sections; QList

::ConstIterator s; for (int i=0; itype()) { case Node::Fake: if (node->subType() == Node::QmlClass) { sections[QmlClass].appendMember((Node*)node); } break; case Node::Namespace: sections[Namespace].appendMember((Node*)node); break; case Node::Class: sections[Class].appendMember((Node*)node); break; case Node::Enum: sections[Enum].appendMember((Node*)node); break; case Node::Typedef: sections[Typedef].appendMember((Node*)node); break; case Node::Function: { const FunctionNode* fn = static_cast(node); if (fn->isMacro()) sections[Macro].appendMember((Node*)node); else { Node* p = fn->parent(); if (p) { if (p->type() == Node::Class) sections[MemberFunction].appendMember((Node*)node); else if (p->type() == Node::Namespace) { if (p->name().isEmpty()) sections[GlobalFunction].appendMember((Node*)node); else sections[NamespaceFunction].appendMember((Node*)node); } else sections[GlobalFunction].appendMember((Node*)node); } else sections[GlobalFunction].appendMember((Node*)node); } break; } case Node::Property: sections[Property].appendMember((Node*)node); break; case Node::Variable: sections[Variable].appendMember((Node*)node); break; case Node::QmlProperty: sections[QmlProperty].appendMember((Node*)node); break; case Node::QmlSignal: sections[QmlSignal].appendMember((Node*)node); break; case Node::QmlMethod: sections[QmlMethod].appendMember((Node*)node); break; default: break; } ++n; } /* First generate the table of contents. */ writer.writeStartElement("ul"); s = sections.constBegin(); while (s != sections.constEnd()) { if (!(*s).members.isEmpty()) { writer.writeStartElement("li"); writer.writeStartElement("xref"); writer.writeAttribute("href",QString("#" + Doc::canonicalTitle((*s).name))); writer.writeCharacters((*s).name); writer.writeEndElement(); // writer.writeEndElement(); // } ++s; } writer.writeEndElement(); // int idx = 0; s = sections.constBegin(); while (s != sections.constEnd()) { if (!(*s).members.isEmpty()) { writer.writeStartElement("p"); writeGuidAttribute(Doc::canonicalTitle((*s).name)); writer.writeAttribute("outputclass","h3"); writer.writeCharacters(protectEnc((*s).name)); writer.writeEndElement(); //

if (idx == Class) generateCompactList(0, marker, ncmap.value(), false, QString("Q")); else if (idx == QmlClass) generateCompactList(0, marker, nqcmap.value(), false, QString("Q")); else if (idx == MemberFunction) { ParentMaps parentmaps; ParentMaps::iterator pmap; NodeList::const_iterator i = s->members.constBegin(); while (i != s->members.constEnd()) { Node* p = (*i)->parent(); pmap = parentmaps.find(p); if (pmap == parentmaps.end()) pmap = parentmaps.insert(p,NodeMultiMap()); pmap->insert((*i)->name(),(*i)); ++i; } pmap = parentmaps.begin(); while (pmap != parentmaps.end()) { NodeList nlist = pmap->values(); writer.writeStartElement("p"); writer.writeCharacters("Class "); writer.writeStartElement("xref"); writer.writeAttribute("href",linkForNode(pmap.key(), 0)); QStringList pieces = fullName(pmap.key(), 0, marker).split("::"); writer.writeCharacters(protectEnc(pieces.last())); writer.writeEndElement(); // writer.writeCharacters(":"); writer.writeEndElement(); //

generateSection(nlist, 0, marker, CodeMarker::Summary); writer.writeEmptyElement("br"); ++pmap; } } else generateSection(s->members, 0, marker, CodeMarker::Summary); } ++idx; ++s; } } } break; case Atom::Image: case Atom::InlineImage: { QString fileName = imageFileName(relative, atom->string()); QString text; if (atom->next() != 0) text = atom->next()->string(); if (atom->type() == Atom::Image) { writer.writeStartElement("p"); writer.writeAttribute("outputclass","centerAlign"); } if (fileName.isEmpty()) { writer.writeStartElement("font"); writer.writeAttribute("color","red"); writer.writeCharacters("[Missing image: "); writer.writeCharacters(protectEnc(atom->string())); writer.writeEndElement(); // } else { writer.writeStartElement("img"); writer.writeAttribute("src",protectEnc(fileName)); if (!text.isEmpty()) writer.writeAttribute("alt",protectEnc(text)); writer.writeEndElement(); // } if (atom->type() == Atom::Image) writer.writeEndElement(); //

} break; case Atom::ImageText: // nothing break; case Atom::LegaleseLeft: writer.writeStartElement("p"); writer.writeAttribute("outputclass","legalese"); break; case Atom::LegaleseRight: writer.writeEndElement(); //

break; case Atom::LineBreak: writer.writeEmptyElement("br"); break; case Atom::Link: { const Node *node = 0; QString myLink = getLink(atom, relative, marker, &node); if (myLink.isEmpty()) { relative->doc().location().warning(tr("Cannot link to '%1' in %2") .arg(atom->string()) .arg(marker->plainFullName(relative))); } beginLink(myLink, node, relative, marker); skipAhead = 1; } break; case Atom::LinkNode: { const Node *node = CodeMarker::nodeForString(atom->string()); beginLink(linkForNode(node, relative), node, relative, marker); skipAhead = 1; } break; case Atom::ListLeft: if (in_para) { writer.writeEndElement(); //

in_para = false; } if (atom->string() == ATOM_LIST_BULLET) { writer.writeStartElement("ul"); } else if (atom->string() == ATOM_LIST_TAG) { writer.writeStartElement("dl"); } else if (atom->string() == ATOM_LIST_VALUE) { threeColumnEnumValueTable = isThreeColumnEnumValueTable(atom); if (threeColumnEnumValueTable) { writer.writeStartElement("table"); writer.writeAttribute("outputclass","valuelist"); writer.writeStartElement("tr"); if (++numTableRows % 2 == 1) writer.writeAttribute("outputclass","odd"); else writer.writeAttribute("outputclass","even"); writer.writeStartElement("th"); writer.writeCharacters("Constant"); writer.writeEndElement(); // writer.writeStartElement("th"); writer.writeCharacters("Value"); writer.writeEndElement(); // writer.writeStartElement("th"); writer.writeCharacters("Description"); writer.writeEndElement(); // writer.writeEndElement(); // } else { writer.writeStartElement("table"); writer.writeAttribute("outputclass","valuelist"); writer.writeStartElement("tr"); writer.writeStartElement("th"); writer.writeCharacters("Constant"); writer.writeEndElement(); // writer.writeStartElement("th"); writer.writeCharacters("Value"); writer.writeEndElement(); // writer.writeEndElement(); // } } else { writer.writeStartElement("ol"); if (atom->string() == ATOM_LIST_UPPERALPHA) writer.writeAttribute("type","A"); else if (atom->string() == ATOM_LIST_LOWERALPHA) writer.writeAttribute("type","a"); else if (atom->string() == ATOM_LIST_UPPERROMAN) writer.writeAttribute("type","I"); else if (atom->string() == ATOM_LIST_LOWERROMAN) writer.writeAttribute("type","i"); else // (atom->string() == ATOM_LIST_NUMERIC) writer.writeAttribute("type","1"); if (atom->next() != 0 && atom->next()->string().toInt() != 1) writer.writeAttribute("start",atom->next()->string()); } break; case Atom::ListItemNumber: // nothing break; case Atom::ListTagLeft: if (atom->string() == ATOM_LIST_TAG) { writer.writeStartElement("dt"); } else { // (atom->string() == ATOM_LIST_VALUE) writer.writeStartElement("tr"); writer.writeStartElement("td"); writer.writeAttribute("outputclass","topAlign"); writer.writeStartElement("tt"); writer.writeCharacters(protectEnc(plainCode(marker->markedUpEnumValue(atom->next()->string(), relative)))); writer.writeEndElement(); // writer.writeEndElement(); // writer.writeStartElement("td"); writer.writeAttribute("outputclass","topAlign"); QString itemValue; if (relative->type() == Node::Enum) { const EnumNode *enume = static_cast(relative); itemValue = enume->itemValue(atom->next()->string()); } if (itemValue.isEmpty()) writer.writeCharacters("?"); else { writer.writeStartElement("tt"); writer.writeCharacters(protectEnc(itemValue)); writer.writeEndElement(); // } skipAhead = 1; } break; case Atom::ListTagRight: if (atom->string() == ATOM_LIST_TAG) writer.writeEndElement(); // break; case Atom::ListItemLeft: if (atom->string() == ATOM_LIST_TAG) { writer.writeStartElement("dd"); } else if (atom->string() == ATOM_LIST_VALUE) { if (threeColumnEnumValueTable) { writer.writeEndElement(); // writer.writeStartElement("td"); writer.writeAttribute("outputclass","topAlign"); if (matchAhead(atom, Atom::ListItemRight)) writer.writeCharacters(" "); } } else { writer.writeStartElement("li"); } if (matchAhead(atom, Atom::ParaLeft)) skipAhead = 1; break; case Atom::ListItemRight: if (atom->string() == ATOM_LIST_TAG) { writer.writeEndElement(); // } else if (atom->string() == ATOM_LIST_VALUE) { writer.writeEndElement(); // writer.writeEndElement(); // } else { writer.writeEndElement(); // } break; case Atom::ListRight: if (atom->string() == ATOM_LIST_BULLET) { writer.writeEndElement(); // } else if (atom->string() == ATOM_LIST_TAG) { writer.writeEndElement(); // } else if (atom->string() == ATOM_LIST_VALUE) { writer.writeEndElement(); // } else { writer.writeEndElement(); // } break; case Atom::Nop: // nothing break; case Atom::ParaLeft: writer.writeStartElement("p"); in_para = true; break; case Atom::ParaRight: endLink(); if (in_para) { writer.writeEndElement(); // break; case Atom::RawString: writer.writeCharacters(atom->string()); break; case Atom::SectionLeft: writer.writeStartElement("p"); writeGuidAttribute(Doc::canonicalTitle(Text::sectionHeading(atom).toString())); writer.writeAttribute("outputclass","target"); writer.writeCharacters(protectEnc(Text::sectionHeading(atom).toString())); writer.writeEndElement(); //

break; case Atom::SectionRight: // nothing break; case Atom::SectionHeadingLeft: writer.writeStartElement("p"); hx = "h" + QString::number(atom->string().toInt() + hOffset(relative)); writer.writeAttribute("outputclass",hx); inSectionHeading = true; break; case Atom::SectionHeadingRight: writer.writeEndElement(); //

(see case Atom::SectionHeadingLeft) inSectionHeading = false; break; case Atom::SidebarLeft: // nothing break; case Atom::SidebarRight: // nothing break; case Atom::String: if (inLink && !inContents && !inSectionHeading) { generateLink(atom, relative, marker); } else { writer.writeCharacters(protectEnc(atom->string())); } break; case Atom::TableLeft: if (in_para) { writer.writeEndElement(); //

in_para = false; } writer.writeStartElement("table"); writer.writeAttribute("outputclass","generic"); numTableRows = 0; break; case Atom::TableRight: writer.writeEndElement(); // break; case Atom::TableHeaderLeft: writer.writeStartElement("thead"); writer.writeStartElement("tr"); writer.writeAttribute("outputclass","qt-style topAlign"); inTableHeader = true; break; case Atom::TableHeaderRight: writer.writeEndElement(); // if (matchAhead(atom, Atom::TableHeaderLeft)) { skipAhead = 1; writer.writeStartElement("tr"); writer.writeAttribute("outputclass","qt-style topAlign"); } else { writer.writeEndElement(); // inTableHeader = false; } break; case Atom::TableRowLeft: writer.writeStartElement("tr"); if (++numTableRows % 2 == 1) writer.writeAttribute("outputclass","odd topAlign"); else writer.writeAttribute("outputclass","even topAlign"); break; case Atom::TableRowRight: writer.writeEndElement(); // \n"; break; case Atom::TableItemLeft: { if (inTableHeader) writer.writeStartElement("th"); else writer.writeStartElement("td"); QStringList spans = atom->string().split(","); if (spans.size() == 2) { #if zzz if (spans.at(0) != "1") out() << " colspan=\"" << spans.at(0) << "\""; if (spans.at(1) != "1") out() << " rowspan=\"" << spans.at(1) << "\""; #endif if (!inTableHeader) writer.writeStartElement("p"); } if (matchAhead(atom, Atom::ParaLeft)) skipAhead = 1; } break; case Atom::TableItemRight: if (inTableHeader) writer.writeEndElement(); // else { writer.writeEndElement(); //

writer.writeEndElement(); // } if (matchAhead(atom, Atom::ParaLeft)) skipAhead = 1; break; case Atom::TableOfContents: { int numColumns = 1; const Node *node = relative; Doc::SectioningUnit sectioningUnit = Doc::Section4; QStringList params = atom->string().split(","); QString columnText = params.at(0); QStringList pieces = columnText.split(" ", QString::SkipEmptyParts); if (pieces.size() >= 2) { columnText = pieces.at(0); pieces.pop_front(); QString path = pieces.join(" ").trimmed(); node = findNodeForTarget(path, relative, marker, atom); } if (params.size() == 2) { numColumns = qMax(columnText.toInt(), numColumns); sectioningUnit = (Doc::SectioningUnit)params.at(1).toInt(); } if (node) generateTableOfContents(node, marker, sectioningUnit, numColumns, relative); } break; case Atom::Target: writer.writeStartElement("p"); writeGuidAttribute(Doc::canonicalTitle(atom->string())); writer.writeAttribute("outputclass","target"); writer.writeCharacters(protectEnc(atom->string())); writer.writeEndElement(); //

