qt6windows7/util/lexgen/generator.cpp
2023-10-29 23:33:08 +01:00

498 lines
14 KiB
C++

// 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 "generator.h"
#include <QFile>
#include <QDir>
void Function::printDeclaration(CodeBlock &block, const QString &funcNamePrefix) const
{
block << (iline ? "inline " : "") << signature(funcNamePrefix) << (iline ? QLatin1String(" {") : QLatin1String(";"));
if (!iline)
return;
block.indent();
QString tmp = body;
if (tmp.endsWith(QLatin1Char('\n')))
tmp.chop(1);
foreach (QString line, tmp.split(QLatin1Char('\n')))
block << line;
block.outdent();
block << "}";
}
QString Function::signature(const QString &funcNamePrefix) const
{
QString sig;
if (!rtype.isEmpty()) {
sig += rtype;
sig += QLatin1Char(' ');
}
sig += funcNamePrefix;
sig += fname;
if (cnst)
sig += " const";
return sig;
}
QString Function::definition() const
{
if (iline)
return QString();
QString result;
result += signature();
result += QLatin1String("\n{\n");
QString tmp = body;
if (tmp.endsWith(QLatin1Char('\n')))
tmp.chop(1);
if (!tmp.startsWith(QLatin1Char('\n')))
tmp.prepend(" ");
tmp.replace(QLatin1Char('\n'), QLatin1String("\n "));
result += tmp;
result += QLatin1String("\n}\n");
return result;
}
void Class::Section::printDeclaration(const Class *klass, CodeBlock &block) const
{
foreach (Function ctor, constructors)
ctor.printDeclaration(block, klass->name());
if (!constructors.isEmpty())
block.addNewLine();
foreach (Function func, functions)
func.printDeclaration(block);
if (!functions.isEmpty())
block.addNewLine();
foreach (QString var, variables)
block << var << ';';
}
void Class::addConstructor(Access access, const QString &body, const QString &_args)
{
Function ctor;
QString args = _args;
if (!args.startsWith(QLatin1Char('('))
&& !args.endsWith(QLatin1Char(')'))) {
args.prepend('(');
args.append(')');
}
ctor.setName(args);
ctor.addBody(body);
sections[access].constructors.append(ctor);
}
QString Class::Section::definition(const Class *klass) const
{
QString result;
foreach (Function ctor, constructors) {
ctor.setName(klass->name() + "::" + klass->name() + ctor.name());
result += ctor.definition();
result += QLatin1Char('\n');
}
foreach (Function func, functions) {
if (!func.hasBody()) continue;
func.setName(klass->name() + "::" + func.name());
result += func.definition();
result += QLatin1Char('\n');
}
return result;
}
QString Class::declaration() const
{
CodeBlock block;
block << QLatin1String("class ") << cname;
block << "{";
if (!sections[PublicMember].isEmpty()) {
block << "public:";
block.indent();
sections[PublicMember].printDeclaration(this, block);
block.outdent();
}
if (!sections[ProtectedMember].isEmpty()) {
block << "protected:";
block.indent();
sections[ProtectedMember].printDeclaration(this, block);
block.outdent();
}
if (!sections[PrivateMember].isEmpty()) {
block << "private:";
block.indent();
sections[PrivateMember].printDeclaration(this, block);
block.outdent();
}
block << "};";
block.addNewLine();
return block.toString();
}
QString Class::definition() const
{
return sections[PrivateMember].definition(this)
+ sections[ProtectedMember].definition(this)
+ sections[PublicMember].definition(this);
}
Generator::Generator(const DFA &_dfa, const Config &config)
: dfa(_dfa), cfg(config)
{
QList<InputType> lst = cfg.maxInputSet.toList();
std::sort(lst.begin(), lst.end());
minInput = lst.first();
maxInput = lst.last();
ConfigFile::Section section = config.configSections.value("Code Generator Options");
foreach (ConfigFile::Entry entry, section) {
if (!entry.key.startsWith(QLatin1String("MapToCode["))
|| !entry.key.endsWith(QLatin1Char(']')))
continue;
QString range = entry.key;
range.remove(0, qstrlen("MapToCode["));
range.chop(1);
if (range.length() != 3
|| range.at(1) != QLatin1Char('-')) {
qWarning("Invalid range for char mapping function: %s", qPrintable(range));
continue;
}
TransitionSequence seq;
