Planarized representation (of a connected component) of a UMLGraph; allows special handling of hierarchies in the graph. More...
#include <ogdf/uml/PlanRepUML.h>
Public Member Functions | |
~PlanRepUML () | |
Deconstruction. | |
bool | faceSplitter (edge e) const |
Returns true if an edge splits a face into two subfaces to guarantee generalizations to be on opposite sides of a node. | |
const UMLGraph & | getUMLGraph () const |
void | initCC (int i) |
void | removeFaceSplitter () |
Removes all face splitting edges. | |
PlanRepUML (const UMLGraph ¨Graph) | |
Construction. | |
PlanRepUML (const GraphAttributes &GA) | |
Incremental drawing | |
void | setupIncremental (int indexCC, CombinatorialEmbedding &E) |
Initializes incremental stuff, e.g. insert incremental mergers. | |
const SList< node > & | incrementalMergers (int indexCC) const |
Returns the list of inserted incremental mergers. | |
Set generic types | |
bool | alignUpward (adjEntry ae) |
void | alignUpward (adjEntry ae, bool b) |
Structural alterations | |
node | insertGenMerger (node v, const SList< edge > &inGens, CombinatorialEmbedding &E) |
Inserts a generalization merge node for all incoming generalizations of v and returns its conserving embedding. | |
void | expand (bool lowDegreeExpand=false) override |
Expands nodes with degree > 4 and merge nodes for generalizations. | |
void | expandLowDegreeVertices (OrthoRep &OR, bool alignSmallDegree=false) |
Expands nodes with degree <= 4 and aligns opposite edges at degree 2 nodes. | |
void | collapseVertices (const OrthoRep &OR, Layout &drawing) |
Extension of methods defined by GraphCopy/PlanRep | |
virtual edge | split (edge e) override |
Splits edge e. | |
void | writeGML (const char *fileName, const Layout &drawing) |
Writes attributed graph in GML format to file fileName (for debugging only) | |
void | writeGML (const char *fileName) |
void | writeGML (const char *fileName, GraphAttributes &AG) |
void | writeGML (std::ostream &os, const Layout &drawing) |
Writes attributed graph in GML format to output stream os (for debugging only) | |
void | writeGML (const char *fileName, const OrthoRep &OR, const Layout &drawing) |
void | writeGML (std::ostream &os, const OrthoRep &OR, const Layout &drawing) |
void | writeGML (const char *fileName, const OrthoRep &OR, const GridLayoutMapped &drawing) |
void | writeGML (std::ostream &os, const OrthoRep &OR, const GridLayoutMapped &drawing) |
Public Member Functions inherited from ogdf::PlanRep | |
void | writeGML (const char *fileName, const OrthoRep &OR, const GridLayout &drawing) |
void | writeGML (std::ostream &os, const OrthoRep &OR, const GridLayout &drawing) |
PlanRep (const Graph &G) | |
Creates a planarized representation of graph G . | |
PlanRep (const GraphAttributes &AG) | |
Creates a planarized representation of graph AG . | |
int | numberOfCCs () const |
Returns the number of connected components in the original graph. | |
int | currentCC () const |
Returns the index of the current connected component (-1 if not yet initialized). | |
const CCsInfo & | ccInfo () const |
Returns the connected components info structure. | |
int | numberOfNodesInCC () const |
Returns the number of nodes in the current connected component. | |
int | numberOfNodesInCC (int cc) const |
Returns the number of nodes in connected component cc . | |
node | v (int i) const |
Returns node i in the list of all original nodes. | |
edge | e (int i) const |
Returns edge i in the list of all original edges. | |
int | startNode () const |
Returns the index of the first node in this connected component. | |
int | startNode (int cc) const |
Returns the index of the first node in connected component cc . | |
int | stopNode () const |
Returns the index of (one past) the last node in this connected component. | |
int | stopNode (int cc) const |
Returns the index of (one past) the last node in connected component cc . | |
int | startEdge () const |
Returns the index of the first edge in this connected component. | |
int | stopEdge () const |
Returns the index of (one past) the last edge in this connected component. | |