break; case Atom::UnhandledFormat: writer.writeStartElement("b"); writer.writeAttribute("outputclass","redFont"); writer.writeCharacters("<Missing DITAXML>"); writer.writeEndElement(); // break; case Atom::UnknownCommand: writer.writeStartElement("b"); writer.writeAttribute("outputclass","redFont code"); writer.writeCharacters(protectEnc(atom->string())); writer.writeEndElement(); // break; #ifdef QDOC_QML case Atom::QmlText: case Atom::EndQmlText: // don't do anything with these. They are just tags. break; #endif default: // unknownAtom(atom); break; } return skipAhead; } /*! Generate a reference page for a C++ class. */ void DitaXmlGenerator::generateClassLikeNode(const InnerNode* inner, CodeMarker* marker) { QList

sections; QList

::ConstIterator s; const ClassNode* cn = 0; const NamespaceNode* namespasse = 0; QString title; QString rawTitle; QString fullTitle; if (inner->type() == Node::Namespace) { namespasse = const_cast(static_cast(inner)); rawTitle = marker->plainName(inner); fullTitle = marker->plainFullName(inner); title = rawTitle + " Namespace"; } else if (inner->type() == Node::Class) { cn = const_cast(static_cast(inner)); rawTitle = marker->plainName(inner); fullTitle = marker->plainFullName(inner); title = rawTitle + " Class Reference"; generateHeader(inner); writer.writeStartElement(CXXCLASS); writer.writeAttribute("id",cn->guid()); writer.writeStartElement(APINAME); writer.writeCharacters(fullTitle); writer.writeEndElement(); // generateBrief(inner, marker); writer.writeStartElement(CXXCLASSDETAIL); writer.writeStartElement(CXXCLASSDEFINITION); writer.writeStartElement(CXXCLASSACCESSSPECIFIER); writer.writeAttribute("value",inner->accessString()); writer.writeEndElement(); // if (cn->isAbstract()) { writer.writeStartElement(CXXCLASSABSTRACT); writer.writeAttribute("name","abstract"); writer.writeAttribute("value","abstract"); writer.writeEndElement(); // } writeDerivations(cn, marker); writeLocation(cn); writer.writeEndElement(); // writer.writeStartElement(APIDESC); if (!inner->doc().isEmpty()) { writer.writeStartElement("p"); writer.writeAttribute("outputclass","h2"); writer.writeCharacters("Detailed Description"); writer.writeEndElement(); //

generateBody(inner, marker); // generateAlsoList(inner, marker); } writer.writeEndElement(); // writer.writeEndElement(); // sections = marker->sections(inner, CodeMarker::Detailed, CodeMarker::Okay); s = sections.begin(); while (s != sections.end()) { if ((*s).name == "Member Function Documentation") { writeFunctions((*s),cn,marker); } else if ((*s).name == "Member Type Documentation") { writeEnumerations((*s),cn,marker); writeTypedefs((*s),cn,marker); } else if ((*s).name == "Member Variable Documentation") { writeDataMembers((*s),cn,marker); } else if ((*s).name == "Property Documentation") { writeProperties((*s),cn,marker); } else if ((*s).name == "Macro Documentation") { writeMacros((*s),cn,marker); } ++s; } writer.writeEndElement(); // } #ifdef WRITE_HTML Text subtitleText; if (rawTitle != fullTitle) subtitleText << "(" << Atom(Atom::AutoLink, fullTitle) << ")" << Atom(Atom::LineBreak); QString shortVersion; shortVersion = project + " " + shortVersion + ": "; shortVersion = myTree->version(); if (shortVersion.count(QChar('.')) == 2) shortVersion.truncate(shortVersion.lastIndexOf(QChar('.'))); if (!shortVersion.isEmpty()) { if (project == "QSA") shortVersion = "QSA " + shortVersion + ": "; else shortVersion = "Qt " + shortVersion + ": "; } out() << " " << shortVersion << protectEnc(title) << "\n"; #if 0 out() << QString(postHeader).replace("\\" + COMMAND_VERSION, myTree->version()); generateBreadCrumbs(title,node,marker); out() << QString(postPostHeader).replace("\\" + COMMAND_VERSION, myTree->version()); #endif sections = marker->sections(inner, CodeMarker::Summary, CodeMarker::Okay); generateTableOfContents(inner,marker,§ions); generateTitle(title, subtitleText, SmallSubTitle, inner, marker); #ifdef QDOC_QML if (cn && !cn->qmlElement().isEmpty()) { generateInstantiatedBy(cn,marker); } #endif generateBrief(inner, marker); generateIncludes(inner, marker); generateStatus(inner, marker); if (cn) { generateInherits(cn, marker); generateInheritedBy(cn, marker); } generateThreadSafeness(inner, marker); generateSince(inner, marker); out() << "

" << "List of all members, including inherited members
" << "Obsolete members
" << "Qt 3 support members

\n"; bool needOtherSection = false; /* sections is built above for the call to generateTableOfContents(). */ s = sections.begin(); while (s != sections.end()) { if (s->members.isEmpty() && s->reimpMembers.isEmpty()) { if (!s->inherited.isEmpty()) needOtherSection = true; } else { if (!s->members.isEmpty()) { out() << "

\n"; out() << "\n"; out() << "

" << protectEnc((*s).name) << "

\n"; generateSection(s->members, inner, marker, CodeMarker::Summary); } if (!s->reimpMembers.isEmpty()) { QString name = QString("Reimplemented ") + (*s).name; out() << "

\n"; out() << "\n"; out() << "

" << protectEnc(name) << "

\n"; generateSection(s->reimpMembers, inner, marker, CodeMarker::Summary); } if (!s->inherited.isEmpty()) { out() << "

\n"; generateSectionInheritedList(*s, inner, marker, true); out() << "\n"; } } ++s; } if (needOtherSection) { out() << "

Additional Inherited Members

\n" "

\n"; s = sections.begin(); while (s != sections.end()) { if (s->members.isEmpty() && !s->inherited.isEmpty()) generateSectionInheritedList(*s, inner, marker); ++s; } out() << "\n"; } out() << "\n"; if (!inner->doc().isEmpty()) { out() << "

\n" << "

\n" // QTBUG-9504 << "

" << "Detailed Description" << "

\n"; generateBody(inner, marker); out() << "

\n"; // QTBUG-9504 generateAlsoList(inner, marker); } sections = marker->sections(inner, CodeMarker::Detailed, CodeMarker::Okay); s = sections.begin(); while (s != sections.end()) { out() << "

\n"; if (!(*s).divClass.isEmpty()) out() << "

\n"; // QTBUG-9504 out() << "

" << protectEnc((*s).name) << "

\n"; NodeList::ConstIterator m = (*s).members.begin(); while (m != (*s).members.end()) { if ((*m)->access() != Node::Private) { // ### check necessary? if ((*m)->type() != Node::Class) generateDetailedMember(*m, inner, marker); else { out() << "

class "; generateFullName(*m, inner, marker); out() << "

"; generateBrief(*m, marker, inner); } QStringList names; names << (*m)->name(); if ((*m)->type() == Node::Function) { const FunctionNode *func = reinterpret_cast(*m); if (func->metaness() == FunctionNode::Ctor || func->metaness() == FunctionNode::Dtor || func->overloadNumber() != 1) names.clear(); } else if ((*m)->type() == Node::Property) { const PropertyNode *prop = reinterpret_cast(*m); if (!prop->getters().isEmpty() && !names.contains(prop->getters().first()->name())) names << prop->getters().first()->name(); if (!prop->setters().isEmpty()) names << prop->setters().first()->name(); if (!prop->resetters().isEmpty()) names << prop->resetters().first()->name(); } else if ((*m)->type() == Node::Enum) { const EnumNode *enume = reinterpret_cast(*m); if (enume->flagsType()) names << enume->flagsType()->name(); foreach (const QString &enumName, enume->doc().enumItemNames().toSet() - enume->doc().omitEnumItemNames().toSet()) names << plainCode(marker->markedUpEnumValue(enumName, enume)); } } ++m; } if (!(*s).divClass.isEmpty()) out() << "

\n"; // QTBUG-9504 ++s; } #endif } /*! Generate the html page for a qdoc file that doesn't map to an underlying c++ file. */ void DitaXmlGenerator::generateFakeNode(const FakeNode *fake, CodeMarker *marker) { return; // zzz SubTitleSize subTitleSize = LargeSubTitle; QList

sections; QList

::const_iterator s; QString fullTitle = fake->fullTitle(); QString htmlTitle = fullTitle; if (fake->subType() == Node::File && !fake->subTitle().isEmpty()) { subTitleSize = SmallSubTitle; htmlTitle += " (" + fake->subTitle() + ")"; } else if (fake->subType() == Node::QmlBasicType) { fullTitle = "QML Basic Type: " + fullTitle; htmlTitle = fullTitle; } generateHeader(fake); /* Generate the TOC for the new doc format. Don't generate a TOC for the home page. */ if (fake->name() != QString("index.html")) generateTableOfContents(fake,marker,0); generateTitle(fullTitle, Text() << fake->subTitle(), subTitleSize, fake, marker); if (fake->subType() == Node::Module) { // Generate brief text and status for modules. generateBrief(fake, marker); generateStatus(fake, marker); if (moduleNamespaceMap.contains(fake->name())) { out() << "\n"; out() << "

Namespaces

\n"; generateAnnotatedList(fake, marker, moduleNamespaceMap[fake->name()]); } if (moduleClassMap.contains(fake->name())) { out() << "\n"; out() << "

Classes

\n"; generateAnnotatedList(fake, marker, moduleClassMap[fake->name()]); } } else if (fake->subType() == Node::HeaderFile) { // Generate brief text and status for modules. generateBrief(fake, marker); generateStatus(fake, marker); out() << "

" << "List of all members, including inherited members
" << "Obsolete members
" << "Qt 3 support members

\n"; } #ifdef QDOC_QML else if (fake->subType() == Node::QmlClass) { const QmlClassNode* qml_cn = static_cast(fake); const ClassNode* cn = qml_cn->classNode(); generateQmlInherits(qml_cn, marker); generateQmlInstantiates(qml_cn, marker); generateBrief(qml_cn, marker); generateQmlInheritedBy(qml_cn, marker); sections = marker->qmlSections(qml_cn,CodeMarker::Summary,0); s = sections.begin(); while (s != sections.end()) { out() << "\n"; out() << "

" << protectEnc((*s).name) << "

\n"; generateQmlSummary(*s,fake,marker); ++s; } out() << "\n"; out() << "

" << "Detailed Description" << "

\n"; generateBody(fake, marker); if (cn) generateQmlText(cn->doc().body(), cn, marker, fake->name()); generateAlsoList(fake, marker); out() << "

\n"; sections = marker->qmlSections(qml_cn,CodeMarker::Detailed,0); s = sections.begin(); while (s != sections.end()) { out() << "

" << protectEnc((*s).name) << "

\n"; NodeList::ConstIterator m = (*s).members.begin(); while (m != (*s).members.end()) { generateDetailedQmlMember(*m, fake, marker); out() << "
\n"; ++m; } ++s; } return; } #endif sections = marker->sections(fake, CodeMarker::Summary, CodeMarker::Okay); s = sections.begin(); while (s != sections.end()) { out() << "\n"; out() << "

" << protectEnc((*s).name) << "

\n"; generateSectionList(*s, fake, marker, CodeMarker::Summary); ++s; } Text brief = fake->doc().briefText(); if (fake->subType() == Node::Module && !brief.isEmpty()) { out() << "\n"; out() << "

\n"; // QTBUG-9504 out() << "

" << "Detailed Description" << "

\n"; } else out() << "

\n"; // QTBUG-9504 generateBody(fake, marker); out() << "

\n"; // QTBUG-9504 generateAlsoList(fake, marker); if (!fake->groupMembers().isEmpty()) { NodeMap groupMembersMap; foreach (const Node *node, fake->groupMembers()) { if (node->type() == Node::Class || node->type() == Node::Namespace) groupMembersMap[node->name()] = node; } generateAnnotatedList(fake, marker, groupMembersMap); } sections = marker->sections(fake, CodeMarker::Detailed, CodeMarker::Okay); s = sections.begin(); while (s != sections.end()) { out() << "

\n"; out() << "

" << protectEnc((*s).name) << "

\n"; NodeList::ConstIterator m = (*s).members.begin(); while (m != (*s).members.end()) { generateDetailedMember(*m, fake, marker); ++m; } ++s; } } /*! Returns "xml" for this subclass of Generator. */ QString DitaXmlGenerator::fileExtension(const Node * /* node */) const { return "xml"; } /*! Output breadcrumb list in the html file. */ void DitaXmlGenerator::generateBreadCrumbs(const QString& title, const Node *node, CodeMarker *marker) { Text breadcrumb; if (node->type() == Node::Class) { const ClassNode* cn = static_cast(node); QString name = node->moduleName(); out() << "

All Modules

"; if (!name.isEmpty()) { out() << "

"; breadcrumb << Atom(Atom::AutoLink,name); generateText(breadcrumb, node, marker); out() << "

\n"; } breadcrumb.clear(); if (!cn->name().isEmpty()) { out() << "

"; breadcrumb << Atom(Atom::AutoLink,cn->name()); generateText(breadcrumb, 0, marker); out() << "

\n"; } } else if (node->type() == Node::Fake) { const FakeNode* fn = static_cast(node); if (node->subType() == Node::Module) { out() << "

All Modules

"; QString name = node->name(); if (!name.isEmpty()) { out() << "

"; breadcrumb << Atom(Atom::AutoLink,name); generateText(breadcrumb, 0, marker); out() << "

\n"; } } else if (node->subType() == Node::Group) { if (fn->name() == QString("modules")) out() << "

