Modifier and Type | Method and Description |
---|---|
void |
ChunkActivationComparator.setChunkTypeRequest(ChunkTypeRequest p)
Sets the pattern attribute of the IChunkActivationComparator object
|
Modifier and Type | Field and Description |
---|---|
protected java.lang.ref.SoftReference<ChunkTypeRequest> |
DefaultSubsymbolicChunk5._lastPattern
last pattern used to calculate similarity activation
|
Modifier and Type | Method and Description |
---|---|
protected double |
DefaultSubsymbolicChunk5.computeSimilarityActivation(ChunkTypeRequest p)
Description of the Method
|
double |
ISubsymbolicChunk5.getActivation(ChunkTypeRequest retr)
Return the activation given this pattern.
|
double |
DefaultSubsymbolicChunk5.getActivation(ChunkTypeRequest p)
Gets the Activation attribute of the DefaultSubsymbolicChunk5 object
|
Modifier and Type | Method and Description |
---|---|
java.util.concurrent.CompletableFuture<java.util.Collection<IChunk>> |
IDeclarativeModule.findExactMatches(ChunkTypeRequest request,
java.util.Comparator<IChunk> sorter,
IChunkFilter filter)
search DM for all the chunks that match pattern, sorting using sorter, that
are above activationThreshold
|
java.util.concurrent.CompletableFuture<java.util.Collection<IChunk>> |
IDeclarativeModule.findPartialMatches(ChunkTypeRequest request,
java.util.Comparator<IChunk> sorter,
IChunkFilter filter)
search DM for all the chunks that partially match
|
Modifier and Type | Method and Description |
---|---|
java.util.concurrent.CompletableFuture<java.util.Collection<IChunk>> |
DefaultDeclarativeModule.findExactMatches(ChunkTypeRequest request,
java.util.Comparator<IChunk> sorter,
IChunkFilter filter) |
protected java.util.Collection<IChunk> |
DefaultDeclarativeModule.findExactMatchesInternal(ChunkTypeRequest pattern,
java.util.Comparator<IChunk> sorter,
IChunkFilter filter) |
java.util.concurrent.CompletableFuture<java.util.Collection<IChunk>> |
DefaultDeclarativeModule.findPartialMatches(ChunkTypeRequest request,
java.util.Comparator<IChunk> sorter,
IChunkFilter filter) |
protected java.util.Collection<IChunk> |
DefaultDeclarativeModule.findPartialMatchesInternal(ChunkTypeRequest pattern,
java.util.Comparator<IChunk> sorter,
IChunkFilter filter) |
Modifier and Type | Method and Description |
---|---|
java.util.Collection<IChunk> |
ISearchSystem.findExact(ChunkTypeRequest pattern,
java.util.Comparator<IChunk> sortRule,
IChunkFilter filter)
return all I that match this pattern exactly
|
java.util.Collection<IChunk> |
ISearchSystem.findFuzzy(ChunkTypeRequest pattern,
java.util.Comparator<IChunk> sortRule,
IChunkFilter filter)
find all I that match this pattern somewhat
|
Constructor and Description |
---|
PartialMatchActivationFilter(ActivationPolicy policy,
ChunkTypeRequest request,
double threshold,
boolean logEvaluations) |
PartialMatchActivationFilter(ChunkTypeRequest request,
double threshold) |
Modifier and Type | Method and Description |
---|---|
java.util.SortedSet<IChunk> |
DefaultSearchSystem.findExact(ChunkTypeRequest pattern,
java.util.Comparator<IChunk> sortRule,
IChunkFilter filter)
this implementation fails fast
|
protected java.util.Collection<IChunk> |
DefaultSearchSystem.findExactPooledThreads(ChunkTypeRequest pattern) |
protected java.util.SortedSet<IChunk> |
DefaultSearchSystem.findExactSingleThreaded(ChunkTypeRequest pattern,
java.util.Comparator<IChunk> sortRule,
IChunkFilter filter) |
java.util.SortedSet<IChunk> |
