/****************************************************************************** * ftvhelp.cpp,v 1.0 2000/09/06 16:09:00 * * Copyright (C) 1997-2015 by Dimitri van Heesch. * * Permission to use, copy, modify, and distribute this software and its * documentation under the terms of the GNU General Public License is hereby * granted. No representations are made about the suitability of this software * for any purpose. It is provided "as is" without express or implied warranty. * See the GNU General Public License for more details. * * Documents produced by Doxygen are derivative works derived from the * input used in their production; they are not affected by this license. * * Original version contributed by Kenney Wong * Modified by Dimitri van Heesch * * Folder Tree View for offline help on browsers that do not support HTML Help. */ #include #include #include #include #include #include "ftvhelp.h" #include "config.h" #include "message.h" #include "doxygen.h" #include "language.h" #include "htmlgen.h" #include "layout.h" #include "pagedef.h" #include "docparser.h" #include "htmldocvisitor.h" #include "filedef.h" #include "classdef.h" #include "util.h" #include "resourcemgr.h" #define MAX_INDENT 1024 static int folderId=1; struct FTVNode { FTVNode(bool dir,const char *r,const char *f,const char *a, const char *n,bool sepIndex,bool navIndex,const Definition *df) : isLast(TRUE), isDir(dir),ref(r),file(f),anchor(a),name(n), index(0), parent(0), separateIndex(sepIndex), addToNavIndex(navIndex), def(df) { children.setAutoDelete(TRUE); } int computeTreeDepth(int level) const; int numNodesAtLevel(int level,int maxLevel) const; bool isLast; bool isDir; QCString ref; QCString file; QCString anchor; QCString name; int index; QList children; FTVNode *parent; bool separateIndex; bool addToNavIndex; const Definition *def; }; int FTVNode::computeTreeDepth(int level) const { int maxDepth=level; QListIterator li(children); FTVNode *n; for (;(n=li.current());++li) { if (n->children.count()>0) { int d = n->computeTreeDepth(level+1); if (d>maxDepth) maxDepth=d; } } return maxDepth; } int FTVNode::numNodesAtLevel(int level,int maxLevel) const { int num=0; if (level li(children); FTVNode *n; for (;(n=li.current());++li) { num+=n->numNodesAtLevel(level+1,maxLevel); } } return num; } //---------------------------------------------------------------------------- /*! Constructs an ftv help object. * The object has to be \link initialize() initialized\endlink before it can * be used. */ FTVHelp::FTVHelp(bool TLI) { /* initial depth */ m_indentNodes = new QList[MAX_INDENT]; m_indentNodes[0].setAutoDelete(TRUE); m_indent=0; m_topLevelIndex = TLI; } /*! Destroys the ftv help object. */ FTVHelp::~FTVHelp() { delete[] m_indentNodes; } /*! This will create a folder tree view table of contents file (tree.js). * \sa finalize() */ void FTVHelp::initialize() { } /*! Finalizes the FTV help. This will finish and close the * contents file (index.js). * \sa initialize() */ void FTVHelp::finalize() { generateTreeView(); } /*! Increase the level of the contents hierarchy. * This will start a new sublist in contents file. * \sa decContentsDepth() */ void FTVHelp::incContentsDepth() { //printf("incContentsDepth() indent=%d\n",m_indent); m_indent++; ASSERT(m_indent0); if (m_indent>0) { m_indent--; QList *nl = &m_indentNodes[m_indent]; FTVNode *parent = nl->getLast(); if (parent) { QList *children = &m_indentNodes[m_indent+1]; while (!children->isEmpty()) { parent->children.append(children->take(0)); } } } } /*! Add a list item to the contents file. * \param isDir TRUE if the item is a directory, FALSE if it is a text * \param name the name of the item. * \param ref the URL of to the item. * \param file the file containing the definition of the item * \param anchor the anchor within the file. * \param separateIndex put the entries in a separate index file * \param addToNavIndex add this entry to the quick navigation index * \param def Definition corresponding to this entry */ void FTVHelp::addContentsItem(bool isDir, const char *name, const char *ref, const char *file, const char *anchor, bool separateIndex, bool addToNavIndex, const Definition *def ) { //printf("%p: m_indent=%d