qt5base-lts/util/lexgen/re2nfa.cpp

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// Copyright (C) 2016 The Qt Company Ltd.
// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only WITH Qt-GPL-exception-1.0
#include "re2nfa.h"
#include "tokenizer.cpp"
RE2NFA::RE2NFA(const QMap<QString, NFA> &macros, const QSet<InputType> &maxInputSet, Qt::CaseSensitivity cs)
: macros(macros), index(0), errorColumn(-1), maxInputSet(maxInputSet), caseSensitivity(cs)
{
}
NFA RE2NFA::parse(const QString &expression, int *errCol)
{
tokenize(expression);
if (symbols.isEmpty())
return NFA();
index = 0;
NFA result = parseExpr();
if (result.isEmpty()) {
if (errCol)
*errCol = errorColumn;
}
return result;
}
NFA RE2NFA::parseExpr()
{
NFA value = parseBranch();
while (test(TOK_OR)) {
NFA rhs = parseBranch();
value = NFA::createAlternatingNFA(value, rhs);
}
return value;
}
NFA RE2NFA::parseBranch()
{
NFA value = parsePiece();
if (!hasNext())
return value;
NFA next;
do {
next = parsePiece();
if (!next.isEmpty())
value = NFA::createConcatenatingNFA(value, next);
} while (!next.isEmpty() && hasNext());
return value;
}
NFA RE2NFA::parsePiece()
{
NFA atom = parseAtom();
if (atom.isEmpty() || !hasNext())
return atom;
return parseMaybeQuantifier(atom);
}
NFA RE2NFA::parseAtom()
{
// ####
switch (next()) {
case TOK_STRING:
return createCharNFA();
case TOK_LPAREN: {
NFA subExpr = parseExpr();
next(TOK_RPAREN);
return subExpr;
}
case TOK_LBRACE: {
QString macroName = lexemUntil(TOK_RBRACE);
QMap<QString, NFA>::ConstIterator macro = macros.find(macroName);
if (macro == macros.end()) {
qWarning("Unknown macro '%s' - probably used before defined", qPrintable(macroName));
return NFA();
}
return *macro;
}
case TOK_LBRACKET: {
NFA set = parseSet();
next(TOK_RBRACKET);
return set;
}
case TOK_SEQUENCE:
return parseSet2();
case TOK_DOT:
return NFA::createSetNFA(maxInputSet);
default:
prev();
return NFA();
}
}
NFA RE2NFA::parseMaybeQuantifier(const NFA &nfa)
{
// ####
switch (next()) {
case TOK_STAR:
return NFA::createOptionalNFA(nfa);
case TOK_QUESTION:
return NFA::createZeroOrOneNFA(nfa);
case TOK_PLUS:
return NFA::createConcatenatingNFA(nfa, NFA::createOptionalNFA(nfa));
case TOK_LBRACE: {
const int rewind = index - 1;
QString lexemBeforeComma;
QString lexemAfterComma;
bool seenComma = false;
forever {
if (test(TOK_COMMA)) {
if (seenComma) {
errorColumn = symbol().column;
return NFA();
}
seenComma = true;
} else if (test(TOK_RBRACE)) {
break;
} else {
next(TOK_STRING);
if (seenComma)
lexemAfterComma += symbol().lexem;
else
lexemBeforeComma += symbol().lexem;
}
}
bool isNumber = false;
int min = lexemBeforeComma.toInt(&isNumber);
if (!isNumber) {
index = rewind;
return nfa;
}
int max = min;
if (seenComma) {
max = lexemAfterComma.toInt(&isNumber);
if (!isNumber) {
errorColumn = symbol().column;
return NFA();
}
}
return NFA::applyQuantity(nfa, min, max);
}
default:
prev();
return nfa;
}
}
NFA RE2NFA::parseSet()
{
QSet<InputType> set;
bool negate = false;
next(TOK_STRING);
do {
Q_ASSERT(symbol().lexem.length() == 1);
// ###
QChar ch = symbol().lexem.at(0);
if (set.isEmpty() && ch == QLatin1Char('^')) {
negate = true;
continue;
}
// look ahead for ranges like a-z
