/**************************************************************************** ** ** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the tools applications of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** GNU Lesser General Public License Usage ** This file may be used under the terms of the GNU Lesser General Public ** License version 2.1 as published by the Free Software Foundation and ** appearing in the file LICENSE.LGPL included in the packaging of this ** file. Please review the following information to ensure the GNU Lesser ** General Public License version 2.1 requirements will be met: ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU General ** Public License version 3.0 as published by the Free Software Foundation ** and appearing in the file LICENSE.GPL included in the packaging of this ** file. Please review the following information to ensure the GNU General ** Public License version 3.0 requirements will be met: ** http://www.gnu.org/copyleft/gpl.html. ** ** Other Usage ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ /* generator.cpp */ #include #ifdef DEBUG_MULTIPLE_QDOCCONF_FILES #include #endif #include "codemarker.h" #include "config.h" #include "doc.h" #include "editdistance.h" #include "generator.h" #include "node.h" #include "openedlist.h" #include "quoter.h" #include "separator.h" #include "tokenizer.h" #include "ditaxmlgenerator.h" QT_BEGIN_NAMESPACE QList Generator::generators; QMap > Generator::fmtLeftMaps; QMap > Generator::fmtRightMaps; QMap Generator::imgFileExts; QSet Generator::outputFormats; QStringList Generator::imageFiles; QStringList Generator::imageDirs; QStringList Generator::exampleDirs; QStringList Generator::exampleImgExts; QStringList Generator::scriptFiles; QStringList Generator::scriptDirs; QStringList Generator::styleFiles; QStringList Generator::styleDirs; QString Generator::outDir; QString Generator::project; QHash Generator::outputPrefixes; static void singularPlural(Text& text, const NodeList& nodes) { if (nodes.count() == 1) text << " is"; else text << " are"; } Generator::Generator() : amp("&"), lt("<"), gt(">"), quot("""), tag("]*>") { generators.prepend(this); } Generator::~Generator() { generators.removeAll(this); } void Generator::initializeGenerator(const Config & /* config */) { } void Generator::terminateGenerator() { } void Generator::initialize(const Config &config) { outputFormats = config.getStringSet(CONFIG_OUTPUTFORMATS); if (!outputFormats.isEmpty()) { outDir = config.getString(CONFIG_OUTPUTDIR); if (outDir.isEmpty()) config.lastLocation().fatal(tr("No output directory specified in configuration file")); QDir dirInfo; if (dirInfo.exists(outDir)) { if (!Config::removeDirContents(outDir)) config.lastLocation().error(tr("Cannot empty output directory '%1'").arg(outDir)); } else { if (!dirInfo.mkpath(outDir)) config.lastLocation().fatal(tr("Cannot create output directory '%1'").arg(outDir)); } if (!dirInfo.mkdir(outDir + "/images")) config.lastLocation().fatal(tr("Cannot create output directory '%1'") .arg(outDir + "/images")); if (!dirInfo.mkdir(outDir + "/images/used-in-examples")) config.lastLocation().fatal(tr("Cannot create output directory '%1'") .arg(outDir + "/images/used-in-examples")); if (!dirInfo.mkdir(outDir + "/scripts")) config.lastLocation().fatal(tr("Cannot create output directory '%1'") .arg(outDir + "/scripts")); if (!dirInfo.mkdir(outDir + "/style")) config.lastLocation().fatal(tr("Cannot create output directory '%1'") .arg(outDir + "/style")); } imageFiles = config.getStringList(CONFIG_IMAGES); imageDirs = config.getStringList(CONFIG_IMAGEDIRS); scriptFiles = config.getStringList(CONFIG_SCRIPTS); scriptDirs = config.getStringList(CONFIG_SCRIPTDIRS); styleFiles = config.getStringList(CONFIG_STYLES); styleDirs = config.getStringList(CONFIG_STYLEDIRS); exampleDirs = config.getStringList(CONFIG_EXAMPLEDIRS); exampleImgExts = config.getStringList(CONFIG_EXAMPLES + Config::dot + CONFIG_IMAGEEXTENSIONS); QString imagesDotFileExtensions = CONFIG_IMAGES + Config::dot + CONFIG_FILEEXTENSIONS; QSet formats = config.subVars(imagesDotFileExtensions); QSet::ConstIterator f = formats.begin(); while (f != formats.end()) { imgFileExts[*f] = config.getStringList(imagesDotFileExtensions + Config::dot + *f); ++f; } QList::ConstIterator g = generators.begin(); while (g != generators.end()) { if (outputFormats.contains((*g)->format())) { (*g)->initializeGenerator(config); QStringList extraImages = config.getStringList(CONFIG_EXTRAIMAGES+Config::dot+(*g)->format()); QStringList::ConstIterator e = extraImages.begin(); while (e != extraImages.end()) { QString userFriendlyFilePath; QString filePath = Config::findFile(config.lastLocation(), imageFiles, imageDirs, *e, imgFileExts[(*g)->format()], userFriendlyFilePath); if (!filePath.isEmpty()) Config::copyFile(config.lastLocation(), filePath, userFriendlyFilePath, (*g)->outputDir() + "/images"); ++e; } // Documentation template handling QString templateDir = config.getString( (*g)->format() + Config::dot + CONFIG_TEMPLATEDIR); if (!templateDir.isEmpty()) { QStringList noExts; QStringList searchDirs = QStringList() << templateDir; QStringList scripts = config.getStringList((*g)->format()+Config::dot+CONFIG_SCRIPTS); e = scripts.begin(); while (e != scripts.end()) { QString userFriendlyFilePath; QString filePath = Config::findFile(config.lastLocation(), scriptFiles, searchDirs, *e, noExts, userFriendlyFilePath); if (!filePath.isEmpty()) Config::copyFile(config.lastLocation(), filePath, userFriendlyFilePath, (*g)->outputDir() + "/scripts"); ++e; } QStringList styles = config.getStringList((*g)->format()+Config::dot+CONFIG_STYLESHEETS); e = styles.begin(); while (e != styles.end()) { QString userFriendlyFilePath; QString filePath = Config::findFile(config.lastLocation(), styleFiles, searchDirs, *e, noExts, userFriendlyFilePath); if (!filePath.isEmpty()) Config::copyFile(config.lastLocation(), filePath, userFriendlyFilePath, (*g)->outputDir() + "/style"); ++e; } } } ++g; } QRegExp secondParamAndAbove("[\2-\7]"); QSet formattingNames = config.subVars(CONFIG_FORMATTING); QSet::ConstIterator n = formattingNames.begin(); while (n != formattingNames.end()) { QString formattingDotName = CONFIG_FORMATTING + Config::dot + *n; QSet formats = config.subVars(formattingDotName); QSet::ConstIterator f = formats.begin(); while (f != formats.end()) { QString def = config.getString(formattingDotName + Config::dot + *f); if (!def.isEmpty()) { int numParams = Config::numParams(def); int numOccs = def.count("\1"); if (numParams != 1) { config.lastLocation().warning(tr("Formatting '%1' must " "have exactly one " "parameter (found %2)") .arg(*n).arg(numParams)); } else if (numOccs > 1) { config.lastLocation().fatal(tr("Formatting '%1' must " "contain exactly one " "occurrence of '\\1' " "(found %2)") .arg(*n).arg(numOccs)); } else { int paramPos = def.indexOf("\1"); fmtLeftMaps[*f].insert(*n, def.left(paramPos)); fmtRightMaps[*f].insert(*n, def.mid(paramPos + 1)); } } ++f; } ++n; } project = config.getString(CONFIG_PROJECT); QStringList prefixes = config.getStringList(CONFIG_OUTPUTPREFIXES); if (!prefixes.isEmpty()) { foreach (QString prefix, prefixes) outputPrefixes[prefix] = config.getString( CONFIG_OUTPUTPREFIXES + Config::dot + prefix); } else outputPrefixes[QLatin1String("QML")] = QLatin1String("qml-"); } void Generator::terminate() { QList::ConstIterator g = generators.begin(); while (g != generators.end()) { if (outputFormats.contains((*g)->format())) (*g)->terminateGenerator(); ++g; } fmtLeftMaps.clear(); fmtRightMaps.clear(); imgFileExts.clear(); imageFiles.clear(); imageDirs.clear(); outDir = ""; QmlClassNode::clear(); } Generator *Generator::generatorForFormat(const QString& format) { QList::ConstIterator g = generators.begin(); while (g != generators.end()) { if ((*g)->format() == format) return *g; ++g; } return 0; } void Generator::startText(const Node * /* relative */, CodeMarker * /* marker */) { } void Generator::endText(const Node * /* relative */, CodeMarker * /* marker */) { } int Generator::generateAtom(const Atom * /* atom */, const Node * /* relative */, CodeMarker * /* marker */) { return 