import org.opendaylight.mdsal.binding.model.api.Type;
import org.opendaylight.mdsal.binding.runtime.api.AugmentRuntimeType;
import org.opendaylight.mdsal.binding.runtime.api.AugmentableRuntimeType;
import org.opendaylight.mdsal.binding.model.api.Type;
import org.opendaylight.mdsal.binding.runtime.api.AugmentRuntimeType;
import org.opendaylight.mdsal.binding.runtime.api.AugmentableRuntimeType;
import org.opendaylight.mdsal.binding.runtime.api.CompositeRuntimeType;
import org.opendaylight.yangtools.yang.binding.Augmentable;
import org.opendaylight.yangtools.yang.binding.Augmentation;
import org.opendaylight.yangtools.yang.binding.BindingObject;