DefaultSearchSystem.findFuzzy(ChunkTypeRequest pattern,
java.util.Comparator<IChunk> sortRule,
IChunkFilter filter) |
Modifier and Type | Method and Description |
---|---|
java.util.concurrent.CompletableFuture<IChunk> |
IRetrievalModule.retrieveChunk(ChunkTypeRequest chunkRequest) |
Modifier and Type | Method and Description |
---|---|
ChunkTypeRequest |
RetrievalModuleEvent.getChunkTypeRequest() |
Constructor and Description |
---|
RetrievalModuleEvent(IRetrievalModule source,
ChunkTypeRequest pattern) |
RetrievalModuleEvent(IRetrievalModule source,
ChunkTypeRequest pattern,
IChunk chunk,
double retrievalTime) |
Modifier and Type | Method and Description |
---|---|
protected void |
DefaultRetrievalModule6.fireCompleted(ChunkTypeRequest pattern,
IChunk chunk,
double retrievalTime) |
protected void |
DefaultRetrievalModule6.fireInitiated(ChunkTypeRequest pattern) |
java.util.concurrent.CompletableFuture<IChunk> |
DefaultRetrievalModule6.retrieveChunk(ChunkTypeRequest chunkPattern) |
protected IChunk |
DefaultRetrievalModule6.retrieveChunkInternal(IDeclarativeModule dm,
ChunkTypeRequest pattern) |
protected IChunk |
DefaultRetrievalModule6.selectRetrieval(java.util.Collection<IChunk> results,
IChunk errorChunk,
ChunkTypeRequest originalRequest,
ChunkTypeRequest cleanedRequest)
choose the best matching result from the colleciton
|
Modifier and Type | Method and Description |
---|---|
double |
IRetrievalTimeEquation.computeRetrievalTime(IChunk retrievedChunk,
ChunkTypeRequest retrievalRequest)
compute the retrieval time of retrievedChunk relative to retrievalRequest
if partial matching is enabled.
|
double |
DefaultRetrievalTimeEquation.computeRetrievalTime(IChunk retrievedChunk,
ChunkTypeRequest retrievalRequest) |
double |
CompetitiveRetrievalTimeEquation.computeRetrievalTime(IChunk retrievedChunk,
ChunkTypeRequest retrievalRequest) |
Modifier and Type | Method and Description |
---|---|
ChunkTypeRequest |
ChunkTypeCondition.getRequest() |
Modifier and Type | Class and Description |
---|---|
class |
ChunkRequest |
Modifier and Type | Method and Description |
---|---|
ChunkTypeRequest |
ChunkTypeRequest.clone() |
Modifier and Type | Method and Description |
---|---|
java.util.concurrent.CompletableFuture<java.util.Collection<IChunk>> |
DelegatedDeclarativeModule.findExactMatches(ChunkTypeRequest request,
java.util.Comparator<IChunk> sorter,
IChunkFilter filter) |
java.util.concurrent.CompletableFuture<java.util.Collection<IChunk>> |
DelegatedDeclarativeModule.findPartialMatches(ChunkTypeRequest request,
java.util.Comparator<IChunk> sorter,
IChunkFilter filter) |
Modifier and Type | Method and Description |
---|---|
java.util.concurrent.Future<PerceptualSearchResult> |
IPerceptualMemoryModule.search(ChunkTypeRequest request,
double requestTime,
boolean isStuffRequest)
search perceptual memory, returning some result in the future
|
Modifier and Type | Method and Description |
---|---|
protected void |
DefaultAuralMemory.fillIndexChunk(IChunk indexChunk,
IChunk encodedChunk,
ChunkTypeRequest originalRequest,
ChunkTypeRequest expandedRequest) |
protected boolean |
DefaultAuralMemory.isAcceptable(IChunk encodedChunk,
ChunkTypeRequest originalRequest) |
Modifier and Type | Method and Description |
---|---|
java.util.Comparator<ChunkTypeRequest> |
NearestAuralFilter.getComparator() |
java.util.Comparator<ChunkTypeRequest> |
AttendedAudioEventFilter.getComparator()
no comparator is used (how would you sort new, old, attended ?)