All Modules

"; else { out() << "

name() << "\">" << title << "

"; } } else if (node->subType() == Node::Page) { if (fn->name() == QString("examples.html")) { out() << "

Examples

"; } else if (fn->name().startsWith("examples-")) { out() << "

Examples

"; out() << "

name() << "\">" << title << "

"; } else if (fn->name() == QString("namespaces.html")) { out() << "

All Namespaces

"; } else { out() << "

name() << "\">" << title << "

"; } } else if (node->subType() == Node::QmlClass) { out() << "

QML Elements

"; out() << "

name() << "\">" << title << "

"; } else if (node->subType() == Node::Example) { out() << "

Examples

"; QStringList sl = fn->name().split('/'); QString name = "examples-" + sl.at(0) + ".html"; QString t = CodeParser::titleFromName(name); out() << "

" << t << "

"; out() << "

" << title << "

"; } } else if (node->type() == Node::Namespace) { const NamespaceNode* nsn = static_cast(node); out() << "

All Namespaces

"; out() << "

" << title << "

"; } } void DitaXmlGenerator::generateHeader(const Node* node) { writer.setDevice(out().device()); writer.setAutoFormatting(true); writer.setAutoFormattingIndent(4); writer.writeStartDocument(); if (!node) return; QString docType; QString dtd; QString version; if (node->type() == Node::Class) { docType = "cxxClass"; dtd = "dtd/cxxClass.dtd"; version = "0.6.0"; } QString doctype = ""; writer.writeDTD(doctype); writer.writeComment(node->doc().location().fileName()); } void DitaXmlGenerator::generateTitle(const QString& title, const Text &subTitle, SubTitleSize subTitleSize, const Node *relative, CodeMarker *marker) { if (!title.isEmpty()) out() << "

" << protectEnc(title) << "

\n"; if (!subTitle.isEmpty()) { out() << ""; else out() << " class=\"subtitle\">"; generateText(subTitle, relative, marker); out() << "\n"; } } /*! Outputs the brief command as a doc().briefText(); if (!brief.isEmpty()) { ++noLinks; writer.writeStartElement(SHORTDESC); generateText(brief, node, marker); writer.writeEndElement(); // shortdesc --noLinks; } } void DitaXmlGenerator::generateIncludes(const InnerNode *inner, CodeMarker *marker) { if (!inner->includes().isEmpty()) { out() << "

"
              << trimmedTrailing(highlightedCode(indent(codeIndent,
                                                        marker->markedUpIncludes(inner->includes())),
                                                 marker,inner))
              << "

"; } } /*! Generates a table of contents beginning at \a node. */ void DitaXmlGenerator::generateTableOfContents(const Node *node, CodeMarker *marker, Doc::SectioningUnit sectioningUnit, int numColumns, const Node *relative) { return; if (!node->doc().hasTableOfContents()) return; QList toc = node->doc().tableOfContents(); if (toc.isEmpty()) return; QString nodeName = ""; if (node != relative) nodeName = node->name(); QStringList sectionNumber; int columnSize = 0; QString tdTag; if (numColumns > 1) { tdTag = ""; /* width=\"" + QString::number((100 + numColumns - 1) / numColumns) + "%\">";*/ out() << "\n" << tdTag << "\n"; } // disable nested links in table of contents inContents = true; inLink = true; for (int i = 0; i < toc.size(); ++i) { Atom *atom = toc.at(i); int nextLevel = atom->string().toInt(); if (nextLevel > (int)sectioningUnit) continue; if (sectionNumber.size() < nextLevel) { do { out() << "

"; sectionNumber.append("1"); } while (sectionNumber.size() < nextLevel); } else { while (sectionNumber.size() > nextLevel) { out() << "\n"; sectionNumber.removeLast(); } sectionNumber.last() = QString::number(sectionNumber.last().toInt() + 1); } int numAtoms; Text headingText = Text::sectionHeading(atom); if (sectionNumber.size() == 1 && columnSize > toc.size() / numColumns) { out() << "" << tdTag << "

"; out() << ""; generateAtomList(headingText.firstAtom(), node, marker, true, numAtoms); out() << "

\n"; sectionNumber.removeLast(); } if (numColumns > 1) out() << "

\n"; inContents = false; inLink = false; } /*! Revised for the new doc format. Generates a table of contents beginning at \a node. */ void DitaXmlGenerator::generateTableOfContents(const Node *node, CodeMarker *marker, QList

* sections) { QList toc; if (node->doc().hasTableOfContents()) toc = node->doc().tableOfContents(); if (toc.isEmpty() && !sections && (node->subType() != Node::Module)) return; QStringList sectionNumber; int detailsBase = 0; // disable nested links in table of contents inContents = true; inLink = true; out() << "

\n"; out() << "

\n"; sectionNumber.append("1"); out() << "

Namespaces
Classes
Detailed Description

::ConstIterator s = sections->begin(); while (s != sections->end()) { if (!s->members.isEmpty() || !s->reimpMembers.isEmpty()) { out() << "

" << (*s).name << "

\n"; } ++s; } out() << "

Detailed Description

\n"; for (int i = 0; i < toc.size(); ++i) { if (toc.at(i)->string().toInt() == 1) { detailsBase = 1; break; } } } for (int i = 0; i < toc.size(); ++i) { Atom *atom = toc.at(i); int nextLevel = atom->string().toInt() + detailsBase; if (sectionNumber.size() < nextLevel) { do { sectionNumber.append("1"); } while (sectionNumber.size() < nextLevel); } else { while (sectionNumber.size() > nextLevel) { sectionNumber.removeLast(); } sectionNumber.last() = QString::number(sectionNumber.last().toInt() + 1); } int numAtoms; Text headingText = Text::sectionHeading(atom); QString s = headingText.toString(); out() << "

"; out() << ""; generateAtomList(headingText.firstAtom(), node, marker, true, numAtoms); out() << "

\n"; } while (!sectionNumber.isEmpty()) { sectionNumber.removeLast(); } out() << "

\n"; out() << "

\n"; inContents = false; inLink = false; } QString DitaXmlGenerator::generateListOfAllMemberFile(const InnerNode *inner, CodeMarker *marker) { QList

sections; QList

::ConstIterator s; sections = marker->sections(inner, CodeMarker::SeparateList, CodeMarker::Okay); if (sections.isEmpty()) return QString(); QString fileName = fileBase(inner) + "-members." + fileExtension(inner); beginSubPage(inner->location(), fileName); QString title = "List of All Members for " + inner->name(); generateHeader(inner); generateTitle(title, Text(), SmallSubTitle, inner, marker); out() << "

This is the complete list of members for "; generateFullName(inner, 0, marker); out() << ", including inherited members.

\n"; Section section = sections.first(); generateSectionList(section, 0, marker, CodeMarker::SeparateList); endSubPage(); return fileName; } QString DitaXmlGenerator::generateLowStatusMemberFile(const InnerNode *inner, CodeMarker *marker, CodeMarker::Status status) { QList

sections = marker->sections(inner, CodeMarker::Summary, status); QMutableListIterator

j(sections); while (j.hasNext()) { if (j.next().members.size() == 0) j.remove(); } if (sections.isEmpty()) return QString(); int i; QString title; QString fileName; if (status == CodeMarker::Compat) { title = "Qt 3 Support Members for " + inner->name(); fileName = fileBase(inner) + "-qt3." + fileExtension(inner); } else { title = "Obsolete Members for " + inner->name(); fileName = fileBase(inner) + "-obsolete." + fileExtension(inner); } beginSubPage(inner->location(), fileName); generateHeader(inner); generateTitle(title, Text(), SmallSubTitle, inner, marker); if (status == CodeMarker::Compat) { out() << "

The following class members are part of the " "Qt 3 support layer. " "They are provided to help you port old code to Qt 4. We advise against " "using them in new code.

\n"; } else { out() << "

The following class members are obsolete. " << "They are provided to keep old source code working. " << "We strongly advise against using them in new code.

\n"; } out() << "

" << protectEnc(inner->name()) << " class reference

\n"; for (i = 0; i < sections.size(); ++i) { out() << "

" << protectEnc(sections.at(i).name) << "

\n"; generateSectionList(sections.at(i), inner, marker, CodeMarker::Summary); } sections = marker->sections(inner, CodeMarker::Detailed, status); for (i = 0; i < sections.size(); ++i) { out() << "

\n"; out() << "

" << protectEnc(sections.at(i).name) << "

\n"; NodeList::ConstIterator m = sections.at(i).members.begin(); while (m != sections.at(i).members.end()) { if ((*m)->access() != Node::Private) generateDetailedMember(*m, inner, marker); ++m; } } endSubPage(); return fileName; } void DitaXmlGenerator::generateClassHierarchy(const Node *relative, CodeMarker *marker, const QMap &classMap) { if (classMap.isEmpty()) return; NodeMap topLevel; NodeMap::ConstIterator c = classMap.begin(); while (c != classMap.end()) { const ClassNode *classe = static_cast(*c); if (classe->baseClasses().isEmpty()) topLevel.insert(classe->name(), classe); ++c; } QStack stack; stack.push(topLevel); out() << "

\n"; while (!stack.isEmpty()) { if (stack.top().isEmpty()) { stack.pop(); out() << "\n"; } else { const ClassNode *child = static_cast(*stack.top().begin()); out() << "

"; generateFullName(child, relative, marker); out() << "

\n"; stack.top().erase(stack.top().begin()); NodeMap newTop; foreach (const RelatedClass &d, child->derivedClasses()) { if (d.access != Node::Private) newTop.insert(d.node->name(), d.node); } if (!newTop.isEmpty()) { stack.push(newTop); out() << "

"; generateFullName(node, relative, marker); out() << "

"; generateText(brief, node, marker); out() << "

"; out() << protectEnc(node->doc().briefText().toString()); out() << "

usedParagraphNames; NodeMap::ConstIterator c = classMap.begin(); while (c != classMap.end()) { QStringList pieces = c.key().split("::"); QString key; int idx = commonPrefixLen; if (!pieces.last().startsWith(commonPrefix)) idx = 0; if (pieces.size() == 1) key = pieces.last().mid(idx).toLower(); else key = pieces.last().toLower(); int paragraphNr = NumParagraphs - 1; if (key[0].digitValue() != -1) { paragraphNr = key[0].digitValue(); } else if (key[0] >= QLatin1Char('a') && key[0] <= QLatin1Char('z')) { paragraphNr = 10 + key[0].unicode() - 'a'; } paragraphName[paragraphNr] = key[0].toUpper(); usedParagraphNames.insert(key[0].toLower().cell()); paragraph[paragraphNr].insert(key, c.value()); ++c; } /* Each paragraph j has a size: paragraph[j].count(). In the discussion, we will assume paragraphs 0 to 5 will have sizes 3, 1, 4, 1, 5, 9. We now want to compute the paragraph offset. Paragraphs 0 to 6 start at offsets 0, 3, 4, 8, 9, 14, 23. */ int paragraphOffset[NumParagraphs + 1]; // 37 + 1 paragraphOffset[0] = 0; for (int i=0; i"; for (int i = 0; i < 26; i++) { QChar ch('a' + i); if (usedParagraphNames.contains(char('a' + i))) out() << QString("%2 ").arg(ch).arg(ch.toUpper()); } out() << "

\n"; } /* Output a

element to contain all the

elements. */ out() << "

\n"; for (int i=0; i. */ if (curParOffset == 0) { if (i > 0) out() << "

\n"; if (++numTableRows % 2 == 1) out() << "

"; else out() << "

"; if (includeAlphabet) { QChar c = paragraphName[curParNr][0].toLower(); out() << QString("").arg(c); } out() << "" << paragraphName[curParNr] << ""; out() << ": for the current offset in the current paragraph. */ out() << "; "; if ((curParNr < NumParagraphs) && !paragraphName[curParNr].isEmpty()) { NodeMap::Iterator it; it = paragraph[curParNr].begin(); for (int i=0; i"; QStringList pieces; if (it.value()->subType() == Node::QmlClass) pieces << it.value()->name(); else pieces = fullName(it.value(), relative, marker).split("::"); out() << protectEnc(pieces.last()); out() << ""; if (pieces.size() > 1) { out() << " ("; generateFullName(it.value()->parent(), relative, marker); out() << ")"; } } out() << "

\n"; out() << "

\n"; } void DitaXmlGenerator::generateFunctionIndex(const Node *relative, CodeMarker *marker) { out() << "

"; for (int i = 0; i < 26; i++) { QChar ch('a' + i); out() << QString("%2 ").arg(ch).arg(ch.toUpper()); } out() << "

\n"; char nextLetter = 'a'; char currentLetter; #if 1 out() << "

::ConstIterator f = funcIndex.begin(); while (f != funcIndex.end()) { #if 1 out() << "

"; #else out() << "

"; #endif out() << protectEnc(f.key()) << ":"; currentLetter = f.key()[0].unicode(); while (islower(currentLetter) && currentLetter >= nextLetter) { out() << QString("").arg(nextLetter); nextLetter++; } NodeMap::ConstIterator s = (*f).begin(); while (s != (*f).end()) { out() << " "; generateFullName((*s)->parent(), relative, marker, *s); ++s; } #if 1 out() << "

"; #else out() << "

"; #endif out() << "\n"; ++f; } #if 1 out() << "

\n"; #endif } void DitaXmlGenerator::generateLegaleseList(const Node *relative, CodeMarker *marker) { QMap::ConstIterator it = legaleseTexts.begin(); while (it != legaleseTexts.end()) { Text text = it.key(); out() << "

\n"; generateText(text, relative, marker); out() << "

"; generateFullName(it.value(), relative, marker); out() << "

