package org.opendaylight.yangtools.yang.parser.stmt.reactor;
import static com.google.common.base.Preconditions.checkArgument;
-import static com.google.common.base.Preconditions.checkNotNull;
import static com.google.common.base.Preconditions.checkState;
import static com.google.common.base.Verify.verify;
+import static com.google.common.base.Verify.verifyNotNull;
import static java.util.Objects.requireNonNull;
import com.google.common.annotations.Beta;
-import com.google.common.base.MoreObjects;
-import com.google.common.base.MoreObjects.ToStringHelper;
+import com.google.common.base.VerifyException;
import com.google.common.collect.ImmutableCollection;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMultimap;
import java.util.EventListener;
import java.util.Iterator;
import java.util.List;
-import java.util.Map;
import java.util.Map.Entry;
-import java.util.Objects;
import java.util.Optional;
-import java.util.Set;
+import java.util.stream.Stream;
import org.eclipse.jdt.annotation.NonNull;
-import org.eclipse.jdt.annotation.Nullable;
-import org.opendaylight.yangtools.yang.common.QName;
import org.opendaylight.yangtools.yang.common.QNameModule;
-import org.opendaylight.yangtools.yang.common.YangVersion;
-import org.opendaylight.yangtools.yang.model.api.SchemaPath;
import org.opendaylight.yangtools.yang.model.api.meta.DeclaredStatement;
import org.opendaylight.yangtools.yang.model.api.meta.EffectiveStatement;
-import org.opendaylight.yangtools.yang.model.api.meta.IdentifierNamespace;
import org.opendaylight.yangtools.yang.model.api.meta.StatementDefinition;
-import org.opendaylight.yangtools.yang.model.api.meta.StatementSource;
-import org.opendaylight.yangtools.yang.model.api.stmt.AugmentStatement;
-import org.opendaylight.yangtools.yang.model.api.stmt.ConfigStatement;
-import org.opendaylight.yangtools.yang.model.api.stmt.DeviationStatement;
-import org.opendaylight.yangtools.yang.model.api.stmt.RefineStatement;
-import org.opendaylight.yangtools.yang.model.api.stmt.SchemaNodeIdentifier;
-import org.opendaylight.yangtools.yang.model.api.stmt.UsesStatement;
-import org.opendaylight.yangtools.yang.model.repo.api.SourceIdentifier;
import org.opendaylight.yangtools.yang.parser.spi.meta.CopyHistory;
import org.opendaylight.yangtools.yang.parser.spi.meta.CopyType;
import org.opendaylight.yangtools.yang.parser.spi.meta.ImplicitParentAwareStatementSupport;
-import org.opendaylight.yangtools.yang.parser.spi.meta.InferenceException;
import org.opendaylight.yangtools.yang.parser.spi.meta.ModelActionBuilder;
import org.opendaylight.yangtools.yang.parser.spi.meta.ModelProcessingPhase;
+import org.opendaylight.yangtools.yang.parser.spi.meta.ModelProcessingPhase.ExecutionOrder;
import org.opendaylight.yangtools.yang.parser.spi.meta.MutableStatement;
import org.opendaylight.yangtools.yang.parser.spi.meta.NamespaceBehaviour;
-import org.opendaylight.yangtools.yang.parser.spi.meta.NamespaceBehaviour.Registry;
import org.opendaylight.yangtools.yang.parser.spi.meta.NamespaceKeyCriterion;
-import org.opendaylight.yangtools.yang.parser.spi.meta.NamespaceNotAvailableException;
+import org.opendaylight.yangtools.yang.parser.spi.meta.ParserNamespace;
+import org.opendaylight.yangtools.yang.parser.spi.meta.StatementFactory;
import org.opendaylight.yangtools.yang.parser.spi.meta.StatementNamespace;
import org.opendaylight.yangtools.yang.parser.spi.meta.StatementSupport;
import org.opendaylight.yangtools.yang.parser.spi.meta.StatementSupport.CopyPolicy;
import org.opendaylight.yangtools.yang.parser.spi.meta.StmtContext;
-import org.opendaylight.yangtools.yang.parser.spi.meta.StmtContext.Mutable;
-import org.opendaylight.yangtools.yang.parser.spi.meta.StmtContextUtils;
import org.opendaylight.yangtools.yang.parser.spi.source.ImplicitSubstatement;
import org.opendaylight.yangtools.yang.parser.spi.source.SourceException;
-import org.opendaylight.yangtools.yang.parser.spi.source.SupportedFeaturesNamespace;
-import org.opendaylight.yangtools.yang.parser.spi.source.SupportedFeaturesNamespace.SupportedFeatures;
import org.opendaylight.yangtools.yang.parser.stmt.reactor.NamespaceBehaviourWithListeners.KeyedValueAddedListener;
import org.opendaylight.yangtools.yang.parser.stmt.reactor.NamespaceBehaviourWithListeners.PredicateValueAddedListener;
import org.slf4j.Logger;
* @param <E> Effective Statement representation
*/
public abstract class StatementContextBase<A, D extends DeclaredStatement<A>, E extends EffectiveStatement<A, D>>
- extends NamespaceStorageSupport implements Mutable<A, D, E> {
+ extends ReactorStmtCtx<A, D, E> implements CopyHistory {
/**
* Event listener when an item is added to model namespace.
*/
private static final Logger LOG = LoggerFactory.getLogger(StatementContextBase.class);
- // Flag bit assignments
- private static final int IS_SUPPORTED_BY_FEATURES = 0x01;
- private static final int HAVE_SUPPORTED_BY_FEATURES = 0x02;
- private static final int IS_IGNORE_IF_FEATURE = 0x04;
- private static final int HAVE_IGNORE_IF_FEATURE = 0x08;
- // Note: these four are related
- private static final int IS_IGNORE_CONFIG = 0x10;
- private static final int HAVE_IGNORE_CONFIG = 0x20;
- private static final int IS_CONFIGURATION = 0x40;
- private static final int HAVE_CONFIGURATION = 0x80;
-
- // Have-and-set flag constants, also used as masks
- private static final int SET_SUPPORTED_BY_FEATURES = HAVE_SUPPORTED_BY_FEATURES | IS_SUPPORTED_BY_FEATURES;
- private static final int SET_CONFIGURATION = HAVE_CONFIGURATION | IS_CONFIGURATION;
- // Note: implies SET_CONFIGURATION, allowing fewer bit operations to be performed
- private static final int SET_IGNORE_CONFIG = HAVE_IGNORE_CONFIG | IS_IGNORE_CONFIG | SET_CONFIGURATION;
- private static final int SET_IGNORE_IF_FEATURE = HAVE_IGNORE_IF_FEATURE | IS_IGNORE_IF_FEATURE;
-
- private final CopyHistory copyHistory;
+ //
+ // {@link CopyHistory} encoded as a single byte. We still have 4 bits unused.
