Class ConstantPropagationStore

java.lang.Object
org.checkerframework.dataflow.constantpropagation.ConstantPropagationStore
All Implemented Interfaces:
Store<ConstantPropagationStore>

public class ConstantPropagationStore extends Object implements Store<ConstantPropagationStore>
A store that records information about constant values.
  • Constructor Details

    • ConstantPropagationStore

      public ConstantPropagationStore()
      Creates a new ConstantPropagationStore.
    • ConstantPropagationStore

      protected ConstantPropagationStore(Map<Node,Constant> contents)
  • Method Details

    • getInformation

      public Constant getInformation(Node n)
    • mergeInformation

      public void mergeInformation(Node n, Constant val)
    • setInformation

      public void setInformation(Node n, Constant val)
    • copy

      public ConstantPropagationStore copy()
      Description copied from interface: Store
      Returns an exact copy of this store.
      Specified by:
      copy in interface Store<ConstantPropagationStore>
      Returns:
      an exact copy of this store
    • leastUpperBound

      public ConstantPropagationStore leastUpperBound(ConstantPropagationStore other)
      Description copied from interface: Store
      Compute the least upper bound of two stores.

      Important: This method must fulfill the following contract:

      • Does not change this.
      • Does not change other.
      • Returns a fresh object which is not aliased yet.
      • Returns an object of the same (dynamic) type as this, even if the signature is more permissive.
      • Is commutative.
      Specified by:
      leastUpperBound in interface Store<ConstantPropagationStore>
    • widenedUpperBound

      public ConstantPropagationStore widenedUpperBound(ConstantPropagationStore previous)
      Description copied from interface: Store
      Compute an upper bound of two stores that is wider than the least upper bound of the two stores. Used to jump to a higher abstraction to allow faster termination of the fixed point computations in Analysis. previous must be the previous store.

      A particular analysis might not require widening and should implement this method by calling leastUpperBound.

      Important: This method must fulfill the following contract:

      • Does not change this.
      • Does not change previous.
      • Returns a fresh object which is not aliased yet.
      • Returns an object of the same (dynamic) type as this, even if the signature is more permissive.
      • Is commutative.
      Specified by:
      widenedUpperBound in interface Store<ConstantPropagationStore>
      Parameters:
      previous - must be the previous store
    • equals

      public boolean equals(@Nullable Object o)
      Description copied from interface: Store
      Returns true if this is equal to the given argument.
      Specified by:
      equals in interface Store<ConstantPropagationStore>
      Overrides:
      equals in class Object
      Parameters:
      o - the object to compare against this
      Returns:
      true if this is equal to the given argument
    • hashCode

      public int hashCode()
      Overrides:
      hashCode in class Object
    • toString

      public String toString()
      Overrides:
      toString in class Object
    • canAlias

      public boolean canAlias(JavaExpression a, JavaExpression b)
      Description copied from interface: Store
      Can the objects a and b be aliases? Returns a conservative answer (i.e., returns true if not enough information is available to determine aliasing).
      Specified by:
      canAlias in interface Store<ConstantPropagationStore>
    • visualize

      public String visualize(CFGVisualizer<?,ConstantPropagationStore,?> viz)
      Description copied from interface: Store
      Delegate visualization responsibility to a visualizer.
      Specified by:
      visualize in interface Store<ConstantPropagationStore>
      Parameters:
      viz - the visualizer to visualize this store
      Returns:
      the String representation of this store