VESolver

Value Members

1. final def !=(arg0: Any): Boolean

   

   Definition Classes

   AnyRef → Any

2. final def ##(): Int

   

   Definition Classes

   AnyRef → Any

3. final def ==(arg0: Any): Boolean

   

   Definition Classes

   AnyRef → Any

4. var active: Boolean

   

   Attributes

   protected

   Definition Classes

   Algorithm

5. final def asInstanceOf[T0]: T0

   

   Definition Classes

   Any

6. def cleanUp(): Unit

   

   Called when the algorithm is killed.

   Called when the algorithm is killed. By default, does nothing. Can be overridden.

   Definition Classes

   Algorithm

7. def clone(): AnyRef

   

   Attributes

   protected[java.lang]

   Definition Classes

   AnyRef

   Annotations

   @throws( ... )

8. val comparator: Option[(Double, Double) ⇒ Boolean]

   

   Some variable elimination algorithms, such as computing the most probable explanation, record values of variables as they are eliminated.

   Some variable elimination algorithms, such as computing the most probable explanation, record values of variables as they are eliminated. Such values are stored in a factor that maps values of the other variables to a value of the eliminated variable. This factor is produced by finding the value of the variable that "maximizes" the entry associated with the value in the product factor resulting from eliminating this variable, for some maximization function. The recordingFunction determines which of two entries is greater according to the maximization function. It returns true iff the second entry is greater. The recording function is an option so that variable elimination algorithms that do not use it can ignore it.

   Definition Classes

   VESolver → VariableElimination

9. var debug: Boolean

   

   By default, implementations that inherit this trait have no debug information.

   By default, implementations that inherit this trait have no debug information. Override this if you want a debugging option.

   Definition Classes

   VariableElimination

10. val dependentAlgorithm: (Universe, List[NamedEvidence[_]]) ⇒ () ⇒ Double

    

    The algorithm to compute probability of specified evidence in a dependent universe.

    The algorithm to compute probability of specified evidence in a dependent universe. We use () => Double to represent this algorithm instead of an instance of ProbEvidenceAlgorithm. Typical usage is to return the result of ProbEvidenceAlgorithm.computeProbEvidence when invoked.

    Definition Classes

    VESolver → FactoredAlgorithm

11. val dependentUniverses: List[(Universe, List[NamedEvidence[_]])]

    

    A list of universes that depend on this universe such that evidence on those universes should be taken into account in this universe.

    A list of universes that depend on this universe such that evidence on those universes should be taken into account in this universe.

    Definition Classes

    VESolver → FactoredAlgorithm

12. def doElimination(allFactors: List[Factor[Double]], targetVariables: Seq[Variable[_]]): Unit

    

    Attributes

    protected

    Definition Classes

    VariableElimination

13. def doKill(): Unit

    

    Attributes

    protected[com.cra.figaro.algorithm]

    Definition Classes

    OneTime → Algorithm

14. def doResume(): Unit

    

    Attributes

    protected[com.cra.figaro.algorithm]

    Definition Classes

    OneTime → Algorithm

15. def doStart(): Unit

    

    Attributes

    protected[com.cra.figaro.algorithm]

    Definition Classes

    OneTime → Algorithm

16. def doStop(): Unit

    

    Attributes

    protected[com.cra.figaro.algorithm]

    Definition Classes

    OneTime → Algorithm

17. def eliminateInOrder(order: List[Variable[_]], factors: MultiSet[Factor[Double]], map: FactorMap[Double]): MultiSet[Factor[Double]]

    

    Attributes

    protected

    Definition Classes

    VariableElimination

18. final def eq(arg0: AnyRef): Boolean

    

    Definition Classes

    AnyRef

19. def equals(arg0: Any): Boolean

    

    Definition Classes

    AnyRef → Any

20. def finalize(): Unit

    

    Attributes

    protected[java.lang]

    Definition Classes

    AnyRef

    Annotations

    @throws( classOf[java.lang.Throwable] )

21. def finish(factorsAfterElimination: MultiSet[Factor[Double]], eliminationOrder: List[Variable[_]]): Unit

    

    All implementation of variable elimination must specify what to do after variables have been eliminated.

    All implementation of variable elimination must specify what to do after variables have been eliminated.

    Definition Classes

    VESolver → VariableElimination

22. def finishMax(factorsAfterElimination: MultiSet[Factor[Double]], eliminationOrder: List[Variable[_]]): Unit

    

23. def finishSum(factorsAfterElimination: MultiSet[Factor[Double]], eliminationOrder: List[Variable[_]]): Unit

    

24. final def getClass(): Class[_]

    

    Definition Classes

    AnyRef → Any

25. def getFactors(neededElements: List[Element[_]], targetElements: List[Element[_]], upperBounds: Boolean): List[Factor[Double]]

    

    All implementations of factored algorithms must specify a way to get the factors from the given universe and dependent universes.

    All implementations of factored algorithms must specify a way to get the factors from the given universe and dependent universes.

