// Copyright 2016 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.
// This file implements scanner, a lexical tokenizer for
// Go source. After initialization, consecutive calls of
// next advance the scanner one token at a time.
//
// This file, source.go, and tokens.go are self-contained
// (go tool compile scanner.go source.go tokens.go compiles)
// and thus could be made into its own package.
package syntax
import (
"fmt"
"io"
"unicode"
"unicode/utf8"
)
// The mode flags below control which comments are reported
// by calling the error handler. If no flag is set, comments
// are ignored.
const (
comments uint = 1 << iota // call handler for all comments
directives // call handler for directives only
)
type scanner struct {
source
mode uint
nlsemi bool // if set '\n' and EOF translate to ';'
// current token, valid after calling next()
line, col uint
tok token
lit string // valid if tok is _Name, _Literal, or _Semi ("semicolon", "newline", or "EOF")
kind LitKind // valid if tok is _Literal
op Operator // valid if tok is _Operator, _AssignOp, or _IncOp
prec int // valid if tok is _Operator, _AssignOp, or _IncOp
}
func (s *scanner) init(src io.Reader, errh func(line, col uint, msg string), mode uint) {
s.source.init(src, errh)
s.mode = mode
s.nlsemi = false
}
func (s *scanner) errorf(format string, args ...interface{}) {
s.error(fmt.Sprintf(format, args...))
}
// next advances the scanner by reading the next token.
//
// If a read, source encoding, or lexical error occurs, next calls
// the installed error handler with the respective error position
// and message. The error message is guaranteed to be non-empty and
// never starts with a '/'. The error handler must exist.
//
// If the scanner mode includes the comments flag and a comment
// (including comments containing directives) is encountered, the
// error handler is also called with each comment position and text
// (including opening /* or // and closing */, but without a newline
// at the end of line comments). Comment text always starts with a /
// which can be used to distinguish these handler calls from errors.
//
// If the scanner mode includes the directives (but not the comments)
// flag, only comments containing a //line, /*line, or //go: directive
// are reported, in the same way as regular comments. Directives in
// //-style comments are only recognized if they are at the beginning
// of a line.
//
func (s *scanner) next() {
nlsemi := s.nlsemi
s.nlsemi = false
redo:
// skip white space
c := s.getr()
for c == ' ' || c == '\t' || c == '\n' && !nlsemi || c == '\r' {
c = s.getr()
}
// token start
s.line, s.col = s.source.line0, s.source.col0
if isLetter(c) || c >= utf8.RuneSelf && s.isIdentRune(c, true) {
s.ident()
return
}
switch c {
case -1:
if nlsemi {
s.lit = "EOF"
s.tok = _Semi
break
}
s.tok = _EOF
case '\n':
s.lit = "newline"
s.tok = _Semi
case '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
s.number(c)
case '"':
s.stdString()
case '`':
s.rawString()
case '\'':
s.rune()
case '(':
s.tok = _Lparen
case '[':
s.tok = _Lbrack
case '{':
s.tok = _Lbrace
case ',':
s.tok = _Comma
case ';':
s.lit = "semicolon"
s.tok = _Semi
case ')':
s.nlsemi = true
s.tok = _Rparen
case ']':
s.nlsemi = true
s.tok = _Rbrack
case '}':
s.nlsemi = true
s.tok = _Rbrace
case ':':
if s.getr() == '=' {
s.tok = _Define
break
}
s.ungetr()
s.tok = _Colon
case '.':
c = s.getr()
if isDecimal(c) {
s.ungetr()
s.unread(1) // correct position of '.' (needed by startLit in number)
s.number('.')
break
}
if c == '.' {
c = s.getr()
if c == '.' {
s.tok = _DotDotDot
break
}
s.unread(1)
}
s.ungetr()
s.tok = _Dot
case '+':
s.op, s.prec = Add, precAdd
c = s.getr()
if c != '+' {
goto assignop
}
s.nlsemi = true
s.tok = _IncOp
case '-':
s.op, s.prec = Sub, precAdd
c = s.getr()
if c != '-' {
goto assignop
}
s.nlsemi = true
s.tok = _IncOp
case '*':
s.op, s.prec = Mul, precMul
// don't goto assignop - want _Star token
if s.getr() == '=' {
s.tok = _AssignOp
break
}
s.ungetr()
s.tok = _Star
case '/':
c = s.getr()
if c == '/' {
s.lineComment()
goto redo
}
if c == '*' {
s.fullComment()
if s.source.line > s.line && nlsemi {
// A multi-line comment acts like a newline;
// it translates to a ';' if nlsemi is set.
