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/*
cppcodeparser.cpp
*/
#include <QtCore>
#include <qfile.h>
#include <stdio.h>
#include <errno.h>
#include "codechunk.h"
#include "config.h"
#include "cppcodeparser.h"
#include "tokenizer.h"
#include "tree.h"
QT_BEGIN_NAMESPACE
/* qmake ignore Q_OBJECT */
#define COMMAND_CLASS Doc::alias("class")
#define COMMAND_CONTENTSPAGE Doc::alias("contentspage")
#define COMMAND_ENUM Doc::alias("enum")
#define COMMAND_EXAMPLE Doc::alias("example")
#define COMMAND_EXTERNALPAGE Doc::alias("externalpage")
#define COMMAND_FILE Doc::alias("file") // ### don't document
#define COMMAND_FN Doc::alias("fn")
#define COMMAND_GROUP Doc::alias("group")
#define COMMAND_HEADERFILE Doc::alias("headerfile")
#define COMMAND_INDEXPAGE Doc::alias("indexpage")
#define COMMAND_INHEADERFILE Doc::alias("inheaderfile") // ### don't document
#define COMMAND_MACRO Doc::alias("macro")
#define COMMAND_MODULE Doc::alias("module") // ### don't document
#define COMMAND_NAMESPACE Doc::alias("namespace")
#define COMMAND_OVERLOAD Doc::alias("overload")
#define COMMAND_NEXTPAGE Doc::alias("nextpage")
#define COMMAND_PAGE Doc::alias("page")
#define COMMAND_PREVIOUSPAGE Doc::alias("previouspage")
#define COMMAND_PROPERTY Doc::alias("property")
#define COMMAND_REIMP Doc::alias("reimp")
#define COMMAND_RELATES Doc::alias("relates")
#define COMMAND_SERVICE Doc::alias("service")
#define COMMAND_STARTPAGE Doc::alias("startpage")
#define COMMAND_TYPEDEF Doc::alias("typedef")
#define COMMAND_VARIABLE Doc::alias("variable")
#ifdef QDOC_QML
#define COMMAND_QMLCLASS Doc::alias("qmlclass")
#define COMMAND_QMLPROPERTY Doc::alias("qmlproperty")
#define COMMAND_QMLATTACHEDPROPERTY Doc::alias("qmlattachedproperty")
#define COMMAND_QMLINHERITS Doc::alias("inherits")
#define COMMAND_QMLSIGNAL Doc::alias("qmlsignal")
#define COMMAND_QMLMETHOD Doc::alias("qmlmethod")
#define COMMAND_QMLDEFAULT Doc::alias("default")
#endif
QStringList CppCodeParser::exampleFiles;
QStringList CppCodeParser::exampleDirs;
static void extractPageLinkAndDesc(const QString &arg,
QString *link,
QString *desc)
{
QRegExp bracedRegExp("\\{([^{}]*)\\}(?:\\{([^{}]*)\\})?");
if (bracedRegExp.exactMatch(arg)) {
*link = bracedRegExp.cap(1);
*desc = bracedRegExp.cap(2);
if (desc->isEmpty())
*desc = *link;
}
else {
int spaceAt = arg.indexOf(" ");
if (arg.contains(".html") && spaceAt != -1) {
*link = arg.left(spaceAt).trimmed();
*desc = arg.mid(spaceAt).trimmed();
}
else {
*link = arg;
*desc = arg;
}
}
}
static void setLink(Node *node, Node::LinkType linkType, const QString &arg)
{
QString link;
QString desc;
extractPageLinkAndDesc(arg, &link, &desc);
node->setLink(linkType, link, desc);
}
/*
This is used for fuzzy matching only, which in turn is only used
for Qt Jambi.
*/
static QString cleanType(const QString &type, const Tree *tree)
{
QString result = type;
result.replace("qlonglong", "long long");
result.replace("qulonglong", "unsigned long long");
result.replace("qreal", "double");
result.replace(QRegExp("\\bu(int|short|char|long)\\b"), "unsigned \\1");
result.replace("QRgb", "unsigned int");
result.replace(" >", ">");
result.remove(" const[]");
result.replace("QStringList<QString>", "QStringList");
result.replace("qint8", "char");
result.replace("qint16", "short");
result.replace("qint32", "int");
result.replace("qint64", "long long");
result.replace("quint8", "unsigned char");
result.replace("quint16", "unsigned short");
result.replace("quint32", "unsigned int");
result.replace("quint64", "unsigned long long");
if (result.contains("QFlags")) {
QRegExp regExp("QFlags<(((?:[^<>]+::)*)([^<>:]+))>");
int pos = 0;
while ((pos = result.indexOf(regExp, pos)) != -1) {
// we assume that the path for the associated enum
// is the same as for the flag typedef
QStringList path = regExp.cap(2).split("::",
QString::SkipEmptyParts);
const EnumNode *enume = static_cast<const EnumNode *>(
tree->findNode(QStringList(path) << regExp.cap(3),
Node::Enum));
if (enume && enume->flagsType())
result.replace(pos, regExp.matchedLength(),
(QStringList(path) << enume->flagsType()->name()).join("::"));
++pos;
}
}
if (result.contains("::")) {
// remove needless (and needful) class prefixes
QRegExp regExp("[A-Za-z0-9_]+::");
result.replace(regExp, "");
}
return result;
}
/*!
The constructor initializes some regular expressions
and calls reset().
*/
CppCodeParser::CppCodeParser()
: varComment("/\\*\\s*([a-zA-Z_0-9]+)\\s*\\*/"), sep("(?:<[^>]+>)?::")
{
reset(0);
}
/*!
The destructor is trivial.
*/
CppCodeParser::~CppCodeParser()
{
}
void CppCodeParser::initializeParser(const Config &config)
{
CodeParser::initializeParser(config);
nodeTypeMap.insert(COMMAND_NAMESPACE, Node::Namespace);
nodeTypeMap.insert(COMMAND_CLASS, Node::Class);
nodeTypeMap.insert(COMMAND_SERVICE, Node::Class);
nodeTypeMap.insert(COMMAND_ENUM, Node::Enum);
nodeTypeMap.insert(COMMAND_TYPEDEF, Node::Typedef);
nodeTypeMap.insert(COMMAND_PROPERTY, Node::Property);
nodeTypeMap.insert(COMMAND_VARIABLE, Node::Variable);
exampleFiles = config.getStringList(CONFIG_EXAMPLES);
exampleDirs = config.getStringList(CONFIG_EXAMPLEDIRS);
QStringList exampleFilePatterns = config.getStringList(
CONFIG_EXAMPLES + Config::dot + CONFIG_FILEEXTENSIONS);
if (!exampleFilePatterns.isEmpty())
exampleNameFilter = exampleFilePatterns.join(" ");
else
exampleNameFilter = "*.cpp *.h *.js *.xq *.svg *.xml *.ui";
}
void CppCodeParser::terminateParser()
{
nodeTypeMap.clear();
CodeParser::terminateParser();
}
QString CppCodeParser::language()
{
return "Cpp";
}
QString CppCodeParser::headerFileNameFilter()
{
return "*.ch *.h *.h++ *.hh *.hpp *.hxx";
}
QString CppCodeParser::sourceFileNameFilter()
{
return "*.c++ *.cc *.cpp *.cxx";
}
/*!
Parse the C++ header file identified by \a filePath
and add the parsed contents to the big \a tree. The
\a location is used for reporting errors.
