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|
/****************************************************************************
**
** Copyright (C) 2012 Digia Plc and/or its subsidiary(-ies).
** Contact: http://www.qt-project.org/legal
**
** This file is part of the tools applications of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** 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 Digia. For licensing terms and
** conditions see http://qt.digia.com/licensing. For further information
** use the contact form at http://qt.digia.com/contact-us.
**
** GNU Lesser General Public License Usage
** Alternatively, this file may be used under the terms of the GNU Lesser
** General Public License version 2.1 as published by the Free Software
** Foundation and appearing in the file LICENSE.LGPL included in the
** packaging of this file. Please review the following information to
** ensure the GNU Lesser General Public License version 2.1 requirements
** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
**
** In addition, as a special exception, Digia gives you certain additional
** rights. These rights are described in the Digia Qt LGPL Exception
** version 1.1, included in the file LGPL_EXCEPTION.txt in this package.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU
** General Public License version 3.0 as published by the Free Software
** Foundation and appearing in the file LICENSE.GPL included in the
** packaging of this file. Please review the following information to
** ensure the GNU General Public License version 3.0 requirements will be
** met: http://www.gnu.org/copyleft/gpl.html.
**
**
** $QT_END_LICENSE$
**
****************************************************************************/
#include "moc.h"
#include "generator.h"
#include "qdatetime.h"
#include "utils.h"
#include "outputrevision.h"
// for normalizeTypeInternal
#include <private/qmetaobject_p.h>
QT_BEGIN_NAMESPACE
// only moc needs this function
static QByteArray normalizeType(const char *s, bool fixScope = false)
{
int len = qstrlen(s);
char stackbuf[64];
char *buf = (len >= 64 ? new char[len + 1] : stackbuf);
char *d = buf;
char last = 0;
while(*s && is_space(*s))
s++;
while (*s) {
while (*s && !is_space(*s))
last = *d++ = *s++;
while (*s && is_space(*s))
s++;
if (*s && ((is_ident_char(*s) && is_ident_char(last))
|| ((*s == ':') && (last == '<')))) {
last = *d++ = ' ';
}
}
*d = '\0';
QByteArray result;
if (strncmp("void", buf, d - buf) != 0)
result = normalizeTypeInternal(buf, d, fixScope);
if (buf != stackbuf)
delete [] buf;
return result;
}
bool Moc::parseClassHead(ClassDef *def)
{
// figure out whether this is a class declaration, or only a
// forward or variable declaration.
int i = 0;
Token token;
do {
token = lookup(i++);
if (token == COLON || token == LBRACE)
break;
if (token == SEMIC || token == RANGLE)
return false;
} while (token);
if (!test(IDENTIFIER)) // typedef struct { ... }
return false;
QByteArray name = lexem();
// support "class IDENT name" and "class IDENT(IDENT) name"
if (test(LPAREN)) {
until(RPAREN);
if (!test(IDENTIFIER))
return false;
name = lexem();
} else if (test(IDENTIFIER)) {
name = lexem();
}
def->qualified += name;
while (test(SCOPE)) {
def->qualified += lexem();
if (test(IDENTIFIER)) {
name = lexem();
def->qualified += name;
}
}
def->classname = name;
if (test(COLON)) {
do {
test(VIRTUAL);
FunctionDef::Access access = FunctionDef::Public;
if (test(PRIVATE))
access = FunctionDef::Private;
else if (test(PROTECTED))
access = FunctionDef::Protected;
else
test(PUBLIC);
test(VIRTUAL);
const QByteArray type = parseType().name;
// ignore the 'class Foo : BAR(Baz)' case
if (test(LPAREN)) {
until(RPAREN);
} else {
def->superclassList += qMakePair(type, access);
}
} while (test(COMMA));
}
if (!test(LBRACE))
return false;
def->begin = index - 1;
bool foundRBrace = until(RBRACE);
def->end = index;
index = def->begin + 1;
return foundRBrace;
}
Type Moc::parseType()
{
Type type;
bool hasSignedOrUnsigned = false;
bool isVoid = false;
type.firstToken = lookup();
for (;;) {
switch (next()) {
case SIGNED:
case UNSIGNED:
hasSignedOrUnsigned = true;
// fall through
case CONST:
case VOLATILE:
type.name += lexem();
type.name += ' ';