s.lit = "newline"
s.tok = _Semi
break
}
goto redo
}
s.op, s.prec = Div, precMul
goto assignop
case '%':
s.op, s.prec = Rem, precMul
c = s.getr()
goto assignop
case '&':
c = s.getr()
if c == '&' {
s.op, s.prec = AndAnd, precAndAnd
s.tok = _Operator
break
}
s.op, s.prec = And, precMul
if c == '^' {
s.op = AndNot
c = s.getr()
}
goto assignop
case '|':
c = s.getr()
if c == '|' {
s.op, s.prec = OrOr, precOrOr
s.tok = _Operator
break
}
s.op, s.prec = Or, precAdd
goto assignop
case '^':
s.op, s.prec = Xor, precAdd
c = s.getr()
goto assignop
case '<':
c = s.getr()
if c == '=' {
s.op, s.prec = Leq, precCmp
s.tok = _Operator
break
}
if c == '<' {
s.op, s.prec = Shl, precMul
c = s.getr()
goto assignop
}
if c == '-' {
s.tok = _Arrow
break
}
s.ungetr()
s.op, s.prec = Lss, precCmp
s.tok = _Operator
case '>':
c = s.getr()
if c == '=' {
s.op, s.prec = Geq, precCmp
s.tok = _Operator
break
}
if c == '>' {
s.op, s.prec = Shr, precMul
c = s.getr()
goto assignop
}
s.ungetr()
s.op, s.prec = Gtr, precCmp
s.tok = _Operator
case '=':
if s.getr() == '=' {
s.op, s.prec = Eql, precCmp
s.tok = _Operator
break
}
s.ungetr()
s.tok = _Assign
case '!':
if s.getr() == '=' {
s.op, s.prec = Neq, precCmp
s.tok = _Operator
break
}
s.ungetr()
s.op, s.prec = Not, 0
s.tok = _Operator
default:
s.tok = 0
s.errorf("invalid character %#U", c)
goto redo
}
return
assignop:
if c == '=' {
s.tok = _AssignOp
return
}
s.ungetr()
s.tok = _Operator
}
func isLetter(c rune) bool {
return 'a' <= lower(c) && lower(c) <= 'z' || c == '_'
}
func (s *scanner) ident() {
s.startLit()
// accelerate common case (7bit ASCII)
c := s.getr()
for isLetter(c) || isDecimal(c) {
c = s.getr()
}
// general case
if c >= utf8.RuneSelf {
for s.isIdentRune(c, false) {
c = s.getr()
}
}
s.ungetr()
lit := s.stopLit()
// possibly a keyword
if len(lit) >= 2 {
if tok := keywordMap[hash(lit)]; tok != 0 && tokStrFast(tok) == string(lit) {
s.nlsemi = contains(1<<_Break|1<<_Continue|1<<_Fallthrough|1<<_Return, tok)
s.tok = tok
return
}
}
s.nlsemi = true
s.lit = string(lit)
s.tok = _Name
}
// tokStrFast is a faster version of token.String, which assumes that tok
// is one of the valid tokens - and can thus skip bounds checks.
func tokStrFast(tok token) string {
return _token_name[_token_index[tok-1]:_token_index[tok]]
}
func (s *scanner) isIdentRune(c rune, first bool) bool {
switch {
case unicode.IsLetter(c) || c == '_':
// ok
case unicode.IsDigit(c):
if first {
s.errorf("identifier cannot begin with digit %#U", c)
}
case c >= utf8.RuneSelf:
s.errorf("invalid identifier character %#U", c)
default:
return false
}
return true
}
// hash is a perfect hash function for keywords.
// It assumes that s has at least length 2.
func hash(s []byte) uint {
return (uint(s[0])<<4 ^ uint(s[1]) + uint(len(s))) & uint(len(keywordMap)-1)
}
var keywordMap [1 << 6]token // size must be power of two
func init() {
// populate keywordMap
for tok := _Break; tok <= _Var; tok++ {
h := hash([]byte(tok.String()))
if keywordMap[h] != 0 {
panic("imperfect hash")
}
keywordMap[h] = tok
}
}
func lower(c rune) rune { return ('a' - 'A') | c } // returns lower-case c iff c is ASCII letter
func isDecimal(c rune) bool { return '0' <= c && c <= '9' }
func isHex(c rune) bool { return '0' <= c && c <= '9' || 'a' <= lower(c) && lower(c) <= 'f' }
// digits accepts the sequence { digit | '_' } starting with c0.
// If base <= 10, digits accepts any decimal digit but records
// the index (relative to the literal start) of a digit >= base
// in *invalid, if *invalid < 0.