seq.first = range.at(0).unicode();
seq.last = range.at(2).unicode();
seq.testFunction = entry.value;
charFunctionRanges.append(seq);
}
QString tokenPrefix = section.value("TokenPrefix");
if (!tokenPrefix.isEmpty()) {
for (int i = 0; i < dfa.count(); ++i)
if (!dfa.at(i).symbol.isEmpty()
&& !dfa.at(i).symbol.endsWith(QLatin1String("()")))
dfa[i].symbol.prepend(tokenPrefix);
}
headerFileName = section.value("FileHeader");
}
static inline bool adjacentKeys(int left, int right) { return left + 1 == right; }
//static inline bool adjacentKeys(const InputType &left, const InputType &right)
//{ return left.val + 1 == right.val; }
static QList<Generator::TransitionSequence> convertToSequences(const TransitionMap &transitions)
{
QList<Generator::TransitionSequence> sequences;
if (transitions.isEmpty())
return sequences;
QList<InputType> keys = transitions.keys();
std::sort(keys.begin(), keys.end());
int i = 0;
Generator::TransitionSequence sequence;
sequence.first = keys.at(0);
++i;
for (; i < keys.count(); ++i) {
if (adjacentKeys(keys.at(i - 1), keys.at(i))
&& transitions.value(keys.at(i)) == transitions.value(keys.at(i - 1))) {
continue;
}
sequence.last = keys.at(i - 1);
sequence.transition = transitions.value(sequence.last);
sequences.append(sequence);
sequence.first = keys.at(i);
}
sequence.last = keys.at(i - 1);
sequence.transition = transitions.value(sequence.last);
sequences.append(sequence);
return sequences;
}
QDebug &operator<<(QDebug &debug, const Generator::TransitionSequence &seq)
{
return debug << "[first:" << seq.first << "; last:" << seq.last << "; transition:" << seq.transition
<< (seq.testFunction.isEmpty() ? QString() : QString(QString("; testfunction:" + seq.testFunction)))
<< "]";
}
bool Generator::isSingleReferencedFinalState(int i) const
{
return backReferenceMap.value(i) == 1
&& dfa.at(i).transitions.isEmpty()
&& !dfa.at(i).symbol.isEmpty();
}
void Generator::generateTransitions(CodeBlock &body, const TransitionMap &transitions)
{
if (transitions.isEmpty())
return;
QList<TransitionSequence> sequences = convertToSequences(transitions);
bool needsCharFunction = false;
if (!charFunctionRanges.isEmpty()) {
int i = 0;
while (i < sequences.count()) {
const TransitionSequence &seq = sequences.at(i);
if (!seq.testFunction.isEmpty()) {
++i;
continue;
}
foreach (TransitionSequence range, charFunctionRanges)
if (range.first >= seq.first && range.last <= seq.last) {
needsCharFunction = true;
TransitionSequence left, middle, right;
left.first = seq.first;
left.last = range.first - 1;
left.transition = seq.transition;
middle = range;
middle.transition = seq.transition;
right.first = range.last + 1;
right.last = seq.last;
right.transition = seq.transition;
sequences.remove(i);
if (left.last >= left.first) {
sequences.insert(i, left);
++i;
}
sequences.insert(i, middle);
++i;
if (right.last >= right.first) {
sequences.insert(i, right);
++i;
}
i = -1;
break;
}
++i;
}
}
//qDebug() << "sequence count" << sequences.count();
//qDebug() << sequences;
if (sequences.count() < 10
|| sequences.last().last == maxInput
|| needsCharFunction) {
foreach (TransitionSequence seq, sequences) {
const bool embedFinalState = isSingleReferencedFinalState(seq.transition);
QString brace;
if (embedFinalState)
brace = " {";
if (!seq.testFunction.isEmpty()) {
body << "if (" << seq.testFunction << ")" << brace;
} else if (seq.first == seq.last) {
body << "if (ch.unicode() == " << seq.first << ")" << brace;
} else {
if (seq.last < maxInput)
body << "if (ch.unicode() >= " << seq.first
<< " && ch.unicode() <= " << seq.last << ")" << brace;
else
body << "if (ch.unicode() >= " << seq.first << ")" << brace;
}
body.indent();
if (embedFinalState) {
body << "token = " << dfa.at(seq.transition).symbol << ";";
body << "goto found;";
body.outdent();
body << "}";
} else {
body << "goto state_" << seq.transition << ";";
body.outdent();
}