void | initCC (int cc) |
Initializes the planarized representation for connected component cc . | |
adjEntry | expandAdj (node v) const |
Returns the adjacency entry of a node of an expanded face. | |
adjEntry & | expandAdj (node v) |
adjEntry | boundaryAdj (node v) const |
Returns the adjacency entry of the first edge of the inserted boundary at a center node (original) of a clique, 0 if no boundary exists. | |
adjEntry & | boundaryAdj (node v) |
Returns a reference to the adjacency entry of the first edge of the inserted boundary at a center node (original) of a clique, 0 if no boundary exists. | |
void | setCliqueBoundary (edge e) |
bool | isCliqueBoundary (edge e) const |
Graph::NodeType | typeOf (node v) const |
Returns the type of node v . | |
Graph::NodeType & | typeOf (node v) |
Returns a reference to the type of node v . | |
bool | isVertex (node v) const |
Returns true if the node represents a "real" object in the original graph. | |
nodeType | nodeTypeOf (node v) |
Returns the extended node type of v . | |
void | setCrossingType (node v) |
Classifies node v as a crossing. | |
bool | isCrossingType (node v) const |
Returns true iff node v is classified as a crossing. | |
EdgeType | typeOf (edge e) const |
Returns the type of edge e . | |
EdgeType & | typeOf (edge e) |
Returns a reference to the type of edge e . | |
edgeType & | oriEdgeTypes (edge e) |
Returns a reference to the type of original edge e . | |
edgeType | edgeTypeOf (edge e) const |
Returns the new type field of e . | |
edgeType & | edgeTypes (edge e) |
Returns a reference to the new type field of e . | |
void | setEdgeTypeOf (edge e, edgeType et) |
Sets the new type field of edge e to et . | |
void | setType (edge e, EdgeType et) |
Set both type values of e at once. | |
bool | isGeneralization (edge e) const |
Returns true iff edge e is classified as generalization. | |
void | setGeneralization (edge e) |
Classifies edge e as generalization (primary type). | |
bool | isDependency (edge e) const |
Returns true iff edge e is classified as dependency. | |
void | setDependency (edge e) |
Classifies edge e as dependency (primary type). | |
void | setAssociation (edge e) |
Classifies edge e as association (primary type). | |
void | setExpansion (edge e) |
Classifies edge e as expansion edge (secondary type). | |
bool | isExpansion (edge e) const |
Returns true iff edge e is classified as expansion edge. | |
bool | isBoundary (edge e) const |
Returns true iff edge e is a clique boundary. | |
void | setAssClass (edge e) |
Classifies edge e as connection at an association class (tertiary type). | |
bool | isAssClass (edge e) const |
Returns true iff edge e is classified as connection at an association class. | |
void | setBrother (edge e) |
Classifies edge e as connection between hierarchy neighbours (fourth level type). | |
void | setHalfBrother (edge e) |
Classifies edge e as connection between ... (fourth level type). | |
bool | isBrother (edge e) const |
Returns true if edge e is classified as brother. | |
bool | isHalfBrother (edge e) const |
Returns true if edge e is classified as half-brother. | |
edgeType | edgeTypeAND (edge e, edgeType et) |
Sets type of edge e to current type (bitwise) AND et . | |
edgeType | edgeTypeOR (edge e, edgeType et) |
Sets type of edge e to current type (bitwise) OR et . | |
void | setPrimaryType (edge e, edgeType et) |
Sets primary edge type of edge e to primary edge type in et (deletes old primary value). | |
void | setPrimaryType (edge e, UMLEdgeTypeConstants et) |
Sets primary edge type of edge e to primary edge type in et (deletes old primary value). | |
void | setSecondaryType (edge e, edgeType et) |
Sets secondary edge type of edge e to primary edge type in et . | |
edgeType | edgeTypePrimaryAND (edge e, edgeType et) |
Sets primary type of e to bitwise AND of et's primary value and old value. | |
edgeType | edgeTypePrimaryOR (edge e, edgeType et) |
Sets primary type of e to bitwise OR of et's primary value and old value. | |
void | setUserType (edge e, edgeType et) |
Sets user defined type locally. | |