+ //
+ private static final byte COPY_LAST_TYPE_MASK = 0x03;
+ private static final byte COPY_ADDED_BY_USES = 0x04;
+ private static final byte COPY_ADDED_BY_AUGMENTATION = 0x08;
+ private static final byte COPY_ORIGINAL = 0x00;
+
+ private final byte copyHistory;
+
+ static {
+ final int copyTypes = CopyType.values().length;
+ // This implies CopyType.ordinal() is <= COPY_TYPE_MASK
+ verify(copyTypes == COPY_LAST_TYPE_MASK + 1, "Unexpected %s CopyType values", copyTypes);
+ }
+
// Note: this field can strictly be derived in InferredStatementContext, but it forms the basis of many of our
// operations, hence we want to keep it close by.
private final @NonNull StatementDefinitionContext<A, D, E> definition;
+ // TODO: consider keying by Byte equivalent of ExecutionOrder
private Multimap<ModelProcessingPhase, OnPhaseFinished> phaseListeners = ImmutableMultimap.of();
private Multimap<ModelProcessingPhase, ContextMutation> phaseMutation = ImmutableMultimap.of();
- private List<Mutable<?, ?, ?>> effective = ImmutableList.of();
- private List<StmtContext<?, ?, ?>> effectOfStatement = ImmutableList.of();
- private @Nullable ModelProcessingPhase completedPhase;
- private @Nullable E effectiveInstance;
-
- // Master flag controlling whether this context can yield an effective statement
- // FIXME: investigate the mechanics that are being supported by this, as it would be beneficial if we can get rid
- // of this flag -- eliminating the initial alignment shadow used by below gap-filler fields.
- private boolean isSupportedToBuildEffective = true;
-
- // Flag for use with AbstractResumedStatement. This is hiding in the alignment shadow created by above boolean
- private boolean fullyDefined;
-
- // Flags for use with SubstatementContext. These are hiding in the alignment shadow created by above boolean and
- // hence improve memory layout.
- private byte flags;
+ private List<StmtContext<?, ?, ?>> effectOfStatement = ImmutableList.of();
- // SchemaPath cache for use with SubstatementContext and InferredStatementContext. This hurts RootStatementContext
- // a bit in terms of size -- but those are only a few and SchemaPath is on its way out anyway.
- private volatile SchemaPath schemaPath;
+ /**
+ * {@link ModelProcessingPhase.ExecutionOrder} value of current {@link ModelProcessingPhase} of this statement.
+ */
+ private byte executionOrder;
// Copy constructor used by subclasses to implement reparent()
StatementContextBase(final StatementContextBase<A, D, E> original) {
+ super(original);
this.copyHistory = original.copyHistory;
this.definition = original.definition;
-
- this.isSupportedToBuildEffective = original.isSupportedToBuildEffective;
- this.fullyDefined = original.fullyDefined;
- this.completedPhase = original.completedPhase;
- this.flags = original.flags;
+ this.executionOrder = original.executionOrder;
}
StatementContextBase(final StatementDefinitionContext<A, D, E> def) {
this.definition = requireNonNull(def);
- this.copyHistory = CopyHistory.original();
+ this.copyHistory = COPY_ORIGINAL;
}
- StatementContextBase(final StatementDefinitionContext<A, D, E> def, final CopyHistory copyHistory) {
+ StatementContextBase(final StatementDefinitionContext<A, D, E> def, final CopyType copyType) {
this.definition = requireNonNull(def);
- this.copyHistory = requireNonNull(copyHistory);
+ this.copyHistory = (byte) copyFlags(copyType);
}
- @Override
- public Collection<? extends StmtContext<?, ?, ?>> getEffectOfStatement() {
- return effectOfStatement;
+ StatementContextBase(final StatementContextBase<A, D, E> prototype, final CopyType copyType) {
+ this.definition = prototype.definition;
+ this.copyHistory = (byte) (copyFlags(copyType) | prototype.copyHistory & ~COPY_LAST_TYPE_MASK);
}
- @Override
- public void addAsEffectOfStatement(final StmtContext<?, ?, ?> ctx) {
- if (effectOfStatement.isEmpty()) {
- effectOfStatement = new ArrayList<>(1);
+ private static int copyFlags(final CopyType copyType) {
+ return historyFlags(copyType) | copyType.ordinal();
+ }
+
+ private static byte historyFlags(final CopyType copyType) {
+ switch (copyType) {
+ case ADDED_BY_AUGMENTATION:
+ return COPY_ADDED_BY_AUGMENTATION;
+ case ADDED_BY_USES:
+ return COPY_ADDED_BY_USES;
+ case ADDED_BY_USES_AUGMENTATION:
+ return COPY_ADDED_BY_AUGMENTATION | COPY_ADDED_BY_USES;
+ case ORIGINAL:
+ return COPY_ORIGINAL;
+ default:
+ throw new VerifyException("Unhandled type " + copyType);
}
- effectOfStatement.add(ctx);
+ }
+
+ @Override
+ public Collection<? extends StmtContext<?, ?, ?>> getEffectOfStatement() {
+ return effectOfStatement;
}
@Override
effectOfStatement.addAll(ctxs);
}
- @Override
- public boolean isSupportedByFeatures() {
- final int fl = flags & SET_SUPPORTED_BY_FEATURES;
- if (fl != 0) {
- return fl == SET_SUPPORTED_BY_FEATURES;
- }
- if (isIgnoringIfFeatures()) {
- flags |= SET_SUPPORTED_BY_FEATURES;
- return true;
- }
-
- /*
- * If parent is supported, we need to check if-features statements of this context.
- */
- if (isParentSupportedByFeatures()) {
- // If the set of supported features has not been provided, all features are supported by default.