*/
void CppCodeParser::parseHeaderFile(const Location& location,
const QString& filePath,
Tree *tree)
{
FILE *in = fopen(QFile::encodeName(filePath), "r");
if (!in) {
location.error(tr("Cannot open C++ header file '%1'").arg(filePath));
return;
}
reset(tree);
Location fileLocation(filePath);
Tokenizer fileTokenizer(fileLocation, in);
tokenizer = &fileTokenizer;
readToken();
matchDeclList(tree->root());
if (!fileTokenizer.version().isEmpty())
tree->setVersion(fileTokenizer.version());
fclose(in);
if (fileLocation.fileName() == "qiterator.h")
parseQiteratorDotH(location, filePath);
}
/*!
Get ready to parse the C++ cpp file identified by \a filePath
and add its parsed contents to the big \a tree. \a location is
used for reporting errors.
Call matchDocsAndStuff() to do all the parsing and tree building.
*/
void CppCodeParser::parseSourceFile(const Location& location,
const QString& filePath,
Tree *tree)
{
FILE *in = fopen(QFile::encodeName(filePath), "r");
if (!in) {
location.error(tr("Cannot open C++ source file '%1' (%2)").arg(filePath).arg(strerror(errno)));
return;
}
reset(tree);
Location fileLocation(filePath);
Tokenizer fileTokenizer(fileLocation, in);
tokenizer = &fileTokenizer;
readToken();
usedNamespaces.clear();
matchDocsAndStuff();
fclose(in);
}
void CppCodeParser::doneParsingHeaderFiles(Tree *tree)
{
tree->resolveInheritance();
QMapIterator<QString, QString> i(sequentialIteratorClasses);
while (i.hasNext()) {
i.next();
instantiateIteratorMacro(i.key(),
i.value(),
sequentialIteratorDefinition,
tree);
}
i = mutableSequentialIteratorClasses;
while (i.hasNext()) {
i.next();
instantiateIteratorMacro(i.key(),
i.value(),
mutableSequentialIteratorDefinition,
tree);
}
i = associativeIteratorClasses;
while (i.hasNext()) {
i.next();
instantiateIteratorMacro(i.key(),
i.value(),
associativeIteratorDefinition,
tree);
}
i = mutableAssociativeIteratorClasses;
while (i.hasNext()) {
i.next();
instantiateIteratorMacro(i.key(),
i.value(),
mutableAssociativeIteratorDefinition,
tree);
}
sequentialIteratorDefinition.clear();
mutableSequentialIteratorDefinition.clear();
associativeIteratorDefinition.clear();
mutableAssociativeIteratorDefinition.clear();
sequentialIteratorClasses.clear();
mutableSequentialIteratorClasses.clear();
associativeIteratorClasses.clear();
mutableAssociativeIteratorClasses.clear();
}
void CppCodeParser::doneParsingSourceFiles(Tree *tree)
{
tree->root()->makeUndocumentedChildrenInternal();
tree->root()->normalizeOverloads();
tree->fixInheritance();
tree->resolveProperties();
}
const FunctionNode *CppCodeParser::findFunctionNode(const QString& synopsis,
Tree *tree,
Node *relative,
bool fuzzy)
{
QStringList parentPath;
FunctionNode *clone;
FunctionNode *func = 0;
int flags = fuzzy ? int(Tree::SearchBaseClasses) : 0;
reset(tree);
if (makeFunctionNode(synopsis, &parentPath, &clone)) {
func = tree->findFunctionNode(parentPath, clone, relative, flags);
/*
This is necessary because Roberto's parser resolves typedefs.
*/
if (!func && fuzzy) {
func = tre->findFunctionNode(parentPath +
QStringList(clone->name()),
relative,
flags);
if (!func && clone->name().contains('_')) {
QStringList path = parentPath;
path << clone->name().split('_');
func = tre->findFunctionNode(path, relative, flags);
}
if (func) {
NodeList overloads = func->parent()->overloads(func->name());
NodeList candidates;
for (int i = 0; i < overloads.count(); ++i) {
FunctionNode *overload = static_cast<FunctionNode *>(overloads.at(i));
if (overload->status() != Node::Compat
&& overload->parameters().count() == clone->parameters().count()
&& !overload->isConst() == !clone->isConst())
candidates << overload;
}
if (candidates.count() == 0)
return 0;
/*
There's only one function with the correct number
of parameters. That must be the one.
*/
if (candidates.count() == 1)
return static_cast<FunctionNode *>(candidates.first());
overloads = candidates;
candidates.clear();
for (int i = 0; i < overloads.count(); ++i) {
FunctionNode *overload = static_cast<FunctionNode *>(overloads.at(i));
QList<Parameter> params1 = overload->parameters();
QList<Parameter> params2 = clone->parameters();
int j;
for (j = 0; j < params1.count(); ++j) {
if (!params2.at(j).name().startsWith(params1.at(j).name()))
break;
}
if (j == params1.count())
candidates << overload;
}
/*
There are several functions with the correct
parameter count, but only one has the correct
parameter names.
*/
if (candidates.count() == 1)
return static_cast<FunctionNode *>(candidates.first());
candidates.clear();
for (int i = 0; i < overloads.count(); ++i) {
FunctionNode *overload = static_cast<FunctionNode *>(overloads.at(i));
QList<Parameter> params1 = overload->parameters();
QList<Parameter> params2 = clone->parameters();
int j;
for (j = 0; j < params1.count(); ++j) {
if (params1.at(j).rightType() != params2.at(j).rightType())
break;
if (cleanType(params1.at(j).leftType(), tree)
!= cleanType(params2.at(j).leftType(), tree))
break;
}
if (j == params1.count())
candidates << overload;
}
/*
There are several functions with the correct
parameter count, but only one has the correct
types, loosely compared.
*/
if (candidates.count() == 1)
return static_cast<FunctionNode *>(candidates.first());
return 0;
}
}
delete clone;
}
return func;
}
/*!
Returns the set of strings reopresenting the topic commands.
*/
QSet<QString> CppCodeParser::topicCommands()
{
return QSet<QString>() << COMMAND_CLASS
<< COMMAND_ENUM
<< COMMAND_EXAMPLE
<< COMMAND_EXTERNALPAGE
<< COMMAND_FILE
<< COMMAND_FN
<< COMMAND_GROUP
<< COMMAND_HEADERFILE
<< COMMAND_MACRO
<< COMMAND_MODULE
<< COMMAND_NAMESPACE
<< COMMAND_PAGE
<< COMMAND_PROPERTY
<< COMMAND_SERVICE
<< COMMAND_TYPEDEF
#ifdef QDOC_QML
<< COMMAND_VARIABLE
<< COMMAND_QMLCLASS
<< COMMAND_QMLPROPERTY
<< COMMAND_QMLATTACHEDPROPERTY
<< COMMAND_QMLSIGNAL
<< COMMAND_QMLMETHOD;
#else
<< COMMAND_VARIABLE;
#endif
}
/*!
Process the topic \a command in context \a doc with argument \a arg.
*/
Node *CppCodeParser::processTopicCommand(const Doc& doc,
const QString& command,
const QString& arg)
{
if (command == COMMAND_FN) {
QStringList parentPath;
FunctionNode *func = 0;
FunctionNode *clone = 0;
if (!makeFunctionNode(arg, &parentPath, &clone) &&
!makeFunctionNode("void " + arg, &parentPath, &clone)) {
doc.location().warning(tr("Invalid syntax in '\\%1'")
.arg(COMMAND_FN));
}
else {
if (!usedNamespaces.isEmpty()) {
foreach (const QString &usedNamespace, usedNamespaces) {
QStringList newPath = usedNamespace.split("::") + parentPath;
func = tre->findFunctionNode(newPath, clone);
if (func)
break;
}
}
// Search the root namespace if no match was found.
if (func == 0)
func = tre->findFunctionNode(parentPath, clone);
if (func == 0) {
if (parentPath.isEmpty() && !lastPath.isEmpty())
func = tre->findFunctionNode(lastPath, clone);
if (func == 0) {
doc.location().warning(tr("Cannot find '%1' in '\\%2'")
.arg(clone->name() + "(...)")