|
Modifier and Type | Method and Description |
---|---|
boolean |
NearestAuralFilter.accept(ChunkTypeRequest template) |
boolean |
AttendedAudioEventFilter.accept(ChunkTypeRequest template)
if we've gotten this far, then always accept
|
protected java.lang.Double |
NearestAuralFilter.compute(ChunkTypeRequest request) |
protected java.lang.Boolean |
AttendedAudioEventFilter.compute(ChunkTypeRequest request) |
protected IChunk |
NearestAuralFilter.getVisualLocation(ChunkTypeRequest request) |
IIndexFilter |
NearestAuralFilter.instantiate(ChunkTypeRequest request) |
IIndexFilter |
AttendedAudioEventFilter.instantiate(ChunkTypeRequest request) |
void |
AttendedAudioEventFilter.normalizeRequest(ChunkTypeRequest request) |
Modifier and Type | Method and Description |
---|---|
void |
KindFeatureMap.fillSlotValues(ChunkTypeRequest mutableRequest,
IIdentifier identifier,
IChunk encodedChunk,
ChunkTypeRequest originalSearchRequest) |
void |
FINSTAuralFeatureMap.fillSlotValues(ChunkTypeRequest mutableRequest,
IIdentifier identifier,
IChunk encodedChunk,
ChunkTypeRequest originalSearchRequest) |
protected void |
OffsetFeatureMap.getCandidates(ChunkTypeRequest request,
java.util.Set<IIdentifier> results) |
protected void |
KindFeatureMap.getCandidates(ChunkTypeRequest request,
java.util.Set<IIdentifier> results) |
protected void |
AudibleFeatureMap.getCandidates(ChunkTypeRequest request,
java.util.Set<IIdentifier> results) |
protected boolean |
KindFeatureMap.kindMatchesPattern(ChunkTypeRequest pattern,
java.lang.Object kind) |
void |
OffsetFeatureMap.normalizeRequest(ChunkTypeRequest request) |
void |
KindFeatureMap.normalizeRequest(ChunkTypeRequest request) |
Modifier and Type | Method and Description |
---|---|
java.util.concurrent.Future<PerceptualSearchResult> |
DefaultAuralModule6.search(ChunkTypeRequest request,
double requestTime,
boolean isStuffRequest) |
Modifier and Type | Method and Description |
---|---|
ChunkTypeRequest |
PerceptualSearchResult.getLocationRequest() |
ChunkTypeRequest |
PerceptualSearchResult.getRequest() |
Modifier and Type | Method and Description |
---|---|
java.util.concurrent.Future<PerceptualSearchResult> |
IPerceptualMemory.search(ChunkTypeRequest request)
search perceptual memory for index chunks matching the request and tag the
location chunk with
IPerceptualMemory.SEARCH_RESULT_IDENTIFIER_KEY |
PerceptualSearchResult |
IPerceptualMemory.searchNow(ChunkTypeRequest request)
search perceptual memory immediately - this should only be called from the
CR processing thread
|
Constructor and Description |
---|
PerceptualSearchResult(IChunk perceptualChunk,
IChunk indexChunk,
IIdentifier identifier,
ChunkTypeRequest originalRequest,
ChunkTypeRequest expanded) |
Modifier and Type | Method and Description |
---|---|
java.util.Comparator<ChunkTypeRequest> |
NumericIndexFilter.getComparator() |
java.util.Comparator<ChunkTypeRequest> |
IIndexFilter.getComparator() |
Modifier and Type | Method and Description |
---|---|
boolean |
NumericIndexFilter.accept(ChunkTypeRequest template) |
boolean |
IIndexFilter.accept(ChunkTypeRequest template) |
protected java.lang.Double |
NumericIndexFilter.compute(ChunkTypeRequest request) |
protected abstract T |
AbstractIndexFilter.compute(ChunkTypeRequest request) |
protected T |
AbstractIndexFilter.get(ChunkTypeRequest request) |
IIndexFilter |
NumericIndexFilter.instantiate(ChunkTypeRequest request) |
IIndexFilter |
IIndexFilter.instantiate(ChunkTypeRequest request)
these are self-templating.
