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/******************************************************************************
*
* Copyright (C) 1997-2019 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.
*
*/
#include "containers.h"
#include "dotclassgraph.h"
#include "dotnode.h"
#include "config.h"
#include "util.h"
void DotClassGraph::addClass(const ClassDef *cd,DotNode *n,int prot,
const char *label,const char *usedName,const char *templSpec,bool base,int distance)
{
if (Config_getBool(HIDE_UNDOC_CLASSES) && !cd->isLinkable()) return;
int edgeStyle = (label || prot==EdgeInfo::Orange || prot==EdgeInfo::Orange2) ? EdgeInfo::Dashed : EdgeInfo::Solid;
QCString className;
QCString fullName;
if (cd->isAnonymous())
{
className="anonymous:";
className+=label;
fullName = className;
}
else if (usedName) // name is a typedef
{
className=usedName;
fullName = className;
}
else if (templSpec) // name has a template part
{
className=insertTemplateSpecifierInScope(cd->displayName(),templSpec);
fullName =insertTemplateSpecifierInScope(cd->name(),templSpec);
}
else // just a normal name
{
className=cd->displayName();
fullName = cd->name();
}
//printf("DotClassGraph::addClass(class='%s',parent=%s,prot=%d,label=%s,dist=%d,usedName=%s,templSpec=%s,base=%d)\n",
// className.data(),n->label().data(),prot,label,distance,usedName,templSpec,base);
auto it = m_usedNodes.find(fullName.str());
if (it!=m_usedNodes.end()) // class already inserted
{
DotNode *bn = it->second;
if (base)
{
n->addChild(bn,prot,edgeStyle,label);
bn->addParent(n);
}
else
{
bn->addChild(n,prot,edgeStyle,label);
n->addParent(bn);
}
bn->setDistance(distance);
//printf(" add exiting node %s of %s\n",bn->label().data(),n->label().data());
}
else // new class
{
QCString displayName=className;
if (Config_getBool(HIDE_SCOPE_NAMES)) displayName=stripScope(displayName);
QCString tmp_url;
if (cd->isLinkable() && !cd->isHidden())
{
tmp_url=cd->getReference()+"$"+cd->getOutputFileBase();
if (!cd->anchor().isEmpty())
{
tmp_url+="#"+cd->anchor();
}
}
QCString tooltip = cd->briefDescriptionAsTooltip();
DotNode *bn = new DotNode(getNextNodeNumber(),
displayName,
tooltip,
tmp_url.data(),
FALSE, // rootNode
cd
);
if (base)
{
n->addChild(bn,prot,edgeStyle,label);
bn->addParent(n);
}
else
{
bn->addChild(n,prot,edgeStyle,label);
n->addParent(bn);
}
bn->setDistance(distance);
m_usedNodes.insert(std::make_pair(fullName.str(),bn));
//printf(" add new child node '%s' to %s hidden=%d url=%s\n",
// className.data(),n->label().data(),cd->isHidden(),tmp_url.data());
buildGraph(cd,bn,base,distance+1);
}
}
void DotClassGraph::determineTruncatedNodes(DotNodeDeque &queue,bool includeParents)
{
while (!queue.empty())
{
DotNode *n = queue.front();
queue.pop_front();
if (n->isVisible() && n->isTruncated()==DotNode::Unknown)
{
bool truncated = FALSE;
for (const auto &dn : n->children())
{
if (!dn->isVisible())
truncated = TRUE;
else
queue.push_back(dn);
}
if (includeParents)
{
for (const auto &dn : n->parents())
{
if (!dn->isVisible())
truncated = TRUE;
else
queue.push_back(dn);
}
}
n->markAsTruncated(truncated);
}
}
}
bool DotClassGraph::determineVisibleNodes(DotNode *rootNode,
int maxNodes,bool includeParents)
{
DotNodeDeque childQueue;
DotNodeDeque parentQueue;
IntVector childTreeWidth;
IntVector parentTreeWidth;
childQueue.push_back(rootNode);
if (includeParents) parentQueue.push_back(rootNode);
bool firstNode=TRUE; // flag to force reprocessing rootNode in the parent loop
// despite being marked visible in the child loop
while ((!childQueue.empty() || !parentQueue.empty()) && maxNodes>0)
{
if (!childQueue.empty())
{
DotNode *n = childQueue.front();
childQueue.pop_front();
int distance = n->distance();