if (lookup(0) == VOLATILE)
type.isVolatile = true;
continue;
case Q_MOC_COMPAT_TOKEN:
case Q_QT3_SUPPORT_TOKEN:
case Q_INVOKABLE_TOKEN:
case Q_SCRIPTABLE_TOKEN:
case Q_SIGNALS_TOKEN:
case Q_SLOTS_TOKEN:
case Q_SIGNAL_TOKEN:
case Q_SLOT_TOKEN:
type.name += lexem();
return type;
default:
prev();
break;
}
break;
}
test(ENUM) || test(CLASS) || test(STRUCT);
for(;;) {
switch (next()) {
case IDENTIFIER:
// void mySlot(unsigned myArg)
if (hasSignedOrUnsigned) {
prev();
break;
}
case CHAR:
case SHORT:
case INT:
case LONG:
type.name += lexem();
// preserve '[unsigned] long long', 'short int', 'long int', 'long double'
if (test(LONG) || test(INT) || test(DOUBLE)) {
type.name += ' ';
prev();
continue;
}
break;
case FLOAT:
case DOUBLE:
case VOID:
case BOOL:
type.name += lexem();
isVoid |= (lookup(0) == VOID);
break;
default:
prev();
;
}
if (test(LANGLE)) {
QByteArray templ = lexemUntil(RANGLE);
for (int i = 0; i < templ.size(); ++i) {
type.name += templ.at(i);
if ((templ.at(i) == '<' && i+1 < templ.size() && templ.at(i+1) == ':')
|| (templ.at(i) == '>' && i+1 < templ.size() && templ.at(i+1) == '>')) {
type.name += ' ';
}
}
}
if (test(SCOPE)) {
type.name += lexem();
type.isScoped = true;
} else {
break;
}
}
while (test(CONST) || test(VOLATILE) || test(SIGNED) || test(UNSIGNED)
|| test(STAR) || test(AND) || test(ANDAND)) {
type.name += ' ';
type.name += lexem();
if (lookup(0) == AND)
type.referenceType = Type::Reference;
else if (lookup(0) == ANDAND)
type.referenceType = Type::RValueReference;
else if (lookup(0) == STAR)
type.referenceType = Type::Pointer;
}
// transform stupid things like 'const void' or 'void const' into 'void'
if (isVoid && type.referenceType == Type::NoReference) {
type.name = "void";
}
return type;
}
bool Moc::parseEnum(EnumDef *def)
{
bool isTypdefEnum = false; // typedef enum { ... } Foo;
if (test(IDENTIFIER)) {
def->name = lexem();
} else {
if (lookup(-1) != TYPEDEF)
return false; // anonymous enum
isTypdefEnum = true;
}
if (!test(LBRACE))
return false;
do {
if (lookup() == RBRACE) // accept trailing comma
break;
next(IDENTIFIER);
def->values += lexem();
} while (test(EQ) ? until(COMMA) : test(COMMA));
next(RBRACE);
if (isTypdefEnum) {
if (!test(IDENTIFIER))
return false;
def->name = lexem();
}
return true;
}
void Moc::parseFunctionArguments(FunctionDef *def)
{
Q_UNUSED(def);
while (hasNext()) {
ArgumentDef arg;
arg.type = parseType();
if (arg.type.name == "void")
break;
if (test(IDENTIFIER))
arg.name = lexem();
while (test(LBRACK)) {
arg.rightType += lexemUntil(RBRACK);
}
if (test(CONST) || test(VOLATILE)) {
arg.rightType += ' ';
arg.rightType += lexem();
}
arg.normalizedType = normalizeType(QByteArray(arg.type.name + ' ' + arg.rightType));
arg.typeNameForCast = normalizeType(QByteArray(noRef(arg.type.name) + "(*)" + arg.rightType));
if (test(EQ))
arg.isDefault = true;
def->arguments += arg;
if (!until(COMMA))
break;
}
}
bool Moc::testFunctionAttribute(FunctionDef *def)
{
if (index < symbols.size() && testFunctionAttribute(symbols.at(index).token, def)) {
++index;
return true;
}
return false;
}
bool Moc::testFunctionAttribute(Token tok, FunctionDef *def)
{
switch (tok) {
case Q_MOC_COMPAT_TOKEN:
case Q_QT3_SUPPORT_TOKEN:
def->isCompat = true;
return true;
case Q_INVOKABLE_TOKEN:
def->isInvokable = true;
return true;
case Q_SIGNAL_TOKEN:
def->isSignal = true;
return true;
case Q_SLOT_TOKEN:
def->isSlot = true;
return true;
case Q_SCRIPTABLE_TOKEN:
def->isInvokable = def->isScriptable = true;
return true;
default: break;
}
return false;
}
bool Moc::testFunctionRevision(FunctionDef *def)
{
if (test(Q_REVISION_TOKEN)) {
next(LPAREN);
QByteArray revision = lexemUntil(RPAREN);
revision.remove(0, 1);
revision.chop(1);
bool ok = false;
def->revision = revision.toInt(&ok);
if (!ok || def->revision < 0)
error("Invalid revision");
return true;
}
return false;
}
// returns false if the function should be ignored
bool Moc::parseFunction(FunctionDef *def, bool inMacro)
{
def->isVirtual = false;
def->isStatic = false;
//skip modifiers and attributes
while (test(INLINE) || (test(STATIC) && (def->isStatic = true)) ||
(test(VIRTUAL) && (def->isVirtual = true)) //mark as virtual
|| testFunctionAttribute(def) || testFunctionRevision(def)) {}
