Interface | Description |
---|---|
CausalityInterface |
This interface defines a causality interfaces for actor networks as
described in the paper "Causality Interfaces for Actor Networks" by
Ye Zhou and Edward A.
|
CQComparator |
This interface extends the java.util.Comparator interface, which
defines the compare() method.
|
Dependency |
This interface provides a dependency for causality interfaces as described
in the paper "Causality Interfaces for Actor Networks" by Ye Zhou and
Edward A.
|
ExplicitChangeContext |
An entity that implements an explicit change context declares a
change context, in which parameters are modified.
|
PeriodicDirector |
Interface for directors that have a period parameter.
|
Class | Description |
---|---|
ActorDependencies |
Utilities for data dependencies between actors.
|
ActorTypeUtil |
This class includes a number of utility methods and classes that
simplify the generation of type constraints.
|
ArrayElementTypeFunction |
This class implements a monotonic function that returns the element
type of its argument, if the argument is an array type.
|
ArrayOfTypesFunction |
This class implements a monotonic function that returns an array type
with the element type equal to its argument.
|
BooleanDependency |
This dependency represents causal relationships that are either
present or not.
|
BreakCausalityInterface |
This class provides a causality interface
where no output port depends on any input port.
|
CalendarQueue |
This class implements a fast priority queue.
|
CausalityInterfaceForComposites |
This class elaborates its base class by providing an algorithm for inferring
the causality interface of a composite actor from the causality interfaces
of its component actors and their interconnection topology.
|
ConstructAssociativeType |
A function that, given a list of ports, returns a
StructuredType
of which the fields names and field types correspond with the given ports. |
ConstVariableModelAnalysis |
An analysis that traverses a model to determine all the constant
variables in a hierarchical model.
|
DefaultCausalityInterface |
This class provides causality interfaces for actor networks as described
in the paper "Causality Interfaces for Actor Networks" by Ye Zhou and
Edward A.
|
DependencyDeclaration |
An instance of DependencyDeclaration is an attribute that declares
variable dependence information of a parameter.
|
DFUtilities |
This class factors code out of the SDF domain, for use in different
schedulers, so that they can be implemented in a consistent fashion.
|
DFUtilities.NamedObjComparator |
A comparator for named objects.
|
ExtractFieldType |
A partial monotonic function of the given port that returns a type
associated with the given field name, to be found in the type definition
of the port.
|
FIFOQueue |
A first-in, first-out (FIFO) queue with variable capacity and optional
history.
|
FreeVariableModelAnalysis |
An analysis that traverses a model to determine all the free variables
in a hierarchical model.
|
FuzzyDoubleComparator | Deprecated
As Ptolemy II 4.1, use GeneralComparator instead.
|
GeneralComparator |
This class compares two comparable objects, object_1 and object_2,
by calling compare(object_1, object_2).
|
GLBFunction |
This class implements a monotonic function that returns the greatest
lower bound (GLB) of its arguments.
|
PeriodicDirectorHelper |
This is a helper class for directors implementing PeriodicDirector.
|
RealDependency |
This dependency represents causal relationships that have a real value
or are infinite.
|
SuperdenseDependency |
This dependency represents causal relationships that have a real value
and a superdense time index.
|
SuperdenseTime |
This class defines the structure of superdense time used in domains having
time involved in computation.
|
Time |
An object of the Time class represents time in a model.
|
TimedEvent |
This class aggregates an instance of Time and an Object, and provides a CQComparator
as an inner class.
|
TimedEvent.TimeComparator |
This class implements the CQComparator interface.
|
TotallyOrderedSet |
An object of this class is a totally ordered set with an increasing order.
|