bool rangeFound = false;
if (test(TOK_STRING)) {
if (symbol().lexem.length() == 1
&& symbol().lexem.at(0) == QLatin1Char('-')) {
next(TOK_STRING);
Q_ASSERT(symbol().lexem.length() == 1);
QChar last = symbol().lexem.at(0);
if (ch.unicode() > last.unicode())
qSwap(ch, last);
for (ushort i = ch.unicode(); i <= last.unicode(); ++i) {
if (caseSensitivity == Qt::CaseInsensitive) {
set.insert(QChar(i).toLower().unicode());
} else {
set.insert(i);
}
}
rangeFound = true;
} else {
prev();
}
}
if (!rangeFound) {
if (caseSensitivity == Qt::CaseInsensitive) {
set.insert(ch.toLower().unicode());
} else {
set.insert(ch.unicode());
}
}
} while (test(TOK_STRING));
if (negate) {
QSet<InputType> negatedSet = maxInputSet;
negatedSet.subtract(set);
set = negatedSet;
}
return NFA::createSetNFA(set);
}
NFA RE2NFA::parseSet2()
{
QSet<InputType> set;
bool negate = false;
QString str = symbol().lexem;
// strip off brackets
str.chop(1);
str.remove(0, 1);
int i = 0;
while (i < str.length()) {
// ###
QChar ch = str.at(i++);
if (set.isEmpty() && ch == QLatin1Char('^')) {
negate = true;
continue;
}
// look ahead for ranges like a-z
bool rangeFound = false;
if (i < str.length() - 1 && str.at(i) == QLatin1Char('-')) {
++i;
QChar last = str.at(i++);
if (ch.unicode() > last.unicode())
qSwap(ch, last);
for (ushort i = ch.unicode(); i <= last.unicode(); ++i) {
if (caseSensitivity == Qt::CaseInsensitive) {
set.insert(QChar(i).toLower().unicode());
} else {
set.insert(i);
}
}
rangeFound = true;
}
if (!rangeFound) {
if (caseSensitivity == Qt::CaseInsensitive) {
set.insert(ch.toLower().unicode());
} else {
set.insert(ch.unicode());
}
}
}
if (negate) {
QSet<InputType> negatedSet = maxInputSet;
negatedSet.subtract(set);
set = negatedSet;
}
return NFA::createSetNFA(set);
}
NFA RE2NFA::createCharNFA()
{
NFA nfa;
// ####
if (caseSensitivity == Qt::CaseInsensitive) {
nfa = NFA::createStringNFA(symbol().lexem.toLower().toLatin1());
} else {
nfa = NFA::createStringNFA(symbol().lexem.toLatin1());
}
return nfa;
}
static inline int skipQuote(const QString &str, int pos)
{
while (pos < str.length()
&& str.at(pos) != QLatin1Char('"')) {
if (str.at(pos) == QLatin1Char('\\')) {
++pos;
if (pos >= str.length())
break;
}
++pos;
}
if (pos < str.length())
++pos;
return pos;
}
#if 0
static const char*tokStr(Token t)
{
switch (t) {
case TOK_INVALID: return "TOK_INVALID";
case TOK_STRING: return "TOK_STRING";
case TOK_LBRACE: return "TOK_LBRACE";
case TOK_RBRACE: return "TOK_RBRACE";
case TOK_LBRACKET: return "TOK_LBRACKET";
case TOK_RBRACKET: return "TOK_RBRACKET";
case TOK_LPAREN: return "TOK_LPAREN";
case TOK_RPAREN: return "TOK_RPAREN";
case TOK_COMMA: return "TOK_COMMA";
case TOK_STAR: return "TOK_STAR";
case TOK_OR: return "TOK_OR";
case TOK_QUESTION: return "TOK_QUESTION";
case TOK_DOT: return "TOK_DOT";
case TOK_PLUS: return "TOK_PLUS";
case TOK_SEQUENCE: return "TOK_SEQUENCE";
case TOK_QUOTED_STRING: return "TOK_QUOTED_STRING";
}
return "";
}
#endif
void RE2NFA::tokenize(const QString &input)
{
symbols.clear();
#if 1
RegExpTokenizer tokenizer(input);
Symbol sym;
int tok = tokenizer.lex();
while (tok != -1) {
Symbol sym;
sym.token = static_cast<Token>(tok);
