655 lines
27 KiB
Plaintext
655 lines
27 KiB
Plaintext
%{
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// Copyright (c) 2011 CZ.NIC z.s.p.o. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// blame: jnml, labs.nic.cz
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package scanner
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import (
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"fmt"
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"github.com/cznic/golex/lex"
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)
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const (
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INITIAL = iota
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PHP
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STRING
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STRING_VAR
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STRING_VAR_INDEX
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STRING_VAR_NAME
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PROPERTY
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HEREDOC_END
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NOWDOC
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HEREDOC
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BACKQUOTE
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)
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func isValidFirstVarNameRune(r rune) bool {
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return r >= 'A' && r <= 'Z' || r == '_' || r >= 'a' && r <= 'z' || r >= '\u007f' && r <= 'ÿ'
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}
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func (l *Lexer) Lex(lval Lval) int {
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l.Comments = nil
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c := l.Enter()
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%}
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%s PHP STRING STRING_VAR STRING_VAR_INDEX STRING_VAR_NAME PROPERTY HEREDOC_END NOWDOC HEREDOC BACKQUOTE
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%yyb last == '\n' || last = '\0'
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%yyt l.getCurrentState()
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%yyc c
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%yyn c = l.Next()
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%yym l.Mark()
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%optioncase-insensitive
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LNUM [0-9]+
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DNUM ([0-9]*"."[0-9]+)|([0-9]+"."[0-9]*)
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HNUM 0x[0-9a-fA-F]+
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BNUM 0b[01]+
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EXPONENT_DNUM (({LNUM}|{DNUM})[eE][+-]?{LNUM})
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VAR_NAME [a-zA-Z_\x7f-\xff][a-zA-Z0-9_\x7f-\xff]*
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OPERATORS [;:,.\[\]()|\/\^&\+-*=%!~$<>?@]
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NEW_LINE (\r|\n|\r\n)
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%%
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c = l.Rule0()
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<INITIAL>[ \t\n\r]+
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<INITIAL>.
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tb := []lex.Char{}
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for {
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if c == -1 {
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tb = l.Token();
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break;
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}
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if '?' == rune(c) {
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tb = l.Token();
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if (len(tb) < 2 || tb[len(tb)-1].Rune != '<') {
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c = l.Next()
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continue;
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}
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tb = l.ungetChars(1)
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break;
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}
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c = l.Next()
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}
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lval.Token(l.createToken(tb))
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return T_INLINE_HTML