0; } void Generator::generateClassLikeNode(const InnerNode * /* classe */, CodeMarker * /* marker */) { } void Generator::generateFakeNode(const FakeNode * /* fake */, CodeMarker * /* marker */) { } bool Generator::generateText(const Text& text, const Node *relative, CodeMarker *marker) { bool result = false; if (text.firstAtom() != 0) { int numAtoms = 0; startText(relative, marker); generateAtomList(text.firstAtom(), relative, marker, true, numAtoms); endText(relative, marker); result = true; } return result; } #ifdef QDOC_QML /*! Extract sections of markup text surrounded by \e qmltext and \e endqmltext and output them. */ bool Generator::generateQmlText(const Text& text, const Node *relative, CodeMarker *marker, const QString& /* qmlName */ ) { const Atom* atom = text.firstAtom(); bool result = false; if (atom != 0) { startText(relative, marker); while (atom) { if (atom->type() != Atom::QmlText) atom = atom->next(); else { atom = atom->next(); while (atom && (atom->type() != Atom::EndQmlText)) { int n = 1 + generateAtom(atom, relative, marker); while (n-- > 0) atom = atom->next(); } } } endText(relative, marker); result = true; } return result; } #endif void Generator::generateBody(const Node *node, CodeMarker *marker) { bool quiet = false; if (node->type() == Node::Fake) { const FakeNode *fake = static_cast(node); if (fake->subType() == Node::Example) { generateExampleFiles(fake, marker); } else if ((fake->subType() == Node::File) || (fake->subType() == Node::Image)) { quiet = true; } } if (node->doc().isEmpty()) { if (!quiet && !node->isReimp()) { // ### might be unnecessary node->location().warning(tr("No documentation for '%1'") .arg(marker->plainFullName(node))); } } else { if (node->type() == Node::Function) { const FunctionNode *func = static_cast(node); if (func->reimplementedFrom() != 0) generateReimplementedFrom(func, marker); } if (!generateText(node->doc().body(), node, marker)) { if (node->isReimp()) return; } if (node->type() == Node::Enum) { const EnumNode *enume = (const EnumNode *) node; QSet definedItems; QList::ConstIterator it = enume->items().begin(); while (it != enume->items().end()) { definedItems.insert((*it).name()); ++it; } QSet documentedItems = enume->doc().enumItemNames().toSet(); QSet allItems = definedItems + documentedItems; if (allItems.count() > definedItems.count() || allItems.count() > documentedItems.count()) { QSet::ConstIterator a = allItems.begin(); while (a != allItems.end()) { if (!definedItems.contains(*a)) { QString details; QString best = nearestName(*a, definedItems); if (!best.isEmpty() && !documentedItems.contains(best)) details = tr("Maybe you meant '%1'?").arg(best); node->doc().location().warning( tr("No such enum item '%1' in %2").arg(*a).arg(marker->plainFullName(node)), details); } else if (!documentedItems.contains(*a)) { node->doc().location().warning( tr("Undocumented enum item '%1' in %2").arg(*a).arg(marker->plainFullName(node))); } ++a; } } } else if (node->type() == Node::Function) { const FunctionNode *func = static_cast(node); QSet definedParams; QList::ConstIterator p = func->parameters().begin(); while (p != func->parameters().end()) { if ((*p).name().isEmpty() && (*p).leftType() != QLatin1String("...") && func->name() != QLatin1String("operator++") && func->name() != QLatin1String("operator--")) { node->doc().location().warning(tr("Missing parameter name")); } else { definedParams.insert((*p).name()); } ++p; } QSet documentedParams = func->doc().parameterNames(); QSet allParams = definedParams + documentedParams; if (allParams.count() > definedParams.count() || allParams.count() > documentedParams.count()) { QSet::ConstIterator a = allParams.begin(); while (a != allParams.end()) { if (!definedParams.contains(*a)) { QString details; QString best = nearestName(*a, definedParams); if (!best.isEmpty()) details = tr("Maybe you meant '%1'?").arg(best); node->doc().location().warning( tr("No such parameter '%1' in %2").arg(*a).arg(marker->plainFullName(node)), details); } else if (!