|
void |
IIndexFilter.normalizeRequest(ChunkTypeRequest request)
can be used to expand variables or special values
|
void |
AbstractIndexFilter.normalizeRequest(ChunkTypeRequest request) |
Modifier and Type | Method and Description |
---|---|
protected java.util.Comparator<ChunkTypeRequest> |
AbstractPerceptualMemory.createDefaultComparator()
create a default comparator when none is specified from the search request
or null.
|
Modifier and Type | Method and Description |
---|---|
protected void |
AbstractPerceptualMemory.fillIndexChunk(IChunk indexChunk,
IChunk encodedChunk,
ChunkTypeRequest originalRequest,
ChunkTypeRequest expandedRequest)
provides a hook to set the slot values of the returned index chunk in case
they are recycled..
|
protected boolean |
AbstractPerceptualMemory.isAcceptable(IChunk encodedChunk,
ChunkTypeRequest originalRequest)
hook to verify that an encoded chunk should be returned.
|
java.util.concurrent.Future<PerceptualSearchResult> |
AbstractPerceptualMemory.search(ChunkTypeRequest request)
search, merely delegates to searchInternal on the common reality executor
|
protected PerceptualSearchResult |
AbstractPerceptualMemory.searchInternal(ChunkTypeRequest request) |
PerceptualSearchResult |
AbstractPerceptualMemory.searchNow(ChunkTypeRequest request) |
Modifier and Type | Method and Description |
---|---|
protected PerceptualSearchResult |
AbstractPerceptualMemory.select(java.util.SortedMap<ChunkTypeRequest,PerceptualSearchResult> results)
select the best option.
|
Modifier and Type | Method and Description |
---|---|
void |
IFeatureMap.fillSlotValues(ChunkTypeRequest mutableRequest,
IIdentifier identifier,
IChunk encodedChunk,
ChunkTypeRequest originalSearchRequest)
fill the slot values accordingly for this identifier at the mutablePattern
location this is then used to further specify the actual location
chunk that will be returned
|
void |
DefaultFINSTFeatureMap.fillSlotValues(ChunkTypeRequest mutableRequest,
IIdentifier identifier,
IChunk encodedChunk,
ChunkTypeRequest originalSearchRequest) |
void |
AbstractFeatureMap.fillSlotValues(ChunkTypeRequest mutableRequest,
IIdentifier identifier,
IChunk encodedChunk,
ChunkTypeRequest originalSearchRequest) |
void |
IFeatureMap.getCandidateRealObjects(ChunkTypeRequest request,
java.util.Set<IIdentifier> container)
return all the identifiers of all possible objects that can exist at the
visual location defined by this search pattern if nothing is available, and
empty collection is to be returned
|
void |
DefaultFINSTFeatureMap.getCandidateRealObjects(ChunkTypeRequest request,
java.util.Set<IIdentifier> container) |
void |
AbstractFeatureMap.getCandidateRealObjects(ChunkTypeRequest request,
java.util.Set<IIdentifier> container) |
protected void |
AbstractSortedFeatureMap.getCandidates(ChunkTypeRequest request,
java.util.Set<IIdentifier> results) |
protected abstract void |
AbstractFeatureMap.getCandidates(ChunkTypeRequest request,
java.util.Set<IIdentifier> results) |
boolean |
IFeatureMap.isInterestedIn(ChunkTypeRequest request) |
boolean |
DefaultFINSTFeatureMap.isInterestedIn(ChunkTypeRequest request) |
boolean |
AbstractFeatureMap.isInterestedIn(ChunkTypeRequest request)
is
AbstractFeatureMap.getRelevantSlotName() is not null, this will check to see if
the request contains that slot name. |
void |
IFeatureMap.normalizeRequest(ChunkTypeRequest request)
provides an opportunity to normalize any varialbes.
