Scanner) scanChar() { // '\'' opening already consumed offs := S.offset - 1 n := 0 for S.ch != '\'' { ch := S.ch n++ S.next() if ch == '\n' || ch < 0 { S.error(offs, "character literal not terminated") n = 1 break } if ch == '\\' { S.scanEscape('\'') } } S.next() if n != 1 { S.error(offs, "illegal character literal") } } func (S *Scanner) scanString() { // '"' opening already consumed offs := S.offset - 1 for S.ch != '"' { ch := S.ch S.next() if ch == '\n' || ch < 0 { S.error(offs, "string not terminated") break } if ch == '\\' { S.scanEscape('"') } } S.next() } func (S *Scanner) scanRawString() { // '`' opening already consumed offs := S.offset - 1 for S.ch != '`' { ch := S.ch S.next() if ch < 0 { S.error(offs, "string not terminated") break } } S.next() } func (S *Scanner) skipWhitespace() { for S.ch == ' ' || S.ch == '\t' || S.ch == '\n' && !S.insertSemi || S.ch == '\r' { S.next() } } // Helper functions for scanning multi-byte tokens such as >> += >>= . // Different routines recognize different length tok_i based on matches // of ch_i. If a token ends in '=', the result is tok1 or tok3 // respectively. Otherwise, the result is tok0 if there was no other // matching character, or tok2 if the matching character was ch2. func (S *Scanner) switch2(tok0, tok1 token.Token) token.Token { if S.ch == '=' { S.next() return tok1 } return tok0 } func (S *Scanner) switch3(tok0, tok1 token.Token, ch2 int, tok2 token.Token) token.Token { if S.ch == '=' { S.next() return tok1 } if S.ch == ch2 { S.next() return tok2 } return tok0 } func (S *Scanner) switch4(tok0, tok1 token.Token, ch2 int, tok2, tok3 token.Token) token.Token { if S.ch == '=' { S.next() return tok1 } if S.ch == ch2 { S.next() if S.ch == '=' { S.next() return tok3 } return tok2 } return tok0 } // Scan scans the next token and returns the token position, // the token, and the literal string corresponding to the // token. The source end is indicated by token.EOF. // // If the returned token is token.SEMICOLON, the corresponding // literal string is ";" if the semicolon was present in the source, // and "\n" if the semicolon was inserted because of a newline or // at EOF. // // For more tolerant parsing, Scan will return a valid token if // possible even if a syntax error was encountered. Thus, even // if the resulting token sequence contains no illegal tokens, // a client may not assume that no error occurred. Instead it // must check the scanner's ErrorCount or the number of calls // of the error handler, if there was one installed. // // Scan adds line information to the file added to the file // set with Init. Token positions are relative to that file // and thus relative to the file set. // func (S *Scanner) Scan() (token.Pos, token.Token, string) { scanAgain: S.skipWhitespace() // current token start insertSemi := false offs := S.offset tok := token.ILLEGAL // determine token value switch ch := S.ch; { case isLetter(ch): tok = S.scanIdentifier() switch tok { case token.IDENT, token.BREAK, token.CONTINUE, token.FALLTHROUGH, token.RETURN: insertSemi = true } case digitVal(ch) < 10: insertSemi = true tok = S.scanNumber(false) default: S.next() // always make progress switch ch { case -1: if S.insertSemi { S.insertSemi = false // EOF consumed return S.file.Pos(offs), token.SEMICOLON, "\n" } tok = token.EOF case '\n': // we only reach here if S.insertSemi was // set in the first place and exited early // from S.skipWhitespace() S.insertSemi = false // newline consumed return S.file.Pos(offs), token.SEMICOLON, "\n" case '"': insertSemi = true tok = token.STRING S.scanString() case '\'': insertSemi = true tok = token.CHAR S.scanChar() case '`': insertSemi = true tok = token.STRING S.scanRawString() case ':': tok = S.switch2(token.COLON, token.DEFINE) case '.': if digitVal(S.ch) < 10 { insertSemi = true tok = S.scanNumber(true) } else if S.ch == '.' { S.next() if S.ch == '.' { S.next() tok = token.ELLIPSIS } } else { tok = token.PERIOD } case ',': tok = token.COMMA case ';': tok = token.SEMICOLON case '(': tok = token.LPAREN case ')': insertSemi = true tok = token.RPAREN case '[': tok = token.LBRACK case ']': insertSemi = true tok = token.RBRACK case '{': tok = token.LBRACE case '}': insertSemi = true tok = token.RBRACE case '+': tok = S.switch3(token.ADD, token.ADD_ASSIGN, '+', token.INC) if tok == token.INC { insertSemi = true } case '-': tok = S.switch3(token.SUB, token.SUB_ASSIGN, '-', token.DEC) if tok == token.DEC { insertSemi = true } case '*': tok = S.switch2(token.MUL, token.MUL_ASSIGN) case '/': if S.ch == '/' || S.ch == '*' { // comment if S.insertSemi && S.findLineEnd() { // reset position to the beginning of the comment S.ch = '/' S.offset = offs S.rdOffset = offs + 1 S.insertSemi = false // newline consumed return S.file.Pos(offs), token.SEMICOLON, "\n" } S.scanComment() if S.mode&ScanComments == 0 { // skip comment S.insertSemi = false // newline consumed goto scanAgain } tok = token.COMMENT } else { tok = S.switch2(token.QUO, token.QUO_ASSIGN) } case '%': tok = S.switch2(token.REM, token.REM_ASSIGN) case '^': tok = S.switch2(token.XOR, token.XOR_ASSIGN) case '<': if S.ch == '-' { S.next() tok = token.ARROW } else { tok = S.switch4(token.LSS, token.LEQ, '<', token.SHL, token.SHL_ASSIGN) } case '>': tok = S.switch4(token.GTR, token.GEQ, '>', token.SHR, token.SHR_ASSIGN) case '=': tok = S.switch2(token.ASSIGN, token.EQL) case '!': tok = S.switch2(token.NOT, token.NEQ) case '&': if S.ch == '^' { S.next() tok = S.switch2(token.AND_NOT, token.AND_NOT_ASSIGN) } else { tok = S.switch3(token.AND, token.AND_ASSIGN, '&', token.LAND) } case '|': tok = S.switch3(token.OR, token.OR_ASSIGN, '|', token.LOR) default: if S.mode&AllowIllegalChars == 0 { S.error(offs, "illegal character "+charString(ch)) } insertSemi = S.insertSemi // preserve insertSemi info } } if S.mode&InsertSemis != 0 { S.insertSemi = insertSemi } // TODO(gri): The scanner API should change such that the literal string // is only valid if an actual literal was scanned. This will // permit a more efficient implementation. return S.file.Pos(offs), tok, string(S.src[offs:S.offset]) }