\n"; } } /*void DitaXmlGenerator::generateSynopsis(const Node *node, const Node *relative, CodeMarker *marker, CodeMarker::SynopsisStyle style) { QString marked = marker->markedUpSynopsis(node, relative, style); QRegExp templateTag("(<[^@>]*>)"); if (marked.indexOf(templateTag) != -1) { QString contents = protectEnc(marked.mid(templateTag.pos(1), templateTag.cap(1).length())); marked.replace(templateTag.pos(1), templateTag.cap(1).length(), contents); } marked.replace(QRegExp("<@param>([a-z]+)_([1-9n])"), "\\1_\\2"); marked.replace("<@param>", ""); marked.replace("", ""); if (style == CodeMarker::Summary) marked.replace("@name>", "b>"); if (style == CodeMarker::SeparateList) { QRegExp extraRegExp("<@extra>.*"); extraRegExp.setMinimal(true); marked.replace(extraRegExp, ""); } else { marked.replace("<@extra>", " "); marked.replace("", ""); } if (style != CodeMarker::Detailed) { marked.replace("<@type>", ""); marked.replace("", ""); } out() << highlightedCode(marked, marker, relative); }*/ #ifdef QDOC_QML void DitaXmlGenerator::generateQmlItem(const Node *node, const Node *relative, CodeMarker *marker, bool summary) { QString marked = marker->markedUpQmlItem(node,summary); QRegExp templateTag("(<[^@>]*>)"); if (marked.indexOf(templateTag) != -1) { QString contents = protectEnc(marked.mid(templateTag.pos(1), templateTag.cap(1).length())); marked.replace(templateTag.pos(1), templateTag.cap(1).length(), contents); } marked.replace(QRegExp("<@param>([a-z]+)_([1-9n])"), "\\1_\\2"); marked.replace("<@param>", ""); marked.replace("", ""); if (summary) marked.replace("@name>", "b>"); marked.replace("<@extra>", ""); marked.replace("", ""); if (summary) { marked.replace("<@type>", ""); marked.replace("", ""); } out() << highlightedCode(marked, marker, relative); } #endif void DitaXmlGenerator::generateOverviewList(const Node *relative, CodeMarker * /* marker */) { QMap > fakeNodeMap; QMap groupTitlesMap; QMap uncategorizedNodeMap; QRegExp singleDigit("\\b([0-9])\\b"); const NodeList children = myTree->root()->childNodes(); foreach (Node *child, children) { if (child->type() == Node::Fake && child != relative) { FakeNode *fakeNode = static_cast(child); // Check whether the page is part of a group or is the group // definition page. QString group; bool isGroupPage = false; if (fakeNode->doc().metaCommandsUsed().contains("group")) { group = fakeNode->doc().metaCommandArgs("group")[0]; isGroupPage = true; } // there are too many examples; they would clutter the list if (fakeNode->subType() == Node::Example) continue; // not interested either in individual (Qt Designer etc.) manual chapters if (fakeNode->links().contains(Node::ContentsLink)) continue; // Discard external nodes. if (fakeNode->subType() == Node::ExternalPage) continue; QString sortKey = fakeNode->fullTitle().toLower(); if (sortKey.startsWith("the ")) sortKey.remove(0, 4); sortKey.replace(singleDigit, "0\\1"); if (!group.isEmpty()) { if (isGroupPage) { // If we encounter a group definition page, we add all // the pages in that group to the list for that group. foreach (Node *member, fakeNode->groupMembers()) { if (member->type() != Node::Fake) continue; FakeNode *page = static_cast(member); if (page) { QString sortKey = page->fullTitle().toLower(); if (sortKey.startsWith("the ")) sortKey.remove(0, 4); sortKey.replace(singleDigit, "0\\1"); fakeNodeMap[const_cast(fakeNode)].insert(sortKey, page); groupTitlesMap[fakeNode->fullTitle()] = const_cast(fakeNode); } } } else if (!isGroupPage) { // If we encounter a page that belongs to a group then // we add that page to the list for that group. const FakeNode *groupNode = static_cast(myTree->root()->findNode(group, Node::Fake)); if (groupNode) fakeNodeMap[groupNode].insert(sortKey, fakeNode); //else // uncategorizedNodeMap.insert(sortKey, fakeNode); }// else // uncategorizedNodeMap.insert(sortKey, fakeNode); }// else // uncategorizedNodeMap.insert(sortKey, fakeNode); } } // We now list all the pages found that belong to groups. // If only certain pages were found for a group, but the definition page // for that group wasn't listed, the list of pages will be intentionally // incomplete. However, if the group definition page was listed, all the // pages in that group are listed for completeness. if (!fakeNodeMap.isEmpty()) { foreach (const QString &groupTitle, groupTitlesMap.keys()) { const FakeNode *groupNode = groupTitlesMap[groupTitle]; out() << QString("

%2

\n").arg( linkForNode(groupNode, relative)).arg( protectEnc(groupNode->fullTitle())); if (fakeNodeMap[groupNode].count() == 0) continue; out() << "

" << protectEnc(title) << "

\n"; } } if (!uncategorizedNodeMap.isEmpty()) { out() << QString("

Miscellaneous

\n"); out() << "

" << protectEnc(title) << "

\n"; } } void DitaXmlGenerator::generateSection(const NodeList& nl, const Node *relative, CodeMarker *marker, CodeMarker::SynopsisStyle style) { bool name_alignment = true; if (!nl.isEmpty()) { bool twoColumn = false; if (style == CodeMarker::SeparateList) { name_alignment = false; twoColumn = (nl.count() >= 16); } else if (nl.first()->type() == Node::Property) { twoColumn = (nl.count() >= 5); name_alignment = false; } if (name_alignment) { out() << "\n"; } else { if (twoColumn) out() << "

\n" << "\n"; else out() << "\n"; i++; ++m; } if (name_alignment) out() << "

"; out() << " \n"; } int i = 0; NodeList::ConstIterator m = nl.begin(); while (m != nl.end()) { if ((*m)->access() == Node::Private) { ++m; continue; } if (name_alignment) { out() << "
"; } else { if (twoColumn && i == (int) (nl.count() + 1) / 2) out() << "	\n"; out() << " "; } generateSynopsis(*m, relative, marker, style, name_alignment); if (name_alignment) out() << "

\n"; else { out() << "

\n"; if (twoColumn) out() << "\n\n"; } } } void DitaXmlGenerator::generateSectionList(const Section& section, const Node *relative, CodeMarker *marker, CodeMarker::SynopsisStyle style) { bool name_alignment = true; if (!section.members.isEmpty()) { bool twoColumn = false; if (style == CodeMarker::SeparateList) { name_alignment = false; twoColumn = (section.members.count() >= 16); } else if (section.members.first()->type() == Node::Property) { twoColumn = (section.members.count() >= 5); name_alignment = false; } if (name_alignment) { out() << "\n"; } else { if (twoColumn) out() << "

\n" << "\n"; else out() << "\n"; i++; ++m; } if (name_alignment) out() << "

"; out() << " \n"; } int i = 0; NodeList::ConstIterator m = section.members.begin(); while (m != section.members.end()) { if ((*m)->access() == Node::Private) { ++m; continue; } if (name_alignment) { out() << "
"; } else { if (twoColumn && i == (int) (section.members.count() + 1) / 2) out() << "	\n"; out() << " "; } generateSynopsis(*m, relative, marker, style, name_alignment); if (name_alignment) out() << "

\n"; else { out() << "\n"; if (twoColumn) out() << "\n\n"; } } if (style == CodeMarker::Summary && !section.inherited.isEmpty()) { out() << "

\n"; generateSectionInheritedList(section, relative, marker, name_alignment); out() << "\n"; } } void DitaXmlGenerator::generateSectionInheritedList(const Section& section, const Node *relative, CodeMarker *marker, bool nameAlignment) { QList >::ConstIterator p = section.inherited.begin(); while (p != section.inherited.end()) { if (nameAlignment) out() << "

"; else out() << "

"; out() << (*p).second << " "; if ((*p).second == 1) { out() << section.singularMember; } else { out() << section.pluralMember; } out() << " inherited from " << protectEnc(marker->plainFullName((*p).first, relative)) << "