|
void |
DefaultFINSTFeatureMap.normalizeRequest(ChunkTypeRequest request) |
void |
AbstractSortedFeatureMap.normalizeRequest(ChunkTypeRequest request)
resolves lowest, highest
|
Modifier and Type | Method and Description |
---|---|
java.util.concurrent.Future<IMovement> |
IMotorModule.adjust(IMovement movement,
ChunkTypeRequest request,
double requestTime) |
java.util.concurrent.Future<IMovement> |
AbstractMotorModule.adjust(IMovement movement,
ChunkTypeRequest request,
double requestTime) |
boolean |
IMotorModule.canAbort(ChunkTypeRequest request) |
boolean |
AbstractMotorModule.canAbort(ChunkTypeRequest request) |
boolean |
IMotorModule.canAdjust(ChunkTypeRequest request) |
boolean |
AbstractMotorModule.canAdjust(ChunkTypeRequest request) |
boolean |
IMotorModule.canExecute(ChunkTypeRequest pattern) |
boolean |
AbstractMotorModule.canExecute(ChunkTypeRequest request) |
boolean |
IMotorModule.canPrepare(ChunkTypeRequest pattern)
return true if we could prepare this motor command
|
boolean |
AbstractMotorModule.canPrepare(ChunkTypeRequest request) |
java.util.concurrent.Future<IMovement> |
IMotorModule.prepare(ChunkTypeRequest pattern,
double requestTime,
boolean prepareOnly)
prepare a motor movement.
|
java.util.concurrent.Future<IMovement> |
AbstractMotorModule.prepare(ChunkTypeRequest pattern,
double requestTime,
boolean prepareOnly) |
Modifier and Type | Method and Description |
---|---|
static IMovement |
AbortRequestDelegate.getMovement(ChunkTypeRequest cRequest,
AbstractMotorModule motor)
returns the current movement associated with the muscle defined in this
request
|
Modifier and Type | Method and Description |
---|---|
ChunkTypeRequest |
IMovement.getChunkTypeRequest()
The defining chunk pattern
|
Modifier and Type | Method and Description |
---|---|
void |
ICommandTranslator.adjust(ChunkTypeRequest request,
DeltaTracker tracker,
IEfferentCommand command,
IModel model)
adjust a command midflight
|
void |
DefaultCommandTranslator.adjust(ChunkTypeRequest request,
DeltaTracker tracker,
IEfferentCommand command,
IModel model) |
protected ICommandTranslatorDelegate |
DefaultCommandTranslator.getDelegate(ChunkTypeRequest request) |
IEfferentObject |
ICommandTranslator.getMuscle(ChunkTypeRequest request,
IModel model)
translates a set of slot values into a
IEfferentObject that
represents a muscle defined within the pattern. |
IEfferentObject |
DefaultCommandTranslator.getMuscle(ChunkTypeRequest request,
IModel model) |
boolean |
ICommandTranslatorDelegate.handles(ChunkTypeRequest request)
returns true if this delegate can handle a command as specified by
this chunk pattern
|
IEfferentCommand |
ICommandTranslator.translate(ChunkTypeRequest request,
IEfferentObject muscle,
IModel model)
translate a
ChunkPattern into an appropriate
IEfferentCommand . |
IEfferentCommand |
DefaultCommandTranslator.translate(ChunkTypeRequest request,
IEfferentObject muscle,
IModel model) |
Modifier and Type | Method and Description |
---|---|
void |
AbstractTranslator.adjust(ChunkTypeRequest request,
DeltaTracker tracker,
IEfferentCommand command,
IModel model) |
IEfferentObject |
AbstractManualTranslator.getMuscle(ChunkTypeRequest request,
IModel model)
translates a set of slot values into a
IEfferentObject that
represents a muscle defined within the pattern. |
protected double[] |
PeckTranslator.getTarget(ChunkTypeRequest request,
IEfferentObject muscle) |
boolean |
PunchTranslator.handles(ChunkTypeRequest request) |
boolean |
PeckTranslator.handles(ChunkTypeRequest request) |
boolean |
PeckRecoilTranslator.handles(ChunkTypeRequest request) |
IEfferentCommand |
PunchTranslator.translate(ChunkTypeRequest request,
IEfferentObject muscle,
IModel model) |
IEfferentCommand |
PeckTranslator.translate(ChunkTypeRequest request,
IEfferentObject muscle,
IModel model) |
IEfferentCommand |
PeckRecoilTranslator.translate(ChunkTypeRequest request,
IEfferentObject muscle,
IModel model) |
Modifier and Type | Method and Description |
---|---|
ChunkTypeRequest |
Movement.getChunkTypeRequest() |
Modifier and Type | Method and Description |
---|---|
IMovement |
MotorCommandManager.adjust(IMovement movement,
ChunkTypeRequest request,
double requestTime)
nudge an executing movement.