bool | isUserType (edge e, edgeType et) const |
Returns user defined type. | |
void | setExpansionEdge (edge e, int expType) |
Sets the expansion edge type of e to expType . | |
bool | isExpansionEdge (edge e) const |
Returns if e is an expansion edge. | |
int | expansionType (edge e) const |
Returns the expansion edge type of e . | |
bool | isDegreeExpansionEdge (edge e) const |
Returns if e is a degree expansion edge. | |
const NodeArray< double > & | widthOrig () const |
Gives access to the node array of the widths of original nodes. | |
double | widthOrig (node v) const |
Returns the width of original node v . | |
const NodeArray< double > & | heightOrig () const |
Gives access to the node array of the heights of original nodes. | |
double | heightOrig (node v) const |
Returns the height of original node v . | |
EdgeType | typeOrig (edge e) const |
Returns the type of original edge e . | |
const GraphAttributes & | getGraphAttributes () const |
Returns the graph attributes of the original graph (the pointer may be 0). | |
void | expandLowDegreeVertices (OrthoRep &OR) |
void | collapseVertices (const OrthoRep &OR, Layout &drawing) |
void | collapseVertices (const OrthoRep &OR, GridLayout &drawing) |
void | removeCrossing (node v) |
void | insertBoundary (node center, adjEntry &adjExternal) |
node | expandedNode (node v) const |
void | setExpandedNode (node v, node w) |
node | newCopy (node vOrig, Graph::NodeType vType) |
Creates a new node with node type vType in the planarized representation. | |
edge | newCopy (node v, adjEntry adjAfter, edge eOrig) |
Creates a new edge in the planarized representation. | |
edge | newCopy (node v, adjEntry adjAfter, edge eOrig, CombinatorialEmbedding &E) |
Creates a new edge in the planarized representation while updating the embedding E . | |
void | insertEdgePath (edge eOrig, const SList< adjEntry > &crossedEdges) |
Re-inserts edge eOrig by "crossing" the edges in crossedEdges . | |
void | insertEdgePathEmbedded (edge eOrig, CombinatorialEmbedding &E, const SList< adjEntry > &crossedEdges) |
Same as insertEdgePath, but for embedded graphs. | |
void | removeEdgePathEmbedded (CombinatorialEmbedding &E, edge eOrig, FaceSet< false > &newFaces) |
Removes the complete edge path for edge eOrig while preserving the embedding. | |
edge | insertCrossing (edge &crossingEdge, edge crossedEdge, bool topDown) |
Inserts crossings between two copy edges. | |
void | removeDeg1Nodes (ArrayBuffer< Deg1RestoreInfo > &S, const NodeArray< bool > &mark) |
Removes all marked degree-1 nodes from the graph copy and stores restore information in S . | |
void | restoreDeg1Nodes (ArrayBuffer< Deg1RestoreInfo > &S, List< node > °1s) |
Restores degree-1 nodes previously removed with removeDeg1Nodes(). | |
Public Member Functions inherited from ogdf::GraphCopy | |
GraphCopy () | |
Default constructor (does nothing!). | |
GraphCopy (const Graph &G) | |
Creates a graph copy of G . | |
GraphCopy (const GraphCopy &GC) | |
Copy constructor. | |
virtual | ~GraphCopy () |
const Graph & | original () const |
Returns a reference to the original graph. | |
node | original (node v) const |
Returns the node in the original graph corresponding to v . | |
edge | original (edge e) const |
Returns the edge in the original graph corresponding to e . | |
adjEntry | original (adjEntry adj) const |
Returns the adjacency entry in the original graph corresponding to adj . | |
node | copy (node v) const |
Returns the node in the graph copy corresponding to v . | |
const List< edge > & | chain (edge e) const |
Returns the list of edges coresponding to edge e . | |
edge | copy (edge e) const |
Returns the first edge in the list of edges coresponding to edge e . | |
adjEntry | copy (adjEntry adj) const |
Returns the adjacency entry in the copy graph corresponding to adj . | |
bool | isDummy (node v) const |
Returns true iff v has no corresponding node in the original graph. | |
bool | isDummy (edge e) const |
Returns true iff e has no corresponding edge in the original graph. | |
bool | isReversed (edge e) const |