addContentsItem(%s,%s,%s,%s)\n",this,m_indent,name,ref,file,anchor); QList *nl = &m_indentNodes[m_indent]; FTVNode *newNode = new FTVNode(isDir,ref,file,anchor,name,separateIndex,addToNavIndex,def); if (!nl->isEmpty()) { nl->getLast()->isLast=FALSE; } nl->append(newNode); newNode->index = nl->count()-1; if (m_indent>0) { QList *pnl = &m_indentNodes[m_indent-1]; newNode->parent = pnl->getLast(); } } static QCString node2URL(const FTVNode *n,bool overruleFile=FALSE,bool srcLink=FALSE) { QCString url = n->file; if (!url.isEmpty() && url.at(0)=='!') // relative URL { // remove leading ! url = url.mid(1); } else if (!url.isEmpty() && url.at(0)=='^') // absolute URL { // skip, keep ^ in the output } else // local file (with optional anchor) { if (overruleFile && n->def && n->def->definitionType()==Definition::TypeFile) { const FileDef *fd = dynamic_cast(n->def); if (srcLink) { url = fd->getSourceFileBase(); } else { url = fd->getOutputFileBase(); } } url+=Doxygen::htmlFileExtension; if (!n->anchor.isEmpty()) url+="#"+n->anchor; } return url; } QCString FTVHelp::generateIndentLabel(FTVNode *n,int level) { QCString result; if (n->parent) { result=generateIndentLabel(n->parent,level+1); } result+=QCString().setNum(n->index)+"_"; return result; } void FTVHelp::generateIndent(FTextStream &t, FTVNode *n,bool opened) { int indent=0; FTVNode *p = n->parent; while (p) { indent++; p=p->parent; } if (n->isDir) { QCString dir = opened ? "▼" : "►"; t << " " << "" << dir << ""; } else { t << " "; } } void FTVHelp::generateLink(FTextStream &t,FTVNode *n) { //printf("FTVHelp::generateLink(ref=%s,file=%s,anchor=%s\n", // n->ref.data(),n->file.data(),n->anchor.data()); bool setTarget = FALSE; if (n->file.isEmpty()) // no link { t << "" << convertToHtml(n->name) << ""; } else // link into other frame { if (!n->ref.isEmpty()) // link to entity imported via tag file { t << "ref,TRUE); t << node2URL(n); if (!setTarget) { if (m_topLevelIndex) t << "\" target=\"basefrm\">"; else t << "\" target=\"_self\">"; } else { t << "\">"; } t << convertToHtml(n->name); t << ""; if (!n->ref.isEmpty()) { t << " [external]"; } } } static void generateBriefDoc(FTextStream &t,const Definition *def) { QCString brief = def->briefDescription(TRUE); //printf("*** %p: generateBriefDoc(%s)='%s'\n",def,def->name().data(),brief.data()); if (!brief.isEmpty()) { DocNode *root = validatingParseDoc(def->briefFile(),def->briefLine(), def,0,brief,FALSE,FALSE,0,TRUE,TRUE); QCString relPath = relativePathToRoot(def->getOutputFileBase()); HtmlCodeGenerator htmlGen(t,relPath); HtmlDocVisitor *visitor = new HtmlDocVisitor(t,htmlGen,def); root->accept(visitor); delete visitor; delete root; } } static char compoundIcon(const ClassDef *cd) { char icon='C'; if (cd->getLanguage() == SrcLangExt_Slice) { if (cd->compoundType()==ClassDef::Interface) { icon='I'; } else if (cd->compoundType()==ClassDef::Struct) { icon='S'; } else if (cd->compoundType()==ClassDef::Exception) { icon='E'; } } return icon; } void FTVHelp::generateTree(FTextStream &t, const QList &nl,int level,int maxLevel,int &index) { QListIterator nli(nl); FTVNode *n; for (nli.toFirst();(n=nli.current());++nli) { t << "=maxLevel) // item invisible by default t << " style=\"display:none;\""; else // item visible by default index++; t << ">"; bool nodeOpened = level+1isDir) { if (n->def && n->def->definitionType()==Definition::TypeGroup) { // no icon } else if (n->def && n->def->definitionType()==Definition::TypePage) { // no icon } else if (n->def && n->def->definitionType()==Definition::TypeNamespace) { if (n->def->getLanguage() == SrcLangExt_Slice) { t << "M"; } else { t << "N"; } } else if (n->def && n->def->definitionType()==Definition::TypeClass) { char icon=compoundIcon(dynamic_cast(n->def)); t << "" << icon << ""; } else { t << " "; } generateLink(t,n); t << ""; if (n->def) { generateBriefDoc(t,n->def); } t << "" << endl; folderId++; generateTree(t,n->children,level+1,maxLevel,index); } else // leaf node { const FileDef *srcRef=0; if (n->def && n->def->definitionType()==Definition::TypeFile && (dynamic_cast(n->def))->generateSourceFile()) { srcRef = dynamic_cast(n->def); } if (srcRef) { t << "getSourceFileBase() << Doxygen::htmlFileExtension << "\">"; } if (n->def && n->def->definitionType()==Definition::TypeGroup) { // no icon } else if (n->def && n->def->definitionType()==Definition::TypePage) { // no icon } else if (n->def && n->def->definitionType()==Definition::TypeNamespace) { if (n->def->getLanguage() == SrcLangExt_Slice) { t << "M"; } else { t << "N"; } } else if (n->def && n->def->definitionType()==Definition::TypeClass) { char icon=compoundIcon(dynamic_cast(n->def)); t << "" << icon << ""; } else { t << ""; } if (srcRef) { t << ""; } generateLink(t,n); t << ""; if (n->def) { generateBriefDoc(t,n->def); } t << "" << endl; } } } //----------------------------------------------------------- struct NavIndexEntry { NavIndexEntry(const QCString &u,const QCString &p) : url(u), path(p) {} QCString url; QCString path; }; class NavIndexEntryList : public QList { public: NavIndexEntryList() : QList() { setAutoDelete(TRUE); } ~NavIndexEntryList() {} private: int compareValues(const NavIndexEntry *item1,const NavIndexEntry *item2) const { // sort list based on url return qstrcmp(item1->url,item2->url); } }; static QCString pathToNode(const FTVNode *leaf,const FTVNode *n) { QCString result; if (n->parent) { result+=pathToNode(leaf,n->parent); } result+=QCString().setNum(n->index); if (leaf!=n) result+=","; return result; } static bool dupOfParent(const FTVNode *n) { if (n->parent==0) return FALSE; if (n->file==n->parent->file) return TRUE; return FALSE; } static void generateJSLink(FTextStream &t,const FTVNode *n) { if (n->file.isEmpty()) // no link { t << "\"" << convertToJSString(n->name) << "\", null, "; } else // link into other page { t << "\"" << convertToJSString(n->name) << "\", \""; t << externalRef("",n->ref,TRUE); t << node2URL(n); t << "\", "; } } static QCString convertFileId2Var(const QCString &fileId) { QCString varId = fileId; int i=varId.findRev('/'); if (i>=0) varId = varId.mid(i+1); return substitute(varId,"-","_"); } static bool generateJSTree(NavIndexEntryList &navIndex,FTextStream &t, const QList &nl,int level,bool &first) { static QCString htmlOutput = Config_getString(HTML_OUTPUT); QCString indentStr; indentStr.fill(' ',level*2); bool found=FALSE; QListIterator nli(nl); const FTVNode *n; for (nli.toFirst();(n=nli.current());++nli) { // terminate previous entry if (!first) t << "," << endl; first=FALSE; // start entry if (!found) { t << "[" << endl; } found=TRUE; if (n->addToNavIndex) // add entry to the navigation index { if (n->def && n->def->definitionType()==Definition::TypeFile) { const FileDef *fd = dynamic_cast(n->def); bool doc,src; doc = fileVisibleInIndex(fd,src); if (doc) { navIndex.append(new NavIndexEntry(node2URL(n,TRUE,FALSE),pathToNode(n,n))); } if (src) { navIndex.append(new NavIndexEntry(node2URL(n,TRUE,TRUE),pathToNode(n,n))); } } else { navIndex.append(new NavIndexEntry(node2URL(n),pathToNode(n,n))); } } if (n->separateIndex) // store items in a separate file for dynamic loading { bool firstChild=TRUE; t << indentStr << " [ "; generateJSLink(t,n); if (n->children.count()>0) // write children to separate file for dynamic loading { QCString fileId = n->file; if (n->anchor) { fileId+="_"+n->anchor; } if (dupOfParent(n)) { fileId+="_dup"; } QFile f(htmlOutput+"/"+fileId+".js"); if (f.open(IO_WriteOnly)) { FTextStream tt(&f); tt << "var " << convertFileId2Var(fileId) << " =" << endl; generateJSTree(navIndex,tt,n->children,1,firstChild); tt << endl << "];"; } t << "\"" << fileId << "\" ]"; } else // no children { t << "null ]"; } } else // show items in this file { bool firstChild=TRUE; t << indentStr << " [ "; generateJSLink(t,n); bool emptySection = !generateJSTree(navIndex,t,n->children,level+1,firstChild); if (emptySection) t << "null ]"; else t << endl << indentStr << " ] ]"; } } return found; } static void generateJSNavTree(const QList &nodeList) { QCString htmlOutput = Config_getString(HTML_OUTPUT); QFile f(htmlOutput+"/navtreedata.js"); NavIndexEntryList navIndex; if (f.open(IO_WriteOnly) /*&& fidx.open(IO_WriteOnly)*/) { //FTextStream tidx(&fidx); //tidx << "var NAVTREEINDEX =" << endl; //tidx << "{" << endl; FTextStream t(&f); t << JAVASCRIPT_LICENSE_TEXT; t << "var NAVTREE =" << endl; t << "[" << endl; t << " [ "; QCString &projName = Config_getString(PROJECT_NAME); if (projName.isEmpty()) { if (mainPageHasTitle()) // Use title of main page as root { t << "\"" << convertToJSString(Doxygen::mainPage->title()) << "\", "; } else // Use default section title as root { LayoutNavEntry *lne = LayoutDocManager::instance().rootNavEntry()->find(LayoutNavEntry::MainPage); t << "\"" << convertToJSString(lne->title()) << "\", "; } } else // use PROJECT_NAME as root tree element { t << "\"" << convertToJSString(projName) << "\", "; } t << "\"index" << Doxygen::htmlFileExtension << "\", "; // add special entry for index page navIndex.append(new NavIndexEntry("index"+Doxygen::htmlFileExtension,"")); // related page index is written as a child of index.html, so add this as well navIndex.append(new NavIndexEntry("pages"+Doxygen::htmlFileExtension,"")); bool first=TRUE; generateJSTree(navIndex,t,nodeList,1,first); if (first) t << "]" << endl; else t << endl << " ] ]" << endl; t << "];" << endl << endl; // write the navigation index (and sub-indices) navIndex.sort(); int subIndex=0; int elemCount=0; const int maxElemCount=250; //QFile fidx(htmlOutput+"/navtreeindex.js"); QFile fsidx(htmlOutput+"/navtreeindex0.js"); if (/*fidx.open(IO_WriteOnly) &&*/ fsidx.open(IO_WriteOnly)) { //FTextStream tidx(&fidx); FTextStream tsidx(&fsidx); t << "var NAVTREEINDEX =" << endl; t << "[" << endl; tsidx << "var NAVTREEINDEX" << subIndex << " =" << endl; tsidx << "{" << endl; QListIterator li(navIndex); NavIndexEntry *e; first=TRUE; for (li.toFirst();(e=li.current());) // for each entry { if (elemCount==0) { if (!first) { t << "," << endl; } else { first=FALSE; } t << "\"" << e->url << "\""; } tsidx << "\"" << e->url << "\":[" << e->path << "]"; ++li; if (li.current() && elemCount=maxElemCount) // switch to new sub-index { tsidx << "};" << endl; elemCount=0; fsidx.close(); subIndex++; fsidx.setName(htmlOutput+"/navtreeindex"+QCString().setNum(subIndex)+".js"); if (!fsidx.open(IO_WriteOnly)) break; tsidx.setDevice(&fsidx); tsidx << "var NAVTREEINDEX" << subIndex << " =" << endl; tsidx << "{" << endl; } } tsidx << "};" << endl; t << endl << "];" << endl; } t << endl << "var SYNCONMSG = '" << theTranslator->trPanelSynchronisationTooltip(FALSE) << "';"; t << endl << "var SYNCOFFMSG = '" << theTranslator->trPanelSynchronisationTooltip(TRUE) << "';"; } ResourceMgr::instance().copyResource("navtree.js",htmlOutput); } //----------------------------------------------------------- // new style images void FTVHelp::generateTreeViewImages() { QCString dname=Config_getString(HTML_OUTPUT); const ResourceMgr &rm = ResourceMgr::instance(); rm.copyResource("doc.luma",dname); rm.copyResource("folderopen.luma",dname); rm.copyResource("folderclosed.luma",dname); rm.copyResource("splitbar.lum",dname); } // new style scripts void FTVHelp::generateTreeViewScripts() { QCString htmlOutput = Config_getString(HTML_OUTPUT); // generate navtree.js & navtreeindex.js generateJSNavTree(m_indentNodes[0]); // copy resize.js & navtree.css ResourceMgr::instance().copyResource("resize.js",htmlOutput); ResourceMgr::instance().copyResource("navtree.css",htmlOutput); } // write tree inside page void FTVHelp::generateTreeViewInline(FTextStream &t) { int preferredNumEntries = Config_getInt(HTML_INDEX_NUM_ENTRIES); t << "
\n"; QListIterator li(m_indentNodes[0]); FTVNode *n; int d=1, depth=1; for (;(n=li.current());++li) { if (n->children.count()>0) { d = n->computeTreeDepth(2); if (d>depth) depth=d; } } int preferredDepth = depth; // write level selector if (depth>1) { t << "
["; t << theTranslator->trDetailLevel(); t << " "; for (int i=1;i<=depth;i++) { t << "" << i << ""; } t << "]
"; if (preferredNumEntries>0) { preferredDepth=1; for (int i=1;i<=depth;i++) { int num=0; for (li.toFirst();(n=li.current());++li) { num+=n->numNodesAtLevel(0,i); } if (num<=preferredNumEntries) { preferredDepth=i; } else { break; } } } } //printf("preferred depth=%d\n",preferredDepth); if (m_indentNodes[0].count()) { t << "\n"; int index=0; generateTree(t,m_indentNodes[0],0,preferredDepth,index); t << "
\n"; } t << "
\n"; } // write old style index.html and tree.html void FTVHelp::generateTreeView() { generateTreeViewImages(); generateTreeViewScripts(); }