(*a).isEmpty() && !documentedParams.contains(*a)) { bool needWarning = (func->status() > Node::Obsolete); if (func->overloadNumber() > 1) { FunctionNode *primaryFunc = func->parent()->findFunctionNode(func->name()); if (primaryFunc) { foreach (const Parameter ¶m, primaryFunc->parameters()) { if (param.name() == *a) { needWarning = false; break; } } } } if (needWarning && !func->isReimp()) node->doc().location().warning( tr("Undocumented parameter '%1' in %2") .arg(*a).arg(marker->plainFullName(node))); } ++a; } } /* Something like this return value check should be implemented at some point. */ if (func->status() > Node::Obsolete && func->returnType() == "bool" && func->reimplementedFrom() == 0 && !func->isOverload()) { QString body = func->doc().body().toString(); if (!body.contains("return", Qt::CaseInsensitive)) node->doc().location().warning(tr("Undocumented return value")); } } } if (node->type() == Node::Fake) { const FakeNode *fake = static_cast(node); if (fake->subType() == Node::File) { Text text; Quoter quoter; Doc::quoteFromFile(fake->doc().location(), quoter, fake->name()); QString code = quoter.quoteTo(fake->location(), "", ""); CodeMarker *codeMarker = CodeMarker::markerForFileName(fake->name()); text << Atom(codeMarker->atomType(), code); generateText(text, fake, codeMarker); } } } void Generator::generateAlsoList(const Node *node, CodeMarker *marker) { QList alsoList = node->doc().alsoList(); supplementAlsoList(node, alsoList); if (!alsoList.isEmpty()) { Text text; text << Atom::ParaLeft << Atom(Atom::FormattingLeft,ATOM_FORMATTING_BOLD) << "See also " << Atom(Atom::FormattingRight,ATOM_FORMATTING_BOLD); for (int i = 0; i < alsoList.size(); ++i) text << alsoList.at(i) << separator(i, alsoList.size()); text << Atom::ParaRight; generateText(text, node, marker); } } /*! Generate a list of maintainers in the output */ void Generator::generateMaintainerList(const InnerNode* node, CodeMarker* marker) { QStringList sl = getMetadataElements(node,"maintainer"); if (!sl.isEmpty()) { Text text; text << Atom::ParaLeft << Atom(Atom::FormattingLeft,ATOM_FORMATTING_BOLD) << "Maintained by: " << Atom(Atom::FormattingRight,ATOM_FORMATTING_BOLD); for (int i = 0; i < sl.size(); ++i) text << sl.at(i) << separator(i, sl.size()); text << Atom::ParaRight; generateText(text, node, marker); } } void Generator::generateInherits(const ClassNode *classe, CodeMarker *marker) { QList::ConstIterator r; int index; if (!classe->baseClasses().isEmpty()) { Text text; text << Atom::ParaLeft << Atom(Atom::FormattingLeft,ATOM_FORMATTING_BOLD) << "Inherits: " << Atom(Atom::FormattingRight,ATOM_FORMATTING_BOLD); r = classe->baseClasses().begin(); index = 0; while (r != classe->baseClasses().end()) { text << Atom(Atom::LinkNode, CodeMarker::stringForNode((*r).node)) << Atom(Atom::FormattingLeft, ATOM_FORMATTING_LINK) << Atom(Atom::String, (*r).dataTypeWithTemplateArgs) << Atom(Atom::FormattingRight, ATOM_FORMATTING_LINK); if ((*r).access == Node::Protected) { text << " (protected)"; } else if ((*r).access == Node::Private) { text << " (private)"; } text << separator(index++, classe->baseClasses().count()); ++r; } text << Atom::ParaRight; generateText(text, classe, marker); } } #ifdef QDOC_QML /*! */ void Generator::generateQmlInherits(const QmlClassNode* , CodeMarker* ) { // stub. } #endif void Generator::generateInheritedBy(const ClassNode *classe, CodeMarker *marker) { if (!classe->derivedClasses().isEmpty()) { Text text; text << Atom::ParaLeft << Atom(Atom::FormattingLeft,ATOM_FORMATTING_BOLD) << "Inherited by: " << Atom(Atom::FormattingRight,ATOM_FORMATTING_BOLD); appendSortedNames(text, classe, classe->derivedClasses(), marker); text << Atom::ParaRight; generateText(text, classe, marker); } } /*! This function is called when the documentation for an example is being formatted. It outputs the list of source files comprising the example, and the list of images used by the example. The images are copied into a subtree of \c{...doc/html/images/used-in-examples/...