bool templateFunction = (lookup() == TEMPLATE);
def->type = parseType();
if (def->type.name.isEmpty()) {
if (templateFunction)
error("Template function as signal or slot");
else
error();
}
bool scopedFunctionName = false;
if (test(LPAREN)) {
def->name = def->type.name;
scopedFunctionName = def->type.isScoped;
def->type = Type("int");
} else {
Type tempType = parseType();;
while (!tempType.name.isEmpty() && lookup() != LPAREN) {
if (testFunctionAttribute(def->type.firstToken, def))
; // fine
else if (def->type.firstToken == Q_SIGNALS_TOKEN)
error();
else if (def->type.firstToken == Q_SLOTS_TOKEN)
error();
else {
if (!def->tag.isEmpty())
def->tag += ' ';
def->tag += def->type.name;
}
def->type = tempType;
tempType = parseType();
}
next(LPAREN, "Not a signal or slot declaration");
def->name = tempType.name;
scopedFunctionName = tempType.isScoped;
}
// we don't support references as return types, it's too dangerous
if (def->type.referenceType == Type::Reference)
def->type = Type("void");
def->normalizedType = normalizeType(def->type.name);
if (!test(RPAREN)) {
parseFunctionArguments(def);
next(RPAREN);
}
// support optional macros with compiler specific options
while (test(IDENTIFIER))
;
def->isConst = test(CONST);
while (test(IDENTIFIER))
;
if (inMacro) {
next(RPAREN);
prev();
} else {
if (test(THROW)) {
next(LPAREN);
until(RPAREN);
}
if (test(SEMIC))
;
else if ((def->inlineCode = test(LBRACE)))
until(RBRACE);
else if ((def->isAbstract = test(EQ)))
until(SEMIC);
else
error();
}
if (scopedFunctionName) {
QByteArray msg("Function declaration ");
msg += def->name;
msg += " contains extra qualification. Ignoring as signal or slot.";
warning(msg.constData());
return false;
}
return true;
}
// like parseFunction, but never aborts with an error
bool Moc::parseMaybeFunction(const ClassDef *cdef, FunctionDef *def)
{
def->isVirtual = false;
def->isStatic = false;
//skip modifiers and attributes
while (test(EXPLICIT) || test(INLINE) || (test(STATIC) && (def->isStatic = true)) ||
(test(VIRTUAL) && (def->isVirtual = true)) //mark as virtual
|| testFunctionAttribute(def) || testFunctionRevision(def)) {}
bool tilde = test(TILDE);
def->type = parseType();
if (def->type.name.isEmpty())
return false;
bool scopedFunctionName = false;
if (test(LPAREN)) {
def->name = def->type.name;
scopedFunctionName = def->type.isScoped;
if (def->name == cdef->classname) {
def->isDestructor = tilde;
def->isConstructor = !tilde;
def->type = Type();
} else {
def->type = Type("int");
}
} else {
Type tempType = parseType();;
while (!tempType.name.isEmpty() && lookup() != LPAREN) {
if (testFunctionAttribute(def->type.firstToken, def))
; // fine
else if (def->type.name == "Q_SIGNAL")
def->isSignal = true;
else if (def->type.name == "Q_SLOT")
def->isSlot = true;
else {
if (!def->tag.isEmpty())
def->tag += ' ';
def->tag += def->type.name;
}
def->type = tempType;
tempType = parseType();
}
if (!test(LPAREN))
return false;
def->name = tempType.name;
scopedFunctionName = tempType.isScoped;
}
// we don't support references as return types, it's too dangerous
if (def->type.referenceType == Type::Reference)
def->type = Type("void");
def->normalizedType = normalizeType(def->type.name);
if (!test(RPAREN)) {
parseFunctionArguments(def);
if (!test(RPAREN))
return false;
}
def->isConst = test(CONST);
if (scopedFunctionName
&& (def->isSignal || def->isSlot || def->isInvokable)) {
QByteArray msg("parsemaybe: Function declaration ");
msg += def->name;
msg += " contains extra qualification. Ignoring as signal or slot.";
warning(msg.constData());
return false;
}
return true;
}
void Moc::parse()
{
QList<NamespaceDef> namespaceList;
bool templateClass = false;
while (hasNext()) {
Token t = next();
switch (t) {
case NAMESPACE: {
int rewind = index;
if (test(IDENTIFIER)) {
if (test(EQ)) {
// namespace Foo = Bar::Baz;
until(SEMIC);
} else if (!test(SEMIC)) {
NamespaceDef def;
def.name = lexem();
next(LBRACE);
def.begin = index - 1;
until(RBRACE);
def.end = index;
index = def.begin + 1;
namespaceList += def;
index = rewind;
}
}
break;
}
case SEMIC:
case RBRACE:
templateClass = false;
break;
case TEMPLATE:
templateClass = true;
break;
case MOC_INCLUDE_BEGIN:
currentFilenames.push(symbol().unquotedLexem());