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<INITIAL>\<\?php([ \t]|{NEW_LINE}) l.begin(PHP);
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<INITIAL>\<\? l.begin(PHP);
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<INITIAL>\<\?= l.begin(PHP);lval.Token(l.createToken(l.Token())); return T_ECHO;
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<PHP>[ \t\n\r]+
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<PHP>[;][ \t\n\r]*\?\>{NEW_LINE}? l.begin(INITIAL);lval.Token(l.createToken(l.Token())); return Rune2Class(';');
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<PHP>\?\>{NEW_LINE}? l.begin(INITIAL);lval.Token(l.createToken(l.Token())); return Rune2Class(';');
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<PHP>{DNUM}|{EXPONENT_DNUM} lval.Token(l.createToken(l.Token())); return T_DNUMBER
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<PHP>{BNUM}
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tb := l.Token()
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i:=2
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BNUMFOR:for {
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if i > len(tb)-1 {
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break BNUMFOR;
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}
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switch tb[i].Rune {
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case '0': i++;
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default: break BNUMFOR;
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}
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}
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if len(tb) - i < 64 {
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lval.Token(l.createToken(l.Token())); return T_LNUMBER
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} else {
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lval.Token(l.createToken(l.Token())); return T_DNUMBER
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}
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<PHP>{LNUM}
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if len(l.Token()) < 20 {
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lval.Token(l.createToken(l.Token())); return T_LNUMBER
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} else {
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lval.Token(l.createToken(l.Token())); return T_DNUMBER
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}
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<PHP>{HNUM}
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tb := l.Token()
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i:=2
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HNUMFOR:for {
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if i > len(tb)-1 {
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break HNUMFOR;
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}
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switch tb[i].Rune {
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case '0': i++;
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default: break HNUMFOR;
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}
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}
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length := len(tb) - i
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if length < 16 || (length == 16 && tb[i].Rune <= '7') {
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lval.Token(l.createToken(l.Token())); return T_LNUMBER
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} else {
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lval.Token(l.createToken(l.Token())); return T_DNUMBER
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}
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<PHP>abstract lval.Token(l.createToken(l.Token())); return T_ABSTRACT
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<PHP>array lval.Token(l.createToken(l.Token())); return T_ARRAY
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<PHP>as lval.Token(l.createToken(l.Token())); return T_AS
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<PHP>break lval.Token(l.createToken(l.Token())); return T_BREAK
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<PHP>callable lval.Token(l.createToken(l.Token())); return T_CALLABLE
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<PHP>case lval.Token(l.createToken(l.Token())); return T_CASE
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<PHP>catch lval.Token(l.createToken(l.Token())); return T_CATCH
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<PHP>class lval.Token(l.createToken(l.Token())); return T_CLASS
