/**************************************************************************** ** ** Copyright (C) 2019 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the tools applications of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:GPL-EXCEPT$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3 as published by the Free Software ** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qdocindexfiles.h" #include "atom.h" #include "config.h" #include "generator.h" #include "location.h" #include "loggingcategory.h" #include "qdocdatabase.h" #include "qdoctagfiles.h" #include #include #include QT_BEGIN_NAMESPACE enum QDocAttr { QDocAttrNone, QDocAttrAttribution, QDocAttrExample, QDocAttrFile, QDocAttrImage, QDocAttrDocument, QDocAttrExternalPage }; static Node *root_ = nullptr; static IndexSectionWriter *post_ = nullptr; /*! \class QDocIndexFiles This class handles qdoc index files. */ QDocIndexFiles *QDocIndexFiles::qdocIndexFiles_ = nullptr; /*! Constructs the singleton QDocIndexFiles. */ QDocIndexFiles::QDocIndexFiles() : gen_(nullptr) { qdb_ = QDocDatabase::qdocDB(); storeLocationInfo_ = Config::instance().getBool(CONFIG_LOCATIONINFO); } /*! Destroys the singleton QDocIndexFiles. */ QDocIndexFiles::~QDocIndexFiles() { qdb_ = nullptr; gen_ = nullptr; } /*! Creates the singleton. Allows only one instance of the class to be created. Returns a pointer to the singleton. */ QDocIndexFiles *QDocIndexFiles::qdocIndexFiles() { if (qdocIndexFiles_ == nullptr) qdocIndexFiles_ = new QDocIndexFiles; return qdocIndexFiles_; } /*! Destroys the singleton. */ void QDocIndexFiles::destroyQDocIndexFiles() { if (qdocIndexFiles_ != nullptr) { delete qdocIndexFiles_; qdocIndexFiles_ = nullptr; } } /*! Reads and parses the list of index files in \a indexFiles. */ void QDocIndexFiles::readIndexes(const QStringList &indexFiles) { for (const QString &file : indexFiles) { qCDebug(lcQdoc) << "Loading index file: " << file; readIndexFile(file); } } static bool readingRoot = true; /*! Reads and parses the index file at \a path. */ void QDocIndexFiles::readIndexFile(const QString &path) { QFile file(path); if (!file.open(QFile::ReadOnly)) { qWarning() << "Could not read index file" << path; return; } QXmlStreamReader reader(&file); reader.setNamespaceProcessing(false); if (!reader.readNextStartElement()) return; if (reader.name() != QLatin1String("INDEX")) return; QXmlStreamAttributes attrs = reader.attributes(); // Generate a relative URL between the install dir and the index file // when the -installdir command line option is set. QString indexUrl; if (Config::installDir.isEmpty()) { indexUrl = attrs.value(QLatin1String("url")).toString(); } else { // Use a fake directory, since we will copy the output to a sub directory of // installDir when using "make install". This is just for a proper relative path. // QDir installDir(path.section('/', 0, -3) + "/outputdir"); QDir installDir(path.section('/', 0, -3) + '/' + Generator::outputSubdir()); indexUrl = installDir.relativeFilePath(path).section('/', 0, -2); } project_ = attrs.value(QLatin1String("project")).toString(); QString indexTitle = attrs.value(QLatin1String("indexTitle")).toString(); basesList_.clear(); NamespaceNode *root = qdb_->newIndexTree(project_); if (!root) { qWarning() << "Issue parsing index tree" << path; return; } root->tree()->setIndexTitle(indexTitle); // Scan all elements in the XML file, constructing a map that contains // base classes for each class found. while (reader.readNextStartElement()) { readingRoot = true; readIndexSection(reader, root, indexUrl); } // Now that all the base classes have been found for this index, // arrange them into an inheritance hierarchy. resolveIndex(); } /*! Read a
element from the index file and create the appropriate node(s). */ void QDocIndexFiles::readIndexSection(QXmlStreamReader &reader, Node *current, const QString &indexUrl) { QXmlStreamAttributes attributes = reader.attributes(); QStringRef elementName = reader.name(); QString name = attributes.value(QLatin1String("name")).toString(); QString href = attributes.value(QLatin1String("href")).toString(); Node *node; Location location; Aggregate *parent = nullptr; bool hasReadChildren = false; if (current->isAggregate()) parent = static_cast(current); QString filePath; int lineNo = 0; if (attributes.hasAttribute(QLatin1String("filepath"))) { filePath = attributes.value(QLatin1String("filepath")).toString(); lineNo = attributes.value("lineno").toInt(); } if (elementName == QLatin1String("namespace")) { NamespaceNode *ns = new NamespaceNode(parent, name); node = ns; if (!indexUrl.isEmpty()) location = Location(indexUrl + QLatin1Char('/') + name.toLower() + ".html"); else if (!indexUrl.isNull()) location = Location(name.toLower() + ".html"); } else if (elementName == QLatin1String("class") || elementName == QLatin1String("struct") || elementName == QLatin1String("union")) { Node::NodeType type = Node::Class; if (elementName == QLatin1String("class")) type = Node::Class; else if (elementName == QLatin1String("struct")) type = Node::Struct; else if (elementName == QLatin1String("union")) type = Node::Union; node = new ClassNode(type, parent, name); if (attributes.hasAttribute(QLatin1String("bases"))) { QString bases = attributes.value(QLatin1String("bases")).toString(); if (!bases.isEmpty()) basesList_.append( QPair(static_cast(node), bases)); } if (!indexUrl.isEmpty()) location = Location(indexUrl + QLatin1Char('/') + name.toLower() + ".html"); else if (!indexUrl.isNull()) location = Location(name.toLower() + ".html"); bool abstract = false; if (attributes.value(QLatin1String("abstract")) == QLatin1String("true")) abstract = true; node->setAbstract(abstract); } else if (elementName == QLatin1String("header")) { node = new HeaderNode(parent, name); if (attributes.hasAttribute(QLatin1String("location"))) name = attributes.value(QLatin1String("location")).toString(); if (!indexUrl.isEmpty()) location = Location(indexUrl + QLatin1Char('/') + name); else if (!indexUrl.isNull()) location = Location(name); } else if (elementName == QLatin1String("qmlclass")) { QmlTypeNode *qcn = new QmlTypeNode(parent, name); qcn->setTitle(attributes.value(QLatin1String("title")).toString()); QString logicalModuleName = attributes.value(QLatin1String("qml-module-name")).toString(); if (!logicalModuleName.isEmpty()) qdb_->addToQmlModule(logicalModuleName, qcn); bool abstract = false; if (attributes.value(QLatin1String("abstract")) == QLatin1String("true")) abstract = true; qcn->setAbstract(abstract); QString qmlFullBaseName = attributes.value(QLatin1String("qml-base-type")).toString(); if (!qmlFullBaseName.isEmpty()) { qcn->setQmlBaseName(qmlFullBaseName); } if (attributes.hasAttribute(QLatin1String("location"))) name = attributes.value("location").toString(); if (!indexUrl.isEmpty()) location = Location(indexUrl + QLatin1Char('/') + name); else if (!indexUrl.isNull()) location = Location(name); node = qcn; } else if (elementName == QLatin1String("jstype")) { QmlTypeNode *qcn = new QmlTypeNode(parent, name); qcn->setGenus(Node::JS); qcn->setTitle(attributes.value(QLatin1String("title")).toString()); QString logicalModuleName = attributes.value(QLatin1String("js-module-name")).toString(); if (!logicalModuleName.isEmpty()) qdb_->addToQmlModule(logicalModuleName, qcn); bool abstract = false; if (attributes.value(QLatin1String("abstract")) == QLatin1String("true")) abstract = true; qcn->setAbstract(abstract); QString qmlFullBaseName = attributes.value(QLatin1String("js-base-type")).toString(); if (!qmlFullBaseName.isEmpty()) { qcn->setQmlBaseName(qmlFullBaseName); } if (attributes.hasAttribute(QLatin1String("location"))) name = attributes.value("location").toString(); if (!indexUrl.isEmpty()) location = Location(indexUrl + QLatin1Char('/') + name); else if (!indexUrl.isNull()) location = Location(name); node = qcn; } else if (elementName == QLatin1String("qmlbasictype")) { QmlBasicTypeNode *qbtn = new QmlBasicTypeNode(parent, name); qbtn->setTitle(attributes.value(QLatin1String("title")).toString()); if (attributes.hasAttribute(QLatin1String("location"))) name = attributes.value("location").toString(); if (!indexUrl.isEmpty()) location = Location(indexUrl + QLatin1Char('/') + name); else if (!indexUrl.isNull()) location = Location(name); node = qbtn; } else if (elementName == QLatin1String("jsbasictype")) { QmlBasicTypeNode *qbtn = new QmlBasicTypeNode(parent, name); qbtn->setGenus(Node::JS); qbtn->setTitle(attributes.value(QLatin1String("title")).toString()); if (attributes.hasAttribute(QLatin1String("location"))) name = attributes.value("location").toString(); if (!indexUrl.isEmpty()) location = Location(indexUrl + QLatin1Char('/') + name); else if (!indexUrl.isNull()) location = Location(name); node = qbtn; } else if (elementName == QLatin1String("qmlproperty")) { QString type = attributes.value(QLatin1String("type")).toString(); bool attached = false; if (attributes.value(QLatin1String("attached")) == QLatin1String("true")) attached = true; bool readonly = false; if (attributes.value(QLatin1String("writable")) == QLatin1String("false")) readonly = true; QmlPropertyNode *qpn = new QmlPropertyNode(parent, name, type, attached); qpn->markReadOnly(readonly); node = qpn; } else if (elementName == QLatin1String("jsproperty")) { QString type = attributes.value(QLatin1String("type")).toString(); bool attached = false; if (attributes.value(QLatin1String("attached")) == QLatin1String("true")) attached = true; bool readonly = false; if (attributes.value(QLatin1String("writable")) == QLatin1String("false")) readonly = true; QmlPropertyNode *qpn = new QmlPropertyNode(parent, name, type, attached); qpn->setGenus(Node::JS); qpn->markReadOnly(readonly); node = qpn; } else if (elementName == QLatin1String("group")) { CollectionNode *cn = qdb_->addGroup(name); cn->setTitle(attributes.value(QLatin1String("title")).toString()); cn->setSubtitle(attributes.value(QLatin1String("subtitle")).toString()); if (attributes.value(QLatin1String("seen")) == QLatin1String("true")) cn->markSeen(); node = cn; } else if (elementName == QLatin1String("module")) { CollectionNode *cn = qdb_->addModule(name); cn->setTitle(attributes.value(QLatin1String("title")).toString()); cn->setSubtitle(attributes.value(QLatin1String("subtitle")).toString()); if (attributes.value(QLatin1String("seen")) == QLatin1String("true")) cn->markSeen(); node = cn; } else if (elementName == QLatin1String("qmlmodule")) { QString t = attributes.value(QLatin1String("qml-module-name")).toString(); CollectionNode *cn = qdb_->addQmlModule(t); QStringList info; info << t << attributes.value(QLatin1String("qml-module-version")).toString(); cn->setLogicalModuleInfo(info); cn->setTitle(attributes.value(QLatin1String("title")).toString()); cn->setSubtitle(attributes.value(QLatin1String("subtitle")).toString()); if (attributes.value(QLatin1String("seen")) == QLatin1String("true")) cn->markSeen(); node = cn; } else if (elementName == QLatin1String("jsmodule")) { QString t = attributes.value(QLatin1String("js-module-name")).toString(); CollectionNode *cn = qdb_->addJsModule(t); QStringList info; info << t << attributes.value(QLatin1String("js-module-version")).toString(); cn->setLogicalModuleInfo(info); cn->setTitle(attributes.value(QLatin1String("title")).toString()); cn->setSubtitle(attributes.value(QLatin1String("subtitle")).toString()); if (attributes.value(QLatin1String("seen")) == QLatin1String("true")) cn->markSeen(); node = cn; } else if (elementName == QLatin1String("page")) { QDocAttr subtype = QDocAttrNone; Node::PageType ptype = Node::NoPageType; QString attr = attributes.value(QLatin1String("subtype")).toString(); if (attr == QLatin1String("attribution")) { subtype = QDocAttrDocument; ptype = Node::AttributionPage; } else if (attr == QLatin1String("example")) { subtype = QDocAttrExample; ptype = Node::ExamplePage; } else if (attr == QLatin1String("file")) { subtype = QDocAttrFile; ptype = Node::NoPageType; } else if (attr == QLatin1String("image")) { subtype = QDocAttrImage; ptype = Node::NoPageType; } else if (attr == QLatin1String("page")) { subtype = QDocAttrDocument; ptype = Node::ArticlePage; } else if (attr == QLatin1String("externalpage")) { subtype = QDocAttrExternalPage; ptype = Node::ArticlePage; } else goto done; if (current->isExample()) { ExampleNode *en = static_cast(current); if (subtype == QDocAttrFile) { en->appendFile(name); goto done; } else if (subtype == QDocAttrImage) { en->appendImage(name); goto done; } } PageNode *pn = nullptr; if (subtype == QDocAttrExample) pn = new ExampleNode(parent, name); else if (subtype == QDocAttrExternalPage) pn = new ExternalPageNode(parent, name); else pn = new PageNode(parent, name, ptype); pn->setTitle(attributes.value(QLatin1String("title")).toString()); if (attributes.hasAttribute(QLatin1String("location"))) name = attributes.value(QLatin1String("location")).toString(); if (!indexUrl.isEmpty()) location = Location(indexUrl + QLatin1Char('/') + name); else if (!indexUrl.isNull()) location = Location(name); node = pn; } else if (elementName == QLatin1String("enum")) { EnumNode *enumNode = new EnumNode(parent, name, attributes.hasAttribute("scoped")); if (!indexUrl.isEmpty()) location = Location(indexUrl + QLatin1Char('/') + parent->name().toLower() + ".html"); else if (!indexUrl.isNull()) location = Location(parent->name().toLower() + ".html"); while (reader.readNextStartElement()) { QXmlStreamAttributes childAttributes = reader.attributes(); if (reader.name() == QLatin1String("value")) { EnumItem item(childAttributes.value(QLatin1String("name")).toString(), childAttributes.value(QLatin1String("value")).toString()); enumNode->addItem(item); } else if (reader.name() == QLatin1String("keyword")) { insertTarget(TargetRec::Keyword, childAttributes, enumNode); } else if (reader.name() == QLatin1String("target")) { insertTarget(TargetRec::Target, childAttributes, enumNode); } reader.skipCurrentElement(); } node = enumNode; hasReadChildren = true; } else if (elementName == QLatin1String("typedef")) { node = new TypedefNode(parent, name); if (!indexUrl.isEmpty()) location = Location(indexUrl + QLatin1Char('/') + parent->name().toLower() + ".html"); else if (!indexUrl.isNull()) location = Location(parent->name().toLower() + ".html"); } else if (elementName == QLatin1String("alias")) { node = new TypeAliasNode(parent, name, attributes.value(QLatin1String("aliasedtype")).toString()); if (!indexUrl.isEmpty()) location = Location(indexUrl + QLatin1Char('/') + parent->name().toLower() + ".html"); else if (!indexUrl.isNull()) location = Location(parent->name().toLower() + ".html"); } else if (elementName == QLatin1String("property")) { node = new PropertyNode(parent, name); if (!indexUrl.isEmpty()) location = Location(indexUrl + QLatin1Char('/') + parent->name().toLower() + ".html"); else if (!indexUrl.isNull()) location = Location(parent->name().toLower() + ".html"); } else if (elementName == QLatin1String("function")) { QString t = attributes.value(QLatin1String("meta")).toString(); bool attached = false; FunctionNode::Metaness metaness = FunctionNode::Plain; if (!t.isEmpty()) metaness = FunctionNode::getMetaness(t); if (attributes.value(QLatin1String("attached")) == QLatin1String("true")) attached = true; FunctionNode *fn = new FunctionNode(metaness, parent, name, attached); if (fn->isCppNode()) { fn->setReturnType(attributes.value(QLatin1String("type")).toString()); fn->setVirtualness(attributes.value(QLatin1String("virtual")).toString()); fn->setConst(attributes.value(QLatin1String("const")) == QLatin1String("true")); fn->setStatic(attributes.value(QLatin1String("static")) == QLatin1String("true")); fn->setFinal(attributes.value(QLatin1String("final")) == QLatin1String("true")); fn->setOverride(attributes.value(QLatin1String("override")) == QLatin1String("true")); int refness = attributes.value(QLatin1String("refness")).toUInt(); if (refness == 1) fn->setRef(true); else if (refness == 2) fn->setRefRef(true); /* Theoretically, this should ensure that each function node receives the same overload number and overload flag it was written with, and it should be unnecessary to call normalizeOverloads() for index nodes. */ if (attributes.value(QLatin1String("overload")) == QLatin1String("true")) fn->setOverloadNumber(attributes.value(QLatin1String("overload-number")).toUInt()); else fn->setOverloadNumber(0); /* Note: The "signature" attribute was written to the index file, but it is not read back in. That is ok because we reconstruct the parameter list and the return type, from which the signature was built in the first place and from which it can be rebuilt. */ while (reader.readNextStartElement()) { QXmlStreamAttributes childAttributes = reader.attributes(); if (reader.name() == QLatin1String("parameter")) { // Do not use the default value for the parameter; it is not // required, and has been known to cause problems. QString type = childAttributes.value(QLatin1String("type")).toString(); QString name = childAttributes.value(QLatin1String("name")).toString(); fn->parameters().append(type, name); } else if (reader.name() == QLatin1String("keyword")) { insertTarget(TargetRec::Keyword, childAttributes, fn); } else if (reader.name() == QLatin1String("target")) { insertTarget(TargetRec::Target, childAttributes, fn); } reader.skipCurrentElement(); } } node = fn; if (!indexUrl.isEmpty()) location = Location(indexUrl + QLatin1Char('/') + parent->name().toLower() + ".html"); else if (!indexUrl.isNull()) location = Location(parent->name().toLower() + ".html"); hasReadChildren = true; } else if (elementName == QLatin1String("variable")) { node = new VariableNode(parent, name); if (!indexUrl.isEmpty()) location = Location(indexUrl + QLatin1Char('/') + parent->name().toLower() + ".html"); else if (!indexUrl.isNull()) location = Location(parent->name().toLower() + ".html"); } else if (elementName == QLatin1String("keyword")) { insertTarget(TargetRec::Keyword, attributes, current); goto done; } else if (elementName == QLatin1String("target")) { insertTarget(TargetRec::Target, attributes, current); goto done; } else if (elementName == QLatin1String("contents")) { insertTarget(TargetRec::Contents, attributes, current); goto done; } else if (elementName == QLatin1String("proxy")) { node = new ProxyNode(parent, name); if (!indexUrl.isEmpty()) location = Location(indexUrl + QLatin1Char('/') + name.toLower() + ".html"); else if (!indexUrl.isNull()) location = Location(name.toLower() + ".html"); } else { goto done; } { QString access = attributes.value(QLatin1String("access")).toString(); if (access == "public") node->setAccess(Node::Public); else if (access == "protected") node->setAccess(Node::Protected); else if ((access == "private") || (access == "internal")) node->setAccess(Node::Private); else node->setAccess(Node::Public); if (attributes.hasAttribute(QLatin1String("related"))) node->setRelatedNonmember(attributes.value(QLatin1String("related")) == QLatin1String("true")); if (attributes.hasAttribute(QLatin1String("threadsafety"))) { QString threadSafety = attributes.value(QLatin1String("threadsafety")).toString(); if (threadSafety == QLatin1String("non-reentrant")) node->setThreadSafeness(Node::NonReentrant); else if (threadSafety == QLatin1String("reentrant")) node->setThreadSafeness(Node::Reentrant); else if (threadSafety == QLatin1String("thread safe")) node->setThreadSafeness(Node::ThreadSafe); else node->setThreadSafeness(Node::UnspecifiedSafeness); } else node->setThreadSafeness(Node::UnspecifiedSafeness); QString status = attributes.value(QLatin1String("status")).toString(); if (status == QLatin1String("obsolete")) node->setStatus(Node::Obsolete); else if (status == QLatin1String("deprecated")) node->setStatus(Node::Obsolete); else if (status == QLatin1String("preliminary")) node->setStatus(Node::Preliminary); else if (status == QLatin1String("active")) node->setStatus(Node::Active); else if (status == QLatin1String("internal")) node->setStatus(Node::Internal); else if (status == QLatin1String("ignored")) node->setStatus(Node::DontDocument); else node->setStatus(Node::Active); QString physicalModuleName = attributes.value(QLatin1String("module")).toString(); if (!physicalModuleName.isEmpty()) qdb_->addToModule(physicalModuleName, node); if (!href.isEmpty()) { node->setUrl(href); // Include the index URL if it exists if (!node->isExternalPage() && !indexUrl.isEmpty()) node->setUrl(indexUrl + QLatin1Char('/') + href); } QString since = attributes.value(QLatin1String("since")).toString(); if (!since.isEmpty()) { node->setSince(since); } if (attributes.hasAttribute(QLatin1String("documented"))) { if (attributes.value(QLatin1String("documented")) == QLatin1String("true")) node->setHadDoc(); } QString groupsAttr = attributes.value(QLatin1String("groups")).toString(); if (!groupsAttr.isEmpty()) { const QStringList groupNames = groupsAttr.split(QLatin1Char(',')); for (const auto &name : groupNames) { qdb_->addToGroup(name, node); } } // Create some content for the node. QSet emptySet; Location t(filePath); if (!filePath.isEmpty()) { t.setLineNo(lineNo); node->setLocation(t); location = t; } Doc doc(location, location, QString(), emptySet, emptySet); // placeholder node->setDoc(doc); node->setIndexNodeFlag(); // Important: This node came from an index file. node->setOutputSubdirectory(project_.toLower()); QString briefAttr = attributes.value(QLatin1String("brief")).toString(); if (!briefAttr.isEmpty()) { node->setReconstitutedBrief(briefAttr); } if (!hasReadChildren) { bool useParent = (elementName == QLatin1String("namespace") && name.isEmpty()); while (reader.readNextStartElement()) { if (useParent) readIndexSection(reader, parent, indexUrl); else readIndexSection(reader, node, indexUrl); } } } done: while (!reader.isEndElement()) { if (reader.readNext() == QXmlStreamReader::Invalid) { break; } } } void QDocIndexFiles::insertTarget(TargetRec::TargetType type, const QXmlStreamAttributes &attributes, Node *node) { int priority; switch (type) { case TargetRec::Keyword: priority = 1; break; case TargetRec::Target: priority = 2; break; case TargetRec::Contents: priority = 3; break; default: return; } QString name = attributes.value(QLatin1String("name")).toString(); QString title = attributes.value(QLatin1String("title")).toString(); qdb_->insertTarget(name, title, type, node, priority); } /*! This function tries to resolve class inheritance immediately after the index file is read. It is not always possible to resolve a class inheritance at this point, because the base class might be in an index file that hasn't been read yet, or it might be in one of the header files that will be read for the current module. These cases will be resolved after all the index files and header and source files have been read, just prior to beginning the generate phase for the current module. I don't think this is completely correct because it always sets the access to public. */ void QDocIndexFiles::resolveIndex() { QPair pair; for (const auto &pair : qAsConst(basesList_)) { const QStringList bases = pair.second.split(QLatin1Char(',')); for (const auto &base : bases) { QStringList basePath = base.split(QString("::")); Node *n = qdb_->findClassNode(basePath); if (n) pair.first->addResolvedBaseClass(Node::Public, static_cast(n)); else pair.first->addUnresolvedBaseClass(Node::Public, basePath, QString()); } } // No longer needed. basesList_.clear(); } static const QString getAccessString(Node::Access t) { switch (t) { case Node::Public: return QLatin1String("public"); case Node::Protected: return QLatin1String("protected"); case Node::Private: return QLatin1String("private"); default: break; } return QLatin1String("public"); } static const QString getStatusString(Node::Status t) { switch (t) { case Node::Obsolete: case Node::Deprecated: return QLatin1String("obsolete"); case Node::Preliminary: return QLatin1String("preliminary"); case Node::Active: return QLatin1String("active"); case Node::Internal: return QLatin1String("internal"); case Node::DontDocument: return QLatin1String("ignored"); default: break; } return QLatin1String("active"); } static const QString getThreadSafenessString(Node::ThreadSafeness t) { switch (t) { case Node::NonReentrant: return QLatin1String("non-reentrant"); case Node::Reentrant: return QLatin1String("reentrant"); case Node::ThreadSafe: return QLatin1String("thread safe"); case Node::UnspecifiedSafeness: default: break; } return QLatin1String("unspecified"); } /*! Generate the index section with the given \a writer for the \a node specified, returning true if an element was written, and returning false if an element is not written. \note Function nodes are processed in generateFunctionSection() */ bool QDocIndexFiles::generateIndexSection(QXmlStreamWriter &writer, Node *node, IndexSectionWriter *post) { if (gen_ == nullptr) gen_ = Generator::currentGenerator(); Q_ASSERT(gen_); post_ = nullptr; /* Don't include index nodes in a new index file. */ if (node->isIndexNode()) return