.arg(COMMAND_FN),
tr("I cannot find any function of that name with the "
"specified signature. Make sure that the signature "
"is identical to the declaration, including 'const' "
"qualifiers."));
}
else {
doc.location().warning(tr("Missing '%1::' for '%2' in '\\%3'")
.arg(lastPath.join("::"))
.arg(clone->name() + "()")
.arg(COMMAND_FN));
}
}
else {
lastPath = parentPath;
}
if (func) {
func->borrowParameterNames(clone);
func->setParentPath(clone->parentPath());
}
delete clone;
}
return func;
}
else if (command == COMMAND_MACRO) {
QStringList parentPath;
FunctionNode *func = 0;
if (makeFunctionNode(arg, &parentPath, &func, tre->root())) {
if (!parentPath.isEmpty()) {
doc.location().warning(tr("Invalid syntax in '\\%1'")
.arg(COMMAND_MACRO));
delete func;
func = 0;
}
else {
func->setMetaness(FunctionNode::MacroWithParams);
QList<Parameter> params = func->parameters();
for (int i = 0; i < params.size(); ++i) {
Parameter ¶m = params[i];
if (param.name().isEmpty() && !param.leftType().isEmpty()
&& param.leftType() != "...")
param = Parameter("", "", param.leftType());
}
func->setParameters(params);
}
return func;
}
else if (QRegExp("[A-Za-z_][A-Za-z0-9_]+").exactMatch(arg)) {
func = new FunctionNode(tre->root(), arg);
func->setAccess(Node::Public);
func->setLocation(doc.location());
func->setMetaness(FunctionNode::MacroWithoutParams);
}
else {
doc.location().warning(tr("Invalid syntax in '\\%1'")
.arg(COMMAND_MACRO));
}
return func;
}
else if (nodeTypeMap.contains(command)) {
/*
The command was neither "fn" nor "macro" .
*/
// ### split(" ") hack is there to support header file syntax
QStringList paths = arg.split(" ");
QStringList path = paths[0].split("::");
Node *node = 0;
if (!usedNamespaces.isEmpty()) {
foreach (const QString &usedNamespace, usedNamespaces) {
QStringList newPath = usedNamespace.split("::") + path;
node = tre->findNode(newPath, nodeTypeMap[command]);
if (node) {
path = newPath;
break;
}
}
}
// Search the root namespace if no match was found.
if (node == 0)
node = tre->findNode(path, nodeTypeMap[command]);
if (node == 0) {
doc.location().warning(tr("Cannot find '%1' specified with '\\%2' in any header file")
.arg(arg).arg(command));
lastPath = path;
}
else if (command == COMMAND_SERVICE) {
// If the command is "\service", then we need to tag the
// class with the actual service name.
QStringList args = arg.split(" ");
if (args.size() > 1) {
ClassNode *cnode = static_cast<ClassNode *>(node);
cnode->setServiceName(args[1]);
cnode->setHideFromMainList(true);
}
}
else if (node->isInnerNode()) {
if (path.size() > 1) {
path.pop_back();
usedNamespaces.insert(path.join("::"));
}
}
if (command == COMMAND_CLASS) {
if (paths.size() > 1) {
if (!paths[1].endsWith(".h")) {
ClassNode*cnode = static_cast<ClassNode*>(node);
cnode->setQmlElement(paths[1]);
}
}
}
return node;
}
else if (command == COMMAND_EXAMPLE) {
FakeNode *fake = new FakeNode(tre->root(), arg, Node::Example);
createExampleFileNodes(fake);
return fake;
}
else if (command == COMMAND_EXTERNALPAGE) {
return new FakeNode(tre->root(), arg, Node::ExternalPage);
}
else if (command == COMMAND_FILE) {
return new FakeNode(tre->root(), arg, Node::File);
}
else if (command == COMMAND_GROUP) {
return new FakeNode(tre->root(), arg, Node::Group);
}
else if (command == COMMAND_HEADERFILE) {
return new FakeNode(tre->root(), arg, Node::HeaderFile);
}
else if (command == COMMAND_MODULE) {
return new FakeNode(tre->root(), arg, Node::Module);
}
else if (command == COMMAND_PAGE) {
return new FakeNode(tre->root(), arg, Node::Page);
}
#ifdef QDOC_QML
else if (command == COMMAND_QMLCLASS) {
const ClassNode* classNode = 0;
QStringList names = arg.split(" ");
if (names.size() > 1) {
Node* n = tre->findNode(names[1].split("::"),Node::Class);
if (n)
classNode = static_cast<const ClassNode*>(n);
}
return new QmlClassNode(tre->root(), names[0], classNode);
}
else if ((command == COMMAND_QMLSIGNAL) ||
(command == COMMAND_QMLMETHOD)) {
QString element;
QString name;
QmlClassNode* qmlClass = 0;
if (splitQmlArg(doc,arg,element,name)) {
Node* n = tre->findNode(QStringList(element),Node::Fake);
if (n && n->subType() == Node::QmlClass) {
qmlClass = static_cast<QmlClassNode*>(n);
if (command == COMMAND_QMLSIGNAL)
return new QmlSignalNode(qmlClass,name);
else
return new QmlMethodNode(qmlClass,name);
}
}
}
#endif
return 0;
}
#ifdef QDOC_QML
/*!
A QML property argument has the form...
<type> <element>::<name>
This function splits the argument into those three
parts, sets \a type, \a element, and \a property,
and returns true. If any of the parts isn't found,
a debug message is output and false is returned.
*/
bool CppCodeParser::splitQmlPropertyArg(const Doc& doc,
const QString& arg,
QString& type,
QString& element,
QString& property)
{
QStringList blankSplit = arg.split(" ");
if (blankSplit.size() > 1) {
type = blankSplit[0];
QStringList colonSplit(blankSplit[1].split("::"));
if (colonSplit.size() > 1) {
element = colonSplit[0];
property = colonSplit[1];
return true;
}
else
doc.location().warning(tr("Missing QML element name or property name"));
}
else
doc.location().warning(tr("Missing QML property type or property path"));
return false;
}
/*!
A QML signal or method argument has the form...
<element>::<name>
This function splits the argument into those two
parts, sets \a element, and \a name, and returns
true. If either of the parts isn't found, a debug
message is output and false is returned.
*/
bool CppCodeParser::splitQmlArg(const Doc& doc,
const QString& arg,
QString& element,
QString& name)
{
QStringList colonSplit(arg.split("::"));
if (colonSplit.size() > 1) {
element = colonSplit[0];
name = colonSplit[1];
return true;
}
else
doc.location().warning(tr("Missing QML element name or signal/method name"));
return false;
}
/*!
Process the topic \a command group with arguments \a args.
Currently, this function is called only for \e{qmlproperty}
and \e{qmlattachedproperty}.