- final Set<QName> supportedFeatures = getFromNamespace(SupportedFeaturesNamespace.class,
- SupportedFeatures.SUPPORTED_FEATURES);
- if (supportedFeatures == null || StmtContextUtils.checkFeatureSupport(this, supportedFeatures)) {
- flags |= SET_SUPPORTED_BY_FEATURES;
- return true;
- }
- }
+ //
+ // CopyHistory integration
+ //
- // Either parent is not supported or this statement is not supported
- flags |= HAVE_SUPPORTED_BY_FEATURES;
- return false;
+ @Override
+ public final CopyHistory history() {
+ return this;
}
- protected abstract boolean isParentSupportedByFeatures();
-
@Override
- public boolean isSupportedToBuildEffective() {
- return isSupportedToBuildEffective;
+ public final boolean isAddedByUses() {
+ return (copyHistory & COPY_ADDED_BY_USES) != 0;
}
@Override
- public void setIsSupportedToBuildEffective(final boolean isSupportedToBuildEffective) {
- this.isSupportedToBuildEffective = isSupportedToBuildEffective;
+ public final boolean isAugmenting() {
+ return (copyHistory & COPY_ADDED_BY_AUGMENTATION) != 0;
}
@Override
- public CopyHistory getCopyHistory() {
- return copyHistory;
+ public final CopyType getLastOperation() {
+ return CopyType.values()[copyHistory & COPY_LAST_TYPE_MASK];
}
+ //
+ // Inference completion tracking
+ //
+
@Override
- public ModelProcessingPhase getCompletedPhase() {
- return completedPhase;
+ final byte executionOrder() {
+ return executionOrder;
}
// FIXME: this should be propagated through a correct constructor
@Deprecated
final void setCompletedPhase(final ModelProcessingPhase completedPhase) {
- this.completedPhase = completedPhase;
- }
-
- @Override
- public abstract StatementContextBase<?, ?, ?> getParentContext();
-
- /**
- * Returns the model root for this statement.
- *
- * @return root context of statement
- */
- @Override
- public abstract RootStatementContext<?, ?, ?> getRoot();
-
- @Override
- public final @NonNull Registry getBehaviourRegistry() {
- return getRoot().getBehaviourRegistryImpl();
- }
-
- @Override
- public final YangVersion getRootVersion() {
- return getRoot().getRootVersionImpl();
- }
-
- @Override
- public final void setRootVersion(final YangVersion version) {
- getRoot().setRootVersionImpl(version);
- }
-
- @Override
- public final void addMutableStmtToSeal(final MutableStatement mutableStatement) {
- getRoot().addMutableStmtToSealImpl(mutableStatement);
- }
-
- @Override
- public final void addRequiredSource(final SourceIdentifier dependency) {
- getRoot().addRequiredSourceImpl(dependency);
- }
-
- @Override
- public final void setRootIdentifier(final SourceIdentifier identifier) {
- getRoot().setRootIdentifierImpl(identifier);
- }
-
- @Override
- public final boolean isEnabledSemanticVersioning() {
- return getRoot().isEnabledSemanticVersioningImpl();
- }
-
- @Override
- public StatementSource getStatementSource() {
- return getStatementSourceReference().getStatementSource();
- }
-
- @Override
- public final <K, V, N extends IdentifierNamespace<K, V>> Map<K, V> getAllFromCurrentStmtCtxNamespace(
- final Class<N> type) {
- return getLocalNamespace(type);
+ this.executionOrder = completedPhase.executionOrder();
}
@Override
- public final <K, V, N extends IdentifierNamespace<K, V>> Map<K, V> getAllFromNamespace(final Class<N> type) {
- return getNamespace(type);
- }
-
- /**
- * Associate a value with a key within a namespace.
- *
- * @param type Namespace type
- * @param key Key
- * @param value value
- * @param <K> namespace key type
- * @param <V> namespace value type
- * @param <N> namespace type
- * @param <T> key type
- * @param <U> value type
- * @throws NamespaceNotAvailableException when the namespace is not available.
- */
- @Override
- public final <K, V, T extends K, U extends V, N extends IdentifierNamespace<K, V>> void addToNs(
- final Class<N> type, final T key, final U value) {
+ public final <K, V, T extends K, U extends V, N extends ParserNamespace<K, V>> void addToNs(
+ final Class<@NonNull N> type, final T key, final U value) {
addToNamespace(type, key, value);
}
- @Override
- public abstract Collection<? extends StatementContextBase<?, ?, ?>> mutableDeclaredSubstatements();
-
- /**
- * Return a value associated with specified key within a namespace.
- *
- * @param type Namespace type
- * @param key Key
- * @param <K> namespace key type
- * @param <V> namespace value type
- * @param <N> namespace type
- * @param <T> key type
- * @return Value, or null if there is no element
- * @throws NamespaceNotAvailableException when the namespace is not available.
- */
- @Override
- public final <K, V, T extends K, N extends IdentifierNamespace<K, V>> V getFromNamespace(final Class<N> type,
- final T key) {
- return getBehaviourRegistry().getNamespaceBehaviour(type).getFrom(this, key);
+ static final Collection<? extends Mutable<?, ?, ?>> mutableEffectiveSubstatements(
+ final List<ReactorStmtCtx<?, ?, ?>> effective) {
+ return effective instanceof ImmutableCollection ? effective : Collections.unmodifiableCollection(effective);
}
- @Override
- public Collection<? extends Mutable<?, ?, ?>> mutableEffectiveSubstatements() {
- if (effective instanceof ImmutableCollection) {
- return effective;
- }
-
- return Collections.unmodifiableCollection(effective);
+ private static List<ReactorStmtCtx<?, ?, ?>> shrinkEffective(final List<ReactorStmtCtx<?, ?, ?>> effective) {
+ return effective.isEmpty() ? ImmutableList.of() : effective;
}
- private void shrinkEffective() {
- if (effective.isEmpty()) {
- effective = ImmutableList.of();
- }
- }
+ public abstract void removeStatementFromEffectiveSubstatements(StatementDefinition statementDef);
- public void removeStatementFromEffectiveSubstatements(final StatementDefinition statementDef) {
+ static final List<ReactorStmtCtx<?, ?, ?>> removeStatementFromEffectiveSubstatements(
+ final List<ReactorStmtCtx<?, ?, ?>> effective, final StatementDefinition statementDef) {
if (effective.isEmpty()) {
- return;
+ return effective;
}
final Iterator<? extends StmtContext<?, ?, ?>> iterator = effective.iterator();
while (iterator.hasNext()) {
final StmtContext<?, ?, ?> next = iterator.next();
- if (statementDef.equals(next.getPublicDefinition())) {
+ if (statementDef.equals(next.publicDefinition())) {
iterator.remove();
}
}
- shrinkEffective();
+ return shrinkEffective(effective);
}
/**
* @param statementDef statement definition of the statement context to remove
* @param statementArg statement argument of the statement context to remove
*/
- public void removeStatementFromEffectiveSubstatements(final StatementDefinition statementDef,
+ public abstract void removeStatementFromEffectiveSubstatements(StatementDefinition statementDef,
+ String statementArg);
+
+ static final List<ReactorStmtCtx<?, ?, ?>> removeStatementFromEffectiveSubstatements(
+ final List<ReactorStmtCtx<?, ?, ?>> effective, final StatementDefinition statementDef,
final String statementArg) {
if (statementArg == null) {
- removeStatementFromEffectiveSubstatements(statementDef);
+ return removeStatementFromEffectiveSubstatements(effective, statementDef);
}
if (effective.isEmpty()) {
- return;
+ return effective;
}
- final Iterator<Mutable<?, ?, ?>> iterator = effective.iterator();
+ final Iterator<ReactorStmtCtx<?, ?, ?>> iterator = effective.iterator();
while (iterator.hasNext()) {
final Mutable<?, ?, ?> next = iterator.next();
- if (statementDef.equals(next.getPublicDefinition()) && statementArg.equals(next.rawStatementArgument())) {
+ if (statementDef.equals(next.publicDefinition()) && statementArg.equals(next.rawArgument())) {
iterator.remove();
}
}
- shrinkEffective();
+ return shrinkEffective(effective);
}
// YANG example: RPC/action statements always have 'input' and 'output' defined
// FIXME: YANGTOOLS-652: This does not need to be a SubstatementContext, in can be a specialized
// StatementContextBase subclass.