Returns true iff edge e has been reversed. | |
bool | isReversedCopyEdge (edge e) const |
Returns true iff e is reversed w.r.t. | |
node | newNode (node vOrig) |
Creates a new node in the graph copy with original node vOrig . | |
virtual void | delNode (node v) override |
Removes node v and all its adjacent edges cleaning-up their corresponding lists of original edges. | |
virtual void | delEdge (edge e) override |
Removes edge e and clears the list of edges corresponding to e's original edge. | |
virtual void | clear () override |
Removes all nodes and all edges from the graph. | |
void | unsplit (edge eIn, edge eOut) override |
Undoes a previous split operation. | |
edge | newEdge (edge eOrig) |
Creates a new edge (v,w) with original edge eOrig. | |
void | setEdge (edge eOrig, edge eCopy) |
sets eOrig to be the corresponding original edge of eCopy and vice versa | |
bool | embed () |
Embeds the graph copy. | |
void | removePseudoCrossings () |
Removes all crossing nodes which are actually only two "touching" edges. | |
bool | hasSameEdgesCrossings () const |
Returns whether there are two edges in the GraphCopy that cross each other multiple times. | |
bool | hasAdjacentEdgesCrossings () const |
Returns whether the GraphCopy contains at least one crossing of two adjacent edges. | |
bool | hasNonSimpleCrossings () const |
Returns whether the GraphCopy contains crossings that will result in a non-simple drawing. | |
void | removeNonSimpleCrossings (SListPure< edge > &edgesToCheck, DynamicDualGraph *dualGraph=nullptr) |
Removes all non-simple cossings involving edges from edgesToCheck (see hasNonSimpleCrossings() for a definition of non-simple crossings). | |
void | removeNonSimpleCrossings (DynamicDualGraph *dualGraph=nullptr) |
Removes all non-simple cossings (see hasNonSimpleCrossings() for a definition of non-simple crossings). | |
void | removeNonSimpleCrossings (node origNode, DynamicDualGraph *dualGraph=nullptr) |
Removes all non-simple cossings involving edges incident to origNode (see hasNonSimpleCrossings() for a definition of non-simple crossings). | |
void | insertEdgePath (edge eOrig, const SList< adjEntry > &crossedEdges) |
Re-inserts edge eOrig by "crossing" the edges in crossedEdges . | |
void | insertEdgePath (node srcOrig, node tgtOrig, const SList< adjEntry > &crossedEdges) |
Special version (for FixedEmbeddingUpwardEdgeInserter only). | |
void | removeEdgePath (edge eOrig) |
Removes the complete edge path for edge eOrig . | |
edge | insertCrossing (edge &crossingEdge, edge crossedEdge, bool rightToLeft) |
Inserts crossings between two copy edges. | |
node | newNode () |
Creates a new node and returns it. | |
node | newNode (int index) |
Creates a new node with predefined index and returns it. | |
edge | newEdge (node v, node w) |
Creates a new edge (v ,w ) and returns it. | |
edge | newEdge (node v, node w, int index) |
Creates a new edge (v ,w ) with predefined index and returns it. | |
edge | newEdge (adjEntry adjSrc, adjEntry adjTgt, Direction dir=Direction::after) |
Creates a new edge at predefined positions in the adjacency lists. | |
edge | newEdge (node v, adjEntry adjTgt) |
Creates a new edge at predefined positions in the adjacency lists. | |
edge | newEdge (adjEntry adjSrc, node w) |
Creates a new edge at predefined positions in the adjacency lists. | |
edge | newEdge (node v, adjEntry adj, edge eOrig, CombinatorialEmbedding &E) |
Creates a new edge with original edge eOrig in an embedding E . | |
void | setOriginalEmbedding () |
Sets the embedding of the graph copy to the embedding of the original graph. | |
void | insertEdgePathEmbedded (edge eOrig, CombinatorialEmbedding &E, const SList< adjEntry > &crossedEdges) |
Re-inserts edge eOrig by "crossing" the edges in crossedEdges in embedding E . | |
void | insertEdgePathEmbedded (edge eOrig, CombinatorialEmbedding &E, DynamicDualGraph &dual, const SList< adjEntry > &crossedEdges) |
void | removeEdgePathEmbedded (CombinatorialEmbedding &E, edge eOrig, FaceSet< false > &newFaces) |
Removes the complete edge path for edge eOrig while preserving the embedding. | |