*/
Node *CppCodeParser::processTopicCommandGroup(const Doc& doc,
const QString& command,
const QStringList& args)
{
QmlPropGroupNode* qmlPropGroup = 0;
if ((command == COMMAND_QMLPROPERTY) ||
(command == COMMAND_QMLATTACHEDPROPERTY)) {
QString type;
QString element;
QString property;
bool attached = (command == COMMAND_QMLATTACHEDPROPERTY);
QStringList::ConstIterator arg = args.begin();
if (splitQmlPropertyArg(doc,(*arg),type,element,property)) {
Node* n = tre->findNode(QStringList(element),Node::Fake);
if (n && n->subType() == Node::QmlClass) {
QmlClassNode* qmlClass = static_cast<QmlClassNode*>(n);
if (qmlClass)
qmlPropGroup = new QmlPropGroupNode(qmlClass,
property,
attached);
}
}
if (qmlPropGroup) {
new QmlPropertyNode(qmlPropGroup,property,type,attached);
++arg;
while (arg != args.end()) {
if (splitQmlPropertyArg(doc,(*arg),type,element,property)) {
new QmlPropertyNode(qmlPropGroup,
property,
type,
attached);
}
++arg;
}
}
}
return qmlPropGroup;
}
#endif
/*!
Returns the set of strings representing the common metacommands
plus some other metacommands.
*/
QSet<QString> CppCodeParser::otherMetaCommands()
{
return commonMetaCommands() << COMMAND_INHEADERFILE
<< COMMAND_OVERLOAD
<< COMMAND_REIMP
<< COMMAND_RELATES
<< COMMAND_CONTENTSPAGE
<< COMMAND_NEXTPAGE
<< COMMAND_PREVIOUSPAGE
<< COMMAND_INDEXPAGE
#ifdef QDOC_QML
<< COMMAND_STARTPAGE
<< COMMAND_QMLINHERITS
<< COMMAND_QMLDEFAULT;
#else
<< COMMAND_STARTPAGE;
#endif
}
/*!
Process the metacommand \a command in the context of the
\a node associated with the topic command and the \a doc.
\a arg is the argument to the metacommand.
*/
void CppCodeParser::processOtherMetaCommand(const Doc& doc,
const QString& command,
const QString& arg,
Node *node)
{
if (command == COMMAND_INHEADERFILE) {
if (node != 0 && node->isInnerNode()) {
((InnerNode *) node)->addInclude(arg);
}
else {
doc.location().warning(tr("Ignored '\\%1'")
.arg(COMMAND_INHEADERFILE));
}
}
else if (command == COMMAND_OVERLOAD) {
if (node != 0 && node->type() == Node::Function) {
((FunctionNode *) node)->setOverload(true);
}
else {
doc.location().warning(tr("Ignored '\\%1'")
.arg(COMMAND_OVERLOAD));
}
}
else if (command == COMMAND_REIMP) {
if (node != 0 && node->type() == Node::Function) {
FunctionNode *func = (FunctionNode *) node;
const FunctionNode *from = func->reimplementedFrom();
if (from == 0) {
doc.location().warning(
tr("Cannot find base function for '\\%1' in %2()")
.arg(COMMAND_REIMP).arg(node->name()),
tr("The function either doesn't exist in any base class "
"with the same signature or it exists but isn't virtual."));
}
/*
Ideally, we would enable this check to warn whenever
\reimp is used incorrectly, and only make the node
internal if the function is a reimplementation of
another function in a base class.
*/
else if (from->access() == Node::Private
|| from->parent()->access() == Node::Private) {
doc.location().warning(tr("'\\%1' in %2() should be '\\internal' because its base function is private or internal")
.arg(COMMAND_REIMP).arg(node->name()));
}
#if 0
// Reimplemented functions now reported in separate sections.
/*
Note: Setting the access to Private hides the documentation,
but setting the status to Internal makes the node available
in the XML output when the WebXMLGenerator is used.
*/
func->setAccess(Node::Private);
func->setStatus(Node::Internal);
#endif
func->setReimp(true);
}
else {
doc.location().warning(tr("Ignored '\\%1' in %2")
.arg(COMMAND_REIMP)
.arg(node->name()));
}
}
else if (command == COMMAND_RELATES) {
InnerNode *pseudoParent;
if (arg.startsWith("<") || arg.startsWith("\"")) {
pseudoParent =
static_cast<InnerNode *>(tre->findNode(QStringList(arg),
Node::Fake));
}
else {
QStringList newPath = arg.split("::");
pseudoParent =
static_cast<InnerNode*>(tre->findNode(QStringList(newPath),
Node::Class));
if (!pseudoParent)
pseudoParent =
static_cast<InnerNode*>(tre->findNode(QStringList(newPath),
Node::Namespace));
}
if (!pseudoParent) {
doc.location().warning(tr("Cannot find '%1' in '\\%2'")
.arg(arg).arg(COMMAND_RELATES));
}
else {
node->setRelates(pseudoParent);
}
}
else if (command == COMMAND_CONTENTSPAGE) {
setLink(node, Node::ContentsLink, arg);
}
else if (command == COMMAND_NEXTPAGE) {
setLink(node, Node::NextLink, arg);
}
else if (command == COMMAND_PREVIOUSPAGE) {
setLink(node, Node::PreviousLink, arg);
}
else if (command == COMMAND_INDEXPAGE) {
setLink(node, Node::IndexLink, arg);
}
else if (command == COMMAND_STARTPAGE) {
setLink(node, Node::StartLink, arg);
}
#ifdef QDOC_QML
else if (command == COMMAND_QMLINHERITS) {
setLink(node, Node::InheritsLink, arg);
}
else if (command == COMMAND_QMLDEFAULT) {
QmlPropGroupNode* qpgn = static_cast<QmlPropGroupNode*>(node);
qpgn->setDefault();
}
#endif
else {
processCommonMetaCommand(doc.location(),command,arg,node,tre);
}
}
/*!
The topic command has been processed resulting in the \a doc
and \a node passed in here. Process the other meta commands,
which are found in \a doc, in the context of the topic \a node.
*/
void CppCodeParser::processOtherMetaCommands(const Doc& doc, Node *node)
{
const QSet<QString> metaCommands = doc.metaCommandsUsed();
QSet<QString>::ConstIterator cmd = metaCommands.begin();
while (cmd != metaCommands.end()) {
QStringList args = doc.metaCommandArgs(*cmd);
QStringList::ConstIterator arg = args.begin();
while (arg != args.end()) {
processOtherMetaCommand(doc, *cmd, *arg, node);
++arg;
}
++cmd;
}
}
/*!
Resets the C++ code parser to its default initialized state.
*/
void CppCodeParser::reset(Tree *tree)
{
tre = tree;
tokenizer = 0;
tok = 0;
access = Node::Public;
metaness = FunctionNode::Plain;
lastPath.clear();
moduleName = "";
}
/*!
Get the next token from the file being parsed and store it
in the token variable.
*/
void CppCodeParser::readToken()
{
tok = tokenizer->getToken();
}
/*!
Return the current location in the file being parsed,
i.e. the file name, line number, and column number.
*/
const Location& CppCodeParser::location()
{
return tokenizer->location();
}
/*!
Return the previous string read from the file being parsed.
*/
QString CppCodeParser::previousLexeme()
{
return tokenizer->previousLexeme();
}
/*!
Return the current string string from the file being parsed.
*/
QString CppCodeParser::lexeme()
{
return tokenizer->lexeme();
}
bool CppCodeParser::match(int target)
{
if (tok == target) {
readToken();
return true;
}
else
return false;
}
/*!
If the current token is one of the keyword thingees that
are used in Qt, skip over it to the next token and return
true. Otherwise just return false without reading the
next token.
