2017-11-03 20:37:16 +03:00
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// Copyright 2017 The go-libvirt Authors.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package lvgen
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import (
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"fmt"
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"io"
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"io/ioutil"
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"strings"
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"unicode"
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"unicode/utf8"
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)
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// eof is returned by the lexer when there's no more input.
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const eof = -1
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2017-11-13 23:18:18 +03:00
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// oneRuneTokens lists the runes the lexer will consider to be tokens when it
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// finds them. These are returned to the parser using the integer value of their
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// runes.
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var oneRuneTokens = `{}[]<>(),=;:*`
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2017-11-15 02:59:55 +03:00
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var keywords = map[string]int{
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"hyper": HYPER,
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"int": INT,
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"short": SHORT,
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"char": CHAR,
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"bool": BOOL,
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"case": CASE,
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"const": CONST,
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"default": DEFAULT,
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"double": DOUBLE,
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"enum": ENUM,
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"float": FLOAT,
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"opaque": OPAQUE,
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"string": STRING,
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"struct": STRUCT,
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"switch": SWITCH,
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"typedef": TYPEDEF,
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"union": UNION,
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"unsigned": UNSIGNED,
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"void": VOID,
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"program": PROGRAM,
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"version": VERSION,
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}
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// item is a lexeme, or what the lexer returns to the parser.
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2017-11-03 20:37:16 +03:00
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type item struct {
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typ int
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val string
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line, column int
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}
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// String will display lexer items for humans to debug. There are some
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// calculations here due to the way goyacc arranges token values; see the
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// generated file y.go for an idea what's going on here, but the basic idea is
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// that the lower token type values are reserved for single-rune tokens, which
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// the lexer reports using the value of the rune itself. Everything else is
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// allocated a range of type value up above all the possible single-rune values.
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func (i item) String() string {
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tokType := i.typ
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if tokType >= yyPrivate {
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if tokType < yyPrivate+len(yyTok2) {
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tokType = yyTok2[tokType-yyPrivate]
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}
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}
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rv := fmt.Sprintf("%s %q %d:%d", yyTokname(tokType), i.val, i.line, i.column)
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return rv
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}
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// Lexer stores the state of this lexer.
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type Lexer struct {
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input string // the string we're scanning.
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start int // start position of the item.
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pos int // current position in the input.
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line int // the current line (for error reporting).
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column int // current position within the current line.
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width int // width of the last rune scanned.
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items chan item // channel of scanned lexer items (lexemes).
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lastItem item // The last item the lexer handed the parser
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}
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// NewLexer will return a new lexer for the passed-in reader.
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func NewLexer(rdr io.Reader) (*Lexer, error) {
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l := &Lexer{}
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b, err := ioutil.ReadAll(rdr)
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if err != nil {
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return nil, err
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}
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l.input = string(b)
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l.items = make(chan item)
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return l, nil
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}
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// Run starts the lexer, and should be called in a goroutine.
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func (l *Lexer) Run() {
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for state := lexText; state != nil; {
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state = state(l)
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}
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close(l.items)
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}
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// emit returns a token to the parser.
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func (l *Lexer) emit(t int) {
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l.items <- item{t, l.input[l.start:l.pos], l.line, l.column}
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l.start = l.pos
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}
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// Lex gets the next token.
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func (l *Lexer) Lex(st *yySymType) int {
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s := <-l.items
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l.lastItem = s
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st.val = s.val
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// fmt.Println("Lex returning", s)
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return int(s.typ)
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}
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// Error is called by the parser when it finds a problem.
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func (l *Lexer) Error(s string) {
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fmt.Printf("parse error at %d:%d: %v\n", l.lastItem.line+1, l.lastItem.column+1, s)
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fmt.Printf("error at %q\n", l.lastItem.val)
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}
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// errorf is used by the lexer to report errors. It inserts an ERROR token into
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// the items channel, and sets the state to nil, which stops the lexer's state
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// machine.
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func (l *Lexer) errorf(format string, args ...interface{}) stateFn {
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l.items <- item{ERROR, fmt.Sprintf(format, args), l.line, l.column}
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return nil
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}
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// next returns the rune at the current location, and advances to the next rune
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// in the input.
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func (l *Lexer) next() (r rune) {
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if l.pos >= len(l.input) {
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l.width = 0
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return eof
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}
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r, l.width = utf8.DecodeRuneInString(l.input[l.pos:])
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l.pos += l.width
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l.column++
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if r == '\n' {
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l.line++
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l.column = 0
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}
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return r
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}
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// ignore discards the current text from start to pos.