|
boolean |
MotorCommandManager.canAbort(ChunkTypeRequest request) |
boolean |
MotorCommandManager.canAdjust(ChunkTypeRequest request) |
boolean |
MotorCommandManager.canExecute(ChunkTypeRequest request) |
boolean |
MotorCommandManager.canPrepare(ChunkTypeRequest request) |
IMovement |
MotorCommandManager.prepare(ChunkTypeRequest request,
double requestTime,
boolean prepareOnly) |
Constructor and Description |
---|
Movement(ChunkTypeRequest pattern,
IIdentifier muscleId,
AbstractMotorModule module) |
Modifier and Type | Method and Description |
---|---|
ChunkTypeRequest |
IVisualLocationBuffer.getDefaultSearch() |
Modifier and Type | Method and Description |
---|---|
void |
IVisualLocationBuffer.setDefaultSearch(ChunkTypeRequest ctr) |
Modifier and Type | Field and Description |
---|---|
protected ChunkTypeRequest |
DefaultVisualLocationBuffer6._defaultSearchRequest |
Modifier and Type | Method and Description |
---|---|
ChunkTypeRequest |
DefaultVisualLocationBuffer6.getDefaultSearch() |
Modifier and Type | Method and Description |
---|---|
void |
DefaultVisualLocationBuffer6.setDefaultSearch(ChunkTypeRequest request) |
Modifier and Type | Method and Description |
---|---|
protected void |
DefaultVisualMemory.fillIndexChunk(IChunk indexChunk,
IChunk encodedChunk,
ChunkTypeRequest originalRequest,
ChunkTypeRequest expandedRequest) |
protected boolean |
DefaultVisualMemory.isAcceptable(IChunk encodedChunk,
ChunkTypeRequest originalRequest)
return true if the chunk is a visual-object of some sort
|
PerceptualSearchResult |
DefaultVisualMemory.searchNow(ChunkTypeRequest request)
executes the visual search on the current thread.
|
Modifier and Type | Method and Description |
---|---|
java.util.Comparator<ChunkTypeRequest> |
VectorVisualLocationFilter.getComparator() |
java.util.Comparator<ChunkTypeRequest> |
ValueVisualLocationFilter.getComparator() |
java.util.Comparator<ChunkTypeRequest> |
NearestVisualLocationFilter.getComparator() |
java.util.Comparator<ChunkTypeRequest> |
AttendedVisualLocationFilter.getComparator()
no comparator is used (how would you sort new, old, attended ?)
|
Modifier and Type | Method and Description |
---|---|
boolean |
VectorVisualLocationFilter.accept(ChunkTypeRequest visualLocationTemplate) |
boolean |
ValueVisualLocationFilter.accept(ChunkTypeRequest template) |
boolean |
NearestVisualLocationFilter.accept(ChunkTypeRequest template) |
boolean |
AttendedVisualLocationFilter.accept(ChunkTypeRequest template)
if we've gotten this far, then always accept
|
protected java.lang.Double |
VectorVisualLocationFilter.compute(ChunkTypeRequest request) |
protected java.lang.Object |
ValueVisualLocationFilter.compute(ChunkTypeRequest request) |
protected java.lang.Double |
NearestVisualLocationFilter.compute(ChunkTypeRequest request) |
protected java.lang.Boolean |
AttendedVisualLocationFilter.compute(ChunkTypeRequest request) |
protected abstract T |
AbstractVisualLocationIndexFilter.compute(ChunkTypeRequest request) |
protected T |
AbstractVisualLocationIndexFilter.get(ChunkTypeRequest request) |
protected IChunk |
AbstractVisualLocationIndexFilter.getVisualLocation(ChunkTypeRequest request) |
IIndexFilter |
VectorVisualLocationFilter.instantiate(ChunkTypeRequest request) |
IIndexFilter |
ValueVisualLocationFilter.instantiate(ChunkTypeRequest request) |
IIndexFilter |