final Mutable<X, Y, Z> ret = new SubstatementContext<>(this, new StatementDefinitionContext<>(support),
- ImplicitSubstatement.of(getStatementSourceReference()), rawArg);
+ ImplicitSubstatement.of(sourceReference()), rawArg);
support.onStatementAdded(ret);
addEffectiveSubstatement(ret);
return ret;
* Adds an effective statement to collection of substatements.
*
* @param substatement substatement
- * @throws IllegalStateException
- * if added in declared phase
- * @throws NullPointerException
- * if statement parameter is null
+ * @throws IllegalStateException if added in declared phase
+ * @throws NullPointerException if statement parameter is null
*/
- public void addEffectiveSubstatement(final Mutable<?, ?, ?> substatement) {
- beforeAddEffectiveStatement(1);
- effective.add(substatement);
+ public abstract void addEffectiveSubstatement(Mutable<?, ?, ?> substatement);
+
+ final List<ReactorStmtCtx<?, ?, ?>> addEffectiveSubstatement(final List<ReactorStmtCtx<?, ?, ?>> effective,
+ final Mutable<?, ?, ?> substatement) {
+ verifyStatement(substatement);
+
+ final List<ReactorStmtCtx<?, ?, ?>> resized = beforeAddEffectiveStatement(effective, 1);
+ final ReactorStmtCtx<?, ?, ?> stmt = (ReactorStmtCtx<?, ?, ?>) substatement;
+ ensureCompletedExecution(stmt);
+ resized.add(stmt);
+ return resized;
}
/**
* @throws NullPointerException
* if statement parameter is null
*/
- public void addEffectiveSubstatements(final Collection<? extends Mutable<?, ?, ?>> statements) {
- if (statements.isEmpty()) {
- return;
+ public final void addEffectiveSubstatements(final Collection<? extends Mutable<?, ?, ?>> statements) {
+ if (!statements.isEmpty()) {
+ statements.forEach(StatementContextBase::verifyStatement);
+ addEffectiveSubstatementsImpl(statements);
}
+ }
+
+ abstract void addEffectiveSubstatementsImpl(Collection<? extends Mutable<?, ?, ?>> statements);
+
+ final List<ReactorStmtCtx<?, ?, ?>> addEffectiveSubstatementsImpl(final List<ReactorStmtCtx<?, ?, ?>> effective,
+ final Collection<? extends Mutable<?, ?, ?>> statements) {
+ final List<ReactorStmtCtx<?, ?, ?>> resized = beforeAddEffectiveStatement(effective, statements.size());
+ final Collection<? extends ReactorStmtCtx<?, ?, ?>> casted =
+ (Collection<? extends ReactorStmtCtx<?, ?, ?>>) statements;
+ if (executionOrder != ExecutionOrder.NULL) {
+ for (ReactorStmtCtx<?, ?, ?> stmt : casted) {
+ ensureCompletedExecution(stmt, executionOrder);
+ }
+ }
+
+ resized.addAll(casted);
+ return resized;
+ }
+
+ abstract Iterable<ReactorStmtCtx<?, ?, ?>> effectiveChildrenToComplete();
+
+ // exposed for InferredStatementContext only
+ final void ensureCompletedPhase(final Mutable<?, ?, ?> stmt) {
+ verifyStatement(stmt);
+ ensureCompletedExecution((ReactorStmtCtx<?, ?, ?>) stmt);
+ }
+
+ // Make sure target statement has transitioned at least to our phase (if we have one). This method is just before we
+ // take allow a statement to become our substatement. This is needed to ensure that every statement tree does not
+ // contain any statements which did not complete the same phase as the root statement.
+ private void ensureCompletedExecution(final ReactorStmtCtx<?, ?, ?> stmt) {
+ if (executionOrder != ExecutionOrder.NULL) {
+ ensureCompletedExecution(stmt, executionOrder);
+ }
+ }
+
+ private static void ensureCompletedExecution(final ReactorStmtCtx<?, ?, ?> stmt, final byte executionOrder) {
+ verify(stmt.tryToCompletePhase(executionOrder), "Statement %s cannot complete phase %s", stmt, executionOrder);
+ }
- statements.forEach(Objects::requireNonNull);
- beforeAddEffectiveStatement(statements.size());
- effective.addAll(statements);
+ private static void verifyStatement(final Mutable<?, ?, ?> stmt) {
+ verify(stmt instanceof ReactorStmtCtx, "Unexpected statement %s", stmt);
}
- private void beforeAddEffectiveStatement(final int toAdd) {
+ private List<ReactorStmtCtx<?, ?, ?>> beforeAddEffectiveStatement(final List<ReactorStmtCtx<?, ?, ?>> effective,
+ final int toAdd) {
+ // We cannot allow statement to be further mutated.