if (!n->isVisible() && distance<=Config_getInt(MAX_DOT_GRAPH_DEPTH)) // not yet processed
{
if (distance>0)
{
int oldSize=(int)childTreeWidth.size();
if (distance>oldSize)
{
childTreeWidth.resize(QMAX(childTreeWidth.size(),(uint)distance));
int i; for (i=oldSize;i<distance;i++) childTreeWidth[i]=0;
}
childTreeWidth[distance-1]+=n->label().length();
}
n->markAsVisible();
maxNodes--;
// add direct children
for (const auto &dn : n->children())
{
childQueue.push_back(dn);
}
}
}
if (includeParents && !parentQueue.empty())
{
DotNode *n = parentQueue.front();
parentQueue.pop_front();
if ((!n->isVisible() || firstNode) && n->distance()<=Config_getInt(MAX_DOT_GRAPH_DEPTH)) // not yet processed
{
firstNode=FALSE;
int distance = n->distance();
if (distance>0)
{
int oldSize = (int)parentTreeWidth.size();
if (distance>oldSize)
{
parentTreeWidth.resize(QMAX(parentTreeWidth.size(),(uint)distance));
int i; for (i=oldSize;i<distance;i++) parentTreeWidth[i]=0;
}
parentTreeWidth[distance-1]+=n->label().length();
}
n->markAsVisible();
maxNodes--;
// add direct parents
for (const auto &dn : n->parents())
{
parentQueue.push_back(dn);
}
}
}
}
if (Config_getBool(UML_LOOK)) return FALSE; // UML graph are always top to bottom
int maxWidth=0;
int maxHeight=(int)QMAX(childTreeWidth.size(),parentTreeWidth.size());
uint i;
for (i=0;i<childTreeWidth.size();i++)
{
if (childTreeWidth.at(i)>maxWidth) maxWidth=childTreeWidth.at(i);
}
for (i=0;i<parentTreeWidth.size();i++)
{
if (parentTreeWidth.at(i)>maxWidth) maxWidth=parentTreeWidth.at(i);
}
//printf("max tree width=%d, max tree height=%d\n",maxWidth,maxHeight);
return maxWidth>80 && maxHeight<12; // used metric to decide to render the tree
// from left to right instead of top to bottom,
// with the idea to render very wide trees in
// left to right order.
}
static QCString joinLabels(const StringSet &ss)
{
QCString label;
int count=1;
int maxLabels=10;
auto it = std::begin(ss), e = std::end(ss);
if (it!=e) // set not empty
{
label += (*it++).c_str();
for (; it!=e && count < maxLabels ; ++it,++count)
{
label += '\n';
label += (*it).c_str();
}
if (count==maxLabels) label+="\n...";
}
return label;
}
void DotClassGraph::buildGraph(const ClassDef *cd,DotNode *n,bool base,int distance)
{
//printf("DocClassGraph::buildGraph(%s,distance=%d,base=%d)\n",
// cd->name().data(),distance,base);
// ---- Add inheritance relations
if (m_graphType == Inheritance || m_graphType==Collaboration)
{
for (const auto &bcd : base ? cd->baseClasses() : cd->subClasses())
{
//printf("-------- inheritance relation %s->%s templ='%s'\n",
// cd->name().data(),bcd->classDef->name().data(),bcd->templSpecifiers.data());
addClass(bcd.classDef,n,bcd.prot,0,bcd.usedName,bcd.templSpecifiers,base,distance);
}
}
if (m_graphType == Collaboration)
{
// ---- Add usage relations
const UsesClassList &list = base ? cd->usedImplementationClasses() :
cd->usedByImplementationClasses() ;
for (const auto &ucd : list)
{
//printf("addClass: %s templSpec=%s\n",ucd.classDef->name().data(),ucd.templSpecifiers.data());
addClass(ucd.classDef,n,EdgeInfo::Purple,joinLabels(ucd.accessors),0,
ucd.templSpecifiers,base,distance);
}
}
if (Config_getBool(TEMPLATE_RELATIONS) && base)
{
for (const auto &ccd : cd->templateTypeConstraints())
{
//printf("addClass: %s\n",ccd.classDef->name().data());
addClass(ccd.classDef,n,EdgeInfo::Orange2,joinLabels(ccd.accessors),0,
0,TRUE,distance);
}
}
// ---- Add template instantiation relations
if (Config_getBool(TEMPLATE_RELATIONS))
{
if (base) // template relations for base classes
{
const ClassDef *templMaster=cd->templateMaster();
if (templMaster)
{
for (const auto &ti : templMaster->getTemplateInstances())
if (ti.classDef==cd)