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<PHP>clone lval.Token(l.createToken(l.Token())); return T_CLONE
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<PHP>const lval.Token(l.createToken(l.Token())); return T_CONST
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<PHP>continue lval.Token(l.createToken(l.Token())); return T_CONTINUE
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<PHP>declare lval.Token(l.createToken(l.Token())); return T_DECLARE
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<PHP>default lval.Token(l.createToken(l.Token())); return T_DEFAULT
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<PHP>do lval.Token(l.createToken(l.Token())); return T_DO
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<PHP>echo lval.Token(l.createToken(l.Token())); return T_ECHO
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<PHP>else lval.Token(l.createToken(l.Token())); return T_ELSE
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<PHP>elseif lval.Token(l.createToken(l.Token())); return T_ELSEIF
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<PHP>empty lval.Token(l.createToken(l.Token())); return T_EMPTY
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<PHP>enddeclare lval.Token(l.createToken(l.Token())); return T_ENDDECLARE
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<PHP>endfor lval.Token(l.createToken(l.Token())); return T_ENDFOR
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<PHP>endforeach lval.Token(l.createToken(l.Token())); return T_ENDFOREACH
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<PHP>endif lval.Token(l.createToken(l.Token())); return T_ENDIF
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<PHP>endswitch lval.Token(l.createToken(l.Token())); return T_ENDSWITCH
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<PHP>endwhile lval.Token(l.createToken(l.Token())); return T_ENDWHILE
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<PHP>eval lval.Token(l.createToken(l.Token())); return T_EVAL
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<PHP>exit|die lval.Token(l.createToken(l.Token())); return T_EXIT
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<PHP>extends lval.Token(l.createToken(l.Token())); return T_EXTENDS
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<PHP>final lval.Token(l.createToken(l.Token())); return T_FINAL
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<PHP>finally lval.Token(l.createToken(l.Token())); return T_FINALLY
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<PHP>for lval.Token(l.createToken(l.Token())); return T_FOR
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<PHP>foreach lval.Token(l.createToken(l.Token())); return T_FOREACH
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<PHP>function|cfunction lval.Token(l.createToken(l.Token())); return T_FUNCTION
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<PHP>global lval.Token(l.createToken(l.Token())); return T_GLOBAL
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<PHP>goto lval.Token(l.createToken(l.Token())); return T_GOTO
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<PHP>if lval.Token(l.createToken(l.Token())); return T_IF
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<PHP>isset lval.Token(l.createToken(l.Token())); return T_ISSET
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<PHP>implements lval.Token(l.createToken(l.Token())); return T_IMPLEMENTS
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<PHP>instanceof lval.Token(l.createToken(l.Token())); return T_INSTANCEOF
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<PHP>insteadof lval.Token(l.createToken(l.Token())); return T_INSTEADOF
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<PHP>interface lval.Token(l.createToken(l.Token())); return T_INTERFACE
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<PHP>list lval.Token(l.createToken(l.Token())); return T_LIST
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<PHP>namespace lval.Token(l.createToken(l.Token())); return T_NAMESPACE
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<PHP>private lval.Token(l.createToken(l.Token())); return T_PRIVATE
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<PHP>public lval.Token(l.createToken(l.Token())); return T_PUBLIC
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<PHP>print lval.Token(l.createToken(l.Token())); return T_PRINT
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<PHP>protected lval.Token(l.createToken(l.Token())); return T_PROTECTED
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<PHP>return lval.Token(l.createToken(l.Token())); return T_RETURN
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<PHP>static lval.Token(l.createToken(l.Token())); return T_STATIC
