import static com.google.common.base.Verify.verifyNotNull;
import static java.util.Objects.requireNonNull;
-import com.google.common.collect.ImmutableList;
import java.util.ArrayList;
import java.util.Iterator;
import java.util.List;
-import java.util.Optional;
import java.util.stream.Collectors;
import org.eclipse.jdt.annotation.NonNull;
import org.eclipse.jdt.annotation.Nullable;
import org.opendaylight.mdsal.binding.model.api.Enumeration;
import org.opendaylight.mdsal.binding.model.api.GeneratedTransferObject;
-import org.opendaylight.mdsal.binding.model.api.GeneratedType;
+import org.opendaylight.mdsal.binding.model.api.Type;
import org.opendaylight.mdsal.binding.model.api.type.builder.GeneratedTypeBuilder;
import org.opendaylight.mdsal.binding.model.ri.BindingTypes;
-import org.opendaylight.mdsal.binding.runtime.api.AugmentRuntimeType;
import org.opendaylight.mdsal.binding.runtime.api.CompositeRuntimeType;
import org.opendaylight.mdsal.binding.runtime.api.RuntimeType;
+import org.opendaylight.yangtools.rfc8040.model.api.YangDataEffectiveStatement;
import org.opendaylight.yangtools.yang.common.QName;
import org.opendaylight.yangtools.yang.model.api.AddedByUsesAware;
import org.opendaylight.yangtools.yang.model.api.CopyableNode;
import org.opendaylight.yangtools.yang.model.api.stmt.CaseEffectiveStatement;
import org.opendaylight.yangtools.yang.model.api.stmt.ChoiceEffectiveStatement;
import org.opendaylight.yangtools.yang.model.api.stmt.ContainerEffectiveStatement;
+import org.opendaylight.yangtools.yang.model.api.stmt.FeatureEffectiveStatement;
import org.opendaylight.yangtools.yang.model.api.stmt.GroupingEffectiveStatement;
import org.opendaylight.yangtools.yang.model.api.stmt.IdentityEffectiveStatement;
import org.opendaylight.yangtools.yang.model.api.stmt.InputEffectiveStatement;
return childGenerators.iterator();
}
- @NonNull S effectiveStatement() {
- return statement();
+ final @NonNull List<AbstractAugmentGenerator> augments() {
+ return augments;
}
- @Override
- public final R createRuntimeType() {
- return generatedType()
- .map(type -> {
- final var stmt = effectiveStatement();
- return createRuntimeType(type, stmt, indexChildren(stmt), augmentRuntimeTypes());
- })
- .orElse(null);
+ final @NonNull List<GroupingGenerator> groupings() {
+ return verifyNotNull(groupings, "Groupings not initialized in %s", this);
}
- abstract @NonNull R createRuntimeType(@NonNull GeneratedType type, @NonNull S statement,
- @NonNull List<RuntimeType> children, @NonNull List<AugmentRuntimeType> augments);
-
@Override
- final R rebaseRuntimeType(final R type, final S statement) {
- return createRuntimeType(type.javaType(), statement, indexChildren(statement), augmentRuntimeTypes());
- }
-
- private @NonNull List<RuntimeType> indexChildren(final @NonNull S statement) {
- final var childMap = new ArrayList<RuntimeType>();
-
- for (var stmt : statement.effectiveSubstatements()) {
- if (stmt instanceof SchemaTreeEffectiveStatement) {
- final var child = (SchemaTreeEffectiveStatement<?>) stmt;
- final var qname = child.getIdentifier();
-
- // Note: getOriginal() is needed for augments of cases
- @SuppressWarnings("rawtypes")
- final AbstractExplicitGenerator childGen = getOriginal().resolveRuntimeChild(statement.argument(),
- qname);
- @SuppressWarnings("unchecked")
- final Optional<RuntimeType> rt = childGen.runtimeTypeOf(child);
- rt.ifPresent(childMap::add);
- }
- }
-
- return childMap;
+ final R createExternalRuntimeType(final Type type) {
+ return createBuilder(statement()).populate(new AugmentResolver(), this).build(verifyGeneratedType(type));
}
- private @NonNull AbstractExplicitGenerator<?, ?> resolveRuntimeChild(final Object parentArg, final QName qname) {