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func (l *Lexer) ignore() {
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l.start = l.pos
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}
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// backup moves back one character, but can only be called once per next() call.
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func (l *Lexer) backup() {
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l.pos -= l.width
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if l.column > 0 {
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l.column--
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} else {
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l.line--
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}
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l.width = 0
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}
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// peek looks ahead at the next rune in the stream without consuming it.
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func (l *Lexer) peek() rune {
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r := l.next()
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l.backup()
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return r
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}
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// accept will advance to the next rune if it's contained in the string of valid
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// runes passed in by the caller.
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func (l *Lexer) accept(valid string) bool {
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if strings.IndexRune(valid, l.next()) >= 0 {
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return true
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}
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l.backup()
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return false
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}
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// acceptRun advances over a number of valid runes, stopping as soon as it hits
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// one not on the list.
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func (l *Lexer) acceptRun(valid string) {
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for strings.IndexRune(valid, l.next()) >= 0 {
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}
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l.backup()
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}
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// keyword checks whether the current lexeme is a keyword or not. If so it
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// returns the keyword's token id, otherwise it returns IDENTIFIER.
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func (l *Lexer) keyword() int {
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ident := l.input[l.start:l.pos]
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tok, ok := keywords[ident]
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if ok == true {
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return int(tok)
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}
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return IDENTIFIER
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}
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// oneRuneToken determines whether a rune is a token. If so it returns the token
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// id and true, otherwise it returns false.
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func (l *Lexer) oneRuneToken(r rune) (int, bool) {
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if strings.IndexRune(oneRuneTokens, r) >= 0 {
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return int(r), true
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}
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return 0, false
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}
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// State functions
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type stateFn func(*Lexer) stateFn
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// lexText is the master lex routine. The lexer is started in this state.
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func lexText(l *Lexer) stateFn {
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for {
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if strings.HasPrefix(l.input[l.pos:], "/*") {
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return lexBlockComment
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}
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r := l.next()
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if r == eof {
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break
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}
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if unicode.IsSpace(r) {
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l.ignore()
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return lexText
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}
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if l.column == 1 && r == '%' {
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l.backup()
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return lexDirective
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}
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if unicode.IsLetter(r) {
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l.backup()
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return lexIdent
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}
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if unicode.IsNumber(r) || r == '-' {
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l.backup()
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return lexNumber
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}
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if t, isToken := l.oneRuneToken(r); isToken == true {
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l.emit(t)
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}
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}
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return nil
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}
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// lexBlockComment is used when we find a comment marker '/*' in the input.
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func lexBlockComment(l *Lexer) stateFn {
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for {
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if strings.HasPrefix(l.input[l.pos:], "*/") {
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// Found the end. Advance past the '*/' and discard the comment body.
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l.next()
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l.next()
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l.ignore()
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return lexText
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}
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if l.next() == eof {
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return l.errorf("unterminated block comment")
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}
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}
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}
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// lexIdent handles identifiers.
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func lexIdent(l *Lexer) stateFn {
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for {
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r := l.next()
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if unicode.IsLetter(r) || unicode.IsDigit(r) || r == '_' {
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continue
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}
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l.backup()
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break
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}
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// We may have a keyword, so check for that before emitting.
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l.emit(l.keyword())
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return lexText
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}
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// lexNumber handles decimal and hexadecimal numbers. Decimal numbers may begin
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// with a '-'; hex numbers begin with '0x' and do not accept leading '-'.
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func lexNumber(l *Lexer) stateFn {
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// Leading '-' is ok
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digits := "0123456789"
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neg := l.accept("-")
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if !neg {
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// allow '0x' for hex numbers, as long as there's not a leading '-'.
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r := l.peek()
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if r == '0' {
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l.next()
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if l.accept("x") {
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digits = "0123456789ABCDEFabcdef"
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}
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}
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}
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// followed by any number of digits
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l.acceptRun(digits)
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r := l.peek()
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if unicode.IsLetter(r) {
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l.next()
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return l.errorf("invalid number: %q", l.input[l.start:l.pos])
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}
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l.emit(CONSTANT)
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return lexText
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}
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// lexDirective handles lines beginning with '%'. These are used to emit C code
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// directly to the output file. For now we're ignoring them, but some of the
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// constants in the protocol file do depend on values from #included header
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// files, so that may need to change.
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func lexDirective(l *Lexer) stateFn {
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for {
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r := l.next()
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if r == '\n' {
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l.ignore()
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return lexText
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}
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if r == eof {
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return l.errorf("unterminated directive")
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}
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}
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}
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