*/
bool CppCodeParser::matchCompat()
{
switch (tok) {
case Tok_QT_COMPAT:
case Tok_QT_COMPAT_CONSTRUCTOR:
case Tok_QT_DEPRECATED:
case Tok_QT_MOC_COMPAT:
case Tok_QT3_SUPPORT:
case Tok_QT3_SUPPORT_CONSTRUCTOR:
case Tok_QT3_MOC_SUPPORT:
readToken();
return true;
default:
return false;
}
}
bool CppCodeParser::matchTemplateAngles(CodeChunk *dataType)
{
bool matches = (tok == Tok_LeftAngle);
if (matches) {
int leftAngleDepth = 0;
int parenAndBraceDepth = 0;
do {
if (tok == Tok_LeftAngle) {
leftAngleDepth++;
}
else if (tok == Tok_RightAngle) {
leftAngleDepth--;
}
else if (tok == Tok_LeftParen || tok == Tok_LeftBrace) {
++parenAndBraceDepth;
}
else if (tok == Tok_RightParen || tok == Tok_RightBrace) {
if (--parenAndBraceDepth < 0)
return false;
}
if (dataType != 0)
dataType->append(lexeme());
readToken();
} while (leftAngleDepth > 0 && tok != Tok_Eoi);
}
return matches;
}
bool CppCodeParser::matchTemplateHeader()
{
readToken();
return matchTemplateAngles();
}
bool CppCodeParser::matchDataType(CodeChunk *dataType, QString *var)
{
/*
This code is really hard to follow... sorry. The loop is there to match
Alpha::Beta::Gamma::...::Omega.
*/
for (;;) {
bool virgin = true;
if (tok != Tok_Ident) {
/*
There is special processing for 'Foo::operator int()'
and such elsewhere. This is the only case where we
return something with a trailing gulbrandsen ('Foo::').
*/
if (tok == Tok_operator)
return true;
/*
People may write 'const unsigned short' or
'short unsigned const' or any other permutation.
*/
while (match(Tok_const) || match(Tok_volatile))
dataType->append(previousLexeme());
while (match(Tok_signed) || match(Tok_unsigned) ||
match(Tok_short) || match(Tok_long) || match(Tok_int64)) {
dataType->append(previousLexeme());
virgin = false;
}
while (match(Tok_const) || match(Tok_volatile))
dataType->append(previousLexeme());
if (match(Tok_Tilde))
dataType->append(previousLexeme());
}
if (virgin) {
if (match(Tok_Ident))
dataType->append(previousLexeme());
else if (match(Tok_void) || match(Tok_int) || match(Tok_char) ||
match(Tok_double) || match(Tok_Ellipsis))
dataType->append(previousLexeme());
else
return false;
}
else if (match(Tok_int) || match(Tok_char) || match(Tok_double)) {
dataType->append(previousLexeme());
}
matchTemplateAngles(dataType);
while (match(Tok_const) || match(Tok_volatile))
dataType->append(previousLexeme());
if (match(Tok_Gulbrandsen))
dataType->append(previousLexeme());
else
break;
}
while (match(Tok_Ampersand) || match(Tok_Aster) || match(Tok_const) ||
match(Tok_Caret))
dataType->append(previousLexeme());
if (match(Tok_LeftParenAster)) {
/*
A function pointer. This would be rather hard to handle without a
tokenizer hack, because a type can be followed with a left parenthesis
in some cases (e.g., 'operator int()'). The tokenizer recognizes '(*'
as a single token.
*/
dataType->append(previousLexeme());
dataType->appendHotspot();
if (var != 0 && match(Tok_Ident))
*var = previousLexeme();
if (!match(Tok_RightParen) || tok != Tok_LeftParen)
return false;
dataType->append(previousLexeme());
int parenDepth0 = tokenizer->parenDepth();
while (tokenizer->parenDepth() >= parenDepth0 && tok != Tok_Eoi) {
dataType->append(lexeme());
readToken();
}
if (match(Tok_RightParen))
dataType->append(previousLexeme());
}
else {
/*
The common case: Look for an optional identifier, then for
some array brackets.
*/
dataType->appendHotspot();
if (var != 0) {
if (match(Tok_Ident)) {
*var = previousLexeme();
}
else if (match(Tok_Comment)) {
/*
A neat hack: Commented-out parameter names are
recognized by qdoc. It's impossible to illustrate
here inside a C-style comment, because it requires
an asterslash. It's also impossible to illustrate
inside a C++-style comment, because the explanation
does not fit on one line.
*/
if (varComment.exactMatch(previousLexeme()))
*var = varComment.cap(1);
}
}
if (tok == Tok_LeftBracket) {
int bracketDepth0 = tokenizer->bracketDepth();
while ((tokenizer->bracketDepth() >= bracketDepth0 &&
tok != Tok_Eoi) ||
tok == Tok_RightBracket) {
dataType->append(lexeme());
readToken();
}
}
}
return true;
}
bool CppCodeParser::matchParameter(FunctionNode *func)
{
CodeChunk dataType;
QString name;
CodeChunk defaultValue;
if (!matchDataType(&dataType, &name))
return false;
match(Tok_Comment);
if (match(Tok_Equal)) {
int parenDepth0 = tokenizer->parenDepth();
while (tokenizer->parenDepth() >= parenDepth0 &&
(tok != Tok_Comma ||
tokenizer->parenDepth() > parenDepth0) &&
tok != Tok_Eoi) {
defaultValue.append(lexeme());
readToken();
}
}
func->addParameter(Parameter(dataType.toString(),
"",
name,
defaultValue.toString())); // ###
return true;
}
bool CppCodeParser::matchFunctionDecl(InnerNode *parent,
QStringList *parentPathPtr,
FunctionNode **funcPtr,
const QString &templateStuff)
{
CodeChunk returnType;
QStringList parentPath;
QString name;
bool compat = false;
if (match(Tok_friend))
return false;
match(Tok_explicit);
if (matchCompat())
compat = true;
bool sta = false;
if (match(Tok_static)) {
sta = true;
if (matchCompat())
compat = true;
}
FunctionNode::Virtualness vir = FunctionNode::NonVirtual;
if (match(Tok_virtual)) {
vir = FunctionNode::ImpureVirtual;
if (matchCompat())
compat = true;
}
if (!matchDataType(&returnType)) {
if (tokenizer->parsingFnOrMacro()
&& (match(Tok_Q_DECLARE_FLAGS) || match(Tok_Q_PROPERTY)))
returnType = CodeChunk(previousLexeme());
else
return false;
}
if (returnType.toString() == "QBool")
returnType = CodeChunk("bool");
if (matchCompat())
compat = true;
if (tok == Tok_operator &&
(returnType.toString().isEmpty() ||
returnType.toString().endsWith("::"))) {
// 'QString::operator const char *()'
parentPath = returnType.toString().split(sep);
parentPath.removeAll(QString());
returnType = CodeChunk();
readToken();
CodeChunk restOfName;
if (tok != Tok_Tilde && matchDataType(&restOfName)) {
name = "operator " + restOfName.toString();
}
else {