    Definition Classes

    VESolver → FactoredAlgorithm

26. def getNeededElements(starterElements: List[Element[_]], depth: Int, parameterized: Boolean = false): (List[Element[_]], Boolean)

    

    Get the elements that are needed by the query target variables and the evidence variables.

    Get the elements that are needed by the query target variables and the evidence variables. Also compute the values of those variables to the given depth. Only get factors for elements that are actually used by the target variables. This is more efficient. Also, it avoids problems when values of unused elements have not been computed.

    In addition to getting all the needed elements, it determines if any of the conditioned, constrained, or dependent universe parent elements has * in its range. If any of these elements has * in its range, the lower and upper bounds of factors will be different, so we need to compute both. If they don't, we don't need to compute bounds.

    Definition Classes

    FactoredAlgorithm

27. def go(): (List[Factor[Double]], Map[Variable[_], Factor[_]])

    

28. def hashCode(): Int

    

    Definition Classes

    AnyRef → Any

29. def initialFactorMap(factors: Traversable[Factor[Double]]): FactorMap[Double]

    

    Attributes

    protected

    Definition Classes

    VariableElimination

30. def initialize(): Unit

    

    Called when the algorithm is started before running any steps.

    Called when the algorithm is started before running any steps. By default, does nothing. Can be overridden.

    Definition Classes

    Algorithm

31. def isActive: Boolean

    

    Definition Classes

    Algorithm

32. final def isInstanceOf[T0]: Boolean

    

    Definition Classes

    Any

33. def kill(): Unit

    

    Kill the algorithm so that it is inactive.

    Kill the algorithm so that it is inactive. It will no longer be able to provide answers.Throws AlgorithmInactiveException if the algorithm is not active.

    Definition Classes

    Algorithm

34. final def ne(arg0: AnyRef): Boolean

    

    Definition Classes

    AnyRef

35. final def notify(): Unit

    

    Definition Classes

    AnyRef

36. final def notifyAll(): Unit

    

    Definition Classes

    AnyRef

37. var recordingFactors: List[Factor[_]]

    

    Attributes

    protected

    Definition Classes

    VariableElimination

38. def resume(): Unit

    

    Resume the computation of the algorithm, if it has been stopped.

    Resume the computation of the algorithm, if it has been stopped. Throws AlgorithmInactiveException if the algorithm is not active.

    Definition Classes

    Algorithm

39. def run(): Unit

    

    Run the algorithm, performing its computation to completion.

    Run the algorithm, performing its computation to completion.

    Definition Classes

    VariableElimination → OneTime

40. val semiring: Semiring[Double]

    

    The sum, product operations on the factor types and appropriate values for zero and one must be defined.

    The sum, product operations on the factor types and appropriate values for zero and one must be defined.

    Definition Classes

    VESolver → FactoredAlgorithm

41. val showTiming: Boolean

    

    Flag indicating whether the run time of each step should be displayed.

    Flag indicating whether the run time of each step should be displayed.

    Definition Classes

    VESolver → VariableElimination

42. def start(): Unit

    

    Start the algorithm and make it active.

    Start the algorithm and make it active. After it returns, the algorithm must be ready to provide answers. Throws AlgorithmActiveException if the algorithm is already active.

    Definition Classes

    Algorithm

43. def starterElements: List[Element[_]]

    

    Elements towards which queries are directed.

    Elements towards which queries are directed. By default, these are the target elements. This is overridden by DecisionVariableElimination, where it also includes utility variables.

    Definition Classes

    VariableElimination

44. def stop(): Unit

    

    Stop the algorithm from computing.

    Stop the algorithm from computing. The algorithm is still ready to provide answers after it returns. Throws AlgorithmInactiveException if the algorithm is not active.

    Definition Classes

    Algorithm

45. final def synchronized[T0](arg0: ⇒ T0): T0

    

    Definition Classes

    AnyRef

46. val targetElements: List[Element[_]]

    

    Target elements that should not be eliminated but should be available for querying.

    Target elements that should not be eliminated but should be available for querying.

    Definition Classes

    VESolver → VariableElimination

47. var targetFactors: Map[Element[_], Factor[Double]]

    

    Attributes

    protected[com.cra.figaro]

    Definition Classes

    VariableElimination

48. def toString(): String

    

    Definition Classes

    AnyRef → Any

49. val universe: Universe

    

    The universe on which this variable elimination algorithm should be applied.

    The universe on which this variable elimination algorithm should be applied.

    Definition Classes

    VESolver → VariableElimination → FactoredAlgorithm

50. final def wait(): Unit

    

    Definition Classes

    AnyRef

    Annotations

    @throws( ... )

51. final def wait(arg0: Long, arg1: Int): Unit

    

    Definition Classes

    AnyRef

    Annotations

    @throws( ... )

52. final def wait(arg0: Long): Unit

    

    Definition Classes

    AnyRef

    Annotations

    @throws( ... )