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<PHP>switch lval.Token(l.createToken(l.Token())); return T_SWITCH
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<PHP>throw lval.Token(l.createToken(l.Token())); return T_THROW
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<PHP>trait lval.Token(l.createToken(l.Token())); return T_TRAIT
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<PHP>try lval.Token(l.createToken(l.Token())); return T_TRY
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<PHP>unset lval.Token(l.createToken(l.Token())); return T_UNSET
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<PHP>use lval.Token(l.createToken(l.Token())); return T_USE
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<PHP>var lval.Token(l.createToken(l.Token())); return T_VAR
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<PHP>while lval.Token(l.createToken(l.Token())); return T_WHILE
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<PHP>yield[ \t\n\r]+from[^a-zA-Z0-9_\x80-\xff] lval.Token(l.createToken(l.Token())); return T_YIELD_FROM
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<PHP>yield lval.Token(l.createToken(l.Token())); return T_YIELD
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<PHP>include lval.Token(l.createToken(l.Token())); return T_INCLUDE
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<PHP>include_once lval.Token(l.createToken(l.Token())); return T_INCLUDE_ONCE
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<PHP>require lval.Token(l.createToken(l.Token())); return T_REQUIRE
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<PHP>require_once lval.Token(l.createToken(l.Token())); return T_REQUIRE_ONCE
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<PHP>__CLASS__ lval.Token(l.createToken(l.Token())); return T_CLASS_C
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<PHP>__DIR__ lval.Token(l.createToken(l.Token())); return T_DIR
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<PHP>__FILE__ lval.Token(l.createToken(l.Token())); return T_FILE
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<PHP>__FUNCTION__ lval.Token(l.createToken(l.Token())); return T_FUNC_C
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<PHP>__LINE__ lval.Token(l.createToken(l.Token())); return T_LINE
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<PHP>__NAMESPACE__ lval.Token(l.createToken(l.Token())); return T_NS_C
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<PHP>__METHOD__ lval.Token(l.createToken(l.Token())); return T_METHOD_C
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<PHP>__TRAIT__ lval.Token(l.createToken(l.Token())); return T_TRAIT_C
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<PHP>__halt_compiler lval.Token(l.createToken(l.Token())); return T_HALT_COMPILER
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<PHP>\([ \t]*array[ \t]*\) lval.Token(l.createToken(l.Token())); return T_ARRAY_CAST
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<PHP>\([ \t]*(bool|boolean)[ \t]*\) lval.Token(l.createToken(l.Token())); return T_BOOL_CAST
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<PHP>\([ \t]*(real|double|float)[ \t]*\) lval.Token(l.createToken(l.Token())); return T_DOUBLE_CAST
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<PHP>\([ \t]*(int|integer)[ \t]*\) lval.Token(l.createToken(l.Token())); return T_INT_CAST
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<PHP>\([ \t]*object[ \t]*\) lval.Token(l.createToken(l.Token())); return T_OBJECT_CAST
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<PHP>\([ \t]*(string|binary)[ \t]*\) lval.Token(l.createToken(l.Token())); return T_STRING_CAST
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<PHP>\([ \t]*unset[ \t]*\) lval.Token(l.createToken(l.Token())); return T_UNSET_CAST
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<PHP>new lval.Token(l.createToken(l.Token())); return T_NEW
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<PHP>and lval.Token(l.createToken(l.Token())); return T_LOGICAL_AND
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<PHP>or lval.Token(l.createToken(l.Token())); return T_LOGICAL_OR
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<PHP>xor lval.Token(l.createToken(l.Token())); return T_LOGICAL_XOR
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<PHP>\\ lval.Token(l.createToken(l.Token())); return T_NS_SEPARATOR
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<PHP>\.\.\. lval.Token(l.createToken(l.Token())); return T_ELLIPSIS
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<PHP>:: lval.Token(l.createToken(l.Token())); return T_PAAMAYIM_NEKUDOTAYIM // T_DOUBLE_COLON
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<PHP>&& lval.Token(l.createToken(l.Token())); return T_BOOLEAN_AND