- final var exact = findSchemaTreeGenerator(qname);
- if (exact != null) {
- return exact;
- }
-
- // TODO: this is quite hacky: what we are trying to do is rebase the lookup QName to parent QName, as the only
- // way we should be arriving here is through uses -> grouping squash
- verify(parentArg instanceof QName, "Cannot deal with parent argument %s", parentArg);
- final var namespace = ((QName) parentArg).getModule();
-
- verify(namespace.equals(qname.getModule()), "Cannot deal with %s in namespace %s", qname, namespace);
- final var local = qname.bindTo(getQName().getModule());
- return verifyNotNull(findSchemaTreeGenerator(local), "Failed to find %s as %s in %s", qname, local, this);
- }
+ abstract @NonNull CompositeRuntimeTypeBuilder<S, R> createBuilder(S statement);
- final @NonNull List<AbstractAugmentGenerator> augments() {
- return augments;
- }
-
- private @NonNull List<AugmentRuntimeType> augmentRuntimeTypes() {
- // Augments are attached to original instance: at least CaseGenerator is instantiated in non-original place
- // and thus we need to go back to original
- return getOriginal().augments.stream()
- .map(AbstractAugmentGenerator::runtimeType)
- .filter(Optional::isPresent)
- .map(Optional::orElseThrow)
- .collect(ImmutableList.toImmutableList());
+ @Override
+ final R createInternalRuntimeType(final AugmentResolver resolver, final S statement, final Type type) {
+ return createBuilder(statement).populate(resolver, this).build(verifyGeneratedType(type));
}
@Override
final @Nullable AbstractExplicitGenerator<?, ?> findGenerator(final MatchStrategy childStrategy,
// TODO: Wouldn't this method be nicer with Deque<EffectiveStatement<?, ?>> ?
final List<EffectiveStatement<?, ?>> stmtPath, final int offset) {
- final EffectiveStatement<?, ?> stmt = stmtPath.get(offset);
+ final var stmt = stmtPath.get(offset);
// Try direct children first, which is simple
- AbstractExplicitGenerator<?, ?> ret = childStrategy.findGenerator(stmt, childGenerators);
+ var ret = childStrategy.findGenerator(stmt, childGenerators);
if (ret != null) {
final int next = offset + 1;
if (stmtPath.size() == next) {
// Final step, return child
return ret;
}
- if (ret instanceof AbstractCompositeGenerator) {
+ if (ret instanceof AbstractCompositeGenerator<?, ?> composite) {
// We know how to descend down
- return ((AbstractCompositeGenerator<?, ?>) ret).findGenerator(childStrategy, stmtPath, next);
+ return composite.findGenerator(childStrategy, stmtPath, next);
}
// Yeah, don't know how to continue here
return null;
// - we propagate those groupings as anchors to any augment statements, which takes out some amount of guesswork
// from augment+uses resolution case, as groupings know about their immediate augments as soon as uses linkage
// is resolved
- final List<GroupingGenerator> tmp = new ArrayList<>();
- for (EffectiveStatement<?, ?> stmt : statement().effectiveSubstatements()) {
- if (stmt instanceof UsesEffectiveStatement) {
- final UsesEffectiveStatement uses = (UsesEffectiveStatement) stmt;
- final GroupingGenerator grouping = context.resolveTreeScoped(GroupingGenerator.class, uses.argument());
+ final var tmp = new ArrayList<GroupingGenerator>();
+ for (var stmt : statement().effectiveSubstatements()) {
+ if (stmt instanceof UsesEffectiveStatement uses) {
+ final var grouping = context.resolveTreeScoped(GroupingGenerator.class, uses.argument());
tmp.add(grouping);
// Trigger resolution of uses/augment statements. This looks like guesswork, but there may be multiple
// 'augment' statements in a 'uses' statement and keeping a ListMultimap here seems wasteful.