void | removeEdgePathEmbedded (CombinatorialEmbedding &E, DynamicDualGraph &dual, edge eOrig) |
void | init (const Graph &G) |
Re-initializes the copy using the graph G . | |
void | createEmpty (const Graph &G) |
Associates the graph copy with G , but does not create any nodes or edges. | |
void | initByCC (const CCsInfo &info, int cc, EdgeArray< edge > &eCopy) |
Initializes the graph copy for the nodes in component cc . | |
void | initByNodes (const List< node > &origNodes, EdgeArray< edge > &eCopy) |
Initializes the graph copy for the nodes in a component. | |
void | initByActiveNodes (const List< node > &nodeList, const NodeArray< bool > &activeNodes, EdgeArray< edge > &eCopy) |
Initializes the graph copy for the nodes in nodeList . | |
GraphCopy & | operator= (const GraphCopy &GC) |
Assignment operator. | |
Public Member Functions inherited from ogdf::Graph | |
Graph () | |
Constructs an empty graph. | |
Graph (const Graph &G) | |
Constructs a graph that is a copy of G . | |
virtual | ~Graph () |
Destructor. | |
bool | empty () const |
Returns true iff the graph is empty, i.e., contains no nodes. | |
int | numberOfNodes () const |
Returns the number of nodes in the graph. | |
int | numberOfEdges () const |
Returns the number of edges in the graph. | |
int | maxNodeIndex () const |
Returns the largest used node index. | |
int | maxEdgeIndex () const |
Returns the largest used edge index. | |
int | maxAdjEntryIndex () const |
Returns the largest used adjEntry index. | |
int | nodeArrayTableSize () const |
Returns the table size of node arrays associated with this graph. | |
int | edgeArrayTableSize () const |
Returns the table size of edge arrays associated with this graph. | |
int | adjEntryArrayTableSize () const |
Returns the table size of adjEntry arrays associated with this graph. | |
node | firstNode () const |
Returns the first node in the list of all nodes. | |
node | lastNode () const |
Returns the last node in the list of all nodes. | |
edge | firstEdge () const |
Returns the first edge in the list of all edges. | |
edge | lastEdge () const |
Returns the last edge in the list of all edges. | |
node | chooseNode (std::function< bool(node)> includeNode=[](node) { return true;}, bool isFastTest=true) const |
Returns a random node. | |
edge | chooseEdge (std::function< bool(edge)> includeEdge=[](edge) { return true;}, bool isFastTest=true) const |
Returns a random edge. | |
template<class CONTAINER > | |
void | allNodes (CONTAINER &nodeContainer) const |
Returns a container with all nodes of the graph. | |
template<class CONTAINER > | |
void | allEdges (CONTAINER &edgeContainer) const |
Returns a container with all edges of the graph. | |
node | newNode () |
Creates a new node and returns it. | |
node | newNode (int index) |
Creates a new node with predefined index and returns it. | |
edge | newEdge (node v, node w) |
Creates a new edge (v ,w ) and returns it. | |
edge | newEdge (node v, node w, int index) |
Creates a new edge (v ,w ) with predefined index and returns it. | |
edge | newEdge (adjEntry adjSrc, adjEntry adjTgt, Direction dir=Direction::after) |
Creates a new edge at predefined positions in the adjacency lists. | |
edge | newEdge (node v, adjEntry adjTgt) |
Creates a new edge at predefined positions in the adjacency lists. | |
edge | newEdge (adjEntry adjSrc, node w) |
Creates a new edge at predefined positions in the adjacency lists. | |
void | insert (const Graph &G, NodeArray< node > &nodeMap) |
Inserts Graph G as a subgraph into this Graph. | |
void | insert (const Graph &G) |
Inserts Graph G as a subgraph into this Graph. | |
void | unsplit (node u) |
Undoes a split operation. | |
node | splitNode (adjEntry adjStartLeft, adjEntry adjStartRight) |
Splits a node while preserving the order of adjacency entries. | |
node | contract (edge e, bool keepSelfLoops=false) |
Contracts edge e while preserving the order of adjacency entries. | |
void | move (edge e, adjEntry adjSrc, Direction dirSrc, adjEntry adjTgt, Direction dirTgt) |
Moves edge e to a different adjacency list. | |
void | moveTarget (edge e, node w) |
