eu.bandm.sig.adlib2

Interface IntClockedSignalSource

All Superinterfaces:

AbstractClockedSignalSource, AbstractSignalSource, CompilableControlFlow, CompilableDataFlow, Component, IntSignalSource, IntSupplier, Process

All Known Subinterfaces:

EnumClockedSignalSource<E>

All Known Implementing Classes:

CompilableEnumStoredSignalSource, CompilableIntStoredSignalSource, EnumDelay, EnumStoredSignalSource, IntClockedSignalSource.AbstractRandom, IntDelay, IntMultiDelay, IntStoredSignalSource

public interface IntClockedSignalSource
extends IntSignalSource, AbstractClockedSignalSource

Interface of a signal (time-dependent value) source of primitive type int whose observable state is driven by a clock.

This interface excludes signal sources whose state changes asynchronously, but is neutral with respect to whether values are computed on the fly when demanded, or stored when available and then just retrieved.

The operation of the driving clock works as specified by the Process superinterface. For example, a main loop may use the following pattern:

 RealtimeContext rc = ...;
 IntClockedSignalSource c = ...;
 c.init();
 while (...) {
   c.step(rc);
   int v = c.getAsInt();
   ...
 }
 

Every iteration of the main loop increases the clock index of the component c. The behavior of instances of this interface is typically specified in terms of the current clock index.

See Also:

Process

Nested Class Summary

Nested Classes

Modifier and Type	Interface and Description
static class	IntClockedSignalSource.AbstractRandom

Nested classes/interfaces inherited from interface eu.bandm.sig.adlib2.Process

Process.Proxy

Field Summary

Fields inherited from interface eu.bandm.sig.adlib2.AbstractClockedSignalSource

STREAM_CHARACTERISTICS, STREAM_SIZE

Method Summary

Modifier and Type	Method and Description
static IntClockedSignalSource	adHoc(int... elems) Returns a new signal source that produces the given values, one per clock tick.
default IntClockedSignalSource	after(Process... slaves)
default IntClockedSignalSource	compile() Returns a new signal source that realizes the same behavior as this signal source with specialized code.
static IntClockedSignalSource	count(int from) Returns a new signal source whose value increases by one at every clock tick.
static IntClockedSignalSource	countdown(int from) Returns a new signal source whose value decreases by one at every clock tick.
static IntClockedSignalSource	cycle(int... elems) Returns a new signal source that produces the given values repeatedly, one per clock tick.
static IntClockedSignalSourceFraction	dt(Optional<ConstantRealtimeContext> rc)
default IntClockedSignalSource	during(Register outer)
static IntClockedSignalSource	ofSpliterator(Supplier<? extends Spliterator.OfInt> spliterator, IntSupplier afterwards)
static IntClockedSignalSource	ofStream(Supplier<? extends IntStream> stream)
static IntClockedSignalSource	ofStream(Supplier<? extends IntStream> stream, IntSupplier afterwards)
static IntClockedSignalSource	random()
static IntClockedSignalSource	random(long seed)
static IntClockedSignalSource	random(OptionalLong seed)
default Spliterator.OfInt	spliterator(Supplier<? extends RealtimeContext> context)
default IntStream	stream(Supplier<? extends RealtimeContext> context)

Methods inherited from interface eu.bandm.sig.adlib2.IntSignalSource

abs, add, choose, choose, choose, choose, clock, compileDataFlow, compileMainSignalSource, constant, delayed, delayed, delayedFeedback, delayedFeedback, divide, equal, getAsInt, getConstantAsInt, getValueClass, greaterOrEqual, greaterThan, guard, hasConstantAsInt, invariant, lessOrEqual, lessThan, map, max, min, modulo, multiply, negate, negative, nonEqual, nonnegative, nonpositive, nonzero, positive, power, probe, publishStoredValueVariable, relateWith, sampleAndHold, stored, subtract, zero, zipWith

Methods inherited from interface eu.bandm.sig.adlib2.compile.CompilableDataFlow

compileDataFlowTo, hasDataFlowIO

Methods inherited from interface eu.bandm.sig.adlib2.Process

afterEvery, andThen, compileAsMainProcess, compileControlFlow, compileInitialization, every, getProcess, hasControlFlowIO, hasInitializationIO, init, probe, sequence, sequence, step

Method Detail

after

default IntClockedSignalSource after(Process... slaves)

during

default IntClockedSignalSource during(Register outer)

adHoc

@SafeVarargs
static IntClockedSignalSource adHoc(int... elems)

Returns a new signal source that produces the given values, one per clock tick.

After the given values are exhausted, that is after as many clock ticks as there are elements in the array, the default value of the element type is held indefinitely.

At clock index n, this.getAsInt() == (n < elems.length ? elems[n] : 0) holds.

Parameters:

elems - the array of values to produce

cycle

@SafeVarargs
static IntClockedSignalSource cycle(int... elems)

Returns a new signal source that produces the given values repeatedly, one per clock tick.

When the given values are exhausted the iteration starts over.

At clock index n, this.getAsInt() == elems[n % elems.length] holds.

Parameters:

elems - the array of values to produce

compile

default IntClockedSignalSource compile()

Returns a new signal source that realizes the same behavior as this signal source with specialized code.

The resulting object displays the same long-term behavior (reaction with output values to realtime events) as this signal source. Its internal state is undefined phase until initialized properly.

Specialized JVM byte code is generated, and a new class is loaded for the implementation. It can be expected to execute more efficiently than the original after a warm-up phase, subject to the usual conditions of JVM just-in-time compilation. Hence compilation is recommended for components to be used in tight long-running loops, but not for one-off or infrequent computations.

The original and the compiled instance do not share state phase or memory; their life cycles are independent except for shared non-compilable components. For the latter reason, it is recommended not to use both instances concurrently.

Specified by:

compile in interface Process

stream

default IntStream stream(Supplier<? extends RealtimeContext> context)

spliterator

default Spliterator.OfInt spliterator(Supplier<? extends RealtimeContext> context)

ofStream

static IntClockedSignalSource ofStream(Supplier<? extends IntStream> stream)

ofStream

static IntClockedSignalSource ofStream(Supplier<? extends IntStream> stream,
                                       IntSupplier afterwards)

ofSpliterator

static IntClockedSignalSource ofSpliterator(Supplier<? extends Spliterator.OfInt> spliterator,
                                            IntSupplier afterwards)

count

static IntClockedSignalSource count(int from)

Returns a new signal source whose value increases by one at every clock tick.

Initialization resets the value to the given initial value.

At clock index n, this.getAsInt() == from + n holds.

Parameters:

from - the value at the first clock tick after initialization

countdown

static IntClockedSignalSource countdown(int from)

Returns a new signal source whose value decreases by one at every clock tick. The value stops at zero, and does not decrease further to become negative.

Initialization resets the value to the given initial value.

At clock index n, this.getAsInt() == Math.max(from - n, 0) holds.

Parameters:

from - the value at the first clock tick after initialization

Throws:

IllegalArgumentException - if from is negative

dt

static IntClockedSignalSourceFraction dt(Optional<ConstantRealtimeContext> rc)

random

@Undocumented
static IntClockedSignalSource random(long seed)

random

@Undocumented
static IntClockedSignalSource random()

random

@Undocumented
static IntClockedSignalSource random(OptionalLong seed)