}
} else {
QList<InputType> keys = transitions.keys();
std::sort(keys.begin(), keys.end());
body << "switch (ch.unicode()) {";
body.indent();
for (int k = 0; k < keys.count(); ++k) {
const InputType key = keys.at(k);
const int trans = transitions.value(key);
QString keyStr;
if (key == '\\')
keyStr = QString("\'\\\\\'");
else if (key >= 48 && key < 127)
keyStr = QString('\'') + QChar::fromLatin1(char(key)) + QChar('\'');
else
keyStr = QString::number(key);
if (k < keys.count() - 1
&& transitions.value(keys.at(k + 1)) == trans) {
body << "case " << keyStr << ":";
} else {
if (isSingleReferencedFinalState(trans)) {
body << "case " << keyStr << ": token = " << dfa.at(trans).symbol << "; goto found;";
} else {
body << "case " << keyStr << ": goto state_" << trans << ";";
}
}
}
body.outdent();
body << "}";
}
}
QString Generator::generate()
{
Class klass(cfg.className);
klass.addMember(Class::PublicMember, "QString input");
klass.addMember(Class::PublicMember, "int pos");
klass.addMember(Class::PublicMember, "int lexemStart");
klass.addMember(Class::PublicMember, "int lexemLength");
{
CodeBlock body;
body << "input = inp;";
body << "pos = 0;";
body << "lexemStart = 0;";
body << "lexemLength = 0;";
klass.addConstructor(Class::PublicMember, body, "const QString &inp");
}
{
Function next("QChar", "next()");
next.setInline(true);
if (cfg.caseSensitivity == Qt::CaseSensitive)
next.addBody("return (pos < input.length()) ? input.at(pos++) : QChar();");
else
next.addBody("return (pos < input.length()) ? input.at(pos++).toLower() : QChar();");
klass.addMember(Class::PublicMember, next);
}
/*
{
Function lexem("QString", "lexem()");
lexem.setConst(true);
lexem.setInline(true);
lexem.addBody("return input.mid(lexemStart, lexemLength);");
klass.addMember(Class::PublicMember, lexem);
}
*/
for (int i = 0; i < dfa.count(); ++i)
if (dfa.at(i).symbol.endsWith(QLatin1String("()"))) {
Function handlerFunc("int", dfa.at(i).symbol);
klass.addMember(Class::PublicMember, handlerFunc);
}
Function lexFunc;
lexFunc.setReturnType("int");
lexFunc.setName("lex()");
CodeBlock body;
body << "lexemStart = pos;";
body << "lexemLength = 0;";
body << "int lastAcceptingPos = -1;";
body << "int token = -1;";
body << "QChar ch;";
body.addNewLine();
backReferenceMap.clear();
foreach (State s, dfa)
foreach (int state, s.transitions)
backReferenceMap[state]++;
bool haveSingleReferencedFinalState = false;
for (int i = 0; i < dfa.count(); ++i) {
if (isSingleReferencedFinalState(i)) {
haveSingleReferencedFinalState = true;
continue;
}
if (i > 0)
body << "state_" << i << ":";
else
body << "// initial state";
body.indent();
if (!dfa.at(i).symbol.isEmpty()) {
body << "lastAcceptingPos = pos;";
body << "token = " << dfa.at(i).symbol << ";";
}
body.outdent();
body.indent();
if (!dfa.at(i).transitions.isEmpty()) {
body << "ch = next();";
generateTransitions(body, dfa.at(i).transitions);
}
body << "goto out;";
body.outdent();
}
if (haveSingleReferencedFinalState) {
body << "found:";
body << "lastAcceptingPos = pos;";
body.addNewLine();
}
body << "out:";
body << "if (lastAcceptingPos != -1) {";
body.indent();
body << "lexemLength = lastAcceptingPos - lexemStart;";
body << "pos = lastAcceptingPos;";
body.outdent();
body << "}";
body << "return token;";
lexFunc.addBody(body);
klass.addMember(Class::PublicMember, lexFunc);
QString header;
if (!headerFileName.isEmpty()) {
QString self(QDir::fromNativeSeparators(QStringLiteral(__FILE__)));
int lastSep = self.lastIndexOf(QChar('/'));
QDir here(lastSep < 0 ? QStringLiteral(".") : self.left(lastSep));
QFile headerFile(QDir::cleanPath(here.filePath(headerFileName)));
if (headerFile.exists() && headerFile.open(QIODevice::ReadOnly))
header = QString::fromUtf8(headerFile.readAll());
}
header += QLatin1String("// auto generated by qtbase/util/lexgen/. DO NOT EDIT.\n");
return header + klass.declaration() + klass.definition();
}