\n"; ++p; } } void DitaXmlGenerator::generateSynopsis(const Node *node, const Node *relative, CodeMarker *marker, CodeMarker::SynopsisStyle style, bool nameAlignment) { QString marked = marker->markedUpSynopsis(node, relative, style); QRegExp templateTag("(<[^@>]*>)"); if (marked.indexOf(templateTag) != -1) { QString contents = protectEnc(marked.mid(templateTag.pos(1), templateTag.cap(1).length())); marked.replace(templateTag.pos(1), templateTag.cap(1).length(), contents); } marked.replace(QRegExp("<@param>([a-z]+)_([1-9n])"), "\\1_\\2"); marked.replace("<@param>", ""); marked.replace("", ""); if (style == CodeMarker::Summary) { marked.replace("<@name>", ""); // was "" marked.replace("", ""); // was "" } if (style == CodeMarker::SeparateList) { QRegExp extraRegExp("<@extra>.*"); extraRegExp.setMinimal(true); marked.replace(extraRegExp, ""); } else { marked.replace("<@extra>", ""); marked.replace("", ""); } if (style != CodeMarker::Detailed) { marked.replace("<@type>", ""); marked.replace("", ""); } out() << highlightedCode(marked, marker, relative, style, nameAlignment); } QString DitaXmlGenerator::highlightedCode(const QString& markedCode, CodeMarker *marker, const Node *relative, CodeMarker::SynopsisStyle , bool nameAlignment) { QString src = markedCode; QString html; QStringRef arg; QStringRef par1; const QChar charLangle = '<'; const QChar charAt = '@'; // replace all <@link> tags: "(<@link node=\"([^\"]+)\">).*()" static const QString linkTag("link"); bool done = false; for (int i = 0, n = src.size(); i < n;) { if (src.at(i) == charLangle && src.at(i + 1).unicode() == '@') { if (nameAlignment && !done) {// && (i != 0)) Why was this here? html += ""; done = true; } i += 2; if (parseArg(src, linkTag, &i, n, &arg, &par1)) { html += ""; QString link = linkForNode( CodeMarker::nodeForString(par1.toString()), relative); addLink(link, arg, &html); html += ""; } else { html += charLangle; html += charAt; } } else { html += src.at(i++); } } if (slow) { // is this block ever used at all? // replace all <@func> tags: "(<@func target=\"([^\"]*)\">)(.*)()" src = html; html = QString(); static const QString funcTag("func"); for (int i = 0, n = src.size(); i < n;) { if (src.at(i) == charLangle && src.at(i + 1) == charAt) { i += 2; if (parseArg(src, funcTag, &i, n, &arg, &par1)) { QString link = linkForNode( marker->resolveTarget(par1.toString(), myTree, relative), relative); addLink(link, arg, &html); par1 = QStringRef(); } else { html += charLangle; html += charAt; } } else { html += src.at(i++); } } } // replace all "(<@(type|headerfile|func)(?: +[^>]*)?>)(.*)()" tags src = html; html = QString(); static const QString typeTags[] = { "type", "headerfile", "func" }; for (int i = 0, n = src.size(); i < n;) { if (src.at(i) == charLangle && src.at(i + 1) == charAt) { i += 2; bool handled = false; for (int k = 0; k != 3; ++k) { if (parseArg(src, typeTags[k], &i, n, &arg, &par1)) { par1 = QStringRef(); QString link = linkForNode( marker->resolveTarget(arg.toString(), myTree, relative), relative); addLink(link, arg, &html); handled = true; break; } } if (!handled) { html += charLangle; html += charAt; } } else { html += src.at(i++); } } // replace all // "<@comment>" -> ""; // "<@preprocessor>" -> ""; // "<@string>" -> ""; // "<@char>" -> ""; // "" -> "" src = html; html = QString(); static const QString spanTags[] = { "<@comment>", "", "<@preprocessor>", "", "<@string>", "", "<@char>", "", "", "", "","", "", "", "", "" // "<@char>", "", // "", "", // "<@func>", "", // "", "", // "<@id>", "", // "", "", // "<@keyword>", "", // "", "", // "<@number>", "", // "", "", // "<@op>", "", // "", "", // "<@param>", "", // "", "", // "<@string>", "", // "", "", }; for (int i = 0, n = src.size(); i < n;) { if (src.at(i) == charLangle) { bool handled = false; for (int k = 0; k != 8; ++k) { const QString & tag = spanTags[2 * k]; if (tag == QStringRef(&src, i, tag.length())) { html += spanTags[2 * k + 1]; i += tag.length(); handled = true; break; } } if (!handled) { ++i; if (src.at(i) == charAt || (src.at(i) == QLatin1Char('/') && src.at(i + 1) == charAt)) { // drop 'our' unknown tags (the ones still containing '@') while (i < n && src.at(i) != QLatin1Char('>')) ++i; ++i; } else { // retain all others html += charLangle; } } } else { html += src.at(i); ++i; } } return html; } void DitaXmlGenerator::generateLink(const Atom* atom, const Node* /* relative */, CodeMarker* marker) { static QRegExp camelCase("[A-Z][A-Z][a-z]|[a-z][A-Z0-9]|_"); if (funcLeftParen.indexIn(atom->string()) != -1 && marker->recognizeLanguage("Cpp")) { // hack for C++: move () outside of link int k = funcLeftParen.pos(1); writer.writeCharacters(protectEnc(atom->string().left(k))); if (link.isEmpty()) { if (showBrokenLinks) writer.writeEndElement(); // } else { writer.writeEndElement(); // } inLink = false; writer.writeCharacters(protectEnc(atom->string().mid(k))); } else if (marker->recognizeLanguage("Java")) { // hack for Java: remove () and use when appropriate bool func = atom->string().endsWith("()"); bool tt = (func || atom->string().contains(camelCase)); if (tt) writer.writeStartElement("tt"); if (func) { writer.writeCharacters(protectEnc(atom->string().left(atom->string().length() - 2))); } else { writer.writeCharacters(protectEnc(atom->string())); } writer.writeEndElement(); // } else { writer.writeCharacters(protectEnc(atom->string())); } } QString DitaXmlGenerator::cleanRef(const QString& ref) { QString clean; if (ref.isEmpty()) return clean; clean.reserve(ref.size() + 20); const QChar c = ref[0]; const uint u = c.unicode(); if ((u >= 'a' && u <= 'z') || (u >= 'A' && u <= 'Z') || (u >= '0' && u <= '9')) { clean += c; } else if (u == '~') { clean += "dtor."; } else if (u == '_') { clean += "underscore."; } else { clean += "A"; } for (int i = 1; i < (int) ref.length(); i++) { const QChar c = ref[i]; const uint u = c.unicode(); if ((u >= 'a' && u <= 'z') || (u >= 'A' && u <= 'Z') || (u >= '0' && u <= '9') || u == '-' || u == '_' || u == ':' || u == '.') { clean += c; } else if (c.isSpace()) { clean += "-"; } else if (u == '!') { clean += "-not"; } else if (u == '&') { clean += "-and"; } else if (u == '<') { clean += "-lt"; } else if (u == '=') { clean += "-eq"; } else if (u == '>') { clean += "-gt"; } else if (u == '#') { clean += "#"; } else { clean += "-"; clean += QString::number((int)u, 16); } } return clean; } QString DitaXmlGenerator::registerRef(const QString& ref) { QString clean = DitaXmlGenerator::cleanRef(ref); for (;;) { QString& prevRef = refMap[clean.toLower()]; if (prevRef.isEmpty()) { prevRef = ref; break; } else if (prevRef == ref) { break; } clean += "x"; } return clean; } QString DitaXmlGenerator::protectEnc(const QString &string) { return protect(string, outputEncoding); } QString DitaXmlGenerator::protect(const QString &string, const QString &outputEncoding) { #define APPEND(x) \ if (xml.isEmpty()) { \ xml = string; \ xml.truncate(i); \ } \ xml += (x); QString xml; int n = string.length(); for (int i = 0; i < n; ++i) { QChar ch = string.at(i); if (ch == QLatin1Char('&')) { APPEND("&"); } else if (ch == QLatin1Char('<')) { APPEND("<"); } else if (ch == QLatin1Char('>')) { APPEND(">"); } else if (ch == QLatin1Char('"')) { APPEND("""); } else if ((outputEncoding == "ISO-8859-1" && ch.unicode() > 0x007F) || (ch == QLatin1Char('*') && i + 1 < n && string.at(i) == QLatin1Char('/')) || (ch == QLatin1Char('.') && i > 2 && string.at(i - 2) == QLatin1Char('.'))) { // we escape '*/' and the last dot in 'e.g.' and 'i.e.' for the Javadoc generator APPEND("&#x"); xml += QString::number(ch.unicode(), 16); xml += QLatin1Char(';'); } else { if (!xml.isEmpty()) xml += ch; } } if (!xml.isEmpty()) return xml; return string; #undef APPEND } QString DitaXmlGenerator::fileBase(const Node *node) { QString result; result = PageGenerator::fileBase(node); if (!node->isInnerNode()) { switch (node->status()) { case Node::Compat: result += "-qt3"; break; case Node::Obsolete: result += "-obsolete"; break; default: ; } } return result; } #if 0 QString DitaXmlGenerator::fileBase(const Node *node, const SectionIterator& section) { QStringList::ConstIterator s = section.sectionNumber().end(); QStringList::ConstIterator b = section.baseNameStack().end(); QString suffix; QString base = fileBase(node); while (s != section.sectionNumber().begin()) { --s; --b; if (!(*b).isEmpty()) { base = *b; break; } suffix.prepend("-" + *s); } return base + suffix; } #endif QString DitaXmlGenerator::fileName(const Node *node) { if (node->type() == Node::Fake) { if (static_cast(node)->subType() == Node::ExternalPage) return node->name(); if (static_cast(node)->subType() == Node::Image) return node->name(); } return PageGenerator::fileName(node); } QString DitaXmlGenerator::refForNode(const Node *node) { const FunctionNode *func; const TypedefNode *typedeffe; QString ref; switch (node->type()) { case Node::Namespace: case Node::Class: default: break; case Node::Enum: ref = node->name() + "-enum"; break; case Node::Typedef: typedeffe = static_cast(node); if (typedeffe->associatedEnum()) { return refForNode(typedeffe->associatedEnum()); } else { ref = node->name() + "-typedef"; } break; case Node::Function: func = static_cast(node); if (func->associatedProperty()) { return refForNode(func->associatedProperty()); } else { ref = func->name(); if (func->overloadNumber() != 1) ref += "-" + QString::number(func->overloadNumber()); } break; #ifdef QDOC_QML case Node::Fake: if (node->subType() != Node::QmlPropertyGroup) break; case Node::QmlProperty: #endif case Node::Property: ref = node->name() + "-prop"; break; #ifdef QDOC_QML case Node::QmlSignal: ref = node->name() + "-signal"; break; case Node::QmlMethod: ref = node->name() + "-method"; break; #endif case Node::Variable: ref = node->name() + "-var"; break; case Node::Target: return protectEnc(node->name()); } return registerRef(ref); } QString DitaXmlGenerator::linkForNode(const Node *node, const Node *relative) { QString link; QString fn; QString ref; if (node == 0 || node == relative) return QString(); if (!node->url().isEmpty()) return node->url(); if (fileBase(node).isEmpty()) return QString(); if (node->access() == Node::Private) return QString(); fn = fileName(node); link += fn; if (!node->isInnerNode() || node->subType() == Node::QmlPropertyGroup) { ref = refForNode(node); if (relative && fn == fileName(relative) && ref == refForNode(relative)) return QString(); link += "#"; link += ref; } return link; } QString DitaXmlGenerator::refForAtom(Atom *atom, const Node * /* node */) { if (atom->type() == Atom::SectionLeft) { return Doc::canonicalTitle(Text::sectionHeading(atom).toString()); } else if (atom->type() == Atom::Target) { return Doc::canonicalTitle(atom->string()); } else { return QString(); } } void DitaXmlGenerator::generateFullName(const Node *apparentNode, const Node *relative, CodeMarker *marker, const Node *actualNode) { if (actualNode == 0) actualNode = apparentNode; out() << "status() != actualNode->status()) { switch (actualNode->status()) { case Node::Obsolete: out() << "\" class=\"obsolete"; break; case Node::Compat: out() << "\" class=\"compat"; break; default: ; } } out() << "\">"; out() << protectEnc(fullName(apparentNode, relative, marker)); out() << ""; } void DitaXmlGenerator::generateDetailedMember(const Node *node, const InnerNode *relative, CodeMarker *marker) { const EnumNode *enume; #ifdef GENERATE_MAC_REFS generateMacRef(node, marker); #endif if (node->type() == Node::Enum && (enume = static_cast(node))->flagsType()) { #ifdef GENERATE_MAC_REFS generateMacRef(enume->flagsType(), marker); #endif out() << "

"; out() << ""; generateSynopsis(enume, relative, marker, CodeMarker::Detailed); out() << "
"; generateSynopsis(enume->flagsType(), relative, marker, CodeMarker::Detailed); out() << "

\n"; } else { out() << "

"; out() << ""; generateSynopsis(node, relative, marker, CodeMarker::Detailed); out() << "

\n"; } generateStatus(node, marker); generateBody(node, marker); generateThreadSafeness(node, marker); generateSince(node, marker); if (node->type() == Node::Property) { const PropertyNode *property = static_cast(node); Section section; section.members += property->getters(); section.members += property->setters(); section.members += property->resetters(); if (!section.members.isEmpty()) { out() << "

Access functions:

\n"; generateSectionList(section, node, marker, CodeMarker::Accessors); } Section notifiers; notifiers.members += property->notifiers(); if (!notifiers.members.isEmpty()) { out() << "

Notifier signal:

\n"; //out() << "

This signal is emitted when the property value is changed.

\n"; generateSectionList(notifiers, node, marker, CodeMarker::Accessors); } } else if (node->type() == Node::Enum) { const EnumNode *enume = static_cast(node); if (enume->flagsType()) { out() << "

The " << protectEnc(enume->flagsType()->name()) << " type is a typedef for " << "QFlags<" << protectEnc(enume->name()) << ">. It stores an OR combination of " << protectEnc(enume->name()) << " values.

