qt-everywhere-src-5.14.1/qtbase/util/lexgen/tokenizer.cpp - orbit - Git at Google

 /****************************************************************************
 **
 ** Copyright (C) 2016 The Qt Company Ltd.
 ** Contact: https://www.qt.io/licensing/
 **
 ** This file is part of the utils of the Qt Toolkit.
 **
 ** $QT_BEGIN_LICENSE:GPL-EXCEPT$
 ** Commercial License Usage
 ** Licensees holding valid commercial Qt licenses may use this file in
 ** accordance with the commercial license agreement provided with the
 ** Software or, alternatively, in accordance with the terms contained in
 ** a written agreement between you and The Qt Company. For licensing terms
 ** and conditions see https://www.qt.io/terms-conditions. For further
 ** information use the contact form at https://www.qt.io/contact-us.
 **
 ** GNU General Public License Usage
 ** Alternatively, this file may be used under the terms of the GNU
 ** General Public License version 3 as published by the Free Software
 ** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT
 ** included in the packaging of this file. Please review the following
 ** information to ensure the GNU General Public License requirements will
 ** be met: https://www.gnu.org/licenses/gpl-3.0.html.
 **
 ** $QT_END_LICENSE$
 **
 ****************************************************************************/
 // auto generated. DO NOT EDIT.
 class RegExpTokenizer
 {
 public:
     RegExpTokenizer(const QString &inp);

     inline QChar next() {
         return (pos < input.length()) ? input.at(pos++) : QChar();
     }
     int lex();

     QString input;
     int pos;
     int lexemStart;
     int lexemLength;
 };

 RegExpTokenizer::RegExpTokenizer(const QString &inp)
 {
     input = inp;
     pos = 0;
     lexemStart = 0;
     lexemLength = 0;
 }


 int RegExpTokenizer::lex()
 {
     lexemStart = pos;
     lexemLength = 0;
     int lastAcceptingPos = -1;
     int token = -1;
     QChar ch;

     // initial state
         ch = next();
         if (ch.unicode() >= 1 && ch.unicode() <= 33)
             goto state_1;
         if (ch.unicode() == 34)
             goto state_2;
         if (ch.unicode() >= 35 && ch.unicode() <= 39)
             goto state_1;
         if (ch.unicode() == 40) {
             token = RE2NFA::TOK_LPAREN;
             goto found;
         }
         if (ch.unicode() == 41) {
             token = RE2NFA::TOK_RPAREN;
             goto found;
         }
         if (ch.unicode() == 42) {
             token = RE2NFA::TOK_STAR;
             goto found;
         }
         if (ch.unicode() == 43) {
             token = RE2NFA::TOK_PLUS;
             goto found;
         }
         if (ch.unicode() == 44) {
             token = RE2NFA::TOK_COMMA;
             goto found;
         }
         if (ch.unicode() == 45)
             goto state_1;
         if (ch.unicode() == 46) {
             token = RE2NFA::TOK_DOT;
             goto found;
         }
         if (ch.unicode() >= 47 && ch.unicode() <= 62)
             goto state_1;
         if (ch.unicode() == 63) {
             token = RE2NFA::TOK_QUESTION;
             goto found;
         }
         if (ch.unicode() >= 64 && ch.unicode() <= 90)
             goto state_1;
         if (ch.unicode() == 91)
             goto state_10;
         if (ch.unicode() == 92)
             goto state_11;
         if (ch.unicode() >= 93 && ch.unicode() <= 122)
             goto state_1;
         if (ch.unicode() == 123) {
             token = RE2NFA::TOK_LBRACE;
             goto found;
         }
         if (ch.unicode() == 124) {
             token = RE2NFA::TOK_OR;
             goto found;
         }
         if (ch.unicode() == 125) {
             token = RE2NFA::TOK_RBRACE;
             goto found;
         }
         if (ch.unicode() >= 126)
             goto state_1;
         goto out;
     state_1:
         lastAcceptingPos = pos;
         token = RE2NFA::TOK_STRING;
         goto out;
     state_2:
         lastAcceptingPos = pos;
         token = RE2NFA::TOK_STRING;
         ch = next();
         if (ch.unicode() >= 1 && ch.unicode() <= 33)
             goto state_15;
         if (ch.unicode() == 34)
             goto state_16;
         if (ch.unicode() >= 35)
             goto state_15;
         goto out;
     state_10:
         ch = next();
         if (ch.unicode() >= 1 && ch.unicode() <= 91)
             goto state_17;
         if (ch.unicode() == 92)
             goto state_18;
         if (ch.unicode() == 93)
             goto state_19;
         if (ch.unicode() >= 94)
             goto state_17;
         goto out;
     state_11:
         lastAcceptingPos = pos;
         token = RE2NFA::TOK_STRING;
         ch = next();
         if (ch.unicode() >= 1)
             goto state_20;
         goto out;
     state_15:
         ch = next();
         if (ch.unicode() >= 1 && ch.unicode() <= 33)
             goto state_15;
         if (ch.unicode() == 34)
             goto state_16;
         if (ch.unicode() >= 35)
             goto state_15;
         goto out;
     state_16:
         lastAcceptingPos = pos;
         token = RE2NFA::TOK_QUOTED_STRING;
         goto out;
     state_17:
         ch = next();
         if (ch.unicode() >= 1 && ch.unicode() <= 91)
             goto state_17;
         if (ch.unicode() == 92)
             goto state_18;
         if (ch.unicode() == 93)
             goto state_19;
         if (ch.unicode() >= 94)
             goto state_17;
         goto out;
     state_18:
         ch = next();
         if (ch.unicode() >= 1 && ch.unicode() <= 91)
             goto state_17;
         if (ch.unicode() == 92)
             goto state_18;
         if (ch.unicode() == 93)
             goto state_21;
         if (ch.unicode() >= 94)
             goto state_17;
         goto out;
     state_19:
         lastAcceptingPos = pos;
         token = RE2NFA::TOK_SEQUENCE;
         goto out;
     state_20:
         lastAcceptingPos = pos;
         token = RE2NFA::TOK_STRING;
         goto out;
     state_21:
         lastAcceptingPos = pos;
         token = RE2NFA::TOK_SEQUENCE;
         ch = next();
         if (ch.unicode() >= 1 && ch.unicode() <= 91)
             goto state_17;
         if (ch.unicode() == 92)
             goto state_18;
         if (ch.unicode() == 93)
             goto state_19;
         if (ch.unicode() >= 94)
             goto state_17;
         goto out;
     found:
     lastAcceptingPos = pos;