break;
case MOC_INCLUDE_END:
currentFilenames.pop();
break;
case Q_DECLARE_INTERFACE_TOKEN:
parseDeclareInterface();
break;
case Q_DECLARE_METATYPE_TOKEN:
parseDeclareMetatype();
break;
case USING:
if (test(NAMESPACE)) {
while (test(SCOPE) || test(IDENTIFIER))
;
next(SEMIC);
}
break;
case CLASS:
case STRUCT: {
if (currentFilenames.size() <= 1)
break;
ClassDef def;
if (!parseClassHead(&def))
continue;
while (inClass(&def) && hasNext()) {
if (next() == Q_OBJECT_TOKEN) {
def.hasQObject = true;
break;
}
}
if (!def.hasQObject)
continue;
for (int i = namespaceList.size() - 1; i >= 0; --i)
if (inNamespace(&namespaceList.at(i)))
def.qualified.prepend(namespaceList.at(i).name + "::");
knownQObjectClasses.insert(def.classname);
knownQObjectClasses.insert(def.qualified);
continue; }
default: break;
}
if ((t != CLASS && t != STRUCT)|| currentFilenames.size() > 1)
continue;
ClassDef def;
if (parseClassHead(&def)) {
FunctionDef::Access access = FunctionDef::Private;
for (int i = namespaceList.size() - 1; i >= 0; --i)
if (inNamespace(&namespaceList.at(i)))
def.qualified.prepend(namespaceList.at(i).name + "::");
while (inClass(&def) && hasNext()) {
switch ((t = next())) {
case PRIVATE:
access = FunctionDef::Private;
if (test(Q_SIGNALS_TOKEN))
error("Signals cannot have access specifier");
break;
case PROTECTED:
access = FunctionDef::Protected;
if (test(Q_SIGNALS_TOKEN))
error("Signals cannot have access specifier");
break;
case PUBLIC:
access = FunctionDef::Public;
if (test(Q_SIGNALS_TOKEN))
error("Signals cannot have access specifier");
break;
case CLASS: {
ClassDef nestedDef;
if (parseClassHead(&nestedDef)) {
while (inClass(&nestedDef) && inClass(&def)) {
t = next();
if (t >= Q_META_TOKEN_BEGIN && t < Q_META_TOKEN_END)
error("Meta object features not supported for nested classes");
}
}
} break;
case Q_SIGNALS_TOKEN:
parseSignals(&def);
break;
case Q_SLOTS_TOKEN:
switch (lookup(-1)) {
case PUBLIC:
case PROTECTED:
case PRIVATE:
parseSlots(&def, access);
break;
default:
error("Missing access specifier for slots");
}
break;
case Q_OBJECT_TOKEN:
def.hasQObject = true;
if (templateClass)
error("Template classes not supported by Q_OBJECT");
if (def.classname != "Qt" && def.classname != "QObject" && def.superclassList.isEmpty())
error("Class contains Q_OBJECT macro but does not inherit from QObject");
break;
case Q_GADGET_TOKEN:
def.hasQGadget = true;
if (templateClass)
error("Template classes not supported by Q_GADGET");
break;
case Q_PROPERTY_TOKEN:
parseProperty(&def);
break;
case Q_ENUMS_TOKEN:
parseEnumOrFlag(&def, false);
break;
case Q_FLAGS_TOKEN:
parseEnumOrFlag(&def, true);
break;
case Q_DECLARE_FLAGS_TOKEN:
parseFlag(&def);
break;
case Q_CLASSINFO_TOKEN:
parseClassInfo(&def);
break;
case Q_INTERFACES_TOKEN:
parseInterfaces(&def);
break;
case Q_PRIVATE_SLOT_TOKEN:
parseSlotInPrivate(&def, access);
break;
case Q_PRIVATE_PROPERTY_TOKEN:
parsePrivateProperty(&def);
break;
case ENUM: {
EnumDef enumDef;
if (parseEnum(&enumDef))
def.enumList += enumDef;
} break;
case SEMIC:
case COLON:
break;
default:
FunctionDef funcDef;
funcDef.access = access;
int rewind = index--;
if (parseMaybeFunction(&def, &funcDef)) {
if (funcDef.isConstructor) {
if ((access == FunctionDef::Public) && funcDef.isInvokable) {
def.constructorList += funcDef;
while (funcDef.arguments.size() > 0 && funcDef.arguments.last().isDefault) {
funcDef.wasCloned = true;
funcDef.arguments.removeLast();
def.constructorList += funcDef;
}
}
} else if (funcDef.isDestructor) {
// don't care about destructors
} else {
if (access == FunctionDef::Public)
def.publicList += funcDef;
if (funcDef.isSlot) {
def.slotList += funcDef;
while (funcDef.arguments.size() > 0 && funcDef.arguments.last().isDefault) {
funcDef.wasCloned = true;
funcDef.arguments.removeLast();
def.slotList += funcDef;
}
if (funcDef.revision > 0)
++def.revisionedMethods;
} else if (funcDef.isSignal) {
def.signalList += funcDef;
while (funcDef.arguments.size() > 0 && funcDef.arguments.last().isDefault) {
funcDef.wasCloned = true;
funcDef.arguments.removeLast();
def.signalList += funcDef;
}
if (funcDef.revision > 0)
++def.revisionedMethods;
} else if (funcDef.isInvokable) {
def.methodList += funcDef;