\n"; } } generateAlsoList(node, marker); } void DitaXmlGenerator::findAllClasses(const InnerNode *node) { NodeList::const_iterator c = node->childNodes().constBegin(); while (c != node->childNodes().constEnd()) { if ((*c)->access() != Node::Private && (*c)->url().isEmpty()) { if ((*c)->type() == Node::Class && !(*c)->doc().isEmpty()) { QString className = (*c)->name(); if ((*c)->parent() && (*c)->parent()->type() == Node::Namespace && !(*c)->parent()->name().isEmpty()) className = (*c)->parent()->name()+"::"+className; if (!(static_cast(*c))->hideFromMainList()) { if ((*c)->status() == Node::Compat) { compatClasses.insert(className, *c); } else if ((*c)->status() == Node::Obsolete) { obsoleteClasses.insert(className, *c); } else { nonCompatClasses.insert(className, *c); if ((*c)->status() == Node::Main) mainClasses.insert(className, *c); } } QString moduleName = (*c)->moduleName(); if (moduleName == "Qt3SupportLight") { moduleClassMap[moduleName].insert((*c)->name(), *c); moduleName = "Qt3Support"; } if (!moduleName.isEmpty()) moduleClassMap[moduleName].insert((*c)->name(), *c); QString serviceName = (static_cast(*c))->serviceName(); if (!serviceName.isEmpty()) serviceClasses.insert(serviceName, *c); } else if ((*c)->type() == Node::Fake && (*c)->subType() == Node::QmlClass && !(*c)->doc().isEmpty()) { QString qmlClassName = (*c)->name(); qmlClasses.insert(qmlClassName,*c); } else if ((*c)->isInnerNode()) { findAllClasses(static_cast(*c)); } } ++c; } } /*! For generating the "New Classes... in 4.6" section on the What's New in 4.6" page. */ void DitaXmlGenerator::findAllSince(const InnerNode *node) { NodeList::const_iterator child = node->childNodes().constBegin(); while (child != node->childNodes().constEnd()) { QString sinceVersion = (*child)->since(); if (((*child)->access() != Node::Private) && !sinceVersion.isEmpty()) { NewSinceMaps::iterator nsmap = newSinceMaps.find(sinceVersion); if (nsmap == newSinceMaps.end()) nsmap = newSinceMaps.insert(sinceVersion,NodeMultiMap()); NewClassMaps::iterator ncmap = newClassMaps.find(sinceVersion); if (ncmap == newClassMaps.end()) ncmap = newClassMaps.insert(sinceVersion,NodeMap()); NewClassMaps::iterator nqcmap = newQmlClassMaps.find(sinceVersion); if (nqcmap == newQmlClassMaps.end()) nqcmap = newQmlClassMaps.insert(sinceVersion,NodeMap()); if ((*child)->type() == Node::Function) { FunctionNode *func = static_cast(*child); if ((func->status() > Node::Obsolete) && (func->metaness() != FunctionNode::Ctor) && (func->metaness() != FunctionNode::Dtor)) { nsmap.value().insert(func->name(),(*child)); } } else if ((*child)->url().isEmpty()) { if ((*child)->type() == Node::Class && !(*child)->doc().isEmpty()) { QString className = (*child)->name(); if ((*child)->parent() && (*child)->parent()->type() == Node::Namespace && !(*child)->parent()->name().isEmpty()) className = (*child)->parent()->name()+"::"+className; nsmap.value().insert(className,(*child)); ncmap.value().insert(className,(*child)); } else if ((*child)->subType() == Node::QmlClass) { QString className = (*child)->name(); if ((*child)->parent() && (*child)->parent()->type() == Node::Namespace && !(*child)->parent()->name().isEmpty()) className = (*child)->parent()->name()+"::"+className; nsmap.value().insert(className,(*child)); nqcmap.value().insert(className,(*child)); } } else { QString name = (*child)->name(); if ((*child)->parent() && (*child)->parent()->type() == Node::Namespace && !(*child)->parent()->name().isEmpty()) name = (*child)->parent()->name()+"::"+name; nsmap.value().insert(name,(*child)); } if ((*child)->isInnerNode()) { findAllSince(static_cast(*child)); } } ++child; } } #if 0 const QRegExp versionSeparator("[\\-\\.]"); const int minorIndex = version.indexOf(versionSeparator); const int patchIndex = version.indexOf(versionSeparator, minorIndex+1); version = version.left(patchIndex); #endif void DitaXmlGenerator::findAllFunctions(const InnerNode *node) { NodeList::ConstIterator c = node->childNodes().begin(); while (c != node->childNodes().end()) { if ((*c)->access() != Node::Private) { if ((*c)->isInnerNode() && (*c)->url().isEmpty()) { findAllFunctions(static_cast(*c)); } else if ((*c)->type() == Node::Function) { const FunctionNode *func = static_cast(*c); if ((func->status() > Node::Obsolete) && (func->metaness() != FunctionNode::Ctor) && (func->metaness() != FunctionNode::Dtor)) { funcIndex[(*c)->name()].insert(myTree->fullDocumentName((*c)->parent()), *c); } } } ++c; } } void DitaXmlGenerator::findAllLegaleseTexts(const InnerNode *node) { NodeList::ConstIterator c = node->childNodes().begin(); while (c != node->childNodes().end()) { if ((*c)->access() != Node::Private) { if (!(*c)->doc().legaleseText().isEmpty()) legaleseTexts.insertMulti((*c)->doc().legaleseText(), *c); if ((*c)->isInnerNode()) findAllLegaleseTexts(static_cast(*c)); } ++c; } } void DitaXmlGenerator::findAllNamespaces(const InnerNode *node) { NodeList::ConstIterator c = node->childNodes().begin(); while (c != node->childNodes().end()) { if ((*c)->access() != Node::Private) { if ((*c)->isInnerNode() && (*c)->url().isEmpty()) { findAllNamespaces(static_cast(*c)); if ((*c)->type() == Node::Namespace) { const NamespaceNode *nspace = static_cast(*c); // Ensure that the namespace's name is not empty (the root // namespace has no name). if (!nspace->name().isEmpty()) { namespaceIndex.insert(nspace->name(), *c); QString moduleName = (*c)->moduleName(); if (moduleName == "Qt3SupportLight") { moduleNamespaceMap[moduleName].insert((*c)->name(), *c); moduleName = "Qt3Support"; } if (!moduleName.isEmpty()) moduleNamespaceMap[moduleName].insert((*c)->name(), *c); } } } } ++c; } } int DitaXmlGenerator::hOffset(const Node *node) { switch (node->type()) { case Node::Namespace: case Node::Class: return 2; case Node::Fake: return 1; #if 0 if (node->doc().briefText().isEmpty()) return 1; else return 2; #endif case Node::Enum: case Node::Typedef: case Node::Function: case Node::Property: default: return 3; } } bool DitaXmlGenerator::isThreeColumnEnumValueTable(const Atom *atom) { while (atom != 0 && !(atom->type() == Atom::ListRight && atom->string() == ATOM_LIST_VALUE)) { if (atom->type() == Atom::ListItemLeft && !matchAhead(atom, Atom::ListItemRight)) return true; atom = atom->next(); } return false; } const Node *DitaXmlGenerator::findNodeForTarget(const QString &target, const Node *relative, CodeMarker *marker, const Atom *atom) { const Node *node = 0; if (target.isEmpty()) { node = relative; } else if (target.endsWith(".html")) { node = myTree->root()->findNode(target, Node::Fake); } else if (marker) { node = marker->resolveTarget(target, myTree, relative); if (!node) node = myTree->findFakeNodeByTitle(target); if (!node && atom) { node = myTree->findUnambiguousTarget(target, *const_cast(&atom)); } } if (!node) relative->doc().location().warning(tr("Cannot link to '%1'").arg(target)); return node; } const QPair DitaXmlGenerator::anchorForNode(const Node *node) { QPair anchorPair; anchorPair.first = PageGenerator::fileName(node); if (node->type() == Node::Fake) { const FakeNode *fakeNode = static_cast(node); anchorPair.second = fakeNode->title(); } return anchorPair; } QString DitaXmlGenerator::getLink(const Atom *atom, const Node *relative, CodeMarker *marker, const Node** node) { QString link; *node = 0; inObsoleteLink = false; if (atom->string().contains(":") && (atom->string().startsWith("file:") || atom->string().startsWith("http:") || atom->string().startsWith("https:") || atom->string().startsWith("ftp:") || atom->string().startsWith("mailto:"))) { link = atom->string(); } else { QStringList path; if (atom->string().contains('#')) { path = atom->string().split('#'); } else { path.append(atom->string()); } Atom *targetAtom = 0; QString first = path.first().trimmed(); if (first.isEmpty()) { *node = relative; } else if (first.endsWith(".html")) { *node = myTree->root()->findNode(first, Node::Fake); } else { *node = marker->resolveTarget(first, myTree, relative); if (!*node) { *node = myTree->findFakeNodeByTitle(first); } if (!*node) { *node = myTree->findUnambiguousTarget(first, targetAtom); } } if (*node) { if (!(*node)->url().isEmpty()) return (*node)->url(); else path.removeFirst(); } else { *node = relative; } if (*node) { if ((*node)->status() == Node::Obsolete) { if (relative) { if (relative->parent() != *node) { if (relative->status() != Node::Obsolete) { bool porting = false; if (relative->type() == Node::Fake) { const FakeNode* fake = static_cast(relative); if (fake->title().startsWith("Porting")) porting = true; } QString name = marker->plainFullName(relative); if (!porting && !name.startsWith("Q3")) { if (obsoleteLinks) { relative->doc().location().warning(tr("Link to obsolete item '%1' in %2") .arg(atom->string()) .arg(name)); } inObsoleteLink = true; } } } } else { qDebug() << "Link to Obsolete entity" << (*node)->name() << "no relative"; } } #if 0 else if ((*node)->status() == Node::Deprecated) { qDebug() << "Link to Deprecated entity"; } else if ((*node)->status() == Node::Internal) { qDebug() << "Link to Internal entity"; } #endif } while (!path.isEmpty()) { targetAtom = myTree->findTarget(path.first(), *node); if (targetAtom == 0) break; path.removeFirst(); } if (path.isEmpty()) { link = linkForNode(*node, relative); if (*node && (*node)->subType() == Node::Image) link = "images/used-in-examples/" + link; if (targetAtom) link += "#" + refForAtom(targetAtom, *node); } } return link; } void DitaXmlGenerator::generateIndex(const QString &fileBase, const QString &url, const QString &title) { myTree->generateIndex(outputDir() + "/" + fileBase + ".index", url, title); } void DitaXmlGenerator::generateStatus(const Node *node, CodeMarker *marker) { Text text; switch (node->status()) { case Node::Obsolete: if (node->isInnerNode()) Generator::generateStatus(node, marker); break; case Node::Compat: if (node->isInnerNode()) { text << Atom::ParaLeft << Atom(Atom::FormattingLeft,ATOM_FORMATTING_BOLD) << "This " << typeString(node) << " is part of the Qt 3 support library." << Atom(Atom::FormattingRight, ATOM_FORMATTING_BOLD) << " It is provided to keep old source code working. " << "We strongly advise against " << "using it in new code. See "; const FakeNode *fakeNode = myTree->findFakeNodeByTitle("Porting To Qt 4"); Atom *targetAtom = 0; if (fakeNode && node->type() == Node::Class) { QString oldName(node->name()); targetAtom = myTree->findTarget(oldName.replace("3", ""), fakeNode); } if (targetAtom) { text << Atom(Atom::Link, linkForNode(fakeNode, node) + "#" + refForAtom(targetAtom, fakeNode)); } else text << Atom(Atom::Link, "Porting to Qt 4"); text << Atom(Atom::FormattingLeft, ATOM_FORMATTING_LINK) << Atom(Atom::String, "Porting to Qt 4") << Atom(Atom::FormattingRight, ATOM_FORMATTING_LINK) << " for more information." << Atom::ParaRight; } generateText(text, node, marker); break; default: Generator::generateStatus(node, marker); } } #ifdef GENERATE_MAC_REFS /* No longer valid. */ void DitaXmlGenerator::generateMacRef(const Node *node, CodeMarker *marker) { if (!pleaseGenerateMacRef || marker == 0) return; QStringList macRefs = marker->macRefsForNode(node); foreach (const QString &macRef, macRefs) out() << "\n"; } #endif void DitaXmlGenerator::beginLink(const QString &link, const Node *node, const Node *relative, CodeMarker *marker) { Q_UNUSED(marker) Q_UNUSED(relative) this->link = link; if (link.isEmpty()) { if (showBrokenLinks) writer.writeStartElement("i"); } else if (node == 0 || (relative != 0 && node->status() == relative->status())) { writer.writeStartElement("xref"); writer.writeAttribute("href",link); } else { switch (node->status()) { case Node::Obsolete: writer.writeStartElement("xref"); writer.writeAttribute("href",link); writer.writeAttribute("outputclass","obsolete"); break; case Node::Compat: writer.writeStartElement("xref"); writer.writeAttribute("href",link); writer.writeAttribute("outputclass","compat"); break; default: writer.writeStartElement("xref"); writer.writeAttribute("href",link); } } inLink = true; } void DitaXmlGenerator::endLink() { if (inLink) { if (link.isEmpty()) { if (showBrokenLinks) writer.writeEndElement(); // i } else { if (inObsoleteLink) { writer.writeStartElement("sup"); writer.writeCharacters("(obsolete)"); writer.writeEndElement(); // sup } writer.writeEndElement(); // xref } } inLink = false; inObsoleteLink = false; } #ifdef QDOC_QML /*! Generates the summary for the \a section. Only used for sections of QML element documentation. Currently handles only the QML property group. */ void DitaXmlGenerator::generateQmlSummary(const Section& section, const Node *relative, CodeMarker *marker) { if (!section.members.isEmpty()) { NodeList::ConstIterator m; int count = section.members.size(); bool twoColumn = false; if (section.members.first()->type() == Node::QmlProperty) { twoColumn = (count >= 5); } if (twoColumn) out() << "\n"; if (++numTableRows % 2 == 1) out() << ""; else out() << ""; // << "\n

"; out() << "

\n"; int row = 0; m = section.members.begin(); while (m != section.members.end()) { if (twoColumn && row == (int) (count + 1) / 2) out() << "

"; generateQmlItem(*m,relative,marker,true); out() << "

\n"; if (twoColumn) out() << "

\n"; } } /*! Outputs the html detailed documentation for a section on a QML element reference page. */ void DitaXmlGenerator::generateDetailedQmlMember(const Node *node, const InnerNode *relative, CodeMarker *marker) { const QmlPropertyNode* qpn = 0; #ifdef GENERATE_MAC_REFS generateMacRef(node, marker); #endif out() << "

"; if (node->subType() == Node::QmlPropertyGroup) { const QmlPropGroupNode* qpgn = static_cast(node); NodeList::ConstIterator p = qpgn->childNodes().begin(); out() << "

"; out() << ""; while (p != qpgn->childNodes().end()) { if ((*p)->type() == Node::QmlProperty) { qpn = static_cast(*p); if (++numTableRows % 2 == 1) out() << ""; else out() << ""; out() << ""; } ++p; } out() << "

"; //out() << "

"; // old out() << ""; if (!qpn->isWritable(myTree)) out() << "read-only"; if (qpgn->isDefault()) out() << "default"; generateQmlItem(qpn, relative, marker, false); out() << "

"; out() << "

"; } else if (node->type() == Node::QmlSignal) { const FunctionNode* qsn = static_cast(node); out() << "

"; out() << ""; //out() << ""; if (++numTableRows % 2 == 1) out() << ""; else out() << ""; out() << ""; out() << "

"; out() << ""; generateSynopsis(qsn,relative,marker,CodeMarker::Detailed,false); //generateQmlItem(qsn,relative,marker,false); out() << "

"; out() << "

"; } else if (node->type() == Node::QmlMethod) { const FunctionNode* qmn = static_cast(node); out() << "

"; out() << ""; //out() << ""; if (++numTableRows % 2 == 1) out() << ""; else out() << ""; out() << ""; out() << "

"; out() << ""; generateSynopsis(qmn,relative,marker,CodeMarker::Detailed,false); out() << "

"; out() << "

"; } out() << "

"; generateStatus(node, marker); generateBody(node, marker); generateThreadSafeness(node, marker); generateSince(node, marker); generateAlsoList(node, marker); out() << "

"; out() << "

"; } /*! Output the "Inherits" line for the QML element, if there should be one. */ void DitaXmlGenerator::generateQmlInherits(const QmlClassNode* cn, CodeMarker* marker) { if (cn && !cn->links().empty()) { if (cn->links().contains(Node::InheritsLink)) { QPair linkPair; linkPair = cn->links()[Node::InheritsLink]; QStringList strList(linkPair.first); const Node* n = myTree->findNode(strList,Node::Fake); if (n && n->subType() == Node::QmlClass) { const QmlClassNode* qcn = static_cast(n); out() << "

"; Text text; text << "[Inherits "; text << Atom(Atom::LinkNode,CodeMarker::stringForNode(qcn)); text << Atom(Atom::FormattingLeft, ATOM_FORMATTING_LINK); text << Atom(Atom::String, linkPair.second); text << Atom(Atom::FormattingRight, ATOM_FORMATTING_LINK); text << "]"; generateText(text, cn, marker); out() << "

"; } } } } /*! Output the "Inherit by" list for the QML element, if it is inherited by any other elements. */ void DitaXmlGenerator::generateQmlInheritedBy(const QmlClassNode* cn, CodeMarker* marker) { if (cn) { NodeList subs; QmlClassNode::subclasses(cn->name(),subs); if (!subs.isEmpty()) { Text text; text << Atom::ParaLeft << "Inherited by "; appendSortedQmlNames(text,cn,subs,marker); text << Atom::ParaRight; generateText(text, cn, marker); } } } /*! Output the "[Xxx instantiates the C++ class QmlGraphicsXxx]" line for the QML element, if there should be one. If there is no class node, or if the class node status is set to Node::Internal, do nothing. */ void DitaXmlGenerator::generateQmlInstantiates(const QmlClassNode* qcn, CodeMarker* marker) { const ClassNode* cn = qcn->classNode(); if (cn && (cn->status() != Node::Internal)) { out() << "

