mxGraph 2.3.0.0


com.mxgraph.analysis
Class mxGraphGenerator

java.lang.Object
  extended by com.mxgraph.analysis.mxGraphGenerator

public class mxGraphGenerator
extends Object


Constructor Summary
mxGraphGenerator(mxGeneratorFunction generatorFunction, mxCostFunction costFunction)
           
 
Method Summary
 void getBipartiteGraph(mxAnalysisGraph aGraph, int numVerticesGroup1, int numVerticesGroup2)
           
 void getCompleteBipartiteGraph(mxAnalysisGraph aGraph, int numVerticesGroup1, int numVerticesGroup2)
           
 void getCompleteGraph(mxAnalysisGraph aGraph, int numVertices)
           
 mxCostFunction getCostFunction()
           
 void getFriendshipWindmillGraph(mxAnalysisGraph aGraph, int numBranches, int branchSize)
           
 mxGeneratorFunction getGeneratorFunction()
           
static mxGeneratorFunction getGeneratorFunction(mxGraph graph, boolean weighted, double minWeight, double maxWeight)
           
 void getGridGraph(mxAnalysisGraph aGraph, int numColumns, int numRows)
           
 void getKingGraph(mxAnalysisGraph aGraph, int xDim, int yDim)
           
 Object[] getKingMoveVertexes(mxAnalysisGraph aGraph, int xDim, int yDim, int xCoord, int yCoord)
           
 void getKnightGraph(mxAnalysisGraph aGraph, int xDim, int yDim)
           
 Object[] getKnightMoveVertexes(mxAnalysisGraph aGraph, int xDim, int yDim, int xCoord, int yCoord)
           
 void getKnightTour(mxAnalysisGraph aGraph, int xDim, int yDim, int startVertexValue)
           
 Double getNewEdgeValue(mxAnalysisGraph aGraph)
          Creates a new edge value based on graph properties in mxAnalysisGraph.
 void getNullGraph(mxAnalysisGraph aGraph, int numVertices)
           
 void getPathGraph(mxAnalysisGraph aGraph, int numVertices)
           
 void getPetersenGraph(mxAnalysisGraph aGraph)
           
 int getRandomInt(int minValue, int maxValue)
           
 void getSimpleRandomGraph(mxAnalysisGraph aGraph, int numNodes, int numEdges, boolean allowSelfLoops, boolean allowMultipleEdges, boolean forceConnected)
          Generates a random graph
 void getSimpleRandomTree(mxAnalysisGraph aGraph, int vertexCount)
          Generates a random tree graph
 void getStarGraph(mxAnalysisGraph aGraph, int numVertices)
           
 int[] getVertexGridCoords(int xDim, int yDim, int value)
          use this only with the grid graph, and various chess-board graphs, because of vertex ordering
 void getWheelGraph(mxAnalysisGraph aGraph, int numVertices)
           
 void getWindmillGraph(mxAnalysisGraph aGraph, int numBranches, int branchSize)
           
 void oneSpanningTree(mxAnalysisGraph aGraph, boolean forceConnected, boolean forceSimple)
           
 void setBipartiteGraphSpacing(mxAnalysisGraph aGraph, int numVerticesGroup1, int numVerticesGroup2, double vertexSpacing, double groupSpacing)
          Sets the physical spacing between vertices in a bipartite graph.
 void setCostFunction(mxCostFunction costFunction)
           
 void setGridGraphSpacing(mxAnalysisGraph aGraph, double xSpacing, double ySpacing, int numColumns, int numRows)
          Sets the physical spacing between vertices in a grid graph.
 void setPathGraphSpacing(mxAnalysisGraph aGraph, double spacing)
          Sets the physical spacing between vertices in a path graph.
 void setStarGraphLayout(mxAnalysisGraph aGraph, double graphSize)
          Sets the physical size of a star graph.
 void setWindmillGraphLayout(mxAnalysisGraph aGraph, int numBranches, int numVerticesInBranch, double graphSize)
          Sets the layout of a windmill graph.
 