while (funcDef.arguments.size() > 0 && funcDef.arguments.last().isDefault) {
funcDef.wasCloned = true;
funcDef.arguments.removeLast();
def.methodList += funcDef;
}
if (funcDef.revision > 0)
++def.revisionedMethods;
}
}
} else {
index = rewind;
}
}
}
next(RBRACE);
if (!def.hasQObject && !def.hasQGadget && def.signalList.isEmpty() && def.slotList.isEmpty()
&& def.propertyList.isEmpty() && def.enumDeclarations.isEmpty())
continue; // no meta object code required
if (!def.hasQObject && !def.hasQGadget)
error("Class declarations lacks Q_OBJECT macro.");
checkSuperClasses(&def);
checkProperties(&def);
classList += def;
knownQObjectClasses.insert(def.classname);
knownQObjectClasses.insert(def.qualified);
}
}
}
void Moc::generate(FILE *out)
{
QDateTime dt = QDateTime::currentDateTime();
QByteArray dstr = dt.toString().toLatin1();
QByteArray fn = filename;
int i = filename.length()-1;
while (i>0 && filename[i-1] != '/' && filename[i-1] != '\\')
--i; // skip path
if (i >= 0)
fn = filename.mid(i);
fprintf(out, "/****************************************************************************\n"
"** Meta object code from reading C++ file '%s'\n**\n" , (const char*)fn);
fprintf(out, "** Created: %s\n"
"** by: The Qt Meta Object Compiler version %d (Qt %s)\n**\n" , dstr.data(), mocOutputRevision, QT_VERSION_STR);
fprintf(out, "** WARNING! All changes made in this file will be lost!\n"
"*****************************************************************************/\n\n");
if (!noInclude) {
if (includePath.size() && !includePath.endsWith('/'))
includePath += '/';
for (int i = 0; i < includeFiles.size(); ++i) {
QByteArray inc = includeFiles.at(i);
if (inc[0] != '<' && inc[0] != '"') {
if (includePath.size() && includePath != "./")
inc.prepend(includePath);
inc = '\"' + inc + '\"';
}
fprintf(out, "#include %s\n", inc.constData());
}
}
if (classList.size() && classList.first().classname == "Qt")
fprintf(out, "#include <QtCore/qobject.h>\n");
if (mustIncludeQMetaTypeH)
fprintf(out, "#include <QtCore/qmetatype.h>\n");
fprintf(out, "#if !defined(Q_MOC_OUTPUT_REVISION)\n"
"#error \"The header file '%s' doesn't include <QObject>.\"\n", (const char *)fn);
fprintf(out, "#elif Q_MOC_OUTPUT_REVISION != %d\n", mocOutputRevision);
fprintf(out, "#error \"This file was generated using the moc from %s."
" It\"\n#error \"cannot be used with the include files from"
" this version of Qt.\"\n#error \"(The moc has changed too"
" much.)\"\n", QT_VERSION_STR);
fprintf(out, "#endif\n\n");
fprintf(out, "QT_BEGIN_MOC_NAMESPACE\n");
for (i = 0; i < classList.size(); ++i) {
Generator generator(&classList[i], metaTypes, out);
generator.generateCode();
}
fprintf(out, "QT_END_MOC_NAMESPACE\n");
}
QList<QMetaObject*> Moc::generate(bool ignoreProperties)
{
QList<QMetaObject*> result;
for (int i = 0; i < classList.size(); ++i) {
Generator generator(&classList[i], metaTypes);
result << generator.generateMetaObject(ignoreProperties);
}
return result;
}
void Moc::parseSlots(ClassDef *def, FunctionDef::Access access)
{
int defaultRevision = -1;
if (test(Q_REVISION_TOKEN)) {
next(LPAREN);
QByteArray revision = lexemUntil(RPAREN);
revision.remove(0, 1);
revision.chop(1);
bool ok = false;
defaultRevision = revision.toInt(&ok);
if (!ok || defaultRevision < 0)
error("Invalid revision");
}
next(COLON);
while (inClass(def) && hasNext()) {
switch (next()) {
case PUBLIC:
case PROTECTED:
case PRIVATE:
case Q_SIGNALS_TOKEN:
case Q_SLOTS_TOKEN:
prev();
return;
case SEMIC:
continue;
case FRIEND:
until(SEMIC);
continue;
case USING:
error("'using' directive not supported in 'slots' section");
default:
prev();
}
FunctionDef funcDef;
funcDef.access = access;
if (!parseFunction(&funcDef))
continue;
if (funcDef.revision > 0) {
++def->revisionedMethods;
} else if (defaultRevision != -1) {
funcDef.revision = defaultRevision;
++def->revisionedMethods;
}
def->slotList += funcDef;
while (funcDef.arguments.size() > 0 && funcDef.arguments.last().isDefault) {
funcDef.wasCloned = true;
funcDef.arguments.removeLast();
def->slotList += funcDef;
}
}
}
void Moc::parseSignals(ClassDef *def)
{
int defaultRevision = -1;
if (test(Q_REVISION_TOKEN)) {
next(LPAREN);
QByteArray revision = lexemUntil(RPAREN);
revision.remove(0, 1);
revision.chop(1);
bool ok = false;