"; Text text; text << "["; text << Atom(Atom::LinkNode,CodeMarker::stringForNode(qcn)); text << Atom(Atom::FormattingLeft, ATOM_FORMATTING_LINK); text << Atom(Atom::String, qcn->name()); text << Atom(Atom::FormattingRight, ATOM_FORMATTING_LINK); text << " instantiates the C++ class "; text << Atom(Atom::LinkNode,CodeMarker::stringForNode(cn)); text << Atom(Atom::FormattingLeft, ATOM_FORMATTING_LINK); text << Atom(Atom::String, cn->name()); text << Atom(Atom::FormattingRight, ATOM_FORMATTING_LINK); text << "]"; generateText(text, qcn, marker); out() << "

"; } } /*! Output the "[QmlGraphicsXxx is instantiated by QML element Xxx]" line for the class, if there should be one. If there is no QML element, or if the class node status is set to Node::Internal, do nothing. */ void DitaXmlGenerator::generateInstantiatedBy(const ClassNode* cn, CodeMarker* marker) { if (cn && cn->status() != Node::Internal && !cn->qmlElement().isEmpty()) { const Node* n = myTree->root()->findNode(cn->qmlElement(),Node::Fake); if (n && n->subType() == Node::QmlClass) { out() << "

"; Text text; text << "["; text << Atom(Atom::LinkNode,CodeMarker::stringForNode(cn)); text << Atom(Atom::FormattingLeft, ATOM_FORMATTING_LINK); text << Atom(Atom::String, cn->name()); text << Atom(Atom::FormattingRight, ATOM_FORMATTING_LINK); text << " is instantiated by QML element "; text << Atom(Atom::LinkNode,CodeMarker::stringForNode(n)); text << Atom(Atom::FormattingLeft, ATOM_FORMATTING_LINK); text << Atom(Atom::String, n->name()); text << Atom(Atom::FormattingRight, ATOM_FORMATTING_LINK); text << "]"; generateText(text, cn, marker); out() << "