     out:
     if (lastAcceptingPos != -1) {
         lexemLength = lastAcceptingPos - lexemStart;
         pos = lastAcceptingPos;
     }
     return token;
 }
	/****************************************************************************
	**
	** Copyright (C) 2016 The Qt Company Ltd.
	** Contact: https://www.qt.io/licensing/
	**
	** This file is part of the utils of the Qt Toolkit.
	**
	** $QT_BEGIN_LICENSE:GPL-EXCEPT$
	** Commercial License Usage
	** Licensees holding valid commercial Qt licenses may use this file in
	** accordance with the commercial license agreement provided with the
	** Software or, alternatively, in accordance with the terms contained in
	** a written agreement between you and The Qt Company. For licensing terms
	** and conditions see https://www.qt.io/terms-conditions. For further
	** information use the contact form at https://www.qt.io/contact-us.
	**
	** GNU General Public License Usage
	** Alternatively, this file may be used under the terms of the GNU
	** General Public License version 3 as published by the Free Software
	** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT
	** included in the packaging of this file. Please review the following
	** information to ensure the GNU General Public License requirements will
	** be met: https://www.gnu.org/licenses/gpl-3.0.html.
	**
	** $QT_END_LICENSE$
	**
	****************************************************************************/
	// auto generated. DO NOT EDIT.
	class RegExpTokenizer
	{
	public:
	RegExpTokenizer(const QString &inp);

	inline QChar next() {
	return (pos < input.length()) ? input.at(pos++) : QChar();
	}
	int lex();

	QString input;
	int pos;
	int lexemStart;
	int lexemLength;
	};

	RegExpTokenizer::RegExpTokenizer(const QString &inp)
	{
	input = inp;
	pos = 0;
	lexemStart = 0;
	lexemLength = 0;
	}


	int RegExpTokenizer::lex()
	{
	lexemStart = pos;
	lexemLength = 0;
	int lastAcceptingPos = -1;
	int token = -1;
	QChar ch;

