import java.util.Optional;
import java.util.stream.Stream;
import org.eclipse.jdt.annotation.NonNull;
+import org.eclipse.jdt.annotation.Nullable;
import org.opendaylight.yangtools.yang.common.QNameModule;
import org.opendaylight.yangtools.yang.model.api.meta.DeclaredStatement;
import org.opendaylight.yangtools.yang.model.api.meta.EffectiveStatement;
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.source.ImplicitSubstatement;
+import org.opendaylight.yangtools.yang.parser.spi.meta.UndeclaredStatementFactory;
import org.opendaylight.yangtools.yang.parser.spi.source.SourceException;
import org.opendaylight.yangtools.yang.parser.stmt.reactor.NamespaceBehaviourWithListeners.KeyedValueAddedListener;
import org.opendaylight.yangtools.yang.parser.stmt.reactor.NamespaceBehaviourWithListeners.PredicateValueAddedListener;
*/
private byte executionOrder;
+ /**
+ * This field should live in AbstractResumedStatement, but is placed here for memory efficiency to squat in the
+ * alignment shadow of {@link #bitsAight} and {@link #executionOrder}.
+ */
+ private boolean implicitDeclaredFlag;
+
+ // TODO: we a single byte of alignment shadow left, we should think how we can use it to cache information we build
+ // during InferredStatementContext.tryToReusePrototype(). We usually end up being routed to
+ // copyAsChildOfImpl() -- which performs an eager instantiation and checks for changes afterwards. We should
+ // be able to capture how parent scope affects the copy in a few bits. If we can do that, than we can reap
+ // the benefits by just examining new parent context and old parent context contribution to the state. If
+ // their impact is the same, we can skip instantiation of statements and directly reuse them (individually,
+ // or as a complete file).
+ //
+ // Whatever we end up tracking, we need to track two views of that -- for the statement itself
+ // (sans substatements) and a summary of substatements. I think it should be possible to get this working
+ // with 2x5bits -- we have up to 15 mutable bits available if we share the field with implicitDeclaredFlag.
+
// Copy constructor used by subclasses to implement reparent()
StatementContextBase(final StatementContextBase<A, D, E> original) {
super(original);
@Override
public final <X, Y extends DeclaredStatement<X>, Z extends EffectiveStatement<X, Y>>
- Mutable<X, Y, Z> addEffectiveSubstatement(final StatementSupport<X, Y, Z> support, final X arg) {
- // 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(sourceReference()), arg);
+ Mutable<X, Y, Z> createUndeclaredSubstatement(final StatementSupport<X, Y, Z> support, final X arg) {
+ requireNonNull(support);
+ checkArgument(support instanceof UndeclaredStatementFactory, "Unsupported statement support %s", support);
+
+ final var ret = new UndeclaredStmtCtx<>(this, support, arg);
support.onStatementAdded(ret);
- addEffectiveSubstatement(ret);
return ret;
}
return resized;
}
+ static final void afterAddEffectiveSubstatement(final Mutable<?, ?, ?> substatement) {
+ // Undeclared statements still need to have 'onDeclarationFinished()' triggered
+ if (substatement instanceof UndeclaredStmtCtx) {
+ finishDeclaration((UndeclaredStmtCtx<?, ?, ?>) substatement);
+ }
+ }
+
+ // Split out to keep generics working without a warning
+ private static <X, Y extends DeclaredStatement<X>, Z extends EffectiveStatement<X, Y>> void finishDeclaration(
+ final UndeclaredStmtCtx<X, Y, Z> substatement) {
+ substatement.definition().onDeclarationFinished(substatement, ModelProcessingPhase.FULL_DECLARATION);
+ }
+
@Override
public final void addEffectiveSubstatements(final Collection<? extends Mutable<?, ?, ?>> statements) {
if (!statements.isEmpty()) {
return resized;
}
- abstract Iterable<ReactorStmtCtx<?, ?, ?>> effectiveChildrenToComplete();
+ abstract Iterator<ReactorStmtCtx<?, ?, ?>> effectiveChildrenToComplete();
// exposed for InferredStatementContext only
final void ensureCompletedPhase(final Mutable<?, ?, ?> stmt) {
return result;
}
- @NonNull E createEffective(final StatementFactory<A, D, E> factory) {
- return createEffective(factory, 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());
- }
+ abstract @NonNull E createEffective(@NonNull StatementFactory<A, D, E> factory);
/**
* Return a stream of declared statements which can be built into an {@link EffectiveStatement}, as per
for (final StatementContextBase<?, ?, ?> child : mutableDeclaredSubstatements()) {
finished &= child.tryToCompletePhase(targetOrder);
}
- for (final ReactorStmtCtx<?, ?, ?> child : effectiveChildrenToComplete()) {
- finished &= child.tryToCompletePhase(targetOrder);
+ final var it = effectiveChildrenToComplete();
+ while (it.hasNext()) {
+ finished &= it.next().tryToCompletePhase(targetOrder);
}
return finished;
}
}
}
- /**
- * Ends declared section of current node.