Moves the target node of edge e to node w . | |
void | moveTarget (edge e, adjEntry adjTgt, Direction dir) |
Moves the target node of edge e to a specific position in an adjacency list. | |
void | moveSource (edge e, node w) |
Moves the source node of edge e to node w . | |
void | moveSource (edge e, adjEntry adjSrc, Direction dir) |
Moves the source node of edge e to a specific position in an adjacency list. | |
edge | searchEdge (node v, node w, bool directed=false) const |
Searches and returns an edge connecting nodes v and w in time O( min(deg(v ), deg(w ))). | |
void | reverseEdge (edge e) |
Reverses the edge e , i.e., exchanges source and target node. | |
void | reverseAllEdges () |
Reverses all edges in the graph. | |
template<class NODELIST > | |
void | collapse (NODELIST &nodesToCollapse) |
Collapses all nodes in the list nodesToCollapse to the first node in the list. | |
template<class ADJ_ENTRY_LIST > | |
void | sort (node v, const ADJ_ENTRY_LIST &newOrder) |
Sorts the adjacency list of node v according to newOrder . | |
void | reverseAdjEdges (node v) |
Reverses the adjacency list of v . | |
void | moveAdj (adjEntry adjMove, Direction dir, adjEntry adjPos) |
Moves adjacency entry adjMove before or after adjPos . | |
void | moveAdjAfter (adjEntry adjMove, adjEntry adjAfter) |
Moves adjacency entry adjMove after adjAfter . | |
void | moveAdjBefore (adjEntry adjMove, adjEntry adjBefore) |
Moves adjacency entry adjMove before adjBefore . | |
void | reverseAdjEdges () |
Reverses all adjacency lists. | |
void | swapAdjEdges (adjEntry adj1, adjEntry adj2) |
Exchanges two entries in an adjacency list. | |
int | genus () const |
Returns the genus of the graph's embedding. | |
bool | representsCombEmbedding () const |
Returns true iff the graph represents a combinatorial embedding. | |
ListIterator< NodeArrayBase * > | registerArray (NodeArrayBase *pNodeArray) const |
Registers a node array. | |
ListIterator< EdgeArrayBase * > | registerArray (EdgeArrayBase *pEdgeArray) const |
Registers an edge array. | |
ListIterator< AdjEntryArrayBase * > | registerArray (AdjEntryArrayBase *pAdjArray) const |
Registers an adjEntry array. | |
ListIterator< GraphObserver * > | registerStructure (GraphObserver *pStructure) const |
Registers a graph observer (e.g. a ClusterGraph). | |
void | unregisterArray (ListIterator< NodeArrayBase * > it) const |
Unregisters a node array. | |
void | unregisterArray (ListIterator< EdgeArrayBase * > it) const |
Unregisters an edge array. | |
void | unregisterArray (ListIterator< AdjEntryArrayBase * > it) const |
Unregisters an adjEntry array. | |
void | unregisterStructure (ListIterator< GraphObserver * > it) const |
Unregisters a graph observer. | |
template<class ArrayBase > | |
void | moveRegisterArray (ListIterator< ArrayBase * > it, ArrayBase *pArray) const |
Move the registration it of an graph element array to pArray (used with move semantics for graph element arrays). | |
void | resetEdgeIdCount (int maxId) |
Resets the edge id count to maxId . | |
Graph & | operator= (const Graph &G) |
Assignment operator. | |
Protected Attributes | |
AdjEntryArray< bool > | m_alignUpward |
Protected Attributes inherited from ogdf::PlanRep | |
NodeArray< adjEntry > | m_boundaryAdj |
Graph::CCsInfo | m_ccInfo |
int | m_currentCC |
The index of the current component. | |
EdgeArray< edge > | m_eAuxCopy |
EdgeArray< edgeType > | m_edgeTypes |
EdgeArray< EdgeType > | m_eType |
NodeArray< adjEntry > | m_expandAdj |
NodeArray< node > | m_expandedNode |
For all expansion nodes, save expanded node. | |
EdgeArray< int > | m_expansionEdge |
NodeArray< nodeType > | m_nodeTypes |
Node types for extended semantic information. | |
EdgeArray< edgeType > | m_oriEdgeTypes |
const GraphAttributes * | m_pGraphAttributes |
Pointer to graph attributes of original graph. | |
NodeArray< NodeType > | m_vType |
Simple node types. | |
Protected Attributes inherited from ogdf::GraphCopy | |
EdgeArray< List< edge > > | m_eCopy |
The corresponding list of edges in the graph copy. | |
EdgeArray< ListIterator< edge > > | m_eIterator |