for (Generator gen : this) {
- if (gen instanceof UsesAugmentGenerator) {
- ((UsesAugmentGenerator) gen).resolveGrouping(uses, grouping);
+ if (gen instanceof UsesAugmentGenerator usesGen) {
+ usesGen.resolveGrouping(uses, grouping);
}
}
}
}
final void startUsesAugmentLinkage(final List<AugmentRequirement> requirements) {
- for (Generator child : childGenerators) {
- if (child instanceof UsesAugmentGenerator) {
- requirements.add(((UsesAugmentGenerator) child).startLinkage());
+ for (var child : childGenerators) {
+ if (child instanceof UsesAugmentGenerator uses) {
+ requirements.add(uses.startLinkage());
}
- if (child instanceof AbstractCompositeGenerator) {
- ((AbstractCompositeGenerator<?, ?>) child).startUsesAugmentLinkage(requirements);
+ if (child instanceof AbstractCompositeGenerator<?, ?> composite) {
+ composite.startUsesAugmentLinkage(requirements);
}
}
}
// Attempt to make progress on child linkage
final var it = unlinkedChildren.iterator();
while (it.hasNext()) {
- final var child = it.next();
- if (child instanceof AbstractExplicitGenerator) {
- if (((AbstractExplicitGenerator<?, ?>) child).linkOriginalGenerator()) {
- progress = LinkageProgress.SOME;
- it.remove();
-
- // If this is a composite generator we need to process is further
- if (child instanceof AbstractCompositeGenerator) {
- if (unlinkedComposites.isEmpty()) {
- unlinkedComposites = new ArrayList<>();
- }
- unlinkedComposites.add((AbstractCompositeGenerator<?, ?>) child);
+ if (it.next() instanceof AbstractExplicitGenerator<?, ?> explicit && explicit.linkOriginalGenerator()) {
+ progress = LinkageProgress.SOME;
+ it.remove();
+
+ // If this is a composite generator we need to process is further
+ if (explicit instanceof AbstractCompositeGenerator<?, ?> composite) {
+ if (unlinkedComposites.isEmpty()) {
+ unlinkedComposites = new ArrayList<>();
}
+ unlinkedComposites.add(composite);
}
}
}
@Override
final AbstractExplicitGenerator<?, ?> findSchemaTreeGenerator(final QName qname) {
- final AbstractExplicitGenerator<?, ?> found = super.findSchemaTreeGenerator(qname);
+ final var found = super.findSchemaTreeGenerator(qname);
return found != null ? found : findInferredGenerator(qname);
}
}
final @Nullable GroupingGenerator findGroupingForGenerator(final QName qname) {
- for (GroupingGenerator grouping : groupings) {
+ for (var grouping : groupings) {
final var gen = grouping.findSchemaTreeGenerator(qname.bindTo(grouping.statement().argument().getModule()));
if (gen != null) {
return grouping;
* @return The number of groupings this type uses.