{
addClass(templMaster,n,EdgeInfo::Orange,ti.templSpec,0,0,TRUE,distance);
}
}
}
else // template relations for super classes
{
for (const auto &ti : cd->getTemplateInstances())
{
addClass(ti.classDef,n,EdgeInfo::Orange,ti.templSpec,0,0,FALSE,distance);
}
}
}
}
DotClassGraph::DotClassGraph(const ClassDef *cd,GraphType t)
{
//printf("--------------- DotClassGraph::DotClassGraph '%s'\n",cd->displayName().data());
m_graphType = t;
QCString tmp_url="";
if (cd->isLinkable() && !cd->isHidden())
{
tmp_url=cd->getReference()+"$"+cd->getOutputFileBase();
if (!cd->anchor().isEmpty())
{
tmp_url+="#"+cd->anchor();
}
}
QCString className = cd->displayName();
QCString tooltip = cd->briefDescriptionAsTooltip();
m_startNode = new DotNode(getNextNodeNumber(),
className,
tooltip,
tmp_url.data(),
TRUE, // is a root node
cd
);
m_startNode->setDistance(0);
m_usedNodes.insert(std::make_pair(className.str(),m_startNode));
buildGraph(cd,m_startNode,TRUE,1);
if (t==Inheritance) buildGraph(cd,m_startNode,FALSE,1);
m_lrRank = determineVisibleNodes(m_startNode,Config_getInt(DOT_GRAPH_MAX_NODES),t==Inheritance);
DotNodeDeque openNodeQueue;
openNodeQueue.push_back(m_startNode);
determineTruncatedNodes(openNodeQueue,t==Inheritance);
m_collabFileName = cd->collaborationGraphFileName();
m_inheritFileName = cd->inheritanceGraphFileName();
}
bool DotClassGraph::isTrivial() const
{
if (m_graphType==Inheritance)
return m_startNode->children().empty() && m_startNode->parents().empty();
else
return !Config_getBool(UML_LOOK) && m_startNode->children().empty();
}
bool DotClassGraph::isTooBig() const
{
return numNodes()>=Config_getInt(DOT_GRAPH_MAX_NODES);
}
int DotClassGraph::numNodes() const
{
int numNodes = 0;
numNodes+= (int)m_startNode->children().size();
if (m_graphType==Inheritance)
{
numNodes+= (int)m_startNode->parents().size();
}
return numNodes;
}
DotClassGraph::~DotClassGraph()
{
DotNode::deleteNodes(m_startNode);
}
QCString DotClassGraph::getBaseName() const
{
switch (m_graphType)
{
case Collaboration:
return m_collabFileName;
break;
case Inheritance:
return m_inheritFileName;
break;
default:
ASSERT(0);
break;
}
return "";
}
void DotClassGraph::computeTheGraph()
{
computeGraph(
m_startNode,
m_graphType,
m_graphFormat,
m_lrRank ? "LR" : "",
m_graphType == Inheritance,
TRUE,
m_startNode->label(),
m_theGraph
);
}
QCString DotClassGraph::getMapLabel() const
{
QCString mapName;
switch (m_graphType)
{
case Collaboration:
mapName="coll_map";
break;
case Inheritance:
mapName="inherit_map";
break;
default:
ASSERT(0);
break;
}
return escapeCharsInString(m_startNode->label(),FALSE)+"_"+escapeCharsInString(mapName,FALSE);
}
QCString DotClassGraph::getImgAltText() const
{
switch (m_graphType)
{
case Collaboration:
return "Collaboration graph";
break;
case Inheritance:
return "Inheritance graph";
break;
default:
ASSERT(0);
break;
}
return "";
}
QCString DotClassGraph::writeGraph(std::ostream &out,
GraphOutputFormat graphFormat,
EmbeddedOutputFormat textFormat,
const char *path,
const char *fileName,
const char *relPath,
bool /*isTBRank*/,
bool generateImageMap,
int graphId)
{
return DotGraph::writeGraph(out, graphFormat, textFormat, path, fileName, relPath, generateImageMap, graphId);
}
//--------------------------------------------------------------------
void DotClassGraph::writeXML(std::ostream &t)
{
for (const auto &kv : m_usedNodes)
{
kv.second->writeXML(t,TRUE);
}
}
void DotClassGraph::writeDocbook(std::ostream &t)
{
for (const auto &kv : m_usedNodes)
{
kv.second->writeDocbook(t,TRUE);
}
}
void DotClassGraph::writeDEF(std::ostream &t)
{
for (const auto &kv : m_usedNodes)
{
kv.second->writeDEF(t);
}
}
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