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dispatch/vendor/github.com/pelletier/go-toml/querylexer.go

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// TOML JSONPath lexer.
//
// Written using the principles developed by Rob Pike in
// http://www.youtube.com/watch?v=HxaD_trXwRE
package toml
import (
"fmt"
"strconv"
"strings"
"unicode/utf8"
)
// Lexer state function
type queryLexStateFn func() queryLexStateFn
// Lexer definition
type queryLexer struct {
input string
start int
pos int
width int
tokens chan token
depth int
line int
col int
stringTerm string
}
func (l *queryLexer) run() {
for state := l.lexVoid; state != nil; {
state = state()
}
close(l.tokens)
}
func (l *queryLexer) nextStart() {
// iterate by runes (utf8 characters)
// search for newlines and advance line/col counts
for i := l.start; i < l.pos; {
r, width := utf8.DecodeRuneInString(l.input[i:])
if r == '\n' {
l.line++
l.col = 1
} else {
l.col++
}
i += width
}
// advance start position to next token
l.start = l.pos
}
func (l *queryLexer) emit(t tokenType) {
l.tokens <- token{
Position: Position{l.line, l.col},
typ: t,
val: l.input[l.start:l.pos],
}
l.nextStart()
}
func (l *queryLexer) emitWithValue(t tokenType, value string) {
l.tokens <- token{
Position: Position{l.line, l.col},
typ: t,
val: value,
}
l.nextStart()
}
func (l *queryLexer) next() rune {
if l.pos >= len(l.input) {
l.width = 0
return eof
}
var r rune
r, l.width = utf8.DecodeRuneInString(l.input[l.pos:])
l.pos += l.width
return r
}
func (l *queryLexer) ignore() {
l.nextStart()
}
func (l *queryLexer) backup() {
l.pos -= l.width
}
func (l *queryLexer) errorf(format string, args ...interface{}) queryLexStateFn {
l.tokens <- token{
Position: Position{l.line, l.col},
typ: tokenError,
val: fmt.Sprintf(format, args...),
}
return nil
}
func (l *queryLexer) peek() rune {
r := l.next()
l.backup()
return r
}
func (l *queryLexer) accept(valid string) bool {
if strings.ContainsRune(valid, l.next()) {
return true
}
l.backup()
return false
}
func (l *queryLexer) follow(next string) bool {
return strings.HasPrefix(l.input[l.pos:], next)
}
func (l *queryLexer) lexVoid() queryLexStateFn {
for {
next := l.peek()
switch next {
case '$':
l.pos++
l.emit(tokenDollar)
continue
case '.':
if l.follow("..") {
l.pos += 2
l.emit(tokenDotDot)
} else {
l.pos++
l.emit(tokenDot)
}
continue
case '[':
l.pos++
l.emit(tokenLeftBracket)
continue
case ']':
l.pos++
l.emit(tokenRightBracket)
continue
case ',':
l.pos++
l.emit(tokenComma)
continue
case '*':
l.pos++
l.emit(tokenStar)
continue
case '(':
l.pos++
l.emit(tokenLeftParen)
continue
case ')':
l.pos++
l.emit(tokenRightParen)
continue
case '?':
l.pos++
l.emit(tokenQuestion)
continue
case ':':
l.pos++
l.emit(tokenColon)
continue
case '\'':
l.ignore()
l.stringTerm = string(next)
return l.lexString
case '"':
l.ignore()
l.stringTerm = string(next)
return l.lexString
}
if isSpace(next) {
l.next()
l.ignore()
continue
}
if isAlphanumeric(next) {
return l.lexKey
}
if next == '+' || next == '-' || isDigit(next) {
return l.lexNumber
}
if l.next() == eof {
break
}
return l.errorf("unexpected char: '%v'", next)
}
l.emit(tokenEOF)
return nil
}
func (l *queryLexer) lexKey() queryLexStateFn {
for {
next := l.peek()
if !isAlphanumeric(next) {
l.emit(tokenKey)
return l.lexVoid
}
if l.next() == eof {
break
}
}
l.emit(tokenEOF)
return nil
}
func (l *queryLexer) lexString() queryLexStateFn {
l.pos++
l.ignore()
growingString := ""
for {
if l.follow(l.stringTerm) {
l.emitWithValue(tokenString, growingString)
l.pos++
l.ignore()
return l.lexVoid
}
if l.follow("\\\"") {
l.pos++
growingString += "\""
} else if l.follow("\\'") {
l.pos++
growingString += "'"
} else if l.follow("\\n") {
l.pos++
growingString += "\n"
} else if l.follow("\\b") {
l.pos++
growingString += "\b"
} else if l.follow("\\f") {
l.pos++
growingString += "\f"
} else if l.follow("\\/") {
l.pos++
growingString += "/"
} else if l.follow("\\t") {
l.pos++
growingString += "\t"
} else if l.follow("\\r") {
l.pos++
growingString += "\r"
} else if l.follow("\\\\") {
l.pos++
growingString += "\\"
} else if l.follow("\\u") {
l.pos += 2
code := ""
for i := 0; i < 4; i++ {
c := l.peek()
l.pos++
if !isHexDigit(c) {
return l.errorf("unfinished unicode escape")
}
code = code + string(c)
}
l.pos--
intcode, err := strconv.ParseInt(code, 16, 32)
if err != nil {
return l.errorf("invalid unicode escape: \\u" + code)
}
growingString += string(rune(intcode))
} else if l.follow("\\U") {
l.pos += 2
code := ""
for i := 0; i < 8; i++ {
c := l.peek()
l.pos++
if !isHexDigit(c) {
return l.errorf("unfinished unicode escape")
}
code = code + string(c)
}
l.pos--
intcode, err := strconv.ParseInt(code, 16, 32)
if err != nil {
return l.errorf("invalid unicode escape: \\u" + code)
}
growingString += string(rune(intcode))
} else if l.follow("\\") {
l.pos++
return l.errorf("invalid escape sequence: \\" + string(l.peek()))
} else {
growingString += string(l.peek())
}
if l.next() == eof {
break
}
}
return l.errorf("unclosed string")
}
func (l *queryLexer) lexNumber() queryLexStateFn {
l.ignore()
if !l.accept("+") {
l.accept("-")
}
pointSeen := false
digitSeen := false
for {
next := l.next()
if next == '.' {
if pointSeen {
return l.errorf("cannot have two dots in one float")
}
if !isDigit(l.peek()) {
return l.errorf("float cannot end with a dot")
}
pointSeen = true
} else if isDigit(next) {
digitSeen = true
} else {
l.backup()
break
}
if pointSeen && !digitSeen {
return l.errorf("cannot start float with a dot")
}
}
if !digitSeen {
return l.errorf("no digit in that number")
}
if pointSeen {
l.emit(tokenFloat)
} else {
l.emit(tokenInteger)
}
return l.lexVoid
}
// Entry point
func lexQuery(input string) chan token {
l := &queryLexer{
input: input,
tokens: make(chan token),
line: 1,
col: 1,
}
go l.run()
return l.tokens
}
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