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/*
Copyright 2012 Google Inc. All Rights Reserved.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
/*
Package shlex implements a simple lexer which splits input in to tokens using
shell-style rules for quoting and commenting.
The basic use case uses the default ASCII lexer to split a string into sub-strings:
shlex.Split("one \"two three\" four") -> []string{"one", "two three", "four"}
To process a stream of strings:
l := NewLexer(os.Stdin)
for ; token, err := l.Next(); err != nil {
// process token
}
To access the raw token stream (which includes tokens for comments):
t := NewTokenizer(os.Stdin)
for ; token, err := t.Next(); err != nil {
// process token
}
*/
package shlex
import (
"bufio"
"fmt"
"io"
"strings"
)
// TokenType is a top-level token classification: A word, space, comment, unknown.
type TokenType int
// runeTokenClass is the type of a UTF-8 character classification: A quote, space, escape.
type runeTokenClass int
// the internal state used by the lexer state machine
type lexerState int
// Token is a (type, value) pair representing a lexographical token.
type Token struct {
tokenType TokenType
value string
}
// Equal reports whether tokens a, and b, are equal.
// Two tokens are equal if both their types and values are equal. A nil token can
// never be equal to another token.
func (a *Token) Equal(b *Token) bool {
if a == nil || b == nil {
return false
}
if a.tokenType != b.tokenType {
return false
}
return a.value == b.value
}
// Named classes of UTF-8 runes
const (
spaceRunes = " \t\r\n"
escapingQuoteRunes = `"`
nonEscapingQuoteRunes = "'"
escapeRunes = `\`
commentRunes = "#"
)
// Classes of rune token
const (
unknownRuneClass runeTokenClass = iota
spaceRuneClass
escapingQuoteRuneClass
nonEscapingQuoteRuneClass
escapeRuneClass
commentRuneClass
eofRuneClass
)
// Classes of lexographic token
const (
UnknownToken TokenType = iota
WordToken
SpaceToken
CommentToken
)
// Lexer state machine states
const (
startState lexerState = iota // no runes have been seen
inWordState // processing regular runes in a word
escapingState // we have just consumed an escape rune; the next rune is literal
escapingQuotedState // we have just consumed an escape rune within a quoted string
quotingEscapingState // we are within a quoted string that supports escaping ("...")
quotingState // we are within a string that does not support escaping ('...')
commentState // we are within a comment (everything following an unquoted or unescaped #
)
// tokenClassifier is used for classifying rune characters.
type tokenClassifier map[rune]runeTokenClass
func (typeMap tokenClassifier) addRuneClass(runes string, tokenType runeTokenClass) {
for _, runeChar := range runes {
typeMap[runeChar] = tokenType
}
}
// newDefaultClassifier creates a new classifier for ASCII characters.
func newDefaultClassifier() tokenClassifier {
t := tokenClassifier{}
t.addRuneClass(spaceRunes, spaceRuneClass)
t.addRuneClass(escapingQuoteRunes, escapingQuoteRuneClass)
t.addRuneClass(nonEscapingQuoteRunes, nonEscapingQuoteRuneClass)
t.addRuneClass(escapeRunes, escapeRuneClass)
t.addRuneClass(commentRunes, commentRuneClass)
return t
}
// ClassifyRune classifiees a rune
func (t tokenClassifier) ClassifyRune(runeVal rune) runeTokenClass {
return t[runeVal]
}
// Lexer turns an input stream into a sequence of tokens. Whitespace and comments are skipped.
type Lexer Tokenizer
// NewLexer creates a new lexer from an input stream.
func NewLexer(r io.Reader) *Lexer {
return (*Lexer)(NewTokenizer(r))
}
// Next returns the next word, or an error. If there are no more words,
// the error will be io.EOF.
func (l *Lexer) Next() (string, error) {
for {
token, err := (*Tokenizer)(l).Next()
if err != nil {
return "", err
}
switch token.tokenType {
case WordToken:
return token.value, nil
case CommentToken:
// skip comments
default:
return "", fmt.Errorf("Unknown token type: %v", token.tokenType)
}
}
}
// Tokenizer turns an input stream into a sequence of typed tokens
type Tokenizer struct {
input bufio.Reader
classifier tokenClassifier
}
// NewTokenizer creates a new tokenizer from an input stream.
func NewTokenizer(r io.Reader) *Tokenizer {
input := bufio.NewReader(r)
classifier := newDefaultClassifier()
return &Tokenizer{
input: *input,
classifier: classifier}
}
// scanStream scans the stream for the next token using the internal state machine.