Methods inherited from class java.lang.Object
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait
 

Constructor Detail

mxGraphGenerator

public mxGraphGenerator(mxGeneratorFunction generatorFunction,
                        mxCostFunction costFunction)
Method Detail

getNullGraph

public void getNullGraph(mxAnalysisGraph aGraph,
                         int numVertices)
Parameters:
aGraph -
numVertexes -

getCompleteGraph

public void getCompleteGraph(mxAnalysisGraph aGraph,
                             int numVertices)
Parameters:
aGraph -
numVertices - number of vertices

getGridGraph

public void getGridGraph(mxAnalysisGraph aGraph,
                         int numColumns,
                         int numRows)
Parameters:
aGraph -
numRows - - number of rows in the grid graph
numColumns - - number of columns in the grid graph

setGridGraphSpacing

public void setGridGraphSpacing(mxAnalysisGraph aGraph,
                                double xSpacing,
                                double ySpacing,
                                int numColumns,
                                int numRows)
Sets the physical spacing between vertices in a grid graph. This works for now only for a graph generated with mxGraphCreator.getGridGraph() only after creating the graph

Parameters:
aGraph -
xSpacing - - horizontal spacing between vertices
ySpacing - - vertical spacing between vertices
numRows - - number of rows in the grid graph
numColumns - - number of columns in the grid graph

getBipartiteGraph

public void getBipartiteGraph(mxAnalysisGraph aGraph,
                              int numVerticesGroup1,
                              int numVerticesGroup2)
Parameters:
aGraph -
numVerticesGroup1 - number of vertices in group 1
numVerticesGroup2 - number of vertices in group 2

setBipartiteGraphSpacing

public void setBipartiteGraphSpacing(mxAnalysisGraph aGraph,
                                     int numVerticesGroup1,
                                     int numVerticesGroup2,
                                     double vertexSpacing,
                                     double groupSpacing)
Sets the physical spacing between vertices in a bipartite graph. This works for now only for a graph generated with mxGraphCreator.getBipartiteGraph() only after creating the graph

Parameters:
aGraph -
numVerticesGroup1 - - number of vertices in group 1
numVerticesGroup2 - - number of vertices in group 2
vertexSpacing - - vertical spacing between vertices in the same group
groupSpacing - - spacing between groups

getCompleteBipartiteGraph

public void getCompleteBipartiteGraph(mxAnalysisGraph aGraph,
                                      int numVerticesGroup1,
                                      int numVerticesGroup2)
Parameters:
aGraph -
numVerticesGroup1 - number of vertices in group 1
numVerticesGroup2 - number of vertices in group 2

getKnightGraph

public void getKnightGraph(mxAnalysisGraph aGraph,
                           int xDim,
                           int yDim)
Parameters:
aGraph -
xDim -
yDim -

getKnightMoveVertexes

public Object[] getKnightMoveVertexes(mxAnalysisGraph aGraph,
                                      int xDim,
                                      int yDim,
                                      int xCoord,
                                      int yCoord)
Parameters:
aGraph -
xDim - x dimension of chess-board, size starts from 1
yDim - y dimension of chess-board, size starts from 1
xCoord - x coordinate on the chess-board, coordinate starts from 1
yCoord - y coordinate on the chess-board, coordinate starts from 1
Returns:
a list of ALL vertexes which would be valid moves from the current position, regardless if they were visited or not Note that both dimensions and both coordinates must be positive

getVertexGridCoords

public int[] getVertexGridCoords(int xDim,
                                 int yDim,
                                 int value)
use this only with the grid graph, and various chess-board graphs, because of vertex ordering

Parameters:
xDim - x dimension of chess-board, size starts from 1
yDim - y dimension of chess-board, size starts from 1
value - value of the vertex that needs coordinates returned
Returns:
int[x,y] where x and y are the coordinates in the grid or chess-board Note that both dimensions must be positive

getKingGraph

public void getKingGraph(mxAnalysisGraph aGraph,
                         int xDim,
                         int yDim)
Parameters:
xDim -
yDim -
weights - Return a king graph of size xDim x yDim Note that the minimum size is 4x4

getKingMoveVertexes

public Object[] getKingMoveVertexes(mxAnalysisGraph aGraph,
                                    int xDim,
                                    int yDim,
                                    int xCoord,
                                    int yCoord)
Parameters:
aGraph -
xDim - x dimension of the chessboard
yDim - y dimension of the chessboard
xCoord - the current x position of the king
yCoord - the current y position of the king
Returns:
list of all possible moves of a king from the specified position Note that both dimensions and both coordinates must be positive

getPetersenGraph

public void getPetersenGraph(mxAnalysisGraph aGraph)
Parameters:
aGraph - Returns a Petersen graph

getPathGraph

public void getPathGraph(mxAnalysisGraph aGraph,
                         int numVertices)
Parameters:
aGraph -
numVertices - Returns a path graph

setPathGraphSpacing

public void setPathGraphSpacing(mxAnalysisGraph aGraph,
                                double spacing)
Sets the physical spacing between vertices in a path graph. This works for now only for a graph generated with mxGraphCreator.getPathGraph() only after creating the graph

Parameters:
aGraph -
spacing -

getStarGraph

public void getStarGraph(mxAnalysisGraph aGraph,
                         int numVertices)
Parameters:
aGraph -
numVertices - Returns a star graph Note that minimum vertex number is 4

setStarGraphLayout

public void setStarGraphLayout(mxAnalysisGraph aGraph,
                               double graphSize)
Sets the physical size of a star graph. This works for now only for a graph generated with mxGraphCreator.getStarGraph() and getWheelGraph()