The position of copy edge in the list. | |
EdgeArray< edge > | m_eOrig |
The corresponding edge in the original graph. | |
const Graph * | m_pGraph |
The original graph. | |
NodeArray< node > | m_vCopy |
The corresponding node in the graph copy. | |
NodeArray< node > | m_vOrig |
The corresponding node in the original graph. | |
Private Attributes | |
EdgeArray< bool > | m_faceSplitter |
Array< SList< node > > | m_incMergers |
Stores all incremental mergers in CC. | |
SListPure< edge > | m_mergeEdges |
const UMLGraph * | m_pUmlGraph |
Additional Inherited Members | |
Public Types inherited from ogdf::Graph | |
enum class | EdgeType { association = 0 , generalization = 1 , dependency = 2 } |
The type of edges (only used in derived classes). More... | |
enum class | NodeType { vertex = 0 , dummy = 1 , generalizationMerger = 2 , generalizationExpander = 3 , highDegreeExpander = 4 , lowDegreeExpander = 5 , associationClass = 6 } |
The type of nodes. More... | |
using | node_iterator = internal::GraphIterator< node > |
Provides a bidirectional iterator to a node in a graph. | |
using | edge_iterator = internal::GraphIterator< edge > |
Provides a bidirectional iterator to an edge in a graph. | |
using | adjEntry_iterator = internal::GraphIterator< adjEntry > |
Provides a bidirectional iterator to an entry in an adjacency list. | |
Public Attributes inherited from ogdf::Graph | |
internal::GraphObjectContainer< NodeElement > | nodes |
The container containing all node objects. | |
internal::GraphObjectContainer< EdgeElement > | edges |
The container containing all edge objects. | |
Planarized representation (of a connected component) of a UMLGraph; allows special handling of hierarchies in the graph.
Definition at line 48 of file PlanRepUML.h.
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explicit |
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inline |
Deconstruction.
Definition at line 58 of file PlanRepUML.h.
Definition at line 91 of file PlanRepUML.h.
Definition at line 93 of file PlanRepUML.h.
Expands nodes with degree > 4 and merge nodes for generalizations.
Reimplemented from ogdf::PlanRep.
Expands nodes with degree <= 4 and aligns opposite edges at degree 2 nodes.
Returns true if an edge splits a face into two subfaces to guarantee generalizations to be on opposite sides of a node.
Definition at line 64 of file PlanRepUML.h.
Definition at line 97 of file PlanRepUML.h.
Returns the list of inserted incremental mergers.
Definition at line 82 of file PlanRepUML.h.
node ogdf::PlanRepUML::insertGenMerger | ( | node | v, |
const SList< edge > & | inGens, | ||
CombinatorialEmbedding & | E | ||
) |
Inserts a generalization merge node for all incoming generalizations of v
and returns its conserving embedding.
|
protected |
|
inline |
Removes all face splitting edges.
Definition at line 67 of file PlanRepUML.h.
void ogdf::PlanRepUML::setupIncremental | ( | int | indexCC, |
CombinatorialEmbedding & | E | ||
) |
Initializes incremental stuff, e.g. insert incremental mergers.
Splits edge e.
Reimplemented from ogdf::PlanRep.
Reimplemented in ogdf::PlanRepInc.
Definition at line 119 of file PlanRepUML.h.
Writes attributed graph in GML format to file fileName
(for debugging only)
void ogdf::PlanRepUML::writeGML | ( | const char * | fileName, |
const OrthoRep & | OR, | ||
const GridLayoutMapped & | drawing | ||
) |
void ogdf::PlanRepUML::writeGML | ( | const char * | fileName, |
const OrthoRep & | OR, | ||
const Layout & | drawing | ||
) |
void ogdf::PlanRepUML::writeGML | ( | const char * | fileName, |
GraphAttributes & | AG | ||
) |
Writes attributed graph in GML format to output stream os
(for debugging only)
void ogdf::PlanRepUML::writeGML | ( | std::ostream & | os, |
const OrthoRep & | OR, | ||
const GridLayoutMapped & | drawing | ||
) |
|
protected |
Definition at line 159 of file PlanRepUML.h.
Definition at line 164 of file PlanRepUML.h.
Stores all incremental mergers in CC.
Definition at line 167 of file PlanRepUML.h.
Definition at line 166 of file PlanRepUML.h.
Definition at line 162 of file PlanRepUML.h.