*/
final int addUsesInterfaces(final GeneratedTypeBuilder builder, final TypeBuilderFactory builderFactory) {
- for (GroupingGenerator grp : groupings) {
+ for (var grp : groupings) {
builder.addImplementsType(grp.getGeneratedType(builderFactory));
}
return groupings.size();
}
final void addGetterMethods(final GeneratedTypeBuilder builder, final TypeBuilderFactory builderFactory) {
- for (Generator child : this) {
+ for (var child : this) {
// Only process explicit generators here
- if (child instanceof AbstractExplicitGenerator) {
- ((AbstractExplicitGenerator<?, ?>) child).addAsGetterMethod(builder, builderFactory);
+ if (child instanceof AbstractExplicitGenerator<?, ?> explicit) {
+ explicit.addAsGetterMethod(builder, builderFactory);
}
- final GeneratedType enclosedType = child.enclosedType(builderFactory);
- if (enclosedType instanceof GeneratedTransferObject) {
- builder.addEnclosingTransferObject((GeneratedTransferObject) enclosedType);
- } else if (enclosedType instanceof Enumeration) {
- builder.addEnumeration((Enumeration) enclosedType);
+ final var enclosedType = child.enclosedType(builderFactory);
+ if (enclosedType instanceof GeneratedTransferObject gto) {
+ builder.addEnclosingTransferObject(gto);
+ } else if (enclosedType instanceof Enumeration enumeration) {
+ builder.addEnumeration(enumeration);
} else {
verify(enclosedType == null, "Unhandled enclosed type %s in %s", enclosedType, child);
}
final var tmpAug = new ArrayList<AbstractAugmentGenerator>();
for (var stmt : statement.effectiveSubstatements()) {
- if (stmt instanceof ActionEffectiveStatement) {
- if (!isAugmenting(stmt)) {
- tmp.add(new ActionGenerator((ActionEffectiveStatement) stmt, this));
+ if (stmt instanceof ActionEffectiveStatement action) {
+ if (!isAugmenting(action)) {
+ tmp.add(new ActionGenerator(action, this));
}
- } else if (stmt instanceof AnydataEffectiveStatement) {
- if (!isAugmenting(stmt)) {
- tmp.add(new OpaqueObjectGenerator.Anydata((AnydataEffectiveStatement) stmt, this));
+ } else if (stmt instanceof AnydataEffectiveStatement anydata) {
+ if (!isAugmenting(anydata)) {
+ tmp.add(new OpaqueObjectGenerator.Anydata(anydata, this));
}
- } else if (stmt instanceof AnyxmlEffectiveStatement) {
- if (!isAugmenting(stmt)) {
- tmp.add(new OpaqueObjectGenerator.Anyxml((AnyxmlEffectiveStatement) stmt, this));
+ } else if (stmt instanceof AnyxmlEffectiveStatement anyxml) {
+ if (!isAugmenting(anyxml)) {
+ tmp.add(new OpaqueObjectGenerator.Anyxml(anyxml, this));
}
- } else if (stmt instanceof CaseEffectiveStatement) {
- tmp.add(new CaseGenerator((CaseEffectiveStatement) stmt, this));
- } else if (stmt instanceof ChoiceEffectiveStatement) {
+ } else if (stmt instanceof CaseEffectiveStatement cast) {
+ tmp.add(new CaseGenerator(cast, this));
+ } else if (stmt instanceof ChoiceEffectiveStatement choice) {
// FIXME: use isOriginalDeclaration() ?
