Packages

c

scalation.graph_db

MinSpanningTree

class MinSpanningTree extends Error

The MinSpanningTree class is used to build minimum cost spanning trees from graphs. Edge cost/weights are given by edge labels. MinSpanningTree implements Prim's algorithm.

See also

www.cse.ust.hk/~dekai/271/notes/L07/L07.pdf

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Instance Constructors

  1. new MinSpanningTree(g: MGraph[Double], min: Boolean = true, undirected: Boolean = true)

    g

    the multi-digraph to build the spanning tree from

    min

    whether to to create a minimum (true) or maximum (false) spanning tree

    undirected

    whether the graph is already undirected

Type Members

  1. case class Elem(idx: Int, key: Double) extends Product with Serializable

    The Elem class is used for ordering elements on a priority queue.

    The Elem class is used for ordering elements on a priority queue.

    idx

    the index of a node

    key

    the ordering key (based on cost) for a node

Value Members

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  20. def makeITree(): Array[Int]

    Make an inverted tree by recording the predecessor/parent array.

    Make an inverted tree by recording the predecessor/parent array. Each note except the root will have one parent. See pseudo-code on p. 28

    See also

    www.cse.ust.hk/~dekai/271/notes/L07/L07.pdf

  21. final def ne(arg0: AnyRef): Boolean
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  23. final def notifyAll(): Unit
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  24. def printSTree(): Unit

    Print the spanning tree.

  25. def printStackTrace(arg0: PrintWriter): Unit
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  26. def printStackTrace(arg0: PrintStream): Unit
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  27. def printStackTrace(): Unit
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  28. def setStackTrace(arg0: Array[StackTraceElement]): Unit
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  29. def span(): Tree[Double]

    Create a minimum cost spanning tree for the given graph, returning true if a complete spanning tree connecting all of g's vertices can be created.

  30. final def synchronized[T0](arg0: ⇒ T0): T0
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  31. def toString(): String
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  32. final def wait(): Unit
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  35. object NodeOrder extends Ordering[Elem]

    The NodeOrder object defines the order of node indices based on their 'key' value.

    The NodeOrder object defines the order of node indices based on their 'key' value. Using -key to get "smallest first" in priority queue. This is for minimum spanning trees ('min' = true)

  36. object NodeOrder2 extends Ordering[Elem]

    The NodeOrder object defines the order of node indices based on their 'key' value.

    The NodeOrder object defines the order of node indices based on their 'key' value. Using +key to get "largest first" in priority queue. This is for maximum spanning trees ('min' = false)

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