class DualIso extends GraphMatcher
The DualIso
class provides an implementation for Subgraph Isomorphism
that uses Dual Graph Simulation for pruning.
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- final def !=(arg0: Any): Boolean
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- val CHECK: Int
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- val LIMIT: Double
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- val SELF_LOOPS: Boolean
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- final def asInstanceOf[T0]: T0
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- def bijections(): Set[Array[Int]]
Apply the Dual Subgraph Isomorphism algorithm to find subgraphs of data graph 'g' that isomorphically match query graph 'q'.
Apply the Dual Subgraph Isomorphism algorithm to find subgraphs of data graph 'g' that isomorphically match query graph 'q'. These are represented by a set of single-valued bijections {'psi'} where each 'psi' function maps each query graph vertex 'u' to a data graph vertices 'v'.
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- DualIso → GraphMatcher
- def clone(): AnyRef
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- @throws(classOf[java.lang.CloneNotSupportedException]) @native() @HotSpotIntrinsicCandidate()
- def disjoint(set1: Set[Int], set2: Set[Int]): Boolean
Determine whether two sets are disjoint, i.e., have an empty intersection.
Determine whether two sets are disjoint, i.e., have an empty intersection.
- set1
the first set
- set2
the second set
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- GraphMatcher
- final def eq(arg0: AnyRef): Boolean
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- def equals(arg0: AnyRef): Boolean
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- def feasibleMates(): Array[Set[Int]]
Create an initial array of feasible mappings 'phi' from each query vertex 'u' to the corresponding set of data graph vertices '{v}' whose label matches 'u's.
Create an initial array of feasible mappings 'phi' from each query vertex 'u' to the corresponding set of data graph vertices '{v}' whose label matches 'u's.
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- GraphMatcher
- final def getClass(): Class[_ <: AnyRef]
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- def mappings(): Array[Set[Int]]
Apply the Dual Subgraph Isomorphism pattern matching algorithm to find the mappings from the query graph 'q' to the data graph 'g'.
Apply the Dual Subgraph Isomorphism pattern matching algorithm to find the mappings from the query graph 'q' to the data graph 'g'. These are represented by a multi-valued function 'phi' that maps each query graph vertex 'u' to a set of data graph vertices '{v}'.
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- DualIso → GraphMatcher
- final def ne(arg0: AnyRef): Boolean
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- final def notify(): Unit
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- def numMatches: Int
Return the count of the number of matches.
- def overlaps(set1: Set[Int], set2: Set[Int]): Boolean
Determine whether two sets overlap, i.e., have a non-empty intersection.
Determine whether two sets overlap, i.e., have a non-empty intersection.
- set1
the first set
- set2
the second set
- Definition Classes
- GraphMatcher
- def prune(phi: Array[Set[Int]]): Array[Set[Int]]
The 'prune' is not needed, pruning is delegated to incorporated graph simulation algorithm.
The 'prune' is not needed, pruning is delegated to incorporated graph simulation algorithm.
- phi
array of mappings from a query vertex u_q to { graph vertices v_g }
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- DualIso → GraphMatcher
- val qRange: Range
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- GraphMatcher
- def setLimit(_limit: Int): Unit
Set an upper bound on the number matches to allow before quitting.
Set an upper bound on the number matches to allow before quitting.
- _limit
the number of matches before quitting
- def showMappings(phi: Array[Set[Int]]): Unit
Show the mappings between a query graph vertex u and a set of data graph vertices {v}.
Show the mappings between a query graph vertex u and a set of data graph vertices {v}.
- phi
the set-valued mapping function
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- GraphMatcher
- final def synchronized[T0](arg0: => T0): T0
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- def test(name: String, ans: Array[Set[Int]] = null): Unit
Test the graph pattern matcher.
Test the graph pattern matcher.
- name
the name of graph pattern matcher
- ans
the correct answer
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- def toString(): String
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- final def wait(arg0: Long, arg1: Int): Unit
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