import org.opendaylight.yangtools.yang.model.api.stmt.SchemaNodeIdentifier;
import org.opendaylight.yangtools.yang.model.api.stmt.StatusEffectiveStatement;
import org.opendaylight.yangtools.yang.model.api.stmt.UsesStatement;
-import org.opendaylight.yangtools.yang.model.api.stmt.WhenStatement;
-import org.opendaylight.yangtools.yang.parser.rfc7950.namespace.ChildSchemaNodeNamespace;
+import org.opendaylight.yangtools.yang.model.api.stmt.WhenEffectiveStatement;
import org.opendaylight.yangtools.yang.parser.rfc7950.stmt.ArgumentUtils;
import org.opendaylight.yangtools.yang.parser.rfc7950.stmt.BaseStatementSupport;
import org.opendaylight.yangtools.yang.parser.rfc7950.stmt.EffectiveStatementMixins.EffectiveStatementWithFlags.FlagsBuilder;
+import org.opendaylight.yangtools.yang.parser.spi.SchemaTreeNamespace;
import org.opendaylight.yangtools.yang.parser.spi.meta.CopyType;
import org.opendaylight.yangtools.yang.parser.spi.meta.InferenceException;
import org.opendaylight.yangtools.yang.parser.spi.meta.ModelActionBuilder;
public final void onFullDefinitionDeclared(
final Mutable<SchemaNodeIdentifier, AugmentStatement, AugmentEffectiveStatement> augmentNode) {
if (!augmentNode.isSupportedByFeatures()) {
- return;
+ // We need this augment node to be present, but it should not escape to effective world
+ augmentNode.setIsSupportedToBuildEffective(false);
}
super.onFullDefinitionDeclared(augmentNode);
final ModelActionBuilder augmentAction = augmentNode.newInferenceAction(ModelProcessingPhase.EFFECTIVE_MODEL);
augmentAction.requiresCtx(augmentNode, ModelProcessingPhase.EFFECTIVE_MODEL);
final Prerequisite<Mutable<?, ?, EffectiveStatement<?, ?>>> target = augmentAction.mutatesEffectiveCtxPath(
- getSearchRoot(augmentNode), ChildSchemaNodeNamespace.class,
+ getSearchRoot(augmentNode), SchemaTreeNamespace.class,
augmentNode.coerceStatementArgument().getNodeIdentifiers());
augmentAction.apply(new InferenceAction() {
*/
if (YangStmtMapping.USES == augmentNode.coerceParentContext().getPublicDefinition()) {
final SchemaNodeIdentifier augmentArg = augmentNode.coerceStatementArgument();
- final Optional<StmtContext<?, ?, ?>> targetNode = ChildSchemaNodeNamespace.findNode(
+ final Optional<StmtContext<?, ?, ?>> targetNode = SchemaTreeNamespace.findNode(
getSearchRoot(augmentNode), augmentArg);
if (targetNode.isPresent() && StmtContextUtils.isUnknownStatement(targetNode.get())) {
augmentNode.setIsSupportedToBuildEffective(false);
@Override
protected final AugmentStatement createDeclared(final StmtContext<SchemaNodeIdentifier, AugmentStatement, ?> ctx,
final ImmutableList<? extends DeclaredStatement<?>> substatements) {
- return new RegularAugmentStatement(ctx, substatements);
+ return new RegularAugmentStatement(ctx.coerceRawStatementArgument(), ctx.coerceStatementArgument(),
+ substatements);
}
@Override
protected final AugmentStatement createEmptyDeclared(
final StmtContext<SchemaNodeIdentifier, AugmentStatement, ?> ctx) {
- return new EmptyAugmentStatement(ctx);
+ return new EmptyAugmentStatement(ctx.coerceRawStatementArgument(), ctx.coerceStatementArgument());
}
@Override
.setStatus(findFirstArgument(substatements, StatusEffectiveStatement.class, Status.CURRENT))
.toFlags();
- return new AugmentEffectiveStatementImpl(declared, flags, StmtContextUtils.getRootModuleQName(ctx),
- substatements, ctx.getStatementSourceReference(),
+ return new AugmentEffectiveStatementImpl(declared, ctx.coerceStatementArgument(), flags,
+ StmtContextUtils.getRootModuleQName(ctx), substatements, ctx.getStatementSourceReference(),
(AugmentationSchemaNode) ctx.getOriginalCtx().map(StmtContext::buildEffective).orElse(null));
}
static void copyFromSourceToTarget(final StatementContextBase<?, ?, ?> sourceCtx,
final StatementContextBase<?, ?, ?> targetCtx) {
- final CopyType typeOfCopy = UsesStatement.class.equals(sourceCtx.coerceParentContext().getPublicDefinition()
- .getDeclaredRepresentationClass()) ? CopyType.ADDED_BY_USES_AUGMENTATION
- : CopyType.ADDED_BY_AUGMENTATION;
+ final CopyType typeOfCopy = sourceCtx.coerceParentContext().producesDeclared(UsesStatement.class)
+ ? CopyType.ADDED_BY_USES_AUGMENTATION : CopyType.ADDED_BY_AUGMENTATION;
/*
* Since Yang 1.1, if an augmentation is made conditional with a
* "when" statement, it is allowed to add mandatory nodes.