+ // TODO: we really want to say 'not NULL and not at or after EFFECTIVE_MODEL here. This will matter if we have
+ // a phase after EFFECTIVE_MODEL
+ verify(executionOrder != ExecutionOrder.EFFECTIVE_MODEL, "Cannot modify finished statement at %s",
+ sourceReference());
+ return beforeAddEffectiveStatementUnsafe(effective, toAdd);
+ }
+
+ final List<ReactorStmtCtx<?, ?, ?>> beforeAddEffectiveStatementUnsafe(final List<ReactorStmtCtx<?, ?, ?>> effective,
+ final int toAdd) {
final ModelProcessingPhase inProgressPhase = getRoot().getSourceContext().getInProgressPhase();
checkState(inProgressPhase == ModelProcessingPhase.FULL_DECLARATION
|| inProgressPhase == ModelProcessingPhase.EFFECTIVE_MODEL,
- "Effective statement cannot be added in declared phase at: %s", getStatementSourceReference());
+ "Effective statement cannot be added in declared phase at: %s", sourceReference());
- if (effective.isEmpty()) {
- effective = new ArrayList<>(toAdd);
- }
+ return effective.isEmpty() ? new ArrayList<>(toAdd) : effective;
}
- // Exists only due to memory optimization
- final boolean fullyDefined() {
- return fullyDefined;
+ @Override
+ final E createEffective() {
+ final E result = createEffective(definition.getFactory());
+ if (result instanceof MutableStatement) {
+ getRoot().addMutableStmtToSeal((MutableStatement) result);
+ }
+ return result;
}
- // Exists only due to memory optimization, should live in AbstractResumedStatement
- final void setFullyDefined() {
- fullyDefined = true;
+ @NonNull E createEffective(final StatementFactory<A, D, E> factory) {
+ return createEffective(factory, this);
}
- @Override
- public E buildEffective() {
- final E existing = effectiveInstance;
- return existing != null ? existing : (effectiveInstance = definition.getFactory().createEffective(this));
+ // Creates EffectiveStatement through full materialization
+ static <A, D extends DeclaredStatement<A>, E extends EffectiveStatement<A, D>> @NonNull E createEffective(
+ final StatementFactory<A, D, E> factory, final StatementContextBase<A, D, E> ctx) {
+ return factory.createEffective(ctx, ctx.streamDeclared(), ctx.streamEffective());
}
/**
- * tries to execute current {@link ModelProcessingPhase} of source parsing.
+ * Return a stream of declared statements which can be built into an {@link EffectiveStatement}, as per
+ * {@link StmtContext#buildEffective()} contract.
*
- * @param phase
- * to be executed (completed)
- * @return if phase was successfully completed
- * @throws SourceException
- * when an error occurred in source parsing
+ * @return Stream of supported declared statements.
*/
- boolean tryToCompletePhase(final ModelProcessingPhase phase) {
+ // FIXME: we really want to unify this with streamEffective(), under its name
+ abstract Stream<? extends @NonNull StmtContext<?, ?, ?>> streamDeclared();
- boolean finished = true;
- final Collection<ContextMutation> openMutations = phaseMutation.get(phase);
- if (!openMutations.isEmpty()) {
- final Iterator<ContextMutation> it = openMutations.iterator();
- while (it.hasNext()) {
- final ContextMutation current = it.next();
- if (current.isFinished()) {
- it.remove();
- } else {
- finished = false;
- }
- }
+ /**
+ * Return a stream of inferred statements which can be built into an {@link EffectiveStatement}, as per
+ * {@link StmtContext#buildEffective()} contract.
+ *
+ * @return Stream of supported effective statements.
+ */
+ // FIXME: this method is currently a misnomer, but unifying with streamDeclared() would make this accurate again
+ abstract Stream<? extends @NonNull StmtContext<?, ?, ?>> streamEffective();
- if (openMutations.isEmpty()) {
- phaseMutation.removeAll(phase);
- if (phaseMutation.isEmpty()) {
- phaseMutation = ImmutableMultimap.of();
- }
- }
+ @Override
+ final boolean doTryToCompletePhase(final byte targetOrder) {
+ final boolean finished = phaseMutation.isEmpty() ? true : runMutations(targetOrder);
+ if (completeChildren(targetOrder) && finished) {
+ onPhaseCompleted(targetOrder);
+ return true;
}
+ return false;
+ }
+ private boolean completeChildren(final byte targetOrder) {
+ boolean finished = true;
for (final StatementContextBase<?, ?, ?> child : mutableDeclaredSubstatements()) {
- finished &= child.tryToCompletePhase(phase);
+ finished &= child.tryToCompletePhase(targetOrder);
}
- for (final Mutable<?, ?, ?> child : effective) {
- if (child instanceof StatementContextBase) {
- finished &= ((StatementContextBase<?, ?, ?>) child).tryToCompletePhase(phase);
+ for (final ReactorStmtCtx<?, ?, ?> child : effectiveChildrenToComplete()) {
+ finished &= child.tryToCompletePhase(targetOrder);
+ }
+ return finished;
+ }
+
+ private boolean runMutations(final byte targetOrder) {
+ final ModelProcessingPhase phase = verifyNotNull(ModelProcessingPhase.ofExecutionOrder(targetOrder));
+ final Collection<ContextMutation> openMutations = phaseMutation.get(phase);
+ return openMutations.isEmpty() ? true : runMutations(phase, openMutations);
+ }
+
+ private boolean runMutations(final ModelProcessingPhase phase, final Collection<ContextMutation> openMutations) {
+ boolean finished = true;
+ final Iterator<ContextMutation> it = openMutations.iterator();
+ while (it.hasNext()) {
+ final ContextMutation current = it.next();
+ if (current.isFinished()) {
+ it.remove();
+ } else {
+ finished = false;
}
}
- if (finished) {
- onPhaseCompleted(phase);
- return true;
+ if (openMutations.isEmpty()) {
+ phaseMutation.removeAll(phase);
+ cleanupPhaseMutation();
+ }
+ return finished;
+ }
+
+ private void cleanupPhaseMutation() {
+ if (phaseMutation.isEmpty()) {
+ phaseMutation = ImmutableMultimap.of();
}
- return false;
}
/**
- * Occurs on end of {@link ModelProcessingPhase} of source parsing.
+ * Occurs on end of {@link ModelProcessingPhase} of source parsing. This method must not be called with
+ * {@code executionOrder} equal to {@link ExecutionOrder#NULL}.
*
- * @param phase
- * that was to be completed (finished)
- * @throws SourceException
- * when an error occurred in source parsing
+ * @param phase that was to be completed (finished)
+ * @throws SourceException when an error occurred in source parsing
*/
- private void onPhaseCompleted(final ModelProcessingPhase phase) {
- completedPhase = phase;
+ private void onPhaseCompleted(final byte completedOrder) {
+ executionOrder = completedOrder;
+ if (completedOrder == ExecutionOrder.EFFECTIVE_MODEL) {
+ // We have completed effective model, substatements are guaranteed not to change
+ summarizeSubstatementPolicy();
+ }
+ final ModelProcessingPhase phase = verifyNotNull(ModelProcessingPhase.ofExecutionOrder(completedOrder));
final Collection<OnPhaseFinished> listeners = phaseListeners.get(phase);
- if (listeners.isEmpty()) {
- return;
+ if (!listeners.isEmpty()) {
+ runPhaseListeners(phase, listeners);
+ }
+ }
+
+ private void summarizeSubstatementPolicy() {
+ if (definition().support().copyPolicy() == CopyPolicy.EXACT_REPLICA || noSensitiveSubstatements()) {
+ setAllSubstatementsContextIndependent();
+ }
+ }
+
+ /**
+ * Determine whether any substatements are copy-sensitive as determined by {@link StatementSupport#copyPolicy()}.
