/**************************************************************************** ** ** Copyright (C) 2009 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. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, 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. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ /* generator.cpp */ #include #include #include #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" QT_BEGIN_NAMESPACE QList Generator::generators; QMap > Generator::fmtLeftMaps; QMap > Generator::fmtRightMaps; QMap Generator::imgFileExts; QSet Generator::outputFormats; QStringList Generator::imageFiles; QStringList Generator::imageDirs; QString Generator::outDir; QString Generator::project; 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")); } imageFiles = config.getStringList(CONFIG_IMAGES); imageDirs = config.getStringList(CONFIG_IMAGEDIRS); 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; } } ++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); } 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 = ""; } 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) { if (text.firstAtom() != 0) { int numAtoms = 0; startText(relative, marker); generateAtomList(text.firstAtom(), relative, marker, true, numAtoms); endText(relative, marker); return true; } return false; } #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(); if (atom == 0) return false; 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); return true; } #endif void Generator::generateBody(const Node *node, CodeMarker *marker) { bool quiet = false; if (node->type() == Node::Function) { #if 0 const FunctionNode *func = (const FunctionNode *) node; if (func->isOverload() && func->metaness() != FunctionNode::Ctor) generateOverload(node, marker); #endif } else 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) 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 0 // Now we put this at the top, before the other text. if (func->reimplementedFrom() != 0) generateReimplementedFrom(func, marker); #endif } } 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(), "", ""); text << Atom(Atom::Code, code); generateText(text, fake, marker); } } } void Generator::generateAlsoList(const Node *node, CodeMarker *marker) { QList alsoList = node->doc().alsoList(); supplementAlsoList(node, alsoList); if (!alsoList.isEmpty()) { Text text; text << Atom::ParaLeft << "See also "; for (int i = 0; i < alsoList.size(); ++i) text << alsoList.at(i) << separator(i, alsoList.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 << "Inherits "; 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 << "Inherited by "; appendSortedNames(text, classe, classe->derivedClasses(), marker); text << Atom::ParaRight; generateText(text, classe, marker); } } void Generator::generateExampleFiles(const FakeNode *fake, CodeMarker *marker) { if (fake->childNodes().isEmpty()) return; OpenedList openedList(OpenedList::Bullet); Text text; text << Atom::ParaLeft << "Files:" << Atom::ParaRight << Atom(Atom::ListLeft, openedList.styleString()); foreach (const Node *child, fake->childNodes()) { QString exampleFile = child->name(); openedList.next(); text << Atom(Atom::ListItemNumber, openedList.numberString()) << Atom(Atom::ListItemLeft, openedList.styleString()) << Atom::ParaLeft << Atom(Atom::Link, exampleFile) << Atom(Atom::FormattingLeft, ATOM_FORMATTING_LINK) << exampleFile << Atom(Atom::FormattingRight, ATOM_FORMATTING_LINK) << Atom::ParaRight << Atom(Atom::ListItemRight, openedList.styleString()); } text << Atom(Atom::ListRight, openedList.styleString()); generateText(text, fake, marker); } void Generator::generateModuleWarning(const ClassNode *classe, CodeMarker *marker) { QString module = classe->moduleName(); if (!module.isEmpty()) { Text text; if (!editionModuleMap["DesktopLight"].contains(module)) { text << Atom::ParaLeft << Atom(Atom::FormattingLeft, ATOM_FORMATTING_BOLD) << "This class is not part of the Qt GUI Framework Edition." << Atom(Atom::FormattingRight, ATOM_FORMATTING_BOLD) << Atom::ParaRight; } else if (module == "Qt3Support") { text << Atom::ParaLeft << Atom(Atom::FormattingLeft, ATOM_FORMATTING_BOLD) << "Note to Qt GUI Framework Edition users:" << Atom(Atom::FormattingRight, ATOM_FORMATTING_BOLD) << " This class is only available in the " << Atom(Atom::AutoLink, "Qt Full Framework Edition") << "." << Atom::ParaRight; } generateText(text, classe, marker); } } 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('<')) { while (i < (int) markedCode.length()) { t += markedCode.at(i++); if (markedCode.at(i - 1) == QLatin1Char('>')) break; } } else { 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()]; } 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()) { 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) << " was introduced in "; if (project.isEmpty()) text << "version"; else text << project; text << " " << node->since() << "." << Atom::ParaRight; generateText(text, node, marker); } } /*! No longer in use. */ void Generator::generateOverload(const Node *node, CodeMarker *marker) { Text text; text << Atom::ParaLeft << "This function overloads "; QString t = node->name() + "()"; text << Atom::AutoLink << t << 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") .arg(format())); 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()); } } 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); } QT_END_NAMESPACE