	// initial state
	ch = next();
	if (ch.unicode() >= 1 && ch.unicode() <= 33)
	goto state_1;
	if (ch.unicode() == 34)
	goto state_2;
	if (ch.unicode() >= 35 && ch.unicode() <= 39)
	goto state_1;
	if (ch.unicode() == 40) {
	token = RE2NFA::TOK_LPAREN;
	goto found;
	}
	if (ch.unicode() == 41) {
	token = RE2NFA::TOK_RPAREN;
	goto found;
	}
	if (ch.unicode() == 42) {
	token = RE2NFA::TOK_STAR;
	goto found;
	}
	if (ch.unicode() == 43) {
	token = RE2NFA::TOK_PLUS;
	goto found;
	}
	if (ch.unicode() == 44) {
	token = RE2NFA::TOK_COMMA;
	goto found;
	}
	if (ch.unicode() == 45)
	goto state_1;
	if (ch.unicode() == 46) {
	token = RE2NFA::TOK_DOT;
	goto found;
	}
	if (ch.unicode() >= 47 && ch.unicode() <= 62)
	goto state_1;
	if (ch.unicode() == 63) {
	token = RE2NFA::TOK_QUESTION;
	goto found;
	}
	if (ch.unicode() >= 64 && ch.unicode() <= 90)
	goto state_1;
	if (ch.unicode() == 91)
	goto state_10;
	if (ch.unicode() == 92)
	goto state_11;
	if (ch.unicode() >= 93 && ch.unicode() <= 122)
	goto state_1;
	if (ch.unicode() == 123) {
	token = RE2NFA::TOK_LBRACE;
	goto found;
	}
	if (ch.unicode() == 124) {
	token = RE2NFA::TOK_OR;
	goto found;
	}
	if (ch.unicode() == 125) {
	token = RE2NFA::TOK_RBRACE;
	goto found;
	}
	if (ch.unicode() >= 126)
	goto state_1;
	goto out;
	state_1:
	lastAcceptingPos = pos;
	token = RE2NFA::TOK_STRING;
	goto out;
	state_2:
	lastAcceptingPos = pos;
	token = RE2NFA::TOK_STRING;
	ch = next();
	if (ch.unicode() >= 1 && ch.unicode() <= 33)
	goto state_15;
	if (ch.unicode() == 34)
	goto state_16;
	if (ch.unicode() >= 35)
	goto state_15;
	goto out;
	state_10:
	ch = next();
	if (ch.unicode() >= 1 && ch.unicode() <= 91)
	goto state_17;
	if (ch.unicode() == 92)
	goto state_18;
	if (ch.unicode() == 93)
	goto state_19;
	if (ch.unicode() >= 94)
	goto state_17;
	goto out;
	state_11:
	lastAcceptingPos = pos;
	token = RE2NFA::TOK_STRING;
	ch = next();
	if (ch.unicode() >= 1)
	goto state_20;
	goto out;
	state_15:
	ch = next();
	if (ch.unicode() >= 1 && ch.unicode() <= 33)
	goto state_15;
	if (ch.unicode() == 34)
	goto state_16;
	if (ch.unicode() >= 35)
	goto state_15;
	goto out;
	state_16:
	lastAcceptingPos = pos;
	token = RE2NFA::TOK_QUOTED_STRING;
	goto out;
	state_17:
	ch = next();
	if (ch.unicode() >= 1 && ch.unicode() <= 91)
	goto state_17;
	if (ch.unicode() == 92)
	goto state_18;
	if (ch.unicode() == 93)
	goto state_19;
	if (ch.unicode() >= 94)
	goto state_17;
	goto out;
	state_18:
	ch = next();
	if (ch.unicode() >= 1 && ch.unicode() <= 91)
	goto state_17;
	if (ch.unicode() == 92)
	goto state_18;
	if (ch.unicode() == 93)
	goto state_21;
	if (ch.unicode() >= 94)
	goto state_17;
	goto out;
	state_19:
	lastAcceptingPos = pos;
	token = RE2NFA::TOK_SEQUENCE;
	goto out;
	state_20:
	lastAcceptingPos = pos;
	token = RE2NFA::TOK_STRING;
	goto out;
	state_21:
	lastAcceptingPos = pos;
	token = RE2NFA::TOK_SEQUENCE;
	ch = next();
	if (ch.unicode() >= 1 && ch.unicode() <= 91)
	goto state_17;
	if (ch.unicode() == 92)
	goto state_18;
	if (ch.unicode() == 93)
	goto state_19;
	if (ch.unicode() >= 94)
	goto state_17;
	goto out;
	found:
	lastAcceptingPos = pos;

	out:
	if (lastAcceptingPos != -1) {
	lexemLength = lastAcceptingPos - lexemStart;
	pos = lastAcceptingPos;
	}
	return token;
	}