} */ void Generator::generateFileList(const FakeNode* fake, CodeMarker* marker, Node::SubType subtype, const QString& tag) { int count = 0; Text text; OpenedList openedList(OpenedList::Bullet); text << Atom::ParaLeft << tag << Atom::ParaRight << Atom(Atom::ListLeft, openedList.styleString()); foreach (const Node* child, fake->childNodes()) { if (child->subType() == subtype) { ++count; QString file = child->name(); if (subtype == Node::Image) { if (!file.isEmpty()) { QDir dirInfo; QString userFriendlyFilePath; QString srcPath = Config::findFile(fake->location(), QStringList(), exampleDirs, file, exampleImgExts, userFriendlyFilePath); userFriendlyFilePath.truncate(userFriendlyFilePath.lastIndexOf('/')); QString imgOutDir = outDir + "/images/used-in-examples/" + userFriendlyFilePath; if (!dirInfo.mkpath(imgOutDir)) fake->location().fatal(tr("Cannot create output directory '%1'") .arg(imgOutDir)); QString imgOutName = Config::copyFile(fake->location(), srcPath, file, imgOutDir); } } openedList.next(); text << Atom(Atom::ListItemNumber, openedList.numberString()) << Atom(Atom::ListItemLeft, openedList.styleString()) << Atom::ParaLeft << Atom(Atom::Link, file) << Atom(Atom::FormattingLeft, ATOM_FORMATTING_LINK) << file << Atom(Atom::FormattingRight, ATOM_FORMATTING_LINK) << Atom::ParaRight << Atom(Atom::ListItemRight, openedList.styleString()); } } text << Atom(Atom::ListRight, openedList.styleString()); if (count > 0) generateText(text, fake, marker); } void Generator::generateExampleFiles(const FakeNode *fake, CodeMarker *marker) { if (fake->childNodes().isEmpty()) return; generateFileList(fake, marker, Node::File, QString("Files:")); generateFileList(fake, marker, Node::Image, QString("Images:")); } QString Generator::indent(int level, const QString& markedCode) { if (level == 0) return markedCode; QString t; int column = 0; int i = 0; while (i < (int) markedCode.length()) { if (markedCode.at(i) == QLatin1Char('\n')) { column = 0; } else { if (column == 0) { for (int j = 0; j < level; j++) t += QLatin1Char(' '); } column++; } t += markedCode.at(i++); } return t; } QString Generator::plainCode(const QString& markedCode) { QString t = markedCode; t.replace(tag, QString()); t.replace(quot, QLatin1String("\"")); t.replace(gt, QLatin1String(">")); t.replace(lt, QLatin1String("<")); t.replace(amp, QLatin1String("&")); return t; } QString Generator::typeString(const Node *node) { switch (node->type()) { case Node::Namespace: return "namespace"; case Node::Class: return "class"; case Node::Fake: default: return "documentation"; case Node::Enum: return "enum"; case Node::Typedef: return "typedef"; case Node::Function: return "function"; case Node::Property: return "property"; } } QString Generator::imageFileName(const Node *relative, const QString& fileBase) { QString userFriendlyFilePath; QString filePath = Config::findFile( relative->doc().location(), imageFiles, imageDirs, fileBase, imgFileExts[format()], userFriendlyFilePath); if (filePath.isEmpty()) return QString(); return QLatin1String("images/") + Config::copyFile(relative->doc().location(), filePath, userFriendlyFilePath, outputDir() + QLatin1String("/images")); } void Generator::setImageFileExtensions(const QStringList& extensions) { imgFileExts[format()] = extensions; } void Generator::unknownAtom(const Atom *atom) { Location::internalError(tr("unknown atom type '%1' in %2 generator") .arg(atom->typeString()).arg(format())); } bool Generator::matchAhead(const Atom *atom, Atom::Type expectedAtomType) { return atom->next() != 0 && atom->next()->type() == expectedAtomType; } void Generator::supplementAlsoList(const Node *node, QList &alsoList) { if (node->type() == Node::Function) { const FunctionNode *func = static_cast(node); if (func->overloadNumber() == 1) { QString alternateName; const FunctionNode *alternateFunc = 0; if (func->name().startsWith("set") && func->name().size() >= 4) { alternateName = func->name()[3].toLower(); alternateName += func->name().mid(4); alternateFunc = func->parent()->findFunctionNode(alternateName); if (!alternateFunc) { alternateName = "is" + func->name().mid(3); alternateFunc = func->parent()->findFunctionNode(alternateName); if (!alternateFunc) { alternateName = "has" + func->name().mid(3); alternateFunc = func->parent()->findFunctionNode(alternateName); } } } else if (!func->name().isEmpty()) { alternateName = "set"; alternateName += func->name()[0].toUpper(); alternateName += func->name().mid(1); alternateFunc = func->parent()->findFunctionNode(alternateName); } if (alternateFunc && alternateFunc->access() != Node::Private) { int i; for (i = 0; i < alsoList.size(); ++i) { if (alsoList.at(i).toString().contains(alternateName)) break; } if (i == alsoList.size()) { alternateName += "()"; Text also; also << Atom(Atom::Link, alternateName) << Atom(Atom::FormattingLeft, ATOM_FORMATTING_LINK) << alternateName << Atom(Atom::FormattingRight, ATOM_FORMATTING_LINK); alsoList.prepend(also); } } } } } QMap& Generator::formattingLeftMap() { return fmtLeftMaps[format()]; } QMap& Generator::formattingRightMap() { return fmtRightMaps[format()]; } /* Trims trailimng whitespace off the \a string and returns the trimmed string. */ QString Generator::trimmedTrailing(const QString& string) { QString trimmed = string; while (trimmed.length() > 0 && trimmed[trimmed.length() - 1].isSpace()) trimmed.truncate(trimmed.length() - 1); return trimmed; } void Generator::generateStatus(const Node *node, CodeMarker *marker) { Text text; switch (node->status()) { case Node::Commendable: case Node::Main: break; case Node::Preliminary: text << Atom::ParaLeft << Atom(Atom::FormattingLeft, ATOM_FORMATTING_BOLD) << "This " << typeString(node) << " is under development and is subject to change." << Atom(Atom::FormattingRight, ATOM_FORMATTING_BOLD) << Atom::ParaRight; break; case Node::Deprecated: text << Atom::ParaLeft; if (node->isInnerNode()) text << Atom(Atom::FormattingLeft, ATOM_FORMATTING_BOLD); text << "This " << typeString(node) << " is deprecated."; if (node->isInnerNode()) text << Atom(Atom::FormattingRight, ATOM_FORMATTING_BOLD); text << Atom::ParaRight; break; case Node::Obsolete: text << Atom::ParaLeft; if (node->isInnerNode()) text << Atom(Atom::FormattingLeft, ATOM_FORMATTING_BOLD); text << "This " << typeString(node) << " is obsolete."; if (node->isInnerNode()) text << Atom(Atom::FormattingRight, ATOM_FORMATTING_BOLD); text << " It is provided to keep old source code working. " << "We strongly advise against " << "using it in new code." << Atom::ParaRight; break; case Node::Compat: // reimplemented in HtmlGenerator subclass if (node->isInnerNode()) { text << Atom::ParaLeft << Atom(Atom::FormattingLeft, ATOM_FORMATTING_BOLD) << "This " << typeString(node) << " is part of the Qt 3 compatibility layer." << 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 " << Atom(Atom::AutoLink, "Porting to Qt 4") << " for more information." << Atom::ParaRight; } break; case Node::Internal: default: break; } generateText(text, node, marker); } void Generator::generateThreadSafeness(const Node *node, CodeMarker *marker) { Text text; Text theStockLink; Node::ThreadSafeness threadSafeness = node->threadSafeness(); Text rlink; rlink << Atom(Atom::Link,"reentrant") << Atom(Atom::FormattingLeft, ATOM_FORMATTING_LINK) << "reentrant" << Atom(Atom::FormattingRight, ATOM_FORMATTING_LINK); Text tlink; tlink << Atom(Atom::Link,"thread-safe") << Atom(Atom::FormattingLeft, ATOM_FORMATTING_LINK) << "thread-safe" << Atom(Atom::FormattingRight, ATOM_FORMATTING_LINK); switch (threadSafeness) { case Node::UnspecifiedSafeness: break; case Node::NonReentrant: text << Atom::ParaLeft << Atom(Atom::FormattingLeft,ATOM_FORMATTING_BOLD) << "Warning:" << Atom(Atom::FormattingRight,ATOM_FORMATTING_BOLD) << " This " << typeString(node) << " is not " << rlink << "." << Atom::ParaRight; break; case Node::Reentrant: case Node::ThreadSafe: text << Atom::ParaLeft << Atom(Atom::FormattingLeft,ATOM_FORMATTING_BOLD) << "Note:" << Atom(Atom::FormattingRight,ATOM_FORMATTING_BOLD) << " "; if (node->isInnerNode()) { const InnerNode* innerNode = static_cast(node); text << "All functions in this " << typeString(node) << " are "; if (threadSafeness == Node::ThreadSafe) text << tlink; else text << rlink; bool exceptions = false; NodeList reentrant; NodeList