+ * Only {@link CopyPolicy#CONTEXT_INDEPENDENT}, {@link CopyPolicy#EXACT_REPLICA} and {@link CopyPolicy#IGNORE} are
+ * copy-insensitive. Note that statements which are not {@link StmtContext#isSupportedToBuildEffective()} are all
+ * considered copy-insensitive.
+ *
+ * <p>
+ * Implementations are expected to call {@link #noSensitiveSubstatements()} to actually traverse substatement sets.
+ *
+ * @return True if no substatements require copy-sensitive handling
+ */
+ abstract boolean noSensitiveSubstatements();
+
+ /**
+ * Determine whether any of the provided substatements are context-sensitive for purposes of implementing
+ * {@link #noSensitiveSubstatements()}.
+ *
+ * @param substatements Substatements to check
+ * @return True if no substatements require context-sensitive handling
+ */
+ static boolean noSensitiveSubstatements(final Collection<? extends ReactorStmtCtx<?, ?, ?>> substatements) {
+ for (ReactorStmtCtx<?, ?, ?> stmt : substatements) {
+ if (stmt.isSupportedToBuildEffective()) {
+ if (!stmt.allSubstatementsContextIndependent()) {
+ // This is a recursive property
+ return false;
+ }
+
+ switch (stmt.definition().support().copyPolicy()) {
+ case CONTEXT_INDEPENDENT:
+ case EXACT_REPLICA:
+ case IGNORE:
+ break;
+ default:
+ return false;
+ }
+ }
}
+ return true;
+ }
+ private void runPhaseListeners(final ModelProcessingPhase phase, final Collection<OnPhaseFinished> listeners) {
final Iterator<OnPhaseFinished> listener = listeners.iterator();
while (listener.hasNext()) {
final OnPhaseFinished next = listener.next();
definition.onDeclarationFinished(this, phase);
}
- /**
- * Return the context in which this statement was defined.
- *
- * @return statement definition
- */
- protected final @NonNull StatementDefinitionContext<A, D, E> definition() {
- return definition;
- }
-
@Override
- protected void checkLocalNamespaceAllowed(final Class<? extends IdentifierNamespace<?, ?>> type) {
- definition.checkNamespaceAllowed(type);
- }
-
- @Override
- protected <K, V, N extends IdentifierNamespace<K, V>> void onNamespaceElementAdded(final Class<N> type, final K key,
- final V value) {
- // definition().onNamespaceElementAdded(this, type, key, value);
+ final StatementDefinitionContext<A, D, E> definition() {
+ return definition;
}
- final <K, V, N extends IdentifierNamespace<K, V>> void onNamespaceItemAddedAction(final Class<N> type, final K key,
+ final <K, V, N extends ParserNamespace<K, V>> void onNamespaceItemAddedAction(final Class<N> type, final K key,
final OnNamespaceItemAdded listener) {
final Object potential = getFromNamespace(type, key);
if (potential != null) {
});
}
- final <K, V, N extends IdentifierNamespace<K, V>> void onNamespaceItemAddedAction(final Class<N> type,
+ final <K, V, N extends ParserNamespace<K, V>> void onNamespaceItemAddedAction(final Class<N> type,
final ModelProcessingPhase phase, final NamespaceKeyCriterion<K> criterion,
final OnNamespaceItemAdded listener) {
final Optional<Entry<K, V>> existing = getFromNamespace(type, criterion);
});
}
- final <K, V, N extends IdentifierNamespace<K, V>> void selectMatch(final Class<N> type,
+ final <K, V, N extends ParserNamespace<K, V>> void selectMatch(final Class<N> type,
final NamespaceKeyCriterion<K> criterion, final OnNamespaceItemAdded listener) {
final Optional<Entry<K, V>> optMatch = getFromNamespace(type, criterion);
checkState(optMatch.isPresent(), "Failed to find a match for criterion %s in namespace %s node %s", criterion,
listener.namespaceItemAdded(StatementContextBase.this, type, match.getKey(), match.getValue());
}
- final <K, V, N extends IdentifierNamespace<K, V>> void waitForPhase(final Object value, final Class<N> type,
+ final <K, V, N extends ParserNamespace<K, V>> void waitForPhase(final Object value, final Class<N> type,
final ModelProcessingPhase phase, final NamespaceKeyCriterion<K> criterion,
final OnNamespaceItemAdded listener) {
((StatementContextBase<?, ? ,?>) value).addPhaseCompletedListener(phase,
});
}
- private <K, V, N extends IdentifierNamespace<K, V>> NamespaceBehaviourWithListeners<K, V, N> getBehaviour(
+ private <K, V, N extends ParserNamespace<K, V>> NamespaceBehaviourWithListeners<K, V, N> getBehaviour(
final Class<N> type) {
final NamespaceBehaviour<K, V, N> behaviour = getBehaviourRegistry().getNamespaceBehaviour(type);
checkArgument(behaviour instanceof NamespaceBehaviourWithListeners, "Namespace %s does not support listeners",
return (NamespaceBehaviourWithListeners<K, V, N>) behaviour;
}
- @Override
- public StatementDefinition getPublicDefinition() {
- return definition.getPublicView();
- }
-
- @Override
- public ModelActionBuilder newInferenceAction(final ModelProcessingPhase phase) {
- return getRoot().getSourceContext().newInferenceAction(phase);
- }
-
private static <T> Multimap<ModelProcessingPhase, T> newMultimap() {
return Multimaps.newListMultimap(new EnumMap<>(ModelProcessingPhase.class), () -> new ArrayList<>(1));
}
* @throws NullPointerException if any of the arguments is null
*/
void addPhaseCompletedListener(final ModelProcessingPhase phase, final OnPhaseFinished listener) {
- checkNotNull(phase, "Statement context processing phase cannot be null at: %s", getStatementSourceReference());
- checkNotNull(listener, "Statement context phase listener cannot be null at: %s", getStatementSourceReference());
+ requireNonNull(phase, "Statement context processing phase cannot be null");
+ requireNonNull(listener, "Statement context phase listener cannot be null");
- ModelProcessingPhase finishedPhase = completedPhase;
+ ModelProcessingPhase finishedPhase = ModelProcessingPhase.ofExecutionOrder(executionOrder);
while (finishedPhase != null) {
if (phase.equals(finishedPhase)) {
listener.phaseFinished(this, finishedPhase);
/**
* Adds a {@link ContextMutation} to a {@link ModelProcessingPhase}.