sym.lexem = input.mid(tokenizer.lexemStart, tokenizer.lexemLength);
if (sym.token == TOK_QUOTED_STRING) {
sym.lexem.chop(1);
sym.lexem.remove(0, 1);
sym.token = TOK_STRING;
}
if (sym.token == TOK_STRING || sym.token == TOK_SEQUENCE) {
for (int i = 0; i < sym.lexem.length(); ++i) {
if (sym.lexem.at(i) == '\\') {
if (i >= sym.lexem.length() - 1)
break;
QChar ch = sym.lexem.at(i + 1);
if (ch == QLatin1Char('n')) {
ch = '\n';
} else if (ch == QLatin1Char('r')) {
ch = '\r';
} else if (ch == QLatin1Char('t')) {
ch = '\t';
} else if (ch == QLatin1Char('f')) {
ch = '\f';
}
sym.lexem.replace(i, 2, ch);
}
}
}
/*
if (sym.token == TOK_SEQUENCE) {
Symbol s;
s.token = TOK_LBRACKET;
s.lexem = "[";
symbols.append(s);
for (int i = 1; i < sym.lexem.length() - 1; ++i) {
s.token = TOK_STRING;
s.lexem = sym.lexem.at(i);
symbols.append(s);
}
s.token = TOK_RBRACKET;
s.lexem = "]";
symbols.append(s);
tok = tokenizer.lex();
continue;
}
*/
symbols.append(sym);
tok = tokenizer.lex();
}
#else
int pos = 0;
bool insideSet = false;
while (pos < input.length()) {
QChar ch = input.at(pos);
Symbol sym;
sym.column = pos;
sym.token = TOK_INVALID;
sym.lexem = QString(ch);
switch (ch.toLatin1()) {
case '"': {
if (insideSet) {
sym.token = TOK_STRING;
sym.lexem = QString(ch);
symbols += sym;
++pos;
continue;
}
if (pos + 1 >= input.length())
return;
int quoteEnd = skipQuote(input, pos + 1);
sym.token = TOK_STRING;
sym.lexem = input.mid(pos + 1, quoteEnd - pos - 2);
symbols += sym;
pos = quoteEnd;
continue;
}
case '{':
sym.token = (insideSet ? TOK_STRING : TOK_LBRACE);
break;
case '}':
sym.token = (insideSet ? TOK_STRING : TOK_RBRACE);
break;
case '[':
insideSet = true;
sym.token = TOK_LBRACKET;
break;
case ']':
insideSet = false;
sym.token = TOK_RBRACKET;
break;
case '(':
sym.token = (insideSet ? TOK_STRING : TOK_LPAREN);
break;
case ')':
sym.token = (insideSet ? TOK_STRING : TOK_RPAREN);
break;
case ',':
sym.token = (insideSet ? TOK_STRING : TOK_COMMA);
break;
case '*':
sym.token = (insideSet ? TOK_STRING : TOK_STAR);
break;
case '|':
sym.token = (insideSet ? TOK_STRING : TOK_OR);
break;
case '?':
sym.token = (insideSet ? TOK_STRING : TOK_QUESTION);
break;
case '.':
sym.token = (insideSet ? TOK_STRING : TOK_DOT);
break;
case '+':
sym.token = (insideSet ? TOK_STRING : TOK_PLUS);
break;
case '\\':
++pos;
if (pos >= input.length())
return;
ch = input.at(pos);
if (ch == QLatin1Char('n')) {
ch = '\n';
} else if (ch == QLatin1Char('r')) {
ch = '\r';
} else if (ch == QLatin1Char('t')) {
ch = '\t';
} else if (ch == QLatin1Char('f')) {
ch = '\f';
}
// fall through
default:
sym.token = TOK_STRING;
sym.lexem = QString(ch);
symbols += sym;
++pos;
continue;
}
symbols += sym;
++pos;
}
#endif
#if 0
foreach (Symbol s, symbols) {
qDebug() << "Tok" << tokStr(s.token) << "lexem" << s.lexem;
}
#endif
}
bool RE2NFA::next(Token t)
{
if (hasNext() && next() == t)
return true;
errorColumn = symbol().column;
Q_ASSERT(false);
return false;
}
bool RE2NFA::test(Token t)
{
if (index >= symbols.count())
return false;
if (symbols.at(index).token == t) {
++index;
return true;
}
return false;
}
QString RE2NFA::lexemUntil(Token t)
{
QString lexem;
while (hasNext() && next() != t)
lexem += symbol().lexem;
return lexem;
}