threadsafe; NodeList nonreentrant; NodeList::ConstIterator c = innerNode->childNodes().begin(); while (c != innerNode->childNodes().end()) { if ((*c)->status() != Node::Obsolete){ switch ((*c)->threadSafeness()) { case Node::Reentrant: reentrant.append(*c); if (threadSafeness == Node::ThreadSafe) exceptions = true; break; case Node::ThreadSafe: threadsafe.append(*c); if (threadSafeness == Node::Reentrant) exceptions = true; break; case Node::NonReentrant: nonreentrant.append(*c); exceptions = true; break; default: break; } } ++c; } if (!exceptions) text << "."; else if (threadSafeness == Node::Reentrant) { if (nonreentrant.isEmpty()) { if (!threadsafe.isEmpty()) { text << ", but "; appendFullNames(text,threadsafe,innerNode,marker); singularPlural(text,threadsafe); text << " also " << tlink << "."; } else text << "."; } else { text << ", except for "; appendFullNames(text,nonreentrant,innerNode,marker); text << ", which"; singularPlural(text,nonreentrant); text << " nonreentrant."; if (!threadsafe.isEmpty()) { text << " "; appendFullNames(text,threadsafe,innerNode,marker); singularPlural(text,threadsafe); text << " " << tlink << "."; } } } else { // thread-safe if (!nonreentrant.isEmpty() || !reentrant.isEmpty()) { text << ", except for "; if (!reentrant.isEmpty()) { appendFullNames(text,reentrant,innerNode,marker); text << ", which"; singularPlural(text,reentrant); text << " only " << rlink; if (!nonreentrant.isEmpty()) text << ", and "; } if (!nonreentrant.isEmpty()) { appendFullNames(text,nonreentrant,innerNode,marker); text << ", which"; singularPlural(text,nonreentrant); text << " nonreentrant."; } text << "."; } } } else { text << "This " << typeString(node) << " is "; if (threadSafeness == Node::ThreadSafe) text << tlink; else text << rlink; text << "."; } text << Atom::ParaRight; } generateText(text,node,marker); } void Generator::generateSince(const Node *node, CodeMarker *marker) { if (!node->since().isEmpty()) { Text text; text << Atom::ParaLeft << "This " << typeString(node); if (node->type() == Node::Enum) text << " was introduced or modified in "; else text << " was introduced in "; if (project.isEmpty()) text << "version"; else text << project; text << " " << node->since() << "." << Atom::ParaRight; generateText(text, node, marker); } } void Generator::generateReimplementedFrom(const FunctionNode *func, CodeMarker *marker) { if (func->reimplementedFrom() != 0) { const FunctionNode *from = func->reimplementedFrom(); if (from->access() != Node::Private && from->parent()->access() != Node::Private) { Text text; text << Atom::ParaLeft << "Reimplemented from "; QString fullName = from->parent()->name() + "::" + from->name() + "()"; appendFullName(text, from->parent(), fullName, from); text << "." << Atom::ParaRight; generateText(text, func, marker); } } } const Atom *Generator::generateAtomList(const Atom *atom, const Node *relative, CodeMarker *marker, bool generate, int &numAtoms) { while (atom) { if (atom->type() == Atom::FormatIf) { int numAtoms0 = numAtoms; bool rightFormat = canHandleFormat(atom->string()); atom = generateAtomList(atom->next(), relative, marker, generate && rightFormat, numAtoms); if (!atom) return 0; if (atom->type() == Atom::FormatElse) { ++numAtoms; atom = generateAtomList(atom->next(), relative, marker, generate && !rightFormat, numAtoms); if (!atom) return 0; } if (atom->type() == Atom::FormatEndif) { if (generate && numAtoms0 == numAtoms) { relative->location().warning(tr("Output format %1 not handled %2") .arg(format()).arg(outFileName())); Atom unhandledFormatAtom(Atom::UnhandledFormat, format()); generateAtomList(&unhandledFormatAtom, relative, marker, generate, numAtoms); } atom = atom->next(); } } else if (atom->type() == Atom::FormatElse || atom->type() == Atom::FormatEndif) { return atom; } else { int n = 1; if (generate) { n += generateAtom(atom, relative, marker); numAtoms += n; } while (n-- > 0) atom = atom->next(); } } return 0; } void Generator::appendFullName(Text& text, const Node *apparentNode, const Node *relative, CodeMarker *marker, const Node *actualNode) { if (actualNode == 0) actualNode = apparentNode; text << Atom(Atom::LinkNode, CodeMarker::stringForNode(actualNode)) << Atom(Atom::FormattingLeft, ATOM_FORMATTING_LINK) << Atom(Atom::String, marker->plainFullName(apparentNode, relative)) << Atom(Atom::FormattingRight, ATOM_FORMATTING_LINK); } void Generator::appendFullName(Text& text, const Node *apparentNode, const QString& fullName, const Node *actualNode) { if (actualNode == 0) actualNode = apparentNode; text << Atom(Atom::LinkNode, CodeMarker::stringForNode(actualNode)) << Atom(Atom::FormattingLeft, ATOM_FORMATTING_LINK) << Atom(Atom::String, fullName) << Atom(Atom::FormattingRight, ATOM_FORMATTING_LINK); } void Generator::appendFullNames(Text& text, const NodeList& nodes, const Node* relative, CodeMarker* marker) { NodeList::ConstIterator n = nodes.begin(); int index = 0; while (n != nodes.end()) { appendFullName(text,*n,relative,marker); text << comma(index++,nodes.count()); ++n; } } void Generator::appendSortedNames(Text& text, const ClassNode *classe, const QList &classes, CodeMarker *marker) { QList::ConstIterator r; QMap classMap; int index = 0; r = classes.begin(); while (r != classes.end()) { if ((*r).node->access() == Node::Public && (*r).node->status() != Node::Internal && !(*r).node->doc().isEmpty()) { Text className; appendFullName(className, (*r).node, classe, marker); classMap[className.toString().toLower()] = className; } ++r; } QStringList classNames = classMap.keys(); classNames.sort(); foreach (const QString &className, classNames) { text << classMap[className]; text << separator(index++, classNames.count()); } } void Generator::appendSortedQmlNames(Text& text, const Node* base, const NodeList& subs, CodeMarker *marker) { QMap classMap; int index = 0; #ifdef DEBUG_MULTIPLE_QDOCCONF_FILES qDebug() << "Generator::appendSortedQmlNames():" << base->name() << "is inherited by..."; #endif for (int i = 0; i < subs.size(); ++i) { Text t; #ifdef DEBUG_MULTIPLE_QDOCCONF_FILES qDebug() << " " << subs[i]->name(); #endif appendFullName(t, subs[i], base, marker); classMap[t.toString().toLower()] = t; } QStringList names = classMap.keys(); names.sort(); foreach (const QString &name, names) { text << classMap[name]; text << separator(index++, names.count()); } } int Generator::skipAtoms(const Atom *atom, Atom::Type type) const { int skipAhead = 0; atom = atom->next(); while (atom != 0 && atom->type() != type) { skipAhead++; atom = atom->next(); } return skipAhead; } QString Generator::fullName(const Node *node, const Node *relative, CodeMarker *marker) const { if (node->type() == Node::Fake) return static_cast(node)->title(); else if (node->type() == Node::Class && !(static_cast(node))->serviceName().isEmpty()) return (static_cast(node))->serviceName(); else return marker->plainFullName(node, relative); } QString Generator::outputPrefix(const QString &nodeType) { return outputPrefixes[nodeType]; } /*! Looks up the tag \a t in the map of metadata values for the current topic in \a inner. If a value for the tag is found, the value is returned. \note If \a t is found in the metadata map, it is erased. i.e. Once you call this function for a particular \a t, you consume \a t. */ QString Generator::getMetadataElement(const InnerNode* inner, const QString& t) { QString s; QStringMultiMap& metaTagMap = const_cast(inner->doc().metaTagMap()); QStringMultiMap::iterator i = metaTagMap.find(t); if (i != metaTagMap.end()) { s = i.value(); metaTagMap.erase(i); } return s; } /*! Looks up the tag \a t in the map of metadata values for the current topic in \a inner. If values for the tag are found, they are returned in a string list. \note If \a t is found in the metadata map, all the pairs having the key \a t are erased. i.e. Once you call this function for a particular \a t, you consume \a t. */ QStringList Generator::getMetadataElements(const InnerNode* inner, const QString& t) { QStringList s; QStringMultiMap& metaTagMap = const_cast(inner->doc().metaTagMap()); s = metaTagMap.values(t); if (!s.isEmpty()) metaTagMap.remove(t); return s; } QT_END_NAMESPACE