*/
final boolean skipCheckOfMandatoryNodes = YangVersion.VERSION_1_1.equals(sourceCtx.getRootVersion())
&& isConditionalAugmentStmt(sourceCtx);
+ final boolean unsupported = !sourceCtx.isSupportedByFeatures();
final Collection<? extends Mutable<?, ?, ?>> declared = sourceCtx.mutableDeclaredSubstatements();
final Collection<? extends Mutable<?, ?, ?>> effective = sourceCtx.mutableEffectiveSubstatements();
final Collection<Mutable<?, ?, ?>> buffer = new ArrayList<>(declared.size() + effective.size());
for (final Mutable<?, ?, ?> originalStmtCtx : declared) {
- if (originalStmtCtx.isSupportedByFeatures()) {
- copyStatement(originalStmtCtx, targetCtx, typeOfCopy, buffer, skipCheckOfMandatoryNodes);
- }
+ copyStatement(originalStmtCtx, targetCtx, typeOfCopy, buffer, skipCheckOfMandatoryNodes,
+ unsupported || !originalStmtCtx.isSupportedByFeatures());
}
for (final Mutable<?, ?, ?> originalStmtCtx : effective) {
- copyStatement(originalStmtCtx, targetCtx, typeOfCopy, buffer, skipCheckOfMandatoryNodes);
+ copyStatement(originalStmtCtx, targetCtx, typeOfCopy, buffer, skipCheckOfMandatoryNodes, unsupported);
}
targetCtx.addEffectiveSubstatements(buffer);
}
private static boolean hasWhenSubstatement(final StmtContext<?, ?, ?> ctx) {
- return StmtContextUtils.findFirstSubstatement(ctx, WhenStatement.class) != null;
+ return ctx.hasSubstatement(WhenEffectiveStatement.class);
}
private static void copyStatement(final Mutable<?, ?, ?> original, final StatementContextBase<?, ?, ?> target,
final CopyType typeOfCopy, final Collection<Mutable<?, ?, ?>> buffer,
- final boolean skipCheckOfMandatoryNodes) {
+ final boolean skipCheckOfMandatoryNodes, final boolean unsupported) {
+ // We always copy statements, but if either the source statement or the augmentation which causes it are not
+ // supported to build we also mark the target as such.
if (needToCopyByAugment(original)) {
validateNodeCanBeCopiedByAugment(original, target, typeOfCopy, skipCheckOfMandatoryNodes);
- buffer.add(target.childCopyOf(original, typeOfCopy));
- } else if (isReusedByAugment(original)) {
+ final Mutable<?, ?, ?> copy = target.childCopyOf(original, typeOfCopy);
+ if (unsupported) {
+ copy.setIsSupportedToBuildEffective(false);
+ }
+ buffer.add(copy);
+ } else if (isReusedByAugment(original) && !unsupported) {
buffer.add(original);
}
}
private static void validateNodeCanBeCopiedByAugment(final StmtContext<?, ?, ?> sourceCtx,
final StatementContextBase<?, ?, ?> targetCtx, final CopyType typeOfCopy,
final boolean skipCheckOfMandatoryNodes) {
-
- if (WhenStatement.class.equals(sourceCtx.getPublicDefinition().getDeclaredRepresentationClass())) {
- return;
- }
-
if (!skipCheckOfMandatoryNodes && typeOfCopy == CopyType.ADDED_BY_AUGMENTATION
&& requireCheckOfMandatoryNodes(sourceCtx, targetCtx)) {
checkForMandatoryNodes(sourceCtx);
}
// Data definition statements must not collide on their namespace
- if (DataDefinitionStatement.class.isAssignableFrom(
- sourceCtx.getPublicDefinition().getDeclaredRepresentationClass())) {
+ if (sourceCtx.producesDeclared(DataDefinitionStatement.class)) {
for (final StmtContext<?, ?, ?> subStatement : targetCtx.allSubstatements()) {
- if (DataDefinitionStatement.class.isAssignableFrom(
- subStatement.getPublicDefinition().getDeclaredRepresentationClass())) {
-
+ if (subStatement.producesDeclared(DataDefinitionStatement.class)) {
InferenceException.throwIf(
Objects.equals(sourceCtx.getStatementArgument(), subStatement.getStatementArgument()),
sourceCtx.getStatementSourceReference(),