*
- * @throws IllegalStateException
- * when the mutation was registered after phase was completed
+ * @throws IllegalStateException when the mutation was registered after phase was completed
*/
- void addMutation(final ModelProcessingPhase phase, final ContextMutation mutation) {
- ModelProcessingPhase finishedPhase = completedPhase;
- while (finishedPhase != null) {
- checkState(!phase.equals(finishedPhase), "Mutation registered after phase was completed at: %s",
- getStatementSourceReference());
- finishedPhase = finishedPhase.getPreviousPhase();
- }
+ final void addMutation(final ModelProcessingPhase phase, final ContextMutation mutation) {
+ checkState(executionOrder < phase.executionOrder(), "Mutation registered after phase was completed at: %s",
+ sourceReference());
if (phaseMutation.isEmpty()) {
phaseMutation = newMultimap();
phaseMutation.put(phase, mutation);
}
+ final void removeMutation(final ModelProcessingPhase phase, final ContextMutation mutation) {
+ if (!phaseMutation.isEmpty()) {
+ phaseMutation.remove(phase, mutation);
+ cleanupPhaseMutation();
+ }
+ }
+
@Override
- public <K, KT extends K, N extends StatementNamespace<K, ?, ?>> void addContext(final Class<N> namespace,
+ public <K, KT extends K, N extends StatementNamespace<K, ?, ?>> void addContext(final Class<@NonNull N> namespace,
final KT key,final StmtContext<?, ?, ?> stmt) {
addContextToNamespace(namespace, key, stmt);
}
public Optional<? extends Mutable<?, ?, ?>> copyAsChildOf(final Mutable<?, ?, ?> parent, final CopyType type,
final QNameModule targetModule) {
checkEffectiveModelCompleted(this);
+ return Optional.ofNullable(copyAsChildOfImpl(parent, type, targetModule));
+ }
+ private ReactorStmtCtx<A, D, E> copyAsChildOfImpl(final Mutable<?, ?, ?> parent, final CopyType type,
+ final QNameModule targetModule) {
final StatementSupport<A, D, E> support = definition.support();
- final CopyPolicy policy = support.applyCopyPolicy(this, parent, type, targetModule);
+ final CopyPolicy policy = support.copyPolicy();
switch (policy) {
+ case EXACT_REPLICA:
+ return replicaAsChildOf(parent);
case CONTEXT_INDEPENDENT:
- // FIXME: YANGTOOLS-652: we need isEmpty() here for performance reasons
- if (allSubstatementsStream().findAny().isEmpty()) {
- // This statement is context-independent and has no substatements -- hence it can be freely shared.
- return Optional.of(this);
+ if (allSubstatementsContextIndependent()) {
+ return replicaAsChildOf(parent);
}
- // FIXME: YANGTOOLS-694: filter out all context-independent substatements, eliminate fall-through
+
// fall through
case DECLARED_COPY:
- // FIXME: YANGTOOLS-694: this is still to eager, we really want to copy as a lazily-instantiated
- // context, so that we can support building an effective statement without copying
- // anything -- we will typically end up not being inferred against. In that case,
- // this slim context should end up dealing with differences at buildContext()
- // time. This is a YANGTOOLS-1067 prerequisite (which will deal with what can and
- // cannot be shared across instances).
- return Optional.of(parent.childCopyOf(this, type, targetModule));
+ // FIXME: ugly cast
+ return (ReactorStmtCtx<A, D, E>) parent.childCopyOf(this, type, targetModule);
case IGNORE:
- return Optional.empty();
+ return null;
+ case REJECT:
+ throw new IllegalStateException("Statement " + support.getPublicView() + " should never be copied");
default:
throw new IllegalStateException("Unhandled policy " + policy);
}
}
+ @Override
+ final ReactorStmtCtx<?, ?, ?> asEffectiveChildOf(final StatementContextBase<?, ?, ?> parent, final CopyType type,
+ final QNameModule targetModule) {
+ final ReactorStmtCtx<A, D, E> copy = copyAsChildOfImpl(parent, type, targetModule);
+ if (copy == null) {
+ // The statement fizzled, this should never happen, perhaps a verify()?
+ return null;
+ }
+
+ parent.ensureCompletedPhase(copy);
+ return canReuseCurrent(copy) ? this : copy;
+ }
+
+ private boolean canReuseCurrent(final ReactorStmtCtx<A, D, E> copy) {
+ // Defer to statement factory to see if we can reuse this object. If we can and have only context-independent
+ // substatements we can reuse the object. More complex cases are handled indirectly via the copy.
+ return definition.getFactory().canReuseCurrent(copy, this, buildEffective().effectiveSubstatements())
+ && allSubstatementsContextIndependent();
+ }
+
@Override
public final Mutable<?, ?, ?> childCopyOf(final StmtContext<?, ?, ?> stmt, final CopyType type,
final QNameModule targetModule) {
private <X, Y extends DeclaredStatement<X>, Z extends EffectiveStatement<X, Y>> Mutable<X, Y, Z> childCopyOf(
final StatementContextBase<X, Y, Z> original, final CopyType type, final QNameModule targetModule) {
final Optional<StatementSupport<?, ?, ?>> implicitParent = definition.getImplicitParentFor(
- original.getPublicDefinition());
+ original.publicDefinition());
final StatementContextBase<X, Y, Z> result;
final InferredStatementContext<X, Y, Z> copy;
if (implicitParent.isPresent()) {
final StatementDefinitionContext<?, ?, ?> def = new StatementDefinitionContext<>(implicitParent.get());
- result = new SubstatementContext(this, def, original.getStatementSourceReference(),
- original.rawStatementArgument(), original.getStatementArgument(), type);
+ result = new SubstatementContext(this, def, original.sourceReference(), original.rawArgument(),
+ original.argument(), type);
final CopyType childCopyType;
switch (type) {
return result;
}
+ @Override
+ final ReplicaStatementContext<A, D, E> replicaAsChildOf(final StatementContextBase<?, ?, ?> parent) {
+ return new ReplicaStatementContext<>(parent, this);
+ }
+
private static void checkEffectiveModelCompleted(final StmtContext<?, ?, ?> stmt) {
final ModelProcessingPhase phase = stmt.getCompletedPhase();
checkState(phase == ModelProcessingPhase.EFFECTIVE_MODEL,
}
@Beta
+ // FIXME: this information should be exposed as a well-known Namespace
public final boolean hasImplicitParentSupport() {
return definition.getFactory() instanceof ImplicitParentAwareStatementSupport;
}
@Beta
public final StatementContextBase<?, ?, ?> wrapWithImplicit(final StatementContextBase<?, ?, ?> original) {
final Optional<StatementSupport<?, ?, ?>> optImplicit = definition.getImplicitParentFor(
- original.getPublicDefinition());
+ original.publicDefinition());
if (optImplicit.isEmpty()) {
return original;
}
final StatementDefinitionContext<?, ?, ?> def = new StatementDefinitionContext<>(optImplicit.get());
- final CopyType type = original.getCopyHistory().getLastOperation();
+ final CopyType type = original.history().getLastOperation();
final SubstatementContext<?, ?, ?> result = new SubstatementContext(original.getParentContext(), def,
- original.getStatementSourceReference(), original.rawStatementArgument(), original.getStatementArgument(),
- type);
+ original.sourceReference(), original.rawArgument(), original.argument(), type);
result.addEffectiveSubstatement(original.reparent(result));
result.setCompletedPhase(original.getCompletedPhase());
abstract StatementContextBase<A, D, E> reparent(StatementContextBase<?, ?, ?> newParent);
/**
- * Config statements are not all that common which means we are performing a recursive search towards the root
- * every time {@link #isConfiguration()} is invoked. This is quite expensive because it causes a linear search
- * for the (usually non-existent) config statement.