false; QString nodeName; QString logicalModuleName; QString logicalModuleVersion; QString qmlFullBaseName; QString baseNameAttr; QString moduleNameAttr; QString moduleVerAttr; switch (node->nodeType()) { case Node::Namespace: nodeName = "namespace"; break; case Node::Class: nodeName = "class"; break; case Node::Struct: nodeName = "struct"; break; case Node::Union: nodeName = "union"; break; case Node::HeaderFile: nodeName = "header"; break; case Node::QmlType: nodeName = "qmlclass"; if (node->logicalModule() != nullptr) logicalModuleName = node->logicalModule()->logicalModuleName(); baseNameAttr = "qml-base-type"; moduleNameAttr = "qml-module-name"; moduleVerAttr = "qml-module-version"; qmlFullBaseName = node->qmlFullBaseName(); break; case Node::JsType: nodeName = "jstype"; baseNameAttr = "js-base-type"; moduleNameAttr = "js-module-name"; moduleVerAttr = "js-module-version"; if (node->logicalModule() != nullptr) logicalModuleName = node->logicalModule()->logicalModuleName(); qmlFullBaseName = node->qmlFullBaseName(); break; case Node::QmlBasicType: nodeName = "qmlbasictype"; break; case Node::JsBasicType: nodeName = "jsbasictype"; break; case Node::Page: case Node::Example: case Node::ExternalPage: nodeName = "page"; break; case Node::Group: nodeName = "group"; break; case Node::Module: nodeName = "module"; break; case Node::QmlModule: nodeName = "qmlmodule"; moduleNameAttr = "qml-module-name"; moduleVerAttr = "qml-module-version"; logicalModuleName = node->logicalModuleName(); logicalModuleVersion = node->logicalModuleVersion(); break; case Node::JsModule: nodeName = "jsmodule"; moduleNameAttr = "js-module-name"; moduleVerAttr = "js-module-version"; logicalModuleName = node->logicalModuleName(); logicalModuleVersion = node->logicalModuleVersion(); break; case Node::Enum: nodeName = "enum"; break; case Node::Typedef: nodeName = "typedef"; break; case Node::TypeAlias: nodeName = "alias"; break; case Node::Property: nodeName = "property"; break; case Node::Variable: nodeName = "variable"; break; case Node::QmlProperty: nodeName = "qmlproperty"; break; case Node::JsProperty: nodeName = "jsProperty"; break; case Node::Proxy: nodeName = "proxy"; break; case Node::Function: // Now processed in generateFunctionSection() default: return false; } QString objName = node->name(); // Special case: only the root node should have an empty name. if (objName.isEmpty() && node != qdb_->primaryTreeRoot()) return false; writer.writeStartElement(nodeName); if (!node->isTextPageNode() && !node->isCollectionNode() && !node->isHeader()) { if (node->threadSafeness() != Node::UnspecifiedSafeness) writer.writeAttribute("threadsafety", getThreadSafenessString(node->threadSafeness())); } writer.writeAttribute("name", objName); // Write module and base type info for QML/JS types if (!moduleNameAttr.isEmpty()) { if (!logicalModuleName.isEmpty()) writer.writeAttribute(moduleNameAttr, logicalModuleName); else writer.writeAttribute(moduleNameAttr, node->name()); if (!logicalModuleVersion.isEmpty()) writer.writeAttribute(moduleVerAttr, logicalModuleVersion); } if (!baseNameAttr.isEmpty() && !qmlFullBaseName.isEmpty()) writer.writeAttribute(baseNameAttr, qmlFullBaseName); QString href; if (!node->isExternalPage()) { QString fullName = node->fullDocumentName(); if (fullName != objName) writer.writeAttribute("fullname", fullName); href = gen_->fullDocumentLocation(node); } else href = node->name(); if (node->isQmlNode() || node->isJsNode()) { Aggregate *p = node->parent(); if (p && (p->isQmlType() || p->isJsType()) && p->isAbstract()) href.clear(); } if (!href.isEmpty()) writer.writeAttribute("href", href); writer.writeAttribute("status", getStatusString(node->status())); if (!node->isTextPageNode() && !node->isCollectionNode() && !node->isHeader()) { writer.writeAttribute("access", getAccessString(node->access())); if (node->isAbstract()) writer.writeAttribute("abstract", "true"); } const Location &declLocation = node->declLocation(); if (!declLocation.fileName().isEmpty()) writer.writeAttribute("location", declLocation.fileName()); if (storeLocationInfo_ && !declLocation.filePath().isEmpty()) { writer.writeAttribute("filepath", declLocation.filePath()); writer.writeAttribute("lineno", QString("%1").arg(declLocation.lineNo())); } if (node->isRelatedNonmember()) writer.writeAttribute("related", "true"); if (!node->since().isEmpty()) writer.writeAttribute("since", node->since()); if (node->hasDoc()) writer.writeAttribute("documented", "true"); QString brief = node->doc().trimmedBriefText(node->name()).toString(); switch (node->nodeType()) { case Node::Class: case Node::Struct: case Node::Union: { // Classes contain information about their base classes. const ClassNode *classNode = static_cast(node); const QVector bases = classNode->baseClasses(); QSet baseStrings; for (const auto &related : bases) { ClassNode *n = related.node_; if (n) baseStrings.insert(n->fullName()); else if (!related.path_.isEmpty()) baseStrings.insert(related.path_.join(QLatin1String("::"))); } if (!baseStrings.isEmpty()) { QStringList baseStringsAsList = baseStrings.values(); baseStringsAsList.sort(); writer.writeAttribute("bases", baseStringsAsList.join(QLatin1Char(','))); } if (!node->physicalModuleName().isEmpty()) writer.writeAttribute("module", node->physicalModuleName()); if (!classNode->groupNames().isEmpty()) writer.writeAttribute("groups", classNode->groupNames().join(QLatin1Char(','))); if (!brief.isEmpty()) writer.writeAttribute("brief", brief); } break; case Node::HeaderFile: { const HeaderNode *hn = static_cast(node); if (!hn->physicalModuleName().isEmpty()) writer.writeAttribute("module", hn->physicalModuleName()); if (!hn->groupNames().isEmpty()) writer.writeAttribute("groups", hn->groupNames().join(QLatin1Char(','))); if (!brief.isEmpty()) writer.writeAttribute("brief", brief); writer.writeAttribute("title", hn->title()); writer.writeAttribute("fulltitle", hn->fullTitle()); writer.writeAttribute("subtitle", hn->subtitle()); } break; case Node::Namespace: { const NamespaceNode *ns = static_cast(node); if (!ns->physicalModuleName().isEmpty()) writer.writeAttribute("module", ns->physicalModuleName()); if (!ns->groupNames().isEmpty()) writer.writeAttribute("groups", ns->groupNames().join(QLatin1Char(','))); if (!brief.isEmpty()) writer.writeAttribute("brief", brief); } break; case Node::JsType: case Node::QmlType: { const QmlTypeNode *qcn = static_cast(node); writer.writeAttribute("title", qcn->title()); writer.writeAttribute("fulltitle", qcn->fullTitle()); writer.writeAttribute("subtitle", qcn->subtitle()); if (!qcn->groupNames().isEmpty()) writer.writeAttribute("groups", qcn->groupNames().join(QLatin1Char(','))); if (!brief.isEmpty()) writer.writeAttribute("brief", brief); } break; case Node::Page: case Node::Example: case Node::ExternalPage: { /* Page nodes (anything that generates a doc page) no longer have a subtype. Some of the subtypes (Example, External, and Header) have been promoted to be node types. They have become subclasses of PageNode or, in the case of Header, a subclass of Aggregate. The processing for other subtypes that have not (yet) been promoted to be node types is determined by the PageType enum. */ bool writeModuleName = false; if (node->isExample()) { writer.writeAttribute("subtype", "example"); writeModuleName = true; } else if (node->isExternalPage()) { writer.writeAttribute("subtype", "externalpage"); } else { if (node->pageType() == Node::AttributionPage) writer.writeAttribute("subtype", "attribution"); else writer.writeAttribute("subtype", "page"); writeModuleName = true; } const PageNode *pn = static_cast(node); writer.writeAttribute("title", pn->title()); writer.writeAttribute("fulltitle", pn->fullTitle()); writer.writeAttribute("subtitle", pn->subtitle()); if (!node->physicalModuleName().isEmpty() && writeModuleName) writer.writeAttribute("module", node->physicalModuleName()); if (!pn->groupNames().isEmpty()) writer.writeAttribute("groups", pn->groupNames().join(QLatin1Char(','))); if (!brief.isEmpty()) writer.writeAttribute("brief", brief); } break; case Node::Group: { const CollectionNode *cn = static_cast(node); writer.writeAttribute("seen", cn->wasSeen() ? "true" : "false"); writer.writeAttribute("title", cn->title()); if (!cn->subtitle().isEmpty()) writer.writeAttribute("subtitle", cn->subtitle()); if (!cn->physicalModuleName().isEmpty()) writer.writeAttribute("module", cn->physicalModuleName()); if (!cn->groupNames().isEmpty()) writer.writeAttribute("groups", cn->groupNames().join(QLatin1Char(','))); /* This is not read back in, so it probably shouldn't be written out in the first place. */ if (!cn->members().isEmpty()) { QStringList names; const auto &members = cn->members(); for (const Node *member : members) names.append(member->name()); writer.writeAttribute("members", names.join(QLatin1Char(','))); } if (!brief.isEmpty()) writer.writeAttribute("brief", brief); } break; case Node::Module: { const CollectionNode *cn = static_cast(node); writer.writeAttribute("seen", cn->wasSeen() ? "true" : "false"); writer.writeAttribute("title", cn->title()); if (!cn->subtitle().isEmpty()) writer.writeAttribute("subtitle", cn->subtitle()); if (!cn->physicalModuleName().isEmpty()) writer.writeAttribute("module", cn->physicalModuleName()); if (!cn->groupNames().isEmpty()) writer.writeAttribute("groups", cn->groupNames().join(QLatin1Char(','))); /* This is not read back in, so it probably shouldn't be written out in the first place. */ if (!cn->members().isEmpty()) { QStringList names; const auto &members = cn->members(); for (const Node *member : members) names.append(member->name()); writer.writeAttribute("members", names.join(QLatin1Char(','))); } if (!brief.isEmpty()) writer.writeAttribute("brief", brief); } break; case Node::JsModule: case Node::QmlModule: { const CollectionNode *cn = static_cast(node); writer.writeAttribute("seen", cn->wasSeen() ? "true" : "false"); writer.writeAttribute("title", cn->title()); if (!cn->subtitle().isEmpty()) writer.writeAttribute("subtitle", cn->subtitle()); if (!cn->physicalModuleName().isEmpty()) writer.writeAttribute("module", cn->physicalModuleName()); if (!cn->groupNames().isEmpty()) writer.writeAttribute("groups", cn->groupNames().join(QLatin1Char(','))); /* This is not read back in, so it probably shouldn't be written out in the first place. */ if (!cn->members().isEmpty()) { QStringList names; const auto &members = cn->members(); for (const Node *member : members) names.append(member->name()); writer.writeAttribute("members", names.join(QLatin1Char(','))); } if (!brief.isEmpty()) writer.writeAttribute("brief", brief); } break; case Node::JsProperty: case Node::QmlProperty: { QmlPropertyNode *qpn = static_cast(node); writer.writeAttribute("type", qpn->dataType()); writer.writeAttribute("attached", qpn->isAttached() ? "true" : "false"); writer.writeAttribute("writable", qpn->isWritable() ? "true" : "false"); if (!brief.isEmpty()) writer.writeAttribute("brief", brief); } break; case Node::Property: { const PropertyNode *propertyNode = static_cast(node); writer.writeAttribute("type", propertyNode->dataType()); if (!brief.isEmpty()) writer.writeAttribute("brief", brief); const auto &getters = propertyNode->getters(); for (const auto *fnNode : getters) { if (fnNode) { const FunctionNode *functionNode = static_cast(fnNode); writer.writeStartElement("getter"); writer.writeAttribute("name", functionNode->name()); writer.writeEndElement(); // getter } } const auto &setters = propertyNode->setters(); for (const auto *fnNode : setters) { if (fnNode) { const FunctionNode *functionNode = static_cast(fnNode); writer.writeStartElement("setter"); writer.writeAttribute("name", functionNode->name()); writer.writeEndElement(); // setter } } const auto &resetters = propertyNode->resetters(); for (const auto *fnNode : resetters) { if (fnNode) { const FunctionNode *functionNode = static_cast(fnNode); writer.writeStartElement("resetter"); writer.writeAttribute("name", functionNode->name()); writer.writeEndElement(); // resetter } } const auto ¬ifiers = propertyNode->notifiers(); for (const auto *fnNode : notifiers) { if (fnNode) { const FunctionNode *functionNode = static_cast(fnNode); writer.writeStartElement("notifier"); writer.writeAttribute("name", functionNode->name()); writer.writeEndElement(); // notifier } } } break; case Node::Variable: { const VariableNode *variableNode = static_cast(node); writer.writeAttribute("type", variableNode->dataType()); writer.writeAttribute("static", variableNode->isStatic() ? "true" : "false"); if (!brief.isEmpty()) writer.writeAttribute("brief", brief); } break; case Node::Enum: { const EnumNode *enumNode = static_cast(node); if (enumNode->isScoped()) writer.writeAttribute("scoped", "true"); if (enumNode->flagsType()) writer.writeAttribute("typedef", enumNode->flagsType()->fullDocumentName()); const auto &items = enumNode->items(); for (const auto &item : items) { writer.writeStartElement("value"); writer.writeAttribute("name", item.name()); writer.writeAttribute("value", item.value()); writer.writeEndElement(); // value } } break; case Node::Typedef: { const TypedefNode *typedefNode = static_cast(node); if (typedefNode->associatedEnum()) writer.writeAttribute("enum", typedefNode->associatedEnum()->fullDocumentName()); } break; case Node::TypeAlias: writer.writeAttribute("aliasedtype", static_cast(node)->aliasedType()); break; case Node::Function: // Now processed in generateFunctionSection() default: break; } /* For our pages, we canonicalize the target, keyword and content item names so that they can be used by qdoc for other sets of documentation. The reason we do this here is that we don't want to ruin externally composed indexes, containing non-qdoc-style target names when reading in indexes. targets and keywords are now allowed in any node, not just inner nodes. */ if (node->doc().hasTargets()) { bool external = false; if (node->isExternalPage()) external = true; const auto &targets = node->doc().targets(); for (const Atom *target : targets) { QString title = target->string(); QString name = Doc::canonicalTitle(title); writer.writeStartElement("target"); if (!external) writer.writeAttribute("name", name); else writer.writeAttribute("name", title); if (name != title) writer.writeAttribute("title", title); writer.writeEndElement(); // target } } if (node->doc().hasKeywords()) { const auto &keywords = node->doc().keywords(); for (const Atom *keyword : keywords) { QString title = keyword->string(); QString name = Doc::canonicalTitle(title); writer.writeStartElement("keyword"); writer.writeAttribute("name", name); if (name != title) writer.writeAttribute("title", title); writer.writeEndElement(); // keyword } } /* Some nodes have a table of contents. For these, we close the opening tag, create sub-elements for the items in the table of contents, and then add a closing tag for the element. Elements for all other nodes are closed in the opening tag. */ if (node->isPageNode() || node->isCollectionNode()) { if (node->doc().hasTableOfContents()) { for (int i = 0; i < node->doc().tableOfContents().size(); ++i) { Atom *item = node->doc().tableOfContents()[i]; int level = node->doc().tableOfContentsLevels()[i]; QString title = Text::sectionHeading(item).toString(); writer.writeStartElement("contents"); writer.writeAttribute("name", Doc::canonicalTitle(title)); writer.writeAttribute("title", title); writer.writeAttribute("level", QString::number(level)); writer.writeEndElement(); // contents } } } // WebXMLGenerator - skip the nested elements for example // files/images, as the generator produces them separately if (node->isExample() && gen_->format() != QLatin1String("WebXML")) { const ExampleNode *en = static_cast(node); const auto &files = en->files(); for (const QString &file : files) { writer.writeStartElement("page"); writer.writeAttribute("name", file); QString href = gen_->linkForExampleFile(file, en); writer.writeAttribute("href", href); writer.writeAttribute("status", "active"); writer.writeAttribute("subtype", "file"); writer.writeAttribute("title", ""); writer.writeAttribute("fulltitle", Generator::exampleFileTitle(en, file)); writer.writeAttribute("subtitle", file); writer.writeEndElement(); // page } const auto &images = en->images(); for (const QString &file : images) { writer.writeStartElement("page"); writer.writeAttribute("name", file); QString href = gen_->linkForExampleFile(file, en); writer.writeAttribute("href", href); writer.writeAttribute("status", "active"); writer.writeAttribute("subtype", "image"); writer.writeAttribute("title", ""); writer.writeAttribute("fulltitle", Generator::exampleFileTitle(en, file)); writer.writeAttribute("subtitle", file); writer.writeEndElement(); // page } } // Append to the section if the callback object was set if (post) post->append(writer, node); post_ = post; return true; } /*! This function writes a element for \a fn to the index file using \a writer. */ void QDocIndexFiles::generateFunctionSection(QXmlStreamWriter &writer, FunctionNode *fn) { QString objName = fn->name(); writer.writeStartElement("function"); writer.writeAttribute("name", objName); QString fullName = fn->fullDocumentName(); if (fullName != objName) writer.writeAttribute("fullname", fullName); QString href = gen_->fullDocumentLocation(fn); if (!href.isEmpty()) writer.writeAttribute("href", href); if (fn->threadSafeness() != Node::UnspecifiedSafeness) writer.writeAttribute("threadsafety", getThreadSafenessString(fn->threadSafeness())); writer.writeAttribute("status", getStatusString(fn->status())); writer.writeAttribute("access", getAccessString(fn->access())); const Location &declLocation = fn->declLocation(); if (!declLocation.fileName().isEmpty()) writer.writeAttribute("location", declLocation.fileName()); if (storeLocationInfo_ && !declLocation.filePath().isEmpty()) { writer.writeAttribute("filepath", declLocation.filePath()); writer.writeAttribute("lineno", QString("%1").arg(declLocation.lineNo())); } if (fn->hasDoc()) writer.writeAttribute("documented", "true"); if (fn->isRelatedNonmember()) writer.writeAttribute("related", "true"); if (!fn->since().isEmpty()) writer.writeAttribute("since", fn->since()); QString brief = fn->doc().trimmedBriefText(fn->name()).toString(); writer.writeAttribute("meta", fn->metanessString()); if (fn->isCppNode()) { writer.writeAttribute("virtual", fn->virtualness()); writer.writeAttribute("const", fn->isConst() ? "true" : "false"); writer.writeAttribute("static", fn->isStatic() ? "true" : "false"); writer.writeAttribute("final", fn->isFinal() ? "true" : "false"); writer.writeAttribute("override", fn->isOverride() ? "true" : "false"); /* This ensures that for functions that have overloads, the first function