- */
- void endDeclared(final ModelProcessingPhase phase) {
- definition.onDeclarationFinished(this, phase);
- }
-
@Override
final StatementDefinitionContext<A, D, E> definition() {
return definition;
return Optional.ofNullable(copyAsChildOfImpl(parent, type, targetModule));
}
- private ReactorStmtCtx<A, D, E> copyAsChildOfImpl(final Mutable<?, ?, ?> parent, final CopyType type,
+ private @Nullable 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.copyPolicy();
return canReuseCurrent(copy) ? this : copy;
}
- private boolean canReuseCurrent(final ReactorStmtCtx<A, D, E> copy) {
+ private boolean canReuseCurrent(final @NonNull 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())
final InferredStatementContext<X, Y, Z> copy;
if (implicitParent.isPresent()) {
- final StatementDefinitionContext<?, ?, ?> def = new StatementDefinitionContext<>(implicitParent.get());
- result = new SubstatementContext(this, def, original.sourceReference(), original.rawArgument(),
- original.argument(), type);
+ result = new UndeclaredStmtCtx(this, implicitParent.orElseThrow(), original, type);
final CopyType childCopyType;
switch (type) {
copy = new InferredStatementContext<>(result, original, childCopyType, type, targetModule);
result.addEffectiveSubstatement(copy);
+ result.definition.onStatementAdded(result);
} else {
result = copy = new InferredStatementContext<>(this, original, type, type, targetModule);
}
return original;
}
- final StatementDefinitionContext<?, ?, ?> def = new StatementDefinitionContext<>(optImplicit.orElseThrow());
- final CopyType type = original.history().getLastOperation();
-
checkArgument(original instanceof StatementContextBase, "Unsupported original %s", original);
final var origBase = (StatementContextBase<?, ?, ?>)original;
- @SuppressWarnings({ "rawtypes", "unchecked"})
- final SubstatementContext<?, ?, ?> result = new SubstatementContext(origBase.getParentContext(), def,
- original.sourceReference(), original.rawArgument(), original.argument(), type);
-
+ @SuppressWarnings({ "rawtypes", "unchecked" })
+ final UndeclaredStmtCtx<?, ?, ?> result = new UndeclaredStmtCtx(origBase, optImplicit.orElseThrow());
result.addEffectiveSubstatement(origBase.reparent(result));
result.setCompletedPhase(original.getCompletedPhase());
return result;
* @return True if {@link #allSubstatements()} and {@link #allSubstatementsStream()} would return an empty stream.
*/
abstract boolean hasEmptySubstatements();
+
+ // Note: these two are exposed for AbstractResumedStatement only
+ final boolean getImplicitDeclaredFlag() {
+ return implicitDeclaredFlag;
+ }
+
+ final void setImplicitDeclaredFlag() {
+ implicitDeclaredFlag = true;
+ }
}