Parameters:
aGraph -
graphSize -

getWheelGraph

public void getWheelGraph(mxAnalysisGraph aGraph,
                          int numVertices)
Parameters:
aGraph -
numVertices - Returns a wheel graph. Note that numVertices has to be at least 4.

getFriendshipWindmillGraph

public void getFriendshipWindmillGraph(mxAnalysisGraph aGraph,
                                       int numBranches,
                                       int branchSize)
Parameters:
aGraph -
numBranches - number of branches (minimum >= 2)
branchSize - number of vertices in a single branch (minimum >= 2) Returns a friendship windmill graph (aka Dutch windmill)

getWindmillGraph

public void getWindmillGraph(mxAnalysisGraph aGraph,
                             int numBranches,
                             int branchSize)
Parameters:
aGraph -
numBranches - - number of branches (minimum >= 2)
branchSize - - number of vertices in a single branch (minimum >= 2) Returns a windmill graph

setWindmillGraphLayout

public void setWindmillGraphLayout(mxAnalysisGraph aGraph,
                                   int numBranches,
                                   int numVerticesInBranch,
                                   double graphSize)
Sets the layout of a windmill graph. Use this method only for graphs generated with mxGraphGenerator.getWindmillGraph() and getFriendshitWindmillGraph()

Parameters:
aGraph -
numBranches -
numVerticesInBranch -
graphSize -

getSimpleRandomGraph

public void getSimpleRandomGraph(mxAnalysisGraph aGraph,
                                 int numNodes,
                                 int numEdges,
                                 boolean allowSelfLoops,
                                 boolean allowMultipleEdges,
                                 boolean forceConnected)
Generates a random graph

Parameters:
aGraph -
numNodes - number of vertexes
numEdges - number of edges (may be inaccurate if forceConnected is set to true
allowSelfLoops - if true, there will be a chance that self loops will be generated too
allowMultipleEdges - if true, there will be a chance that multiple edges will be generated (multiple edges between the same two vertices)
forceConnected - if true the resulting graph will be always connected, but this may alter numEdges

getSimpleRandomTree

public void getSimpleRandomTree(mxAnalysisGraph aGraph,
                                int vertexCount)
Generates a random tree graph

Parameters:
aGraph -
vertexCount -

getNewEdgeValue

public Double getNewEdgeValue(mxAnalysisGraph aGraph)
Creates a new edge value based on graph properties in mxAnalysisGraph. Used mostly when creating new edges during graph generation.

Parameters:
aGraph -
Returns:

getGeneratorFunction

public static mxGeneratorFunction getGeneratorFunction(mxGraph graph,
                                                       boolean weighted,
                                                       double minWeight,
                                                       double maxWeight)
Parameters:
graph -
weighted - if true, the edges will be weighted, otherwise all will have default value (1.0)
minWeight - minimum edge weight if weighted
maxWeight - maximum edge weight if weighted
Returns:
a generator function

getGeneratorFunction

public mxGeneratorFunction getGeneratorFunction()

getRandomInt

public int getRandomInt(int minValue,
                        int maxValue)
Parameters:
minValue -
maxValue -
Returns:
a random integer in the interval [minValue, maxValue]

oneSpanningTree

public void oneSpanningTree(mxAnalysisGraph aGraph,
                            boolean forceConnected,
                            boolean forceSimple)
                     throws StructuralException
Parameters:
graph -
forceConnected - if true, an unconnected graph is made connected
forceSimple - if true, a non-simple graph is made simple Calculates one spanning tree of graph, which doesn't have to be but can be minimal (this is faster than minimal spanning tree, so if you need any spanning tree, use this one) Self loops and multiple edges are automatically removed! Also, unconnected graphs are made connected!
Throws:
StructuralException - the graph has to be simple (no self-loops and no multiple edges)

getKnightTour

public void getKnightTour(mxAnalysisGraph aGraph,
                          int xDim,
                          int yDim,
                          int startVertexValue)
                   throws StructuralException
Parameters:
aGraph -
xDim - x dimension of the chessboard
yDim - y dimension of the chessboard
startVertexValue - vertex where the tour will start
Throws:
StructuralException - not all size combinations are allowed, see wikipedia for a more detailed explanation Returns a Knight's Tour graph

getCostFunction

public mxCostFunction getCostFunction()

setCostFunction

public void setCostFunction(mxCostFunction costFunction)

mxGraph 2.3.0.0


Copyright (c) 2010 Gaudenz Alder, David Benson. All rights reserved.