// digits returns the first rune that is not part of the sequence
// anymore, and a bitset describing whether the sequence contained
// digits (bit 0 is set), or separators '_' (bit 1 is set).
func (s *scanner) digits(c0 rune, base int, invalid *int) (c rune, digsep int) {
c = c0
if base <= 10 {
max := rune('0' + base)
for isDecimal(c) || c == '_' {
ds := 1
if c == '_' {
ds = 2
} else if c >= max && *invalid < 0 {
*invalid = int(s.col0 - s.col) // record invalid rune index
}
digsep |= ds
c = s.getr()
}
} else {
for isHex(c) || c == '_' {
ds := 1
if c == '_' {
ds = 2
}
digsep |= ds
c = s.getr()
}
}
return
}
func (s *scanner) number(c rune) {
s.startLit()
base := 10 // number base
prefix := rune(0) // one of 0 (decimal), '0' (0-octal), 'x', 'o', or 'b'
digsep := 0 // bit 0: digit present, bit 1: '_' present
invalid := -1 // index of invalid digit in literal, or < 0
// integer part
var ds int
if c != '.' {
s.kind = IntLit
if c == '0' {
c = s.getr()
switch lower(c) {
case 'x':
c = s.getr()
base, prefix = 16, 'x'
case 'o':
c = s.getr()
base, prefix = 8, 'o'
case 'b':
c = s.getr()
base, prefix = 2, 'b'
default:
base, prefix = 8, '0'
digsep = 1 // leading 0
}
}
c, ds = s.digits(c, base, &invalid)
digsep |= ds
}
// fractional part
if c == '.' {
s.kind = FloatLit
if prefix == 'o' || prefix == 'b' {
s.error("invalid radix point in " + litname(prefix))
}
c, ds = s.digits(s.getr(), base, &invalid)
digsep |= ds
}
if digsep&1 == 0 {
s.error(litname(prefix) + " has no digits")
}
// exponent
if e := lower(c); e == 'e' || e == 'p' {
switch {
case e == 'e' && prefix != 0 && prefix != '0':
s.errorf("%q exponent requires decimal mantissa", c)
case e == 'p' && prefix != 'x':
s.errorf("%q exponent requires hexadecimal mantissa", c)
}
c = s.getr()
s.kind = FloatLit
if c == '+' || c == '-' {
c = s.getr()
}
c, ds = s.digits(c, 10, nil)
digsep |= ds
if ds&1 == 0 {
s.error("exponent has no digits")
}
} else if prefix == 'x' && s.kind == FloatLit {
s.error("hexadecimal mantissa requires a 'p' exponent")
}
// suffix 'i'
if c == 'i' {
s.kind = ImagLit
c = s.getr()
}
s.ungetr()
s.nlsemi = true
s.lit = string(s.stopLit())
s.tok = _Literal
if s.kind == IntLit && invalid >= 0 {
s.errh(s.line, s.col+uint(invalid), fmt.Sprintf("invalid digit %q in %s", s.lit[invalid], litname(prefix)))
}
if digsep&2 != 0 {
if i := invalidSep(s.lit); i >= 0 {
s.errh(s.line, s.col+uint(i), "'_' must separate successive digits")
}
}
}
func litname(prefix rune) string {
switch prefix {
case 'x':
return "hexadecimal literal"
case 'o', '0':
return "octal literal"
case 'b':
return "binary literal"
}
return "decimal literal"
}
// invalidSep returns the index of the first invalid separator in x, or -1.
func invalidSep(x string) int {
x1 := ' ' // prefix char, we only care if it's 'x'
d := '.' // digit, one of '_', '0' (a digit), or '.' (anything else)
i := 0
// a prefix counts as a digit
if len(x) >= 2 && x[0] == '0' {
x1 = lower(rune(x[1]))
if x1 == 'x' || x1 == 'o' || x1 == 'b' {
d = '0'
i = 2
}
}
// mantissa and exponent
for ; i < len(x); i++ {
p := d // previous digit
d = rune(x[i])
switch {
case d == '_':
if p != '0' {
return i
}
case isDecimal(d) || x1 == 'x' && isHex(d):
d = '0'
default:
if p == '_' {
return i - 1
}
d = '.'