NearestVisualLocationFilter.instantiate(ChunkTypeRequest request) |
IIndexFilter |
AttendedVisualLocationFilter.instantiate(ChunkTypeRequest request) |
void |
VectorVisualLocationFilter.normalizeRequest(ChunkTypeRequest request) |
void |
ValueVisualLocationFilter.normalizeRequest(ChunkTypeRequest request) |
void |
NearestVisualLocationFilter.normalizeRequest(ChunkTypeRequest searchRequest) |
void |
AttendedVisualLocationFilter.normalizeRequest(ChunkTypeRequest request) |
Modifier and Type | Method and Description |
---|---|
protected boolean |
ColorFeatureMap.colorMatchesPattern(Color color,
ChunkTypeRequest request) |
void |
SizeFeatureMap.fillSlotValues(ChunkTypeRequest mutableRequest,
IIdentifier identifier,
IChunk encodedChunk,
ChunkTypeRequest originalSearchRequest) |
void |
KindFeatureMap.fillSlotValues(ChunkTypeRequest mutableRequest,
IIdentifier identifier,
IChunk encodedChunk,
ChunkTypeRequest originalSearchRequest) |
void |
FINSTVisualFeatureMap.fillSlotValues(ChunkTypeRequest mutableRequest,
IIdentifier identifier,
IChunk encodedChunk,
ChunkTypeRequest originalSearchRequest) |
void |
ColorFeatureMap.fillSlotValues(ChunkTypeRequest mutableRequest,
IIdentifier identifier,
IChunk encodedChunk,
ChunkTypeRequest originalSearchRequest) |
protected void |
VisibilityFeatureMap.getCandidates(ChunkTypeRequest request,
java.util.Set<IIdentifier> results) |
protected void |
ValueFeatureMap.getCandidates(ChunkTypeRequest request,
java.util.Set<IIdentifier> results) |
protected void |
KindFeatureMap.getCandidates(ChunkTypeRequest request,
java.util.Set<IIdentifier> results) |
protected void |
DimensionFeatureMap.getCandidates(ChunkTypeRequest request,
java.util.Set<IIdentifier> results) |
protected void |
ColorFeatureMap.getCandidates(ChunkTypeRequest request,
java.util.Set<IIdentifier> results) |
boolean |
VisibilityFeatureMap.isInterestedIn(ChunkTypeRequest request)
this feature map isn't used in visual searches
|
boolean |
DimensionFeatureMap.isInterestedIn(ChunkTypeRequest request)
this feature map isn't used in visual searches
|
protected boolean |
KindFeatureMap.kindMatchesPattern(ChunkTypeRequest pattern,
java.lang.Object kind) |
void |
ValueFeatureMap.normalizeRequest(ChunkTypeRequest request) |
void |
KindFeatureMap.normalizeRequest(ChunkTypeRequest request) |
void |
DimensionFeatureMap.normalizeRequest(ChunkTypeRequest request) |
void |
ColorFeatureMap.normalizeRequest(ChunkTypeRequest request) |
Modifier and Type | Method and Description |
---|---|
java.util.concurrent.Future<PerceptualSearchResult> |
DefaultVisualModule6.search(ChunkTypeRequest pattern,
double requestTime,
boolean isStuffRequest) |
Modifier and Type | Method and Description |
---|---|
protected void |
ProcessVocalizationDelegate.finalizeProcessingInternal(ChunkTypeRequest pattern,
IChunk result,
java.lang.Object... parameters)
Deprecated.
|
protected void |
PrepareVocalizationDelegate.finalizeProcessingInternal(ChunkTypeRequest pattern,
IChunk result,
java.lang.Object... parameters)
Deprecated.
|
protected void |
ExecuteVocalizationDelegate.finalizeProcessingInternal(ChunkTypeRequest pattern,
IChunk result,
java.lang.Object... parameters)
Deprecated.
|
protected abstract void |
AbstractVocalDelegate.finalizeProcessingInternal(ChunkTypeRequest pattern,
IChunk result,
java.lang.Object... parameters)
Deprecated.
|