written is the one that is not an overload, and the overloads follow it immediately in the index file numbered from 1 to n. */ if (fn->isOverload() && (fn->overloadNumber() > 0)) { writer.writeAttribute("overload", "true"); writer.writeAttribute("overload-number", QString::number(fn->overloadNumber())); } if (fn->isRef()) writer.writeAttribute("refness", QString::number(1)); else if (fn->isRefRef()) writer.writeAttribute("refness", QString::number(2)); if (fn->hasAssociatedProperties()) { QStringList associatedProperties; for (const auto *node : fn->associatedProperties()) { associatedProperties << node->name(); } associatedProperties.sort(); writer.writeAttribute("associated-property", associatedProperties.join(QLatin1Char(','))); } writer.writeAttribute("type", fn->returnType()); if (!brief.isEmpty()) writer.writeAttribute("brief", brief); /* Note: The "signature" attribute is written to the index file, but it is not read back in by qdoc. However, we need it for the webxml generator. */ QString signature = fn->signature(false, false); // 'const' is already part of FunctionNode::signature() if (fn->isFinal()) signature += " final"; if (fn->isOverride()) signature += " override"; if (fn->isPureVirtual()) signature += " = 0"; writer.writeAttribute("signature", signature); for (int i = 0; i < fn->parameters().count(); ++i) { const Parameter ¶meter = fn->parameters().at(i); writer.writeStartElement("parameter"); writer.writeAttribute("type", parameter.type()); writer.writeAttribute("name", parameter.name()); writer.writeAttribute("default", parameter.defaultValue()); writer.writeEndElement(); // parameter } } // Append to the section if the callback object was set if (post_) post_->append(writer, fn); writer.writeEndElement(); // function } /*! This function outputs a element to the index file for each FunctionNode in \a aggregate using the \a writer. The \a aggregate has a function map that contains all the function nodes indexed by function name. But the map is not used as a multimap, so if the \a aggregate contains multiple functions with the same name, only one of those functions is in the function map index. The others are linked to that function using the next overload pointer. So this function generates a element for a function followed by a function element for each of its overloads. If a element represents an overload, it has an \c overload attribute set to \c true and an \c {overload-number} attribute set to the function's overload number. If the element does not represent an overload, the element has neither of these attributes. */ void QDocIndexFiles::generateFunctionSections(QXmlStreamWriter &writer, Aggregate *aggregate) { FunctionMap &functionMap = aggregate->functionMap(); if (!functionMap.isEmpty()) { for (auto it = functionMap.begin(); it != functionMap.end(); ++it) { FunctionNode *fn = it.value(); while (fn != nullptr) { generateFunctionSection(writer, fn); fn = fn->nextOverload(); } } } } /*! Generate index sections for the child nodes of the given \a node using the \a writer specified. */ void QDocIndexFiles::generateIndexSections(QXmlStreamWriter &writer, Node *node, IndexSectionWriter *post) { /* Note that groups, modules, and QML modules are written after all the other nodes. */ if (node->isCollectionNode() || node->isGroup() || node->isModule() || node->isQmlModule() || node->isJsModule()) return; if (generateIndexSection(writer, node, post)) { if (node->isAggregate()) { Aggregate *aggregate = static_cast(node); // First write the function children, then write the nonfunction children. generateFunctionSections(writer, aggregate); const auto &nonFunctionList = aggregate->nonfunctionList(); for (auto *node : nonFunctionList) generateIndexSections(writer, node, post); } if (node == root_) { /* We wait until the end of the index file to output the group, module, and QML module elements. By outputting them at the end, when we read the index file back in, all the group, module, and QML module member elements will have already been created. It is then only necessary to create the group, module, or QML module element and add each member to its member list. */ const CNMap &groups = qdb_->groups(); if (!groups.isEmpty()) { for (auto it = groups.constBegin(); it != groups.constEnd(); ++it) { if (generateIndexSection(writer, it.value(), post)) writer.writeEndElement(); } } const CNMap &modules = qdb_->modules(); if (!modules.isEmpty()) { for (auto it = modules.constBegin(); it != modules.constEnd(); ++it) { if (generateIndexSection(writer, it.value(), post)) writer.writeEndElement(); } } const CNMap &qmlModules = qdb_->qmlModules(); if (!qmlModules.isEmpty()) { for (auto it = qmlModules.constBegin(); it != qmlModules.constEnd(); ++it) { if (generateIndexSection(writer, it.value(), post)) writer.writeEndElement(); } } const CNMap &jsModules = qdb_->jsModules(); if (!jsModules.isEmpty()) { for (auto it = jsModules.constBegin(); it != jsModules.constEnd(); ++it) { if (generateIndexSection(writer, it.value(), post)) writer.writeEndElement(); } } } writer.writeEndElement(); } } /*! Writes a qdoc module index in XML to a file named \a fileName. \a url is the \c url attribute of the element. \a title is the \c title attribute of the element. \a g is a pointer to the current Generator in use, stored for later use. */ void QDocIndexFiles::generateIndex(const QString &fileName, const QString &url, const QString &title, Generator *g) { QFile file(fileName); if (!file.open(QFile::WriteOnly | QFile::Text)) return; qCDebug(lcQdoc) << "Writing index file:" << fileName; gen_ = g; QXmlStreamWriter writer(&file); writer.setAutoFormatting(true); writer.writeStartDocument(); writer.writeDTD(""); writer.writeStartElement("INDEX"); writer.writeAttribute("url", url); writer.writeAttribute("title", title); writer.writeAttribute("version", qdb_->version()); writer.writeAttribute("project", Config::instance().getString(CONFIG_PROJECT)); root_ = qdb_->primaryTreeRoot(); if (!root_->tree()->indexTitle().isEmpty()) writer.writeAttribute("indexTitle", root_->tree()->indexTitle()); generateIndexSections(writer, root_, nullptr); writer.writeEndElement(); // INDEX writer.writeEndElement(); // QDOCINDEX writer.writeEndDocument(); file.close(); } QT_END_NAMESPACE