}
}
if d == '_' {
return len(x) - 1
}
return -1
}
func (s *scanner) rune() {
s.startLit()
ok := true // only report errors if we're ok so far
n := 0
for ; ; n++ {
r := s.getr()
if r == '\'' {
break
}
if r == '\\' {
if !s.escape('\'') {
ok = false
}
continue
}
if r == '\n' {
s.ungetr() // assume newline is not part of literal
if ok {
s.error("newline in character literal")
ok = false
}
break
}
if r < 0 {
if ok {
s.errh(s.line, s.col, "invalid character literal (missing closing ')")
ok = false
}
break
}
}
if ok {
if n == 0 {
s.error("empty character literal or unescaped ' in character literal")
} else if n != 1 {
s.errh(s.line, s.col, "invalid character literal (more than one character)")
}
}
s.nlsemi = true
s.lit = string(s.stopLit())
s.kind = RuneLit
s.tok = _Literal
}
func (s *scanner) stdString() {
s.startLit()
for {
r := s.getr()
if r == '"' {
break
}
if r == '\\' {
s.escape('"')
continue
}
if r == '\n' {
s.ungetr() // assume newline is not part of literal
s.error("newline in string")
break
}
if r < 0 {
s.errh(s.line, s.col, "string not terminated")
break
}
}
s.nlsemi = true
s.lit = string(s.stopLit())
s.kind = StringLit
s.tok = _Literal
}
func (s *scanner) rawString() {
s.startLit()
for {
r := s.getr()
if r == '`' {
break
}
if r < 0 {
s.errh(s.line, s.col, "string not terminated")
break
}
}
// We leave CRs in the string since they are part of the
// literal (even though they are not part of the literal
// value).
s.nlsemi = true
s.lit = string(s.stopLit())
s.kind = StringLit
s.tok = _Literal
}
func (s *scanner) comment(text string) {
s.errh(s.line, s.col, text)
}
func (s *scanner) skipLine(r rune) {
for r >= 0 {
if r == '\n' {
s.ungetr() // don't consume '\n' - needed for nlsemi logic
break
}
r = s.getr()
}
}
func (s *scanner) lineComment() {
r := s.getr()
if s.mode&comments != 0 {
s.startLit()
s.skipLine(r)
s.comment("//" + string(s.stopLit()))
return
}
// directives must start at the beginning of the line (s.col == colbase)
if s.mode&directives == 0 || s.col != colbase || (r != 'g' && r != 'l') {
s.skipLine(r)
return
}
// recognize go: or line directives
prefix := "go:"
if r == 'l' {
prefix = "line "
}
for _, m := range prefix {
if r != m {
s.skipLine(r)
return
}
r = s.getr()
}
// directive text
s.startLit()
s.skipLine(r)
s.comment("//" + prefix + string(s.stopLit()))
}
func (s *scanner) skipComment(r rune) bool {
for r >= 0 {
for r == '*' {
r = s.getr()
if r == '/' {
return true
}
}
r = s.getr()
}
s.errh(s.line, s.col, "comment not terminated")
return false
}
func (s *scanner) fullComment() {
r := s.getr()
if s.mode&comments != 0 {
s.startLit()
if s.skipComment(r) {
s.comment("/*" + string(s.stopLit()))
} else {
s.killLit() // not a complete comment - ignore
}
return
}
if s.mode&directives == 0 || r != 'l' {
s.skipComment(r)
return
}
// recognize line directive
const prefix = "line "
for _, m := range prefix {
if r != m {
s.skipComment(r)
return
}
r = s.getr()
}
// directive text
s.startLit()
if s.skipComment(r) {
s.comment("/*" + prefix + string(s.stopLit()))
} else {
s.killLit() // not a complete comment - ignore
}
}
func (s *scanner) escape(quote rune) bool {
var n int
var base, max uint32
c := s.getr()
switch c {
case 'a', 'b', 'f', 'n', 'r', 't', 'v', '\\', quote:
return true
case '0', '1', '2', '3', '4', '5', '6', '7':
n, base, max = 3, 8, 255
case 'x':
c = s.getr()
n, base, max = 2, 16, 255
case 'u':
c = s.getr()
n, base, max = 4, 16, unicode.MaxRune
case 'U':
c = s.getr()
n, base, max = 8, 16, unicode.MaxRune
default:
if c < 0 {
return true // complain in caller about EOF
}
s.error("unknown escape sequence")
return false
}
var x uint32
for i := n; i > 0; i-- {
d := base
switch {
case isDecimal(c):
d = uint32(c) - '0'
case 'a' <= lower(c) && lower(c) <= 'f':
d = uint32(lower(c)) - ('a' - 10)
}
if d >= base {
if c < 0 {
return true // complain in caller about EOF
}
kind := "hex"
if base == 8 {
kind = "octal"
}
s.errorf("non-%s character in escape sequence: %c", kind, c)
s.ungetr()
return false
}
// d < base
x = x*base + d
c = s.getr()
}
s.ungetr()
if x > max && base == 8 {
s.errorf("octal escape value > 255: %d", x)
return false
}
if x > max || 0xD800 <= x && x < 0xE000 /* surrogate range */ {
s.error("escape sequence is invalid Unicode code point")
return false
}
return true
}
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