// It will panic if it encounters a rune which it does not know how to handle.
func (t *Tokenizer) scanStream() (*Token, error) {
state := startState
var tokenType TokenType
var value []rune
var nextRune rune
var nextRuneType runeTokenClass
var err error
for {
nextRune, _, err = t.input.ReadRune()
nextRuneType = t.classifier.ClassifyRune(nextRune)
if err == io.EOF {
nextRuneType = eofRuneClass
err = nil
} else if err != nil {
return nil, err
}
switch state {
case startState: // no runes read yet
{
switch nextRuneType {
case eofRuneClass:
{
return nil, io.EOF
}
case spaceRuneClass:
{
}
case escapingQuoteRuneClass:
{
tokenType = WordToken
state = quotingEscapingState
}
case nonEscapingQuoteRuneClass:
{
tokenType = WordToken
state = quotingState
}
case escapeRuneClass:
{
tokenType = WordToken
state = escapingState
}
case commentRuneClass:
{
tokenType = CommentToken
state = commentState
}
default:
{
tokenType = WordToken
value = append(value, nextRune)
state = inWordState
}
}
}
case inWordState: // in a regular word
{
switch nextRuneType {
case eofRuneClass:
{
token := &Token{
tokenType: tokenType,
value: string(value)}
return token, err
}
case spaceRuneClass:
{
token := &Token{
tokenType: tokenType,
value: string(value)}
return token, err
}
case escapingQuoteRuneClass:
{
state = quotingEscapingState
}
case nonEscapingQuoteRuneClass:
{
state = quotingState
}
case escapeRuneClass:
{
state = escapingState
}
default:
{
value = append(value, nextRune)
}
}
}
case escapingState: // the rune after an escape character
{
switch nextRuneType {
case eofRuneClass:
{
err = fmt.Errorf("EOF found after escape character")
token := &Token{
tokenType: tokenType,
value: string(value)}
return token, err
}
default:
{
state = inWordState
value = append(value, nextRune)
}
}
}
case escapingQuotedState: // the next rune after an escape character, in double quotes
{
switch nextRuneType {
case eofRuneClass:
{
err = fmt.Errorf("EOF found after escape character")
token := &Token{
tokenType: tokenType,
value: string(value)}
return token, err
}
default:
{
state = quotingEscapingState
value = append(value, nextRune)
}
}
}
case quotingEscapingState: // in escaping double quotes
{
switch nextRuneType {
case eofRuneClass:
{
err = fmt.Errorf("EOF found when expecting closing quote")
token := &Token{
tokenType: tokenType,
value: string(value)}
return token, err
}
case escapingQuoteRuneClass:
{
state = inWordState
}
case escapeRuneClass:
{
state = escapingQuotedState
}
default:
{
value = append(value, nextRune)
}
}
}
case quotingState: // in non-escaping single quotes
{
switch nextRuneType {
case eofRuneClass:
{
err = fmt.Errorf("EOF found when expecting closing quote")
token := &Token{
tokenType: tokenType,
value: string(value)}
return token, err
}
case nonEscapingQuoteRuneClass:
{
state = inWordState
}
default:
{
value = append(value, nextRune)
}
}
}
case commentState: // in a comment
{
switch nextRuneType {
case eofRuneClass:
{
token := &Token{
tokenType: tokenType,
value: string(value)}
return token, err
}
case spaceRuneClass:
{
if nextRune == '\n' {
state = startState
token := &Token{
tokenType: tokenType,
value: string(value)}
return token, err
} else {
value = append(value, nextRune)
}
}
default:
{
value = append(value, nextRune)
}
}
}
default:
{
return nil, fmt.Errorf("Unexpected state: %v", state)
}
}
}
}
// Next returns the next token in the stream.
func (t *Tokenizer) Next() (*Token, error) {
return t.scanStream()
}
// Split partitions a string into a slice of strings.
func Split(s string) ([]string, error) {
l := NewLexer(strings.NewReader(s))
subStrings := make([]string, 0)
for {
word, err := l.Next()
if err != nil {
if err == io.EOF {
return subStrings, nil
}
return subStrings, err
}
subStrings = append(subStrings, word)
}
}