defaultRevision = revision.toInt(&ok);
if (!ok || defaultRevision < 0)
error("Invalid revision");
}
next(COLON);
while (inClass(def) && hasNext()) {
switch (next()) {
case PUBLIC:
case PROTECTED:
case PRIVATE:
case Q_SIGNALS_TOKEN:
case Q_SLOTS_TOKEN:
prev();
return;
case SEMIC:
continue;
case FRIEND:
until(SEMIC);
continue;
case USING:
error("'using' directive not supported in 'signals' section");
default:
prev();
}
FunctionDef funcDef;
funcDef.access = FunctionDef::Protected;
parseFunction(&funcDef);
if (funcDef.isVirtual)
warning("Signals cannot be declared virtual");
if (funcDef.inlineCode)
error("Not a signal declaration");
if (funcDef.revision > 0) {
++def->revisionedMethods;
} else if (defaultRevision != -1) {
funcDef.revision = defaultRevision;
++def->revisionedMethods;
}
def->signalList += funcDef;
while (funcDef.arguments.size() > 0 && funcDef.arguments.last().isDefault) {
funcDef.wasCloned = true;
funcDef.arguments.removeLast();
def->signalList += funcDef;
}
}
}
void Moc::createPropertyDef(PropertyDef &propDef)
{
QByteArray type = parseType().name;
if (type.isEmpty())
error();
propDef.designable = propDef.scriptable = propDef.stored = "true";
propDef.user = "false";
/*
The Q_PROPERTY construct cannot contain any commas, since
commas separate macro arguments. We therefore expect users
to type "QMap" instead of "QMap<QString, QVariant>". For
coherence, we also expect the same for
QValueList<QVariant>, the other template class supported by
QVariant.
*/
type = normalizeType(type);
if (type == "QMap")
type = "QMap<QString,QVariant>";
else if (type == "QValueList")
type = "QValueList<QVariant>";
else if (type == "LongLong")
type = "qlonglong";
else if (type == "ULongLong")
type = "qulonglong";
else if (type == "qreal")
mustIncludeQMetaTypeH = true;
propDef.type = type;
next();
propDef.name = lexem();
while (test(IDENTIFIER)) {
QByteArray l = lexem();
if (l[0] == 'C' && l == "CONSTANT") {
propDef.constant = true;
continue;
} else if(l[0] == 'F' && l == "FINAL") {
propDef.final = true;
continue;
}
QByteArray v, v2;
if (test(LPAREN)) {
v = lexemUntil(RPAREN);
} else if (test(INTEGER_LITERAL)) {
v = lexem();
if (l != "REVISION")
error(1);
} else {
next(IDENTIFIER);
v = lexem();
if (test(LPAREN))
v2 = lexemUntil(RPAREN);
else if (v != "true" && v != "false")
v2 = "()";
}
switch (l[0]) {
case 'R':
if (l == "READ")
propDef.read = v;
else if (l == "RESET")
propDef.reset = v + v2;
else if (l == "REVISION") {
bool ok = false;
propDef.revision = v.toInt(&ok);
if (!ok || propDef.revision < 0)
error(1);
} else
error(2);
break;
case 'S':
if (l == "SCRIPTABLE")
propDef.scriptable = v + v2;
else if (l == "STORED")
propDef.stored = v + v2;
else
error(2);
break;
case 'W': if (l != "WRITE") error(2);
propDef.write = v;
break;
case 'D': if (l != "DESIGNABLE") error(2);
propDef.designable = v + v2;
break;
case 'E': if (l != "EDITABLE") error(2);
propDef.editable = v + v2;
break;
case 'N': if (l != "NOTIFY") error(2);
propDef.notify = v;
break;
case 'U': if (l != "USER") error(2);
propDef.user = v + v2;
break;
default:
error(2);
}
}
if (propDef.read.isNull()) {
QByteArray msg;
msg += "Property declaration ";
msg += propDef.name;
msg += " has no READ accessor function. The property will be invalid.";
warning(msg.constData());
}
if (propDef.constant && !propDef.write.isNull()) {
QByteArray msg;
msg += "Property declaration ";
msg += propDef.name;
msg += " is both WRITEable and CONSTANT. CONSTANT will be ignored.";
propDef.constant = false;
warning(msg.constData());
}
if (propDef.constant && !propDef.notify.isNull()) {
QByteArray msg;
msg += "Property declaration ";
msg += propDef.name;
msg += " is both NOTIFYable and CONSTANT. CONSTANT will be ignored.";
propDef.constant = false;
warning(msg.constData());
}
}
void Moc::parseProperty(ClassDef *def)
{
next(LPAREN);
PropertyDef propDef;
createPropertyDef(propDef);
next(RPAREN);
if(!propDef.notify.isEmpty())
def->notifyableProperties++;
if (propDef.revision > 0)
++def->revisionedProperties;
def->propertyList += propDef;
}
void Moc::parsePrivateProperty(ClassDef *def)
{
next(LPAREN);
PropertyDef propDef;
next(IDENTIFIER);
propDef.inPrivateClass = lexem();
while (test(SCOPE)) {
propDef.inPrivateClass += lexem();