- if (!isAddedByUses(stmt)) {
- tmp.add(new ChoiceGenerator((ChoiceEffectiveStatement) stmt, this));
+ if (!isAddedByUses(choice)) {
+ tmp.add(new ChoiceGenerator(choice, this));
}
- } else if (stmt instanceof ContainerEffectiveStatement) {
- if (isOriginalDeclaration(stmt)) {
- tmp.add(new ContainerGenerator((ContainerEffectiveStatement) stmt, this));
+ } else if (stmt instanceof ContainerEffectiveStatement container) {
+ if (isOriginalDeclaration(container)) {
+ tmp.add(new ContainerGenerator(container, this));
}
- } else if (stmt instanceof GroupingEffectiveStatement) {
- tmp.add(new GroupingGenerator((GroupingEffectiveStatement) stmt, this));
- } else if (stmt instanceof IdentityEffectiveStatement) {
- tmp.add(new IdentityGenerator((IdentityEffectiveStatement) stmt, this));
- } else if (stmt instanceof InputEffectiveStatement) {
- final var cast = (InputEffectiveStatement) stmt;
- // FIXME: do not generate legacy RPC layout
- tmp.add(this instanceof RpcGenerator ? new RpcInputGenerator(cast, this)
- : new InputGenerator(cast, this));
- } else if (stmt instanceof LeafEffectiveStatement) {
- if (!isAugmenting(stmt)) {
- tmp.add(new LeafGenerator((LeafEffectiveStatement) stmt, this));
+ } else if (stmt instanceof FeatureEffectiveStatement feature && this instanceof ModuleGenerator parent) {
+ tmp.add(new FeatureGenerator(feature, parent));
+ } else if (stmt instanceof GroupingEffectiveStatement grouping) {
+ tmp.add(new GroupingGenerator(grouping, this));
+ } else if (stmt instanceof IdentityEffectiveStatement identity) {
+ tmp.add(new IdentityGenerator(identity, this));
+ } else if (stmt instanceof InputEffectiveStatement input) {
+ tmp.add(new InputGenerator(input, this));
+ } else if (stmt instanceof LeafEffectiveStatement leaf) {
+ if (!isAugmenting(leaf)) {
+ tmp.add(new LeafGenerator(leaf, this));
}
- } else if (stmt instanceof LeafListEffectiveStatement) {
- if (!isAugmenting(stmt)) {
- tmp.add(new LeafListGenerator((LeafListEffectiveStatement) stmt, this));
+ } else if (stmt instanceof LeafListEffectiveStatement leafList) {
+ if (!isAugmenting(leafList)) {
+ tmp.add(new LeafListGenerator(leafList, this));
}
- } else if (stmt instanceof ListEffectiveStatement) {
- if (isOriginalDeclaration(stmt)) {
- final ListGenerator listGen = new ListGenerator((ListEffectiveStatement) stmt, this);
+ } else if (stmt instanceof ListEffectiveStatement list) {
+ if (isOriginalDeclaration(list)) {
+ final var listGen = new ListGenerator(list, this);
tmp.add(listGen);
- final KeyGenerator keyGen = listGen.keyGenerator();
+ final var keyGen = listGen.keyGenerator();
if (keyGen != null) {
tmp.add(keyGen);
}
}
- } else if (stmt instanceof NotificationEffectiveStatement) {
- if (!isAugmenting(stmt)) {
- tmp.add(new NotificationGenerator((NotificationEffectiveStatement) stmt, this));
+ } else if (stmt instanceof NotificationEffectiveStatement notification) {
+ if (!isAugmenting(notification)) {
+ tmp.add(new NotificationGenerator(notification, this));
+ }
+ } else if (stmt instanceof OutputEffectiveStatement output) {
+ tmp.add(new OutputGenerator(output, this));
+ } else if (stmt instanceof RpcEffectiveStatement rpc) {
+ if (this instanceof ModuleGenerator module) {
+ tmp.add(new RpcGenerator(rpc, module));
}
- } else if (stmt instanceof OutputEffectiveStatement) {
- final var cast = (OutputEffectiveStatement) stmt;
- // FIXME: do not generate legacy RPC layout
- tmp.add(this instanceof RpcGenerator ? new RpcOutputGenerator(cast, this)
- : new OutputGenerator(cast, this));
- } else if (stmt instanceof RpcEffectiveStatement) {
- tmp.add(new RpcGenerator((RpcEffectiveStatement) stmt, this));
- } else if (stmt instanceof TypedefEffectiveStatement) {
- tmp.add(new TypedefGenerator((TypedefEffectiveStatement) stmt, this));
- } else if (stmt instanceof AugmentEffectiveStatement) {
+ } else if (stmt instanceof TypedefEffectiveStatement typedef) {
+ tmp.add(new TypedefGenerator(typedef, this));
+ } else if (stmt instanceof AugmentEffectiveStatement augment) {
// FIXME: MDSAL-695: So here we are ignoring any augment which is not in a module, while the 'uses'
// processing takes care of the rest. There are two problems here:
//
// So here is where we should decide how to handle this augment, and make sure we
// retain information about this being an alias. That will serve as the base for keys
// in the augment -> original map we provide to BindingRuntimeTypes.