name = previousLexeme() + lexeme();
readToken();
while (tok != Tok_LeftParen && tok != Tok_Eoi) {
name += lexeme();
readToken();
}
}
if (tok != Tok_LeftParen)
return false;
}
else if (tok == Tok_LeftParen) {
// constructor or destructor
parentPath = returnType.toString().split(sep);
if (!parentPath.isEmpty()) {
name = parentPath.last();
parentPath.erase(parentPath.end() - 1);
}
returnType = CodeChunk();
}
else {
while (match(Tok_Ident)) {
name = previousLexeme();
matchTemplateAngles();
if (match(Tok_Gulbrandsen))
parentPath.append(name);
else
break;
}
if (tok == Tok_operator) {
name = lexeme();
readToken();
while (tok != Tok_Eoi) {
name += lexeme();
readToken();
if (tok == Tok_LeftParen)
break;
}
}
if (parent && (tok == Tok_Semicolon ||
tok == Tok_LeftBracket ||
tok == Tok_Colon)
&& access != Node::Private) {
if (tok == Tok_LeftBracket) {
returnType.appendHotspot();
int bracketDepth0 = tokenizer->bracketDepth();
while ((tokenizer->bracketDepth() >= bracketDepth0 &&
tok != Tok_Eoi) ||
tok == Tok_RightBracket) {
returnType.append(lexeme());
readToken();
}
if (tok != Tok_Semicolon)
return false;
}
else if (tok == Tok_Colon) {
returnType.appendHotspot();
while (tok != Tok_Semicolon && tok != Tok_Eoi) {
returnType.append(lexeme());
readToken();
}
if (tok != Tok_Semicolon)
return false;
}
VariableNode *var = new VariableNode(parent, name);
var->setAccess(access);
var->setLocation(location());
var->setLeftType(returnType.left());
var->setRightType(returnType.right());
if (compat)
var->setStatus(Node::Compat);
var->setStatic(sta);
return false;
}
if (tok != Tok_LeftParen)
return false;
}
readToken();
FunctionNode *func = new FunctionNode(parent, name);
func->setAccess(access);
func->setLocation(location());
func->setReturnType(returnType.toString());
func->setParentPath(parentPath);
func->setTemplateStuff(templateStuff);
if (compat)
func->setStatus(Node::Compat);
func->setMetaness(metaness);
if (parent) {
if (name == parent->name()) {
func->setMetaness(FunctionNode::Ctor);
} else if (name.startsWith("~")) {
func->setMetaness(FunctionNode::Dtor);
}
}
func->setStatic(sta);
if (tok != Tok_RightParen) {
do {
if (!matchParameter(func))
return false;
} while (match(Tok_Comma));
}
if (!match(Tok_RightParen))
return false;
func->setConst(match(Tok_const));
if (match(Tok_Equal) && match(Tok_Number))
vir = FunctionNode::PureVirtual;
func->setVirtualness(vir);
if (match(Tok_Colon)) {
while (tok != Tok_LeftBrace && tok != Tok_Eoi)
readToken();
}
if (!match(Tok_Semicolon) && tok != Tok_Eoi) {
int braceDepth0 = tokenizer->braceDepth();
if (!match(Tok_LeftBrace))
return false;
while (tokenizer->braceDepth() >= braceDepth0 && tok != Tok_Eoi)
readToken();
match(Tok_RightBrace);
}
if (parentPathPtr != 0)
*parentPathPtr = parentPath;
if (funcPtr != 0)
*funcPtr = func;
return true;
}
bool CppCodeParser::matchBaseSpecifier(ClassNode *classe, bool isClass)
{
Node::Access access;
switch (tok) {
case Tok_public:
access = Node::Public;
readToken();
break;
case Tok_protected:
access = Node::Protected;
readToken();
break;
case Tok_private:
access = Node::Private;
readToken();
break;
default:
access = isClass ? Node::Private : Node::Public;
}
if (tok == Tok_virtual)
readToken();
CodeChunk baseClass;
if (!matchDataType(&baseClass))
return false;
tre->addBaseClass(classe,
access,
baseClass.toPath(),
baseClass.toString(),
classe->parent());
return true;
}
bool CppCodeParser::matchBaseList(ClassNode *classe, bool isClass)
{
for (;;) {
if (!matchBaseSpecifier(classe, isClass))
return false;
if (tok == Tok_LeftBrace)
return true;
if (!match(Tok_Comma))
return false;
}
}
/*!
Parse a C++ class, union, or struct declarion.
*/
bool CppCodeParser::matchClassDecl(InnerNode *parent,
const QString &templateStuff)
{
bool isClass = (tok == Tok_class);
readToken();
bool compat = matchCompat();
if (tok != Tok_Ident)
return false;
while (tok == Tok_Ident)
readToken();
if (tok != Tok_Colon && tok != Tok_LeftBrace)
return false;
/*
So far, so good. We have 'class Foo {' or 'class Foo :'.
This is enough to recognize a class definition.
*/
ClassNode *classe = new ClassNode(parent, previousLexeme());
classe->setAccess(access);
classe->setLocation(location());
if (compat)
classe->setStatus(Node::Compat);
if (!moduleName.isEmpty())
classe->setModuleName(moduleName);
classe->setTemplateStuff(templateStuff);
if (match(Tok_Colon) && !matchBaseList(classe, isClass))
return false;
if (!match(Tok_LeftBrace))
return false;
Node::Access outerAccess = access;
access = isClass ? Node::Private : Node::Public;
FunctionNode::Metaness outerMetaness = metaness;
metaness = FunctionNode::Plain;
bool matches = (matchDeclList(classe) && match(Tok_RightBrace) &&
match(Tok_Semicolon));
access = outerAccess;
metaness = outerMetaness;
return matches;
}
bool CppCodeParser::matchNamespaceDecl(InnerNode *parent)
{
readToken(); // skip 'namespace'
if (tok != Tok_Ident)
return false;
while (tok == Tok_Ident)
readToken();
if (tok != Tok_LeftBrace)
return false;
/*
So far, so good. We have 'namespace Foo {'.
*/
QString namespaceName = previousLexeme();
NamespaceNode *namespasse = 0;
if (parent)
namespasse = static_cast<NamespaceNode*>(parent->findNode(namespaceName, Node::Namespace));
if (!namespasse) {
namespasse = new NamespaceNode(parent, namespaceName);
namespasse->setAccess(access);
namespasse->setLocation(location());
}
readToken(); // skip '{'
bool matched = matchDeclList(namespasse);
return matched && match(Tok_RightBrace);
}
bool CppCodeParser::matchUsingDecl()
{
readToken(); // skip 'using'
// 'namespace'
if (tok != Tok_namespace)
return false;
readToken();
// identifier
if (tok != Tok_Ident)
return false;
QString name;
while (tok == Tok_Ident) {
name += lexeme();
readToken();
if (tok == Tok_Semicolon)
break;
else if (tok != Tok_Gulbrandsen)
return false;
name += "::";
readToken();
}
/*
So far, so good. We have 'using namespace Foo;'.