next(IDENTIFIER);
propDef.inPrivateClass += lexem();
}
// also allow void functions
if (test(LPAREN)) {
next(RPAREN);
propDef.inPrivateClass += "()";
}
next(COMMA);
createPropertyDef(propDef);
if(!propDef.notify.isEmpty())
def->notifyableProperties++;
if (propDef.revision > 0)
++def->revisionedProperties;
def->propertyList += propDef;
}
void Moc::parseEnumOrFlag(ClassDef *def, bool isFlag)
{
next(LPAREN);
QByteArray identifier;
while (test(IDENTIFIER)) {
identifier = lexem();
while (test(SCOPE) && test(IDENTIFIER)) {
identifier += "::";
identifier += lexem();
}
def->enumDeclarations[identifier] = isFlag;
}
next(RPAREN);
}
void Moc::parseFlag(ClassDef *def)
{
next(LPAREN);
QByteArray flagName, enumName;
while (test(IDENTIFIER)) {
flagName = lexem();
while (test(SCOPE) && test(IDENTIFIER)) {
flagName += "::";
flagName += lexem();
}
}
next(COMMA);
while (test(IDENTIFIER)) {
enumName = lexem();
while (test(SCOPE) && test(IDENTIFIER)) {
enumName += "::";
enumName += lexem();
}
}
def->flagAliases.insert(enumName, flagName);
next(RPAREN);
}
void Moc::parseClassInfo(ClassDef *def)
{
next(LPAREN);
ClassInfoDef infoDef;
next(STRING_LITERAL);
infoDef.name = symbol().unquotedLexem();
next(COMMA);
if (test(STRING_LITERAL)) {
infoDef.value = symbol().unquotedLexem();
} else {
// support Q_CLASSINFO("help", QT_TR_NOOP("blah"))
next(IDENTIFIER);
next(LPAREN);
next(STRING_LITERAL);
infoDef.value = symbol().unquotedLexem();
next(RPAREN);
}
next(RPAREN);
def->classInfoList += infoDef;
}
void Moc::parseInterfaces(ClassDef *def)
{
next(LPAREN);
while (test(IDENTIFIER)) {
QList<ClassDef::Interface> iface;
iface += ClassDef::Interface(lexem());
while (test(SCOPE)) {
iface.last().className += lexem();
next(IDENTIFIER);
iface.last().className += lexem();
}
while (test(COLON)) {
next(IDENTIFIER);
iface += ClassDef::Interface(lexem());
while (test(SCOPE)) {
iface.last().className += lexem();
next(IDENTIFIER);
iface.last().className += lexem();
}
}
// resolve from classnames to interface ids
for (int i = 0; i < iface.count(); ++i) {
const QByteArray iid = interface2IdMap.value(iface.at(i).className);
if (iid.isEmpty())
error("Undefined interface");
iface[i].interfaceId = iid;
}
def->interfaceList += iface;
}
next(RPAREN);
}
void Moc::parseDeclareInterface()
{
next(LPAREN);
QByteArray interface;
next(IDENTIFIER);
interface += lexem();
while (test(SCOPE)) {
interface += lexem();
next(IDENTIFIER);
interface += lexem();
}
next(COMMA);
QByteArray iid;
if (test(STRING_LITERAL)) {
iid = lexem();
} else {
next(IDENTIFIER);
iid = lexem();
}
interface2IdMap.insert(interface, iid);
next(RPAREN);
}
void Moc::parseDeclareMetatype()
{
next(LPAREN);
QByteArray typeName = lexemUntil(RPAREN);
typeName.remove(0, 1);
typeName.chop(1);
metaTypes.append(typeName);
}
void Moc::parseSlotInPrivate(ClassDef *def, FunctionDef::Access access)
{
next(LPAREN);
FunctionDef funcDef;
next(IDENTIFIER);
funcDef.inPrivateClass = lexem();
// also allow void functions
if (test(LPAREN)) {
next(RPAREN);
funcDef.inPrivateClass += "()";
}
next(COMMA);
funcDef.access = access;
parseFunction(&funcDef, true);
def->slotList += funcDef;
while (funcDef.arguments.size() > 0 && funcDef.arguments.last().isDefault) {
funcDef.wasCloned = true;
funcDef.arguments.removeLast();
def->slotList += funcDef;
}
if (funcDef.revision > 0)
++def->revisionedMethods;
}
QByteArray Moc::lexemUntil(Token target)
{
int from = index;
until(target);
QByteArray s;
while (from <= index) {
QByteArray n = symbols.at(from++-1).lexem();
if (s.size() && n.size()
&& is_ident_char(s.at(s.size()-1))
&& is_ident_char(n.at(0)))
s += ' ';
s += n;
}
return s;
}
bool Moc::until(Token target) {
int braceCount = 0;
int brackCount = 0;
int parenCount = 0;
int angleCount = 0;
if (index) {
switch(symbols.at(index-1).token) {
case LBRACE: ++braceCount; break;
case LBRACK: ++brackCount; break;
case LPAREN: ++parenCount; break;
case LANGLE: ++angleCount; break;
default: break;
}
}
//when searching commas within the default argument, we should take care of template depth (anglecount)
// unfortunatelly, we do not have enough semantic information to know if '<' is the operator< or
// the beginning of a template type. so we just use heuristics.