- if (this instanceof ModuleGenerator) {
- tmpAug.add(new ModuleAugmentGenerator((AugmentEffectiveStatement) stmt, this));
+ if (this instanceof ModuleGenerator module) {
+ tmpAug.add(new ModuleAugmentGenerator(augment, module));
}
- } else if (stmt instanceof UsesEffectiveStatement) {
- final UsesEffectiveStatement uses = (UsesEffectiveStatement) stmt;
- for (EffectiveStatement<?, ?> usesSub : uses.effectiveSubstatements()) {
- if (usesSub instanceof AugmentEffectiveStatement) {
- tmpAug.add(new UsesAugmentGenerator((AugmentEffectiveStatement) usesSub, uses, this));
+ } else if (stmt instanceof UsesEffectiveStatement uses) {
+ for (var usesSub : uses.effectiveSubstatements()) {
+ if (usesSub instanceof AugmentEffectiveStatement usesAug) {
+ tmpAug.add(new UsesAugmentGenerator(usesAug, uses, this));
}
}
+ } else if (stmt instanceof YangDataEffectiveStatement yangData) {
+ if (this instanceof ModuleGenerator moduleGen) {
+ tmp.add(YangDataGenerator.of(yangData, moduleGen));
+ }
} else {
LOG.trace("Ignoring statement {}", stmt);
}
// substatements to establish this order.
tmpAug.sort(AbstractAugmentGenerator.COMPARATOR);
tmp.addAll(tmpAug);
-
- // Compatibility FooService and FooListener interfaces, only generated for modules.
- if (this instanceof ModuleGenerator) {
- final ModuleGenerator moduleGen = (ModuleGenerator) this;
-
- final List<NotificationGenerator> notifs = tmp.stream()
- .filter(NotificationGenerator.class::isInstance)
- .map(NotificationGenerator.class::cast)
- .collect(Collectors.toUnmodifiableList());
- if (!notifs.isEmpty()) {
- tmp.add(new NotificationServiceGenerator(moduleGen, notifs));
- }
-
- final List<RpcGenerator> rpcs = tmp.stream()
- .filter(RpcGenerator.class::isInstance)
- .map(RpcGenerator.class::cast)
- .collect(Collectors.toUnmodifiableList());
- if (!rpcs.isEmpty()) {
- tmp.add(new RpcServiceGenerator(moduleGen, rpcs));
- }
- }
-
return List.copyOf(tmp);
}
// Utility equivalent of (!isAddedByUses(stmt) && !isAugmenting(stmt)). Takes advantage of relationship between
// CopyableNode and AddedByUsesAware
private static boolean isOriginalDeclaration(final EffectiveStatement<?, ?> stmt) {
- if (stmt instanceof AddedByUsesAware) {
- if (((AddedByUsesAware) stmt).isAddedByUses()
- || stmt instanceof CopyableNode && ((CopyableNode) stmt).isAugmenting()) {
- return false;
- }
+ if (stmt instanceof AddedByUsesAware aware
+ && (aware.isAddedByUses() || aware instanceof CopyableNode copyable && copyable.isAugmenting())) {
+ return false;
}
return true;
}
private static boolean isAddedByUses(final EffectiveStatement<?, ?> stmt) {
- return stmt instanceof AddedByUsesAware && ((AddedByUsesAware) stmt).isAddedByUses();
+ return stmt instanceof AddedByUsesAware aware && aware.isAddedByUses();
}
private static boolean isAugmenting(final EffectiveStatement<?, ?> stmt) {
- return stmt instanceof CopyableNode && ((CopyableNode) stmt).isAugmenting();
+ return stmt instanceof CopyableNode copyable && copyable.isAugmenting();
}
}