"; } } } /*! Generate the element for the given \a node using the \a writer. Return true if a element was written; otherwise return false. */ bool DitaXmlGenerator::generatePageElement(QXmlStreamWriter& writer, const Node* node, CodeMarker* marker) const { if (node->pageType() == Node::NoPageType) return false; if (node->name().isEmpty()) return true; if (node->access() == Node::Private) return false; if (!node->isInnerNode()) return false; QString title; QString rawTitle; QString fullTitle; const InnerNode* inner = static_cast(node); writer.writeStartElement("page"); QXmlStreamAttributes attributes; QString t; t.setNum(id++); switch (node->type()) { case Node::Fake: { const FakeNode* fake = static_cast(node); title = fake->fullTitle(); break; } case Node::Class: { title = node->name() + " Class Reference"; break; } case Node::Namespace: { rawTitle = marker->plainName(inner); fullTitle = marker->plainFullName(inner); title = rawTitle + " Namespace Reference"; break; } default: title = node->name(); break; } writer.writeAttribute("id",t); writer.writeStartElement("pageWords"); writer.writeCharacters(title); if (!inner->pageKeywords().isEmpty()) { const QStringList& w = inner->pageKeywords(); for (int i = 0; i < w.size(); ++i) { writer.writeCharacters(" "); writer.writeCharacters(w.at(i).toLocal8Bit().constData()); } } writer.writeEndElement(); writer.writeStartElement("pageTitle"); writer.writeCharacters(title); writer.writeEndElement(); writer.writeStartElement("pageUrl"); writer.writeCharacters(PageGenerator::fileName(node)); writer.writeEndElement(); writer.writeStartElement("pageType"); switch (node->pageType()) { case Node::ApiPage: writer.writeCharacters("APIPage"); break; case Node::ArticlePage: writer.writeCharacters("Article"); break; case Node::ExamplePage: writer.writeCharacters("Example"); break; default: break; } writer.writeEndElement(); writer.writeEndElement(); return true; } /*! Traverse the tree recursively and generate the elements. */ void DitaXmlGenerator::generatePageElements(QXmlStreamWriter& writer, const Node* node, CodeMarker* marker) const { if (generatePageElement(writer, node, marker)) { if (node->isInnerNode()) { const InnerNode *inner = static_cast(node); // Recurse to write an element for this child node and all its children. foreach (const Node *child, inner->childNodes()) generatePageElements(writer, child, marker); } } } /*! Outputs the file containing the index used for searching the html docs. */ void DitaXmlGenerator::generatePageIndex(const QString& fileName, CodeMarker* marker) const { QFile file(fileName); if (!file.open(QFile::WriteOnly | QFile::Text)) return ; QXmlStreamWriter writer(&file); writer.setAutoFormatting(true); writer.writeStartDocument(); writer.writeStartElement("qtPageIndex"); generatePageElements(writer, myTree->root(), marker); writer.writeEndElement(); // qtPageIndex writer.writeEndDocument(); file.close(); } #endif /*! Return the full qualification of the node \a n, but without the name of \a n itself. e.g. A::B::C */ QString DitaXmlGenerator::fullQualification(const Node* n) { QString fq; InnerNode* in = n->parent(); while (in) { if ((in->type() == Node::Class) || (in->type() == Node::Namespace)) { if (in->name().isEmpty()) break; if (fq.isEmpty()) fq = in->name(); else fq = in->name() + "::" + fq; } else break; in = in->parent(); } return fq; } void DitaXmlGenerator::writeDerivations(const ClassNode* cn, CodeMarker* marker) { QList::ConstIterator r; int index; if (!cn->baseClasses().isEmpty()) { writer.writeStartElement(CXXCLASSDERIVATIONS); r = cn->baseClasses().begin(); index = 0; while (r != cn->baseClasses().end()) { writer.writeStartElement(CXXCLASSDERIVATION); writer.writeStartElement(CXXCLASSDERIVATIONACCESSSPECIFIER); writer.writeAttribute("value",(*r).accessString()); writer.writeEndElement(); // writer.writeStartElement(CXXCLASSBASECLASS); writer.writeAttribute("href",(*r).node->ditaXmlHref()); writer.writeCharacters(marker->plainFullName((*r).node)); writer.writeEndElement(); // writer.writeEndElement(); // ++r; } writer.writeEndElement(); // } } void DitaXmlGenerator::writeLocation(const Node* n) { QString s1, s2, s3; if (n->type() == Node::Class) { s1 = CXXCLASSAPIITEMLOCATION; s2 = CXXCLASSDECLARATIONFILE; s3 = CXXCLASSDECLARATIONFILELINE; } else if (n->type() == Node::Function) { s1 = CXXFUNCTIONAPIITEMLOCATION; s2 = CXXFUNCTIONDECLARATIONFILE; s3 = CXXFUNCTIONDECLARATIONFILELINE; } else if (n->type() == Node::Enum) { s1 = CXXENUMERATIONAPIITEMLOCATION; s2 = CXXENUMERATIONDECLARATIONFILE; s3 = CXXENUMERATIONDECLARATIONFILELINE; } else if (n->type() == Node::Typedef) { s1 = CXXTYPEDEFAPIITEMLOCATION; s2 = CXXTYPEDEFDECLARATIONFILE; s3 = CXXTYPEDEFDECLARATIONFILELINE; } else if ((n->type() == Node::Property) || (n->type() == Node::Variable)) { s1 = CXXVARIABLEAPIITEMLOCATION; s2 = CXXVARIABLEDECLARATIONFILE; s3 = CXXVARIABLEDECLARATIONFILELINE; } writer.writeStartElement(s1); writer.writeStartElement(s2); writer.writeAttribute("name","filePath"); writer.writeAttribute("value",n->location().filePath()); writer.writeEndElement(); // DeclarationFile> writer.writeStartElement(s3); writer.writeAttribute("name","lineNumber"); QString lineNr; writer.writeAttribute("value",lineNr.setNum(n->location().lineNo())); writer.writeEndElement(); // DeclarationFileLine> writer.writeEndElement(); // ApiItemLocation> } void DitaXmlGenerator::writeFunctions(const Section& s, const ClassNode* cn, CodeMarker* marker) { NodeList::ConstIterator m = s.members.begin(); while (m != s.members.end()) { if ((*m)->type() == Node::Function) { FunctionNode* fn = const_cast(static_cast(*m)); writer.writeStartElement(CXXFUNCTION); writer.writeAttribute("id",fn->guid()); writer.writeStartElement(APINAME); writer.writeCharacters(fn->name()); writer.writeEndElement(); // generateBrief(fn,marker); writer.writeStartElement(CXXFUNCTIONDETAIL); writer.writeStartElement(CXXFUNCTIONDEFINITION); writer.writeStartElement(CXXFUNCTIONACCESSSPECIFIER); writer.writeAttribute("value",fn->accessString()); writer.writeEndElement(); // if (fn->isStatic()) { writer.writeStartElement(CXXFUNCTIONSTORAGECLASSSPECIFIERSTATIC); writer.writeAttribute("name","static"); writer.writeAttribute("value","static"); writer.writeEndElement(); // } if (fn->isConst()) { writer.writeStartElement(CXXFUNCTIONCONST); writer.writeAttribute("name","const"); writer.writeAttribute("value","const"); writer.writeEndElement(); // } if (fn->virtualness() != FunctionNode::NonVirtual) { writer.writeStartElement(CXXFUNCTIONVIRTUAL); writer.writeAttribute("name","virtual"); writer.writeAttribute("value","virtual"); writer.writeEndElement(); // if (fn->virtualness() == FunctionNode::PureVirtual) { writer.writeStartElement(CXXFUNCTIONPUREVIRTUAL); writer.writeAttribute("name","pure virtual"); writer.writeAttribute("value","pure virtual"); writer.writeEndElement(); // } } if (fn->name() == cn->name()) { writer.writeStartElement(CXXFUNCTIONCONSTRUCTOR); writer.writeAttribute("name","constructor"); writer.writeAttribute("value","constructor"); writer.writeEndElement(); // } else if (fn->name()[0] == QChar('~')) { writer.writeStartElement(CXXFUNCTIONDESTRUCTOR); writer.writeAttribute("name","destructor"); writer.writeAttribute("value","destructor"); writer.writeEndElement(); // } else { writer.writeStartElement(CXXFUNCTIONDECLAREDTYPE); writer.writeCharacters(fn->returnType()); writer.writeEndElement(); // } QString fq = fullQualification(fn); if (!fq.isEmpty()) { writer.writeStartElement(CXXFUNCTIONSCOPEDNAME); writer.writeCharacters(fq); writer.writeEndElement(); // } writer.writeStartElement(CXXFUNCTIONPROTOTYPE); writer.writeCharacters(fn->signature(true)); writer.writeEndElement(); // QString fnl = fn->signature(false); int idx = fnl.indexOf(' '); if (idx < 0) idx = 0; else ++idx; fnl = fn->parent()->name() + "::" + fnl.mid(idx); writer.writeStartElement(CXXFUNCTIONNAMELOOKUP); writer.writeCharacters(fnl); writer.writeEndElement(); // if (fn->isReimp() && fn->reimplementedFrom() != 0) { FunctionNode* rfn = (FunctionNode*)fn->reimplementedFrom(); writer.writeStartElement(CXXFUNCTIONREIMPLEMENTED); writer.writeAttribute("href",rfn->ditaXmlHref()); writer.writeCharacters(marker->plainFullName(rfn)); writer.writeEndElement(); // } writeParameters(fn,marker); writeLocation(fn); writer.writeEndElement(); // writer.writeStartElement(APIDESC); if (!fn->doc().isEmpty()) { generateBody(fn, marker); // generateAlsoList(inner, marker); } writer.writeEndElement(); // writer.writeEndElement(); // writer.writeEndElement(); // if (fn->metaness() == FunctionNode::Ctor || fn->metaness() == FunctionNode::Dtor || fn->overloadNumber() != 1) { } } ++m; } } void DitaXmlGenerator::writeParameters(const FunctionNode* fn, CodeMarker* marker) { const QList& parameters = fn->parameters(); if (!parameters.isEmpty()) { writer.writeStartElement(CXXFUNCTIONPARAMETERS); QList::ConstIterator p = parameters.begin(); while (p != parameters.end()) { writer.writeStartElement(CXXFUNCTIONPARAMETER); writer.writeStartElement(CXXFUNCTIONPARAMETERDECLAREDTYPE); writer.writeCharacters((*p).leftType()); if (!(*p).rightType().isEmpty()) writer.writeCharacters((*p).rightType()); writer.writeEndElement(); // writer.writeStartElement(CXXFUNCTIONPARAMETERDECLARATIONNAME); writer.writeCharacters((*p).name()); writer.writeEndElement(); // if (!(*p).defaultValue().isEmpty()) { writer.writeStartElement(CXXFUNCTIONPARAMETERDEFAULTVALUE); writer.writeCharacters((*p).defaultValue()); writer.writeEndElement(); // } writer.writeEndElement(); // ++p; } writer.writeEndElement(); // } } void DitaXmlGenerator::writeEnumerations(const Section& s, const ClassNode* cn, CodeMarker* marker) { NodeList::ConstIterator m = s.members.begin(); while (m != s.members.end()) { if ((*m)->type() == Node::Enum) { const EnumNode* en = static_cast(*m); writer.writeStartElement(CXXENUMERATION); writer.writeAttribute("id",en->guid()); writer.writeStartElement(APINAME); writer.writeCharacters(en->name()); writer.writeEndElement(); // generateBrief(en,marker); writer.writeStartElement(CXXENUMERATIONDETAIL); writer.writeStartElement(CXXENUMERATIONDEFINITION); writer.writeStartElement(CXXENUMERATIONACCESSSPECIFIER); writer.writeAttribute("value",en->accessString()); writer.writeEndElement(); // QString fq = fullQualification(en); if (!fq.isEmpty()) { writer.writeStartElement(CXXENUMERATIONSCOPEDNAME); writer.writeCharacters(fq); writer.writeEndElement(); // } const QList& items = en->items(); if (!items.isEmpty()) { writer.writeStartElement(CXXENUMERATIONPROTOTYPE); writer.writeCharacters(en->name()); writer.writeCharacters(" = { "); QList::ConstIterator i = items.begin(); while (i != items.end()) { writer.writeCharacters((*i).name()); if (!(*i).value().isEmpty()) { writer.writeCharacters(" = "); writer.writeCharacters((*i).value()); } ++i; if (i != items.end()) writer.writeCharacters(", "); } writer.writeCharacters(" }"); writer.writeEndElement(); // } writer.writeStartElement(CXXENUMERATIONNAMELOOKUP); writer.writeCharacters(en->parent()->name() + "::" + en->name()); writer.writeEndElement(); // if (!items.isEmpty()) { writer.writeStartElement(CXXENUMERATORS); QList::ConstIterator i = items.begin(); while (i != items.end()) { writer.writeStartElement(CXXENUMERATOR); writer.writeStartElement(APINAME); writer.writeCharacters((*i).name()); writer.writeEndElement(); // QString fq = fullQualification(en->parent()); if (!fq.isEmpty()) { writer.writeStartElement(CXXENUMERATORSCOPEDNAME); writer.writeCharacters(fq + "::" + (*i).name()); writer.writeEndElement(); // } writer.writeStartElement(CXXENUMERATORPROTOTYPE); writer.writeCharacters((*i).name()); writer.writeEndElement(); // writer.writeStartElement(CXXENUMERATORNAMELOOKUP); writer.writeCharacters(en->parent()->name() + "::" + (*i).name()); writer.writeEndElement(); // if (!(*i).value().isEmpty()) { writer.writeStartElement(CXXENUMERATORINITIALISER); writer.writeAttribute("value", (*i).value()); writer.writeEndElement(); // } if (!(*i).text().isEmpty()) { writer.writeStartElement(APIDESC); generateText((*i).text(), en, marker); writer.writeEndElement(); // } writer.writeEndElement(); // ++i; } writer.writeEndElement(); // } writeLocation(en); writer.writeEndElement(); // writer.writeStartElement(APIDESC); if (!en->doc().isEmpty()) { generateBody(en, marker); } writer.writeEndElement(); // writer.writeEndElement(); // writer.writeEndElement(); // } ++m; } } void DitaXmlGenerator::writeTypedefs(const Section& s, const ClassNode* cn, CodeMarker* marker) { NodeList::ConstIterator m = s.members.begin(); while (m != s.members.end()) { if ((*m)->type() == Node::Typedef) { const TypedefNode* tn = static_cast(*m); writer.writeStartElement(CXXTYPEDEF); writer.writeAttribute("id",tn->guid()); writer.writeStartElement(APINAME); writer.writeCharacters(tn->name()); writer.writeEndElement(); // generateBrief(tn,marker); writer.writeStartElement(CXXTYPEDEFDETAIL); writer.writeStartElement(CXXTYPEDEFDEFINITION); writer.writeStartElement(CXXTYPEDEFACCESSSPECIFIER); writer.writeAttribute("value",tn->accessString()); writer.writeEndElement(); // QString fq = fullQualification(tn); if (!fq.isEmpty()) { writer.writeStartElement(CXXTYPEDEFSCOPEDNAME); writer.writeCharacters(fq); writer.writeEndElement(); // } writer.writeStartElement(CXXTYPEDEFNAMELOOKUP); writer.writeCharacters(tn->parent()->name() + "::" + tn->name()); writer.writeEndElement(); // writeLocation(tn); writer.writeEndElement(); // writer.writeStartElement(APIDESC); if (!tn->doc().isEmpty()) { generateBody(tn, marker); } writer.writeEndElement(); // writer.writeEndElement(); // writer.writeEndElement(); // } ++m; } } void DitaXmlGenerator::writeProperties(const Section& s, const ClassNode* cn, CodeMarker* marker) { NodeList::ConstIterator m = s.members.begin(); while (m != s.members.end()) { if ((*m)->type() == Node::Property) { const PropertyNode* pn = static_cast(*m); writer.writeStartElement(CXXVARIABLE); writer.writeAttribute("id",pn->guid()); writer.writeStartElement(APINAME); writer.writeCharacters(pn->name()); writer.writeEndElement(); // generateBrief(pn,marker); writer.writeStartElement(CXXVARIABLEDETAIL); writer.writeStartElement(CXXVARIABLEDEFINITION); writer.writeStartElement(CXXVARIABLEACCESSSPECIFIER); writer.writeAttribute("value",pn->accessString()); writer.writeEndElement(); // if (!pn->qualifiedDataType().isEmpty()) { writer.writeStartElement(CXXVARIABLEDECLAREDTYPE); writer.writeCharacters(pn->qualifiedDataType()); writer.writeEndElement(); // } QString fq = fullQualification(pn); if (!fq.isEmpty()) { writer.writeStartElement(CXXVARIABLESCOPEDNAME); writer.writeCharacters(fq); writer.writeEndElement(); // } writer.writeStartElement(CXXVARIABLEPROTOTYPE); writer.writeCharacters("Q_PROPERTY("); writer.writeCharacters(pn->qualifiedDataType()); writer.writeCharacters(" "); writer.writeCharacters(pn->name()); writePropParams("READ",pn->getters()); writePropParams("WRITE",pn->setters()); writePropParams("RESET",pn->resetters()); writePropParams("NOTIFY",pn->notifiers()); if (pn->isDesignable() != pn->designableDefault()) { writer.writeCharacters(" DESIGNABLE "); if (!pn->runtimeDesignabilityFunction().isEmpty()) writer.writeCharacters(pn->runtimeDesignabilityFunction()); else writer.writeCharacters(pn->isDesignable() ? "true" : "false"); } if (pn->isScriptable() != pn->scriptableDefault()) { writer.writeCharacters(" SCRIPTABLE "); if (!pn->runtimeScriptabilityFunction().isEmpty()) writer.writeCharacters(pn->runtimeScriptabilityFunction()); else writer.writeCharacters(pn->isScriptable() ? "true" : "false"); } if (pn->isWritable() != pn->writableDefault()) { writer.writeCharacters(" STORED "); writer.writeCharacters(pn->isStored() ? "true" : "false"); } if (pn->isUser() != pn->userDefault()) { writer.writeCharacters(" USER "); writer.writeCharacters(pn->isUser() ? "true" : "false"); } if (pn->isConstant()) writer.writeCharacters(" CONSTANT"); if (pn->isFinal()) writer.writeCharacters(" FINAL"); writer.writeCharacters(")"); writer.writeEndElement(); // writer.writeStartElement(CXXVARIABLENAMELOOKUP); writer.writeCharacters(pn->parent()->name() + "::" + pn->name()); writer.writeEndElement(); // if (pn->overriddenFrom() != 0) { PropertyNode* opn = (PropertyNode*)pn->overriddenFrom(); writer.writeStartElement(CXXVARIABLEREIMPLEMENTED); writer.writeAttribute("href",opn->ditaXmlHref()); writer.writeCharacters(marker->plainFullName(opn)); writer.writeEndElement(); // } writeLocation(pn); writer.writeEndElement(); // writer.writeStartElement(APIDESC); if (!pn->doc().isEmpty()) { generateBody(pn, marker); } writer.writeEndElement(); // writer.writeEndElement(); // writer.writeEndElement(); // } ++m; } } void DitaXmlGenerator::writeDataMembers(const Section& s, const ClassNode* cn, CodeMarker* marker) { NodeList::ConstIterator m = s.members.begin(); while (m != s.members.end()) { if ((*m)->type() == Node::Variable) { const VariableNode* vn = static_cast(*m); writer.writeStartElement(CXXVARIABLE); writer.writeAttribute("id",vn->guid()); writer.writeStartElement(APINAME); writer.writeCharacters(vn->name()); writer.writeEndElement(); // generateBrief(vn,marker); writer.writeStartElement(CXXVARIABLEDETAIL); writer.writeStartElement(CXXVARIABLEDEFINITION); writer.writeStartElement(CXXVARIABLEACCESSSPECIFIER); writer.writeAttribute("value",vn->accessString()); writer.writeEndElement(); // if (vn->isStatic()) { writer.writeStartElement(CXXVARIABLESTORAGECLASSSPECIFIERSTATIC); writer.writeAttribute("name","static"); writer.writeAttribute("value","static"); writer.writeEndElement(); // } writer.writeStartElement(CXXVARIABLEDECLAREDTYPE); writer.writeCharacters(vn->leftType()); if (!vn->rightType().isEmpty()) writer.writeCharacters(vn->rightType()); writer.writeEndElement(); // QString fq = fullQualification(vn); if (!fq.isEmpty()) { writer.writeStartElement(CXXVARIABLESCOPEDNAME); writer.writeCharacters(fq); writer.writeEndElement(); // } writer.writeStartElement(CXXVARIABLEPROTOTYPE); writer.writeCharacters(vn->leftType() + " "); //writer.writeCharacters(vn->parent()->name() + "::" + vn->name()); writer.writeCharacters(vn->name()); if (!vn->rightType().isEmpty()) writer.writeCharacters(vn->rightType()); writer.writeEndElement(); // writer.writeStartElement(CXXVARIABLENAMELOOKUP); writer.writeCharacters(vn->parent()->name() + "::" + vn->name()); writer.writeEndElement(); // writeLocation(vn); writer.writeEndElement(); // writer.writeStartElement(APIDESC); if (!vn->doc().isEmpty()) { generateBody(vn, marker); } writer.writeEndElement(); // writer.writeEndElement(); // writer.writeEndElement(); // } ++m; } } void DitaXmlGenerator::writeMacros(const Section& s, const ClassNode* cn, CodeMarker* marker) { NodeList::ConstIterator m = s.members.begin(); while (m != s.members.end()) { if ((*m)->type() == Node::Function) { const FunctionNode* fn = static_cast(*m); if (fn->isMacro()) { writer.writeStartElement(CXXDEFINE); writer.writeAttribute("id",fn->guid()); writer.writeStartElement(APINAME); writer.writeCharacters(fn->name()); writer.writeEndElement(); // generateBrief(fn,marker); writer.writeStartElement(CXXDEFINEDETAIL); writer.writeStartElement(CXXDEFINEDEFINITION); writer.writeStartElement(CXXDEFINEACCESSSPECIFIER); writer.writeAttribute("value",fn->accessString()); writer.writeEndElement(); // writer.writeStartElement(CXXDEFINEPROTOTYPE); writer.writeCharacters("#define "); writer.writeCharacters(fn->name()); if (fn->metaness() == FunctionNode::MacroWithParams) { QStringList params = fn->parameterNames(); if (!params.isEmpty()) { writer.writeCharacters("("); for (int i = 0; i < params.size(); ++i) { if (params[i].isEmpty()) writer.writeCharacters("..."); else writer.writeCharacters(params[i]); if ((i+1) < params.size()) writer.writeCharacters(", "); } writer.writeCharacters(")"); } } writer.writeEndElement(); // writer.writeStartElement(CXXDEFINENAMELOOKUP); writer.writeCharacters(fn->name()); writer.writeEndElement(); // if (fn->reimplementedFrom() != 0) { FunctionNode* rfn = (FunctionNode*)fn->reimplementedFrom(); writer.writeStartElement(CXXDEFINEREIMPLEMENTED); writer.writeAttribute("href",rfn->ditaXmlHref()); writer.writeCharacters(marker->plainFullName(rfn)); writer.writeEndElement(); // } if (fn->metaness() == FunctionNode::MacroWithParams) { QStringList params = fn->parameterNames(); if (!params.isEmpty()) { writer.writeStartElement(CXXDEFINEPARAMETERS); for (int i = 0; i < params.size(); ++i) { writer.writeStartElement(CXXDEFINEPARAMETER); writer.writeStartElement(CXXDEFINEPARAMETERDECLARATIONNAME); writer.writeCharacters(params[i]); writer.writeEndElement(); // writer.writeEndElement(); // } writer.writeEndElement(); // } } writeLocation(fn); writer.writeEndElement(); // writer.writeStartElement(APIDESC); if (!fn->doc().isEmpty()) { generateBody(fn, marker); } writer.writeEndElement(); // writer.writeEndElement(); // writer.writeEndElement(); // } } ++m; } } void DitaXmlGenerator::writePropParams(const QString& tag, const NodeList& nlist) { NodeList::const_iterator n = nlist.begin(); while (n != nlist.end()) { writer.writeCharacters(" "); writer.writeCharacters(tag); writer.writeCharacters(" "); writer.writeCharacters((*n)->name()); ++n; } } QT_END_NAMESPACE

" << protectEnc((*s).name) << "

" << protectEnc(name) << "

Additional Inherited Members

" << "Detailed Description" << "

" << protectEnc((*s).name) << "

class "; generateFullName(*m, inner, marker); out() << "

Namespaces

Classes

" << protectEnc((*s).name) << "

" << "Detailed Description" << "

" << protectEnc((*s).name) << "

" << protectEnc((*s).name) << "

" << "Detailed Description" << "

" << protectEnc((*s).name) << "

" << protectEnc(title) << "

Contents

" << protectEnc(sections.at(i).name) << "

" << protectEnc(sections.at(i).name) << "

%2

Miscellaneous

"; out() << ""; generateSynopsis(enume, relative, marker, CodeMarker::Detailed); out() << ""; generateSynopsis(enume->flagsType(), relative, marker, CodeMarker::Detailed); out() << "

"; out() << ""; generateSynopsis(node, relative, marker, CodeMarker::Detailed); out() << "

"; out() << ""; generateSynopsis(enume, relative, marker, CodeMarker::Detailed); out() << "
"; generateSynopsis(enume->flagsType(), relative, marker, CodeMarker::Detailed); out() << "