*/
usedNamespaces.insert(name);
return true;
}
bool CppCodeParser::matchEnumItem(InnerNode *parent, EnumNode *enume)
{
if (!match(Tok_Ident))
return false;
QString name = previousLexeme();
CodeChunk val;
if (match(Tok_Equal)) {
while (tok != Tok_Comma && tok != Tok_RightBrace &&
tok != Tok_Eoi) {
val.append(lexeme());
readToken();
}
}
if (enume) {
QString strVal = val.toString();
if (strVal.isEmpty()) {
if (enume->items().isEmpty()) {
strVal = "0";
}
else {
QString last = enume->items().last().value();
bool ok;
int n = last.toInt(&ok);
if (ok) {
if (last.startsWith("0") && last.size() > 1) {
if (last.startsWith("0x") || last.startsWith("0X"))
strVal = last.left(2) + QString::number(n + 1, 16);
else
strVal = "0" + QString::number(n + 1, 8);
}
else
strVal = QString::number(n + 1);
}
}
}
enume->addItem(EnumItem(name, strVal));
}
else {
VariableNode *var = new VariableNode(parent, name);
var->setAccess(access);
var->setLocation(location());
var->setLeftType("const int");
var->setStatic(true);
}
return true;
}
bool CppCodeParser::matchEnumDecl(InnerNode *parent)
{
QString name;
if (!match(Tok_enum))
return false;
if (match(Tok_Ident))
name = previousLexeme();
if (tok != Tok_LeftBrace)
return false;
EnumNode *enume = 0;
if (!name.isEmpty()) {
enume = new EnumNode(parent, name);
enume->setAccess(access);
enume->setLocation(location());
}
readToken();
if (!matchEnumItem(parent, enume))
return false;
while (match(Tok_Comma)) {
if (!matchEnumItem(parent, enume))
return false;
}
return match(Tok_RightBrace) && match(Tok_Semicolon);
}
bool CppCodeParser::matchTypedefDecl(InnerNode *parent)
{
CodeChunk dataType;
QString name;
if (!match(Tok_typedef))
return false;
if (!matchDataType(&dataType, &name))
return false;
if (!match(Tok_Semicolon))
return false;
if (parent && !parent->findNode(name, Node::Typedef)) {
TypedefNode *typedeffe = new TypedefNode(parent, name);
typedeffe->setAccess(access);
typedeffe->setLocation(location());
}
return true;
}
bool CppCodeParser::matchProperty(InnerNode *parent)
{
if (!match(Tok_Q_PROPERTY) &&
!match(Tok_Q_OVERRIDE) &&
!match(Tok_QDOC_PROPERTY))
return false;
if (!match(Tok_LeftParen))
return false;
QString name;
CodeChunk dataType;
if (!matchDataType(&dataType, &name))
return false;
PropertyNode *property = new PropertyNode(parent, name);
property->setAccess(Node::Public);
property->setLocation(location());
property->setDataType(dataType.toString());
while (tok != Tok_RightParen && tok != Tok_Eoi) {
if (!match(Tok_Ident))
return false;
QString key = previousLexeme();
QString value;
if (match(Tok_Ident)) {
value = previousLexeme();
}
else if (match(Tok_LeftParen)) {
int depth = 1;
while (tok != Tok_Eoi) {
if (tok == Tok_LeftParen) {
readToken();
++depth;
} else if (tok == Tok_RightParen) {
readToken();
if (--depth == 0)
break;
} else {
readToken();
}
}
value = "?";
}
if (key == "READ")
tre->addPropertyFunction(property, value, PropertyNode::Getter);
else if (key == "WRITE")
tre->addPropertyFunction(property, value, PropertyNode::Setter);
else if (key == "STORED")
property->setStored(value.toLower() == "true");
else if (key == "DESIGNABLE")
property->setDesignable(value.toLower() == "true");
else if (key == "RESET")
tre->addPropertyFunction(property, value, PropertyNode::Resetter);
else if (key == "NOTIFY") {
tre->addPropertyFunction(property, value, PropertyNode::Notifier);
}
}
match(Tok_RightParen);
return true;
}
/*!
Parse a C++ declaration.
*/
bool CppCodeParser::matchDeclList(InnerNode *parent)
{
QString templateStuff;
int braceDepth0 = tokenizer->braceDepth();
if (tok == Tok_RightBrace) // prevents failure on empty body
braceDepth0++;
while (tokenizer->braceDepth() >= braceDepth0 && tok != Tok_Eoi) {
switch (tok) {
case Tok_Colon:
readToken();
break;
case Tok_class:
case Tok_struct:
case Tok_union:
matchClassDecl(parent, templateStuff);
break;
case Tok_namespace:
matchNamespaceDecl(parent);
break;
case Tok_using:
matchUsingDecl();
break;
case Tok_template:
templateStuff = matchTemplateHeader();
continue;
case Tok_enum:
matchEnumDecl(parent);
break;
case Tok_typedef:
matchTypedefDecl(parent);
break;
case Tok_private:
readToken();
access = Node::Private;
metaness = FunctionNode::Plain;
break;
case Tok_protected:
readToken();
access = Node::Protected;
metaness = FunctionNode::Plain;
break;
case Tok_public:
readToken();
access = Node::Public;
metaness = FunctionNode::Plain;
break;
case Tok_signals:
case Tok_Q_SIGNALS:
readToken();
access = Node::Public;
metaness = FunctionNode::Signal;
break;
case Tok_slots:
case Tok_Q_SLOTS:
readToken();
metaness = FunctionNode::Slot;
break;
case Tok_Q_OBJECT:
readToken();
break;
case Tok_Q_OVERRIDE:
case Tok_Q_PROPERTY:
case Tok_QDOC_PROPERTY:
matchProperty(parent);
break;
case Tok_Q_DECLARE_SEQUENTIAL_ITERATOR:
readToken();
if (match(Tok_LeftParen) && match(Tok_Ident))
sequentialIteratorClasses.insert(previousLexeme(),
location().fileName());
match(Tok_RightParen);
break;
case Tok_Q_DECLARE_MUTABLE_SEQUENTIAL_ITERATOR:
readToken();
if (match(Tok_LeftParen) && match(Tok_Ident))
mutableSequentialIteratorClasses.insert(previousLexeme(),
location().fileName());
match(Tok_RightParen);
break;
case Tok_Q_DECLARE_ASSOCIATIVE_ITERATOR:
readToken();
if (match(Tok_LeftParen) && match(Tok_Ident))
associativeIteratorClasses.insert(previousLexeme(),
location().fileName());
match(Tok_RightParen);
break;
case Tok_Q_DECLARE_MUTABLE_ASSOCIATIVE_ITERATOR:
readToken();
if (match(Tok_LeftParen) && match(Tok_Ident))
mutableAssociativeIteratorClasses.insert(previousLexeme(),
location().fileName());
match(Tok_RightParen);
break;
case Tok_Q_DECLARE_FLAGS:
readToken();
if (match(Tok_LeftParen) && match(Tok_Ident)) {
QString flagsType = previousLexeme();
if (match(Tok_Comma) && match(Tok_Ident)) {
QString enumType = previousLexeme();
TypedefNode *flagsNode = new TypedefNode(parent, flagsType);
flagsNode->setAccess(access);
flagsNode->setLocation(location());
EnumNode *enumNode =
static_cast<EnumNode*>(parent->findNode(enumType,
Node::Enum));
if (enumNode)
enumNode->setFlagsType(flagsNode);
}
}
match(Tok_RightParen);
break;
case Tok_QT_MODULE:
readToken();
if (match(Tok_LeftParen) && match(Tok_Ident))
moduleName = previousLexeme();
if (!moduleName.startsWith("Qt"))
moduleName.prepend("Qt");
match(Tok_RightParen);
break;
default:
if (!matchFunctionDecl(parent, 0, 0, templateStuff)) {
while (tok != Tok_Eoi &&
(tokenizer->braceDepth() > braceDepth0 ||
(!match(Tok_Semicolon) &&
tok != Tok_public && tok != Tok_protected &&
tok != Tok_private)))
readToken();
}
}
templateStuff.clear();
}
return true;
}
/*!
This is called by parseSourceFile() to do the actual parsing
and tree building.
*/
bool CppCodeParser::matchDocsAndStuff()
{
QSet<QString> topicCommandsAllowed = topicCommands();
QSet<QString> otherMetacommandsAllowed = otherMetaCommands();
QSet<QString> metacommandsAllowed = topicCommandsAllowed +
otherMetacommandsAllowed;
while (tok != Tok_Eoi) {
if (tok == Tok_Doc) {
/*
lexeme() returns an entire qdoc comment.
*/
QString comment = lexeme();
Location start_loc(location());
readToken();
Doc::trimCStyleComment(start_loc,comment);
Location end_loc(location());
/*
Doc parses the comment.