- *
- * <p>
- * This method maintains a resolution cache, so once we have returned a result, we will keep on returning the same
- * result without performing any lookups, solely to support {@link SubstatementContext#isConfiguration()}.
- *
- * <p>
- * Note: use of this method implies that {@link #isIgnoringConfig()} is realized with
- * {@link #isIgnoringConfig(StatementContextBase)}.
- */
- final boolean isConfiguration(final StatementContextBase<?, ?, ?> parent) {
- final int fl = flags & SET_CONFIGURATION;
- if (fl != 0) {
- return fl == SET_CONFIGURATION;
- }
- if (isIgnoringConfig(parent)) {
- // Note: SET_CONFIGURATION has been stored in flags
- return true;
- }
-
- final StmtContext<Boolean, ?, ?> configStatement = StmtContextUtils.findFirstSubstatement(this,
- ConfigStatement.class);
- final boolean isConfig;
- if (configStatement != null) {
- isConfig = configStatement.coerceStatementArgument();
- if (isConfig) {
- // Validity check: if parent is config=false this cannot be a config=true
- InferenceException.throwIf(!parent.isConfiguration(), getStatementSourceReference(),
- "Parent node has config=false, this node must not be specifed as config=true");
- }
- } else {
- // If "config" statement is not specified, the default is the same as the parent's "config" value.
- isConfig = parent.isConfiguration();
- }
-
- // Resolved, make sure we cache this return
- flags |= isConfig ? SET_CONFIGURATION : HAVE_CONFIGURATION;
- return isConfig;
- }
-
- protected abstract boolean isIgnoringConfig();
-
- /**
- * This method maintains a resolution cache for ignore config, so once we have returned a result, we will
- * keep on returning the same result without performing any lookups. Exists only to support
- * {@link SubstatementContext#isIgnoringConfig()}.
+ * Indicate that the set of substatements is empty. This is a preferred shortcut to substatement stream filtering.
*
- * <p>
- * Note: use of this method implies that {@link #isConfiguration()} is realized with
- * {@link #isConfiguration(StatementContextBase)}.
+ * @return True if {@link #allSubstatements()} and {@link #allSubstatementsStream()} would return an empty stream.
*/
- final boolean isIgnoringConfig(final StatementContextBase<?, ?, ?> parent) {
- final int fl = flags & SET_IGNORE_CONFIG;
- if (fl != 0) {
- return fl == SET_IGNORE_CONFIG;
- }
- if (definition.support().isIgnoringConfig() || parent.isIgnoringConfig()) {
- flags |= SET_IGNORE_CONFIG;
- return true;
- }
-
- flags |= HAVE_IGNORE_CONFIG;
- return false;
- }
-
- protected abstract boolean isIgnoringIfFeatures();
-
- /**
- * This method maintains a resolution cache for ignore if-feature, so once we have returned a result, we will
- * keep on returning the same result without performing any lookups. Exists only to support
- * {@link SubstatementContext#isIgnoringIfFeatures()}.
- */
- final boolean isIgnoringIfFeatures(final StatementContextBase<?, ?, ?> parent) {
- final int fl = flags & SET_IGNORE_IF_FEATURE;
- if (fl != 0) {
- return fl == SET_IGNORE_IF_FEATURE;
- }
- if (definition.support().isIgnoringIfFeatures() || parent.isIgnoringIfFeatures()) {
- flags |= SET_IGNORE_IF_FEATURE;
- return true;
- }
-
- flags |= HAVE_IGNORE_IF_FEATURE;
- return false;
- }
-
- // Exists only to support SubstatementContext/InferredStatementContext
- final @NonNull Optional<SchemaPath> substatementGetSchemaPath() {
- SchemaPath local = schemaPath;
- if (local == null) {
- synchronized (this) {
- local = schemaPath;
- if (local == null) {
- local = createSchemaPath(coerceParentContext());
- schemaPath = local;
- }
- }
- }
-
- return Optional.ofNullable(local);
- }
-
- private SchemaPath createSchemaPath(final Mutable<?, ?, ?> parent) {
- final Optional<SchemaPath> maybeParentPath = parent.getSchemaPath();
- verify(maybeParentPath.isPresent(), "Parent %s does not have a SchemaPath", parent);
- final SchemaPath parentPath = maybeParentPath.get();
-
- if (StmtContextUtils.isUnknownStatement(this)) {
- return parentPath.createChild(getPublicDefinition().getStatementName());
- }
- final Object argument = getStatementArgument();
- if (argument instanceof QName) {
- final QName qname = (QName) argument;
- if (StmtContextUtils.producesDeclared(this, UsesStatement.class)) {
- return maybeParentPath.orElse(null);
- }
-
- return parentPath.createChild(qname);
- }
- if (argument instanceof String) {
- // FIXME: This may yield illegal argument exceptions
- final Optional<StmtContext<A, D, E>> originalCtx = getOriginalCtx();
- final QName qname = StmtContextUtils.qnameFromArgument(originalCtx.orElse(this), (String) argument);
- return parentPath.createChild(qname);
- }
- if (argument instanceof SchemaNodeIdentifier
- && (StmtContextUtils.producesDeclared(this, AugmentStatement.class)
- || StmtContextUtils.producesDeclared(this, RefineStatement.class)
- || StmtContextUtils.producesDeclared(this, DeviationStatement.class))) {
-
- return parentPath.createChild(((SchemaNodeIdentifier) argument).getPathFromRoot());
- }
-
- // FIXME: this does not look right
- return maybeParentPath.orElse(null);
- }
-
- @Override
- public final String toString() {
- return addToStringAttributes(MoreObjects.toStringHelper(this).omitNullValues()).toString();
- }
-
- protected ToStringHelper addToStringAttributes(final ToStringHelper toStringHelper) {
- return toStringHelper.add("definition", definition).add("rawArgument", rawStatementArgument());
- }
+ abstract boolean hasEmptySubstatements();
}