int possible = -1;
while (index < symbols.size()) {
Token t = symbols.at(index++).token;
switch (t) {
case LBRACE: ++braceCount; break;
case RBRACE: --braceCount; break;
case LBRACK: ++brackCount; break;
case RBRACK: --brackCount; break;
case LPAREN: ++parenCount; break;
case RPAREN: --parenCount; break;
case LANGLE: ++angleCount; break;
case RANGLE: --angleCount; break;
case GTGT: angleCount -= 2; t = RANGLE; break;
default: break;
}
if (t == target
&& braceCount <= 0
&& brackCount <= 0
&& parenCount <= 0
&& (target != RANGLE || angleCount <= 0)) {
if (target != COMMA || angleCount <= 0)
return true;
possible = index;
}
if (target == COMMA && t == EQ && possible != -1) {
index = possible;
return true;
}
if (braceCount < 0 || brackCount < 0 || parenCount < 0
|| (target == RANGLE && angleCount < 0)) {
--index;
break;
}
}
if(target == COMMA && angleCount != 0 && possible != -1) {
index = possible;
return true;
}
return false;
}
void Moc::checkSuperClasses(ClassDef *def)
{
const QByteArray firstSuperclass = def->superclassList.value(0).first;
if (!knownQObjectClasses.contains(firstSuperclass)) {
// enable once we /require/ include paths
#if 0
QByteArray msg;
msg += "Class ";
msg += def->className;
msg += " contains the Q_OBJECT macro and inherits from ";
msg += def->superclassList.value(0);
msg += " but that is not a known QObject subclass. You may get compilation errors.";
warning(msg.constData());
#endif
return;
}
for (int i = 1; i < def->superclassList.count(); ++i) {
const QByteArray superClass = def->superclassList.at(i).first;
if (knownQObjectClasses.contains(superClass)) {
QByteArray msg;
msg += "Class ";
msg += def->classname;
msg += " inherits from two QObject subclasses ";
msg += firstSuperclass;
msg += " and ";
msg += superClass;
msg += ". This is not supported!";
warning(msg.constData());
}
if (interface2IdMap.contains(superClass)) {
bool registeredInterface = false;
for (int i = 0; i < def->interfaceList.count(); ++i)
if (def->interfaceList.at(i).first().className == superClass) {
registeredInterface = true;
break;
}
if (!registeredInterface) {
QByteArray msg;
msg += "Class ";
msg += def->classname;
msg += " implements the interface ";
msg += superClass;
msg += " but does not list it in Q_INTERFACES. qobject_cast to ";
msg += superClass;
msg += " will not work!";
warning(msg.constData());
}
}
}
}
void Moc::checkProperties(ClassDef *cdef)
{
//
// specify get function, for compatibiliy we accept functions
// returning pointers, or const char * for QByteArray.
//
for (int i = 0; i < cdef->propertyList.count(); ++i) {
PropertyDef &p = cdef->propertyList[i];
if (p.read.isEmpty())
continue;
for (int j = 0; j < cdef->publicList.count(); ++j) {
const FunctionDef &f = cdef->publicList.at(j);
if (f.name != p.read)
continue;
if (!f.isConst) // get functions must be const
continue;
if (f.arguments.size()) // and must not take any arguments
continue;
PropertyDef::Specification spec = PropertyDef::ValueSpec;
QByteArray tmp = f.normalizedType;
if (p.type == "QByteArray" && tmp == "const char *")
tmp = "QByteArray";
if (tmp.left(6) == "const ")
tmp = tmp.mid(6);
if (p.type != tmp && tmp.endsWith('*')) {
tmp.chop(1);
spec = PropertyDef::PointerSpec;
} else if (f.type.name.endsWith('&')) { // raw type, not normalized type
spec = PropertyDef::ReferenceSpec;
}
if (p.type != tmp)
continue;
p.gspec = spec;
break;
}
if(!p.notify.isEmpty()) {
int notifyId = -1;
for (int j = 0; j < cdef->signalList.count(); ++j) {
const FunctionDef &f = cdef->signalList.at(j);
if(f.name != p.notify) {
continue;
} else {
notifyId = j /* Signal indexes start from 0 */;
break;
}
}
p.notifyId = notifyId;
if (notifyId == -1) {
QByteArray msg = "NOTIFY signal '" + p.notify + "' of property '" + p.name
+ "' does not exist in class " + cdef->classname + ".";
error(msg.constData());
}
}
}
}
QT_END_NAMESPACE
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