*/
Doc doc(start_loc,end_loc,comment,metacommandsAllowed);
QString topic;
QStringList args;
QSet<QString> topicCommandsUsed = topicCommandsAllowed &
doc.metaCommandsUsed();
/*
There should be one topic command in the set,
or none. If the set is empty, then the comment
should be a function description.
*/
if (topicCommandsUsed.count() > 0) {
topic = *topicCommandsUsed.begin();
args = doc.metaCommandArgs(topic);
}
NodeList nodes;
QList<Doc> docs;
if (topic.isEmpty()) {
QStringList parentPath;
FunctionNode *clone;
FunctionNode *func = 0;
if (matchFunctionDecl(0, &parentPath, &clone)) {
foreach (const QString &usedNamespace, usedNamespaces) {
QStringList newPath = usedNamespace.split("::") + parentPath;
func = tre->findFunctionNode(newPath, clone);
if (func)
break;
}
if (func == 0)
func = tre->findFunctionNode(parentPath, clone);
if (func) {
func->borrowParameterNames(clone);
nodes.append(func);
docs.append(doc);
}
delete clone;
}
else {
doc.location().warning(
tr("Cannot tie this documentation to anything"),
tr("I found a /*! ... */ comment, but there was no "
"topic command (e.g., '\\%1', '\\%2') in the "
"comment and no function definition following "
"the comment.")
.arg(COMMAND_FN).arg(COMMAND_PAGE));
}
}
else {
/*
There is a topic command. Process it.
*/
#ifdef QDOC_QML
if ((topic == COMMAND_QMLPROPERTY) ||
(topic == COMMAND_QMLATTACHEDPROPERTY)) {
Doc nodeDoc = doc;
Node *node = processTopicCommandGroup(nodeDoc,topic,args);
if (node != 0) {
nodes.append(node);
docs.append(nodeDoc);
}
}
else {
QStringList::ConstIterator a = args.begin();
while (a != args.end()) {
Doc nodeDoc = doc;
Node *node = processTopicCommand(nodeDoc,topic,*a);
if (node != 0) {
nodes.append(node);
docs.append(nodeDoc);
}
++a;
}
}
#else
QStringList::ConstIterator a = args.begin();
while (a != args.end()) {
Doc nodeDoc = doc;
Node *node = processTopicCommand(nodeDoc, topic, *a);
if (node != 0) {
nodes.append(node);
docs.append(nodeDoc);
}
++a;
}
#endif
}
NodeList::Iterator n = nodes.begin();
QList<Doc>::Iterator d = docs.begin();
while (n != nodes.end()) {
processOtherMetaCommands(*d, *n);
(*n)->setDoc(*d);
if ((*n)->isInnerNode() &&
((InnerNode *)*n)->includes().isEmpty()) {
InnerNode *m = static_cast<InnerNode *>(*n);
while (m->parent() != tre->root())
m = m->parent();
if (m == *n)
((InnerNode *)*n)->addInclude((*n)->name());
else
((InnerNode *)*n)->setIncludes(m->includes());
}
++d;
++n;
}
}
else if (tok == Tok_using) {
matchUsingDecl();
}
else {
QStringList parentPath;
FunctionNode *clone;
FunctionNode *node = 0;
if (matchFunctionDecl(0, &parentPath, &clone)) {
/*
The location of the definition is more interesting
than that of the declaration. People equipped with
a sophisticated text editor can respond to warnings
concerning undocumented functions very quickly.
Signals are implemented in uninteresting files
generated by moc.
*/
node = tre->findFunctionNode(parentPath, clone);
if (node != 0 && node->metaness() != FunctionNode::Signal)
node->setLocation(clone->location());
delete clone;
}
else {
if (tok != Tok_Doc)
readToken();
}
}
}
return true;
}
bool CppCodeParser::makeFunctionNode(const QString& synopsis,
QStringList *parentPathPtr,
FunctionNode **funcPtr,
InnerNode *root)
{
Tokenizer *outerTokenizer = tokenizer;
int outerTok = tok;
Location loc;
QByteArray latin1 = synopsis.toLatin1();
Tokenizer stringTokenizer(loc, latin1);
stringTokenizer.setParsingFnOrMacro(true);
tokenizer = &stringTokenizer;
readToken();
bool ok = matchFunctionDecl(root, parentPathPtr, funcPtr);
// potential memory leak with funcPtr
tokenizer = outerTokenizer;
tok = outerTok;
return ok;
}
void CppCodeParser::parseQiteratorDotH(const Location &location,
const QString &filePath)
{
QFile file(filePath);
if (!file.open(QFile::ReadOnly))
return;
QString text = file.readAll();
text.remove("\r");
text.replace("\\\n", "");
QStringList lines = text.split("\n");
lines = lines.filter("Q_DECLARE");
lines.replaceInStrings(QRegExp("#define Q[A-Z_]*\\(C\\)"), "");
if (lines.size() == 4) {
sequentialIteratorDefinition = lines[0];
mutableSequentialIteratorDefinition = lines[1];
associativeIteratorDefinition = lines[2];
mutableAssociativeIteratorDefinition = lines[3];
}
else {
location.warning(tr("The qiterator.h hack failed"));
}
}
void CppCodeParser::instantiateIteratorMacro(const QString &container,
const QString &includeFile,
const QString ¯oDef,
Tree * /* tree */)
{
QString resultingCode = macroDef;
resultingCode.replace(QRegExp("\\bC\\b"), container);
resultingCode.replace(QRegExp("\\s*##\\s*"), "");
Location loc(includeFile); // hack to get the include file for free
QByteArray latin1 = resultingCode.toLatin1();
Tokenizer stringTokenizer(loc, latin1);
tokenizer = &stringTokenizer;
readToken();
matchDeclList(tre->root());
}
void CppCodeParser::createExampleFileNodes(FakeNode *fake)
{
QString examplePath = fake->name();
// we can assume that this file always exists
QString proFileName = examplePath + "/" +
examplePath.split("/").last() + ".pro";
QString userFriendlyFilePath;
QString fullPath = Config::findFile(fake->doc().location(),
exampleFiles,
exampleDirs,
proFileName,
userFriendlyFilePath);
if (fullPath.isEmpty()) {
QString tmp = proFileName;
proFileName = examplePath + "/" + "qbuild.pro";
userFriendlyFilePath.clear();
fullPath = Config::findFile(fake->doc().location(),
exampleFiles,
exampleDirs,
proFileName,
userFriendlyFilePath);
if (fullPath.isEmpty()) {
fake->doc().location().warning(
tr("Cannot find file '%1' or '%2'").arg(tmp).arg(proFileName));
return;
}
}
int sizeOfBoringPartOfName = fullPath.size() - proFileName.size();
fullPath.truncate(fullPath.lastIndexOf('/'));
QStringList exampleFiles = Config::getFilesHere(fullPath,
exampleNameFilter);
if (!exampleFiles.isEmpty()) {
// move main.cpp and to the end, if it exists
QString mainCpp;
QMutableStringListIterator i(exampleFiles);
i.toBack();
while (i.hasPrevious()) {
QString fileName = i.previous();
if (fileName.endsWith("/main.cpp")) {
mainCpp = fileName;
i.remove();
}
else if (fileName.contains("/qrc_") || fileName.contains("/moc_")
|| fileName.contains("/ui_"))
i.remove();
}
if (!mainCpp.isEmpty())
exampleFiles.append(mainCpp);
// add any qmake Qt resource files and qmake project files
exampleFiles += Config::getFilesHere(fullPath, "*.qrc *.pro");
}
foreach (const QString &exampleFile, exampleFiles)
(void) new FakeNode(fake,
exampleFile.mid(sizeOfBoringPartOfName),
Node::File);
}
QT_END_NAMESPACE