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<PHP>\|\| lval.Token(l.createToken(l.Token())); return T_BOOLEAN_OR
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<PHP>&= lval.Token(l.createToken(l.Token())); return T_AND_EQUAL
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<PHP>\|= lval.Token(l.createToken(l.Token())); return T_OR_EQUAL
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<PHP>\.= lval.Token(l.createToken(l.Token())); return T_CONCAT_EQUAL
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<PHP>\*= lval.Token(l.createToken(l.Token())); return T_MUL_EQUAL
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<PHP>\*\*= lval.Token(l.createToken(l.Token())); return T_POW_EQUAL
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<PHP>[/]= lval.Token(l.createToken(l.Token())); return T_DIV_EQUAL
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<PHP>\+= lval.Token(l.createToken(l.Token())); return T_PLUS_EQUAL
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<PHP>-= lval.Token(l.createToken(l.Token())); return T_MINUS_EQUAL
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<PHP>\^= lval.Token(l.createToken(l.Token())); return T_XOR_EQUAL
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<PHP>%= lval.Token(l.createToken(l.Token())); return T_MOD_EQUAL
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<PHP>-- lval.Token(l.createToken(l.Token())); return T_DEC
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<PHP>\+\+ lval.Token(l.createToken(l.Token())); return T_INC
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<PHP>=> lval.Token(l.createToken(l.Token())); return T_DOUBLE_ARROW
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<PHP>\<=\> lval.Token(l.createToken(l.Token())); return T_SPACESHIP
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<PHP>\!=|\<\> lval.Token(l.createToken(l.Token())); return T_IS_NOT_EQUAL
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<PHP>\!== lval.Token(l.createToken(l.Token())); return T_IS_NOT_IDENTICAL
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<PHP>== lval.Token(l.createToken(l.Token())); return T_IS_EQUAL
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<PHP>=== lval.Token(l.createToken(l.Token())); return T_IS_IDENTICAL
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<PHP>\<\<= lval.Token(l.createToken(l.Token())); return T_SL_EQUAL
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<PHP>\>\>= lval.Token(l.createToken(l.Token())); return T_SR_EQUAL
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<PHP>\>= lval.Token(l.createToken(l.Token())); return T_IS_GREATER_OR_EQUAL
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<PHP>\<= lval.Token(l.createToken(l.Token())); return T_IS_SMALLER_OR_EQUAL
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<PHP>\*\* lval.Token(l.createToken(l.Token())); return T_POW
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<PHP>\<\< lval.Token(l.createToken(l.Token())); return T_SL
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<PHP>\>\> lval.Token(l.createToken(l.Token())); return T_SR
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<PHP>\?\? lval.Token(l.createToken(l.Token())); return T_COALESCE
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<PHP>(#|[/][/])
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tb := l.Token()
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for {
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if c == -1 {
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break
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}
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tb = append(tb, l.Last)
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switch c {
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case '\r':
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c = l.Next()
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if c == '\n' {
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continue
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}
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case '\n':
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case '?':
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c = l.Next()
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if c == '>' {
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l.ungetChars(1)
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tb = tb[:len(tb)-1]
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break
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}
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continue
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default:
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c = l.Next()
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continue
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}
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break;
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}
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l.addComment(tb)
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<PHP>([/][*])|([/][*][*])
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tb := l.Token()
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is_doc_comment := false
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if len(tb) > 2 {
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is_doc_comment = true
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l.PhpDocComment = ""
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}
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for {
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if c == -1 {
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break; // TODO: Unterminated comment starting line %d
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}
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if l.Prev.Rune == '*' && l.Last.Rune == '/' {
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c = l.Next()
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break;
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}
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c = l.Next()
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}
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if is_doc_comment {
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l.PhpDocComment = string(l.TokenBytes(nil))
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l.addComment(l.Token())
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} else {
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l.addComment(l.Token())
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}
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<PHP>{OPERATORS} lval.Token(l.createToken(l.Token())); return Rune2Class(rune(l.TokenBytes(nil)[0]))
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<PHP>\{ l.pushState(PHP); lval.Token(l.createToken(l.Token())); return Rune2Class(rune(l.TokenBytes(nil)[0]))
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<PHP>\} l.popState(); lval.Token(l.createToken(l.Token())); return Rune2Class(rune(l.TokenBytes(nil)[0])); l.PhpDocComment = ""
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<PHP>\${VAR_NAME} lval.Token(l.createToken(l.Token())); return T_VARIABLE
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<PHP>{VAR_NAME} lval.Token(l.createToken(l.Token())); return T_STRING
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<PHP>-> l.begin(PROPERTY);lval.Token(l.createToken(l.Token())); return T_OBJECT_OPERATOR;
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<PROPERTY>[ \t\n\r]+
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<PROPERTY>-> lval.Token(l.createToken(l.Token())); return T_OBJECT_OPERATOR;
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<PROPERTY>{VAR_NAME} l.begin(PHP);lval.Token(l.createToken(l.Token())); return T_STRING;
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<PROPERTY>. l.ungetChars(1);l.begin(PHP)
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<PHP>[\']([^\\\']*([\\].)*)*[\'] lval.Token(l.createToken(l.Token())); return T_CONSTANT_ENCAPSED_STRING;
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<PHP>` l.begin(BACKQUOTE); lval.Token(l.createToken(l.Token())); return Rune2Class(rune(l.TokenBytes(nil)[0]))
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<BACKQUOTE>` l.begin(PHP); lval.Token(l.createToken(l.Token())); return Rune2Class(rune(l.TokenBytes(nil)[0]))
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<PHP>[b]?\<\<\<[ \t]*({VAR_NAME}|([']{VAR_NAME}['])|(["]{VAR_NAME}["])){NEW_LINE}
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tb := l.Token()
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binPrefix := 0
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if tb[0].Rune == 'b' {
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binPrefix = 1
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}
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lblFirst := 3 + binPrefix
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lblLast := len(tb)-2
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if tb[lblLast].Rune == '\r' {
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lblLast--
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}
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for {
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if tb[lblFirst].Rune == ' ' || tb[lblFirst].Rune == '\t' {
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lblFirst++
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continue
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}
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break
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}
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heredocToken := make([]lex.Char, lblLast - lblFirst + 1)
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copy(heredocToken, tb[lblFirst:lblLast+1])
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switch tb[lblFirst].Rune {
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case '\'' :
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lblFirst++
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lblLast--
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l.begin(NOWDOC)
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case '"' :
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lblFirst++
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lblLast--
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l.begin(HEREDOC)
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default:
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l.begin(HEREDOC)
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}
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l.heredocLabel = l.tokenString(tb[lblFirst:lblLast+1])
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ungetCnt := len(l.heredocLabel)
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searchLabelAhead := []byte{}
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for i := 0; i < len(l.heredocLabel); i++ {
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if c == -1 {
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break;
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}
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searchLabelAhead = append(searchLabelAhead, byte(rune(c)))
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c = l.Next()
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}
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if l.heredocLabel == string(searchLabelAhead) && ';' == rune(c) {
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ungetCnt++
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c = l.Next()
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if '\n' == rune(c) || '\r' == rune(c) {
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l.begin(HEREDOC_END)
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}
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}
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l.ungetChars(ungetCnt)
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lval.Token(l.createToken(heredocToken));
|
|
return T_START_HEREDOC
|
|
|
|
<NOWDOC>.|[ \t\n\r]
|
|
searchLabel := []byte{}
|
|
tb := []lex.Char{}
|
|
|
|
for {
|
|
if c == -1 {
|
|
break;
|
|
}
|
|
|
|
if '\n' == rune(c) || '\r' == rune(c) {
|
|
if l.heredocLabel + ";" == string(searchLabel) {
|
|
l.begin(HEREDOC_END)
|
|
tb = l.ungetChars(len(l.heredocLabel)+1)
|
|
break;
|
|
}
|
|
|
|
if l.heredocLabel == string(searchLabel) {
|
|
l.begin(HEREDOC_END)
|
|
tb = l.ungetChars(len(l.heredocLabel))
|
|
break;
|
|
}
|
|
|
|
searchLabel = []byte{}
|
|
} else {
|
|
searchLabel = append(searchLabel, byte(rune(c)))
|
|
}
|
|
|
|
c = l.Next()
|
|
}
|
|
|
|
lval.Token(l.createToken(tb) )
|
|
return T_ENCAPSED_AND_WHITESPACE
|
|
|
|
<HEREDOC_END>{VAR_NAME}\; l.begin(PHP);lval.Token(l.createToken(l.ungetChars(1))); return T_END_HEREDOC
|
|
<HEREDOC_END>{VAR_NAME} l.begin(PHP);lval.Token(l.createToken(l.Token())); return T_END_HEREDOC
|
|
|
|
<PHP>[b]?[\"]
|
|
binPrefix := l.Token()[0].Rune == 'b'
|
|
|
|
beginString := func() int {
|
|
cnt := 1; if (binPrefix) {cnt = 2}
|
|
|
|
l.ungetChars(len(l.Token())-cnt)
|
|
chars := l.Token()[:cnt]
|
|
l.pushState(STRING)
|
|
|
|
lval.Token(l.createToken(chars)); return Rune2Class('"')
|
|
}
|
|
|
|
F:for {
|
|
if c == -1 {
|
|
break;
|
|
}
|
|
|
|
switch c {
|
|
case '"' :
|
|
c = l.Next();
|
|
lval.Token(l.createToken(l.Token())); return T_CONSTANT_ENCAPSED_STRING
|
|
break F;
|
|
|
|
case '$':
|
|
c = l.Next();
|
|
if rune(c) == '{' || c >= 'A' && c <= 'Z' || c == '_' || c >= 'a' && c <= 'z' || c >= '\u007f' && c <= 'ÿ' {
|
|
return beginString()
|
|
break F;
|
|
}
|
|
l.ungetChars(0)
|
|
|
|
case '{':
|
|
c = l.Next();
|
|
if rune(c) == '$' {
|
|
return beginString()
|
|
break F;
|
|
}
|
|
l.ungetChars(0)
|
|
|
|
case '\\':
|
|
c = l.Next();
|
|
}
|
|
|
|
c = l.Next()
|
|
}
|
|
|
|
<STRING>\" l.popState(); lval.Token(l.createToken(l.Token())); return Rune2Class(l.Token()[0].Rune)
|
|
<STRING,HEREDOC,BACKQUOTE>\{\$ lval.Token(l.createToken(l.ungetChars(1))); l.pushState(PHP); return T_CURLY_OPEN
|
|
<STRING,HEREDOC,BACKQUOTE>\$\{ l.pushState(STRING_VAR_NAME); lval.Token(l.createToken(l.Token())); return T_DOLLAR_OPEN_CURLY_BRACES
|
|
<STRING,HEREDOC,BACKQUOTE>\${VAR_NAME} l.ungetChars(len(l.Token()));l.pushState(STRING_VAR)
|
|
<STRING>.|[ \t\n\r]
|
|
currentChar := l.Prev
|
|
tb := []lex.Char{currentChar}
|
|
for {
|
|
switch currentChar.Rune {
|
|
case '$':
|
|
if c == '{' || isValidFirstVarNameRune(rune(c)) {
|
|
l.ungetChars(1)
|
|
lval.Token(l.createToken(tb[:len(tb)-1]));
|
|
return T_ENCAPSED_AND_WHITESPACE
|
|
}
|
|
|
|
case '{':
|
|
if rune(c) == '$' {
|
|
l.ungetChars(1)
|
|
lval.Token(l.createToken(tb[:len(tb)-1]));
|
|
return T_ENCAPSED_AND_WHITESPACE
|
|
}
|
|
|
|
case '\\':
|
|
currentChar := l.Last
|
|
tb = append(tb, currentChar)
|
|
c = l.Next();
|
|
}
|
|
|
|
if rune(c) == '"' {
|
|
lval.Token(l.createToken(l.Token()));
|
|
return T_ENCAPSED_AND_WHITESPACE
|
|
}
|
|
|
|
currentChar = l.Last
|
|
tb = append(tb, currentChar)
|
|
c = l.Next()
|
|
|
|
if c == -1 {
|
|
break;
|
|
}
|
|
}
|
|
|
|
<BACKQUOTE>.|[ \t\n\r]
|
|
currentChar := l.Prev
|
|
tb := []lex.Char{currentChar}
|
|
|
|
for {
|
|
switch currentChar.Rune {
|
|
case '$':
|
|
if c == '{' || isValidFirstVarNameRune(rune(c)) {
|
|
l.ungetChars(1)
|
|
lval.Token(l.createToken(tb[:len(tb)-1]));
|
|
return T_ENCAPSED_AND_WHITESPACE
|
|
}
|
|
|
|
case '{':
|
|
if rune(c) == '$' {
|
|
l.ungetChars(1)
|
|
lval.Token(l.createToken(tb[:len(tb)-1]));
|
|
return T_ENCAPSED_AND_WHITESPACE
|
|
}
|
|
|
|
case '\\':
|
|
currentChar := l.Last
|
|
tb = append(tb, currentChar)
|
|
c = l.Next();
|
|
}
|
|
|
|
if rune(c) == '`' {
|
|
lval.Token(l.createToken(l.Token()));
|
|
return T_ENCAPSED_AND_WHITESPACE
|
|
}
|
|
|
|
currentChar = l.Last
|
|
tb = append(tb, currentChar)
|
|
c = l.Next()
|
|
|
|
if c == -1 {
|
|
break;
|
|
}
|
|
}
|
|
|
|
<HEREDOC>.|[ \t\n\r]
|
|
searchLabel := []byte{}
|
|
tb := []lex.Char{}
|
|
|
|
for {
|
|
if c == -1 {
|
|
break;
|
|
}
|
|
|
|
nls := 0
|
|
|
|
switch c {
|
|
case '\r':
|
|
nls = 1
|
|
c := l.Next()
|
|
|
|
if c != '\n' {
|
|
nls = 0
|
|
l.ungetChars(0)
|
|
}
|
|
|
|
fallthrough
|
|
|
|
case '\n':
|
|
if l.heredocLabel + ";" == string(searchLabel) {
|
|
l.begin(HEREDOC_END)
|
|
tb = l.ungetChars(len(l.heredocLabel)+1+nls)
|
|
lval.Token(l.createToken(tb));
|
|
return T_ENCAPSED_AND_WHITESPACE
|
|
}
|
|
|
|
if l.heredocLabel == string(searchLabel) {
|
|
l.begin(HEREDOC_END)
|
|
tb = l.ungetChars(len(l.heredocLabel)+nls)
|
|
lval.Token(l.createToken(tb));
|
|
return T_ENCAPSED_AND_WHITESPACE
|
|
}
|
|
|
|
searchLabel = []byte{}
|
|
|
|
case '$':
|
|
c = l.Next();
|
|
if rune(c) == '{' || isValidFirstVarNameRune(rune(c)) {
|
|
tb = l.ungetChars(1)
|
|
lval.Token(l.createToken(tb));
|
|
return T_ENCAPSED_AND_WHITESPACE
|
|
}
|
|
l.ungetChars(0)
|
|
|
|
case '{':
|
|
c = l.Next();
|
|
if rune(c) == '$' {
|
|
tb = l.ungetChars(1)
|
|
lval.Token(l.createToken(tb));
|
|
return T_ENCAPSED_AND_WHITESPACE
|
|
}
|
|
l.ungetChars(0)
|
|
|
|
case '\\':
|
|
c = l.Next();
|
|
if c == '\n' || c == '\r' {
|
|
l.ungetChars(0)
|
|
}
|
|
|
|
default:
|
|
searchLabel = append(searchLabel, byte(rune(c)))
|
|
}
|
|
|
|
c = l.Next()
|
|
}
|
|
|
|
<STRING_VAR>\${VAR_NAME} lval.Token(l.createToken(l.Token())); return T_VARIABLE
|
|
<STRING_VAR>->{VAR_NAME} lval.Token(l.createToken(l.ungetChars(len(l.Token())-2))); return T_OBJECT_OPERATOR
|
|
<STRING_VAR>{VAR_NAME} l.popState();lval.Token(l.createToken(l.Token())); return T_STRING
|
|
<STRING_VAR>\[ l.pushState(STRING_VAR_INDEX);lval.Token(l.createToken(l.Token())); return Rune2Class(rune(l.TokenBytes(nil)[0]))
|
|
<STRING_VAR>.|[ \t\n\r] l.ungetChars(1);l.popState()
|
|
|
|
<STRING_VAR_INDEX>{LNUM}|{HNUM}|{BNUM} lval.Token(l.createToken(l.Token())); return T_NUM_STRING
|
|
<STRING_VAR_INDEX>\${VAR_NAME} lval.Token(l.createToken(l.Token())); return T_VARIABLE
|
|
<STRING_VAR_INDEX>{VAR_NAME} lval.Token(l.createToken(l.Token())); return T_STRING
|
|
<STRING_VAR_INDEX>\] l.popState(); l.popState();lval.Token(l.createToken(l.Token())); return Rune2Class(rune(l.TokenBytes(nil)[0]))
|
|
<STRING_VAR_INDEX>[ \n\r\t\\'#] l.popState(); l.popState();lval.Token(l.createToken(l.Token())); return T_ENCAPSED_AND_WHITESPACE
|
|
<STRING_VAR_INDEX>{OPERATORS} lval.Token(l.createToken(l.Token())); return Rune2Class(rune(l.TokenBytes(nil)[0]))
|
|
<STRING_VAR_INDEX>. lval.Token(l.createToken(l.Token())); return Rune2Class(rune(l.TokenBytes(nil)[0]))
|
|
|
|
<STRING_VAR_NAME>{VAR_NAME}[\[\}] l.popState();l.pushState(PHP);lval.Token(l.createToken(l.ungetChars(1))); return T_STRING_VARNAME
|
|
<STRING_VAR_NAME>. l.ungetChars(1);l.popState();l.pushState(PHP)
|
|
|
|
%%
|
|
if c, ok := l.Abort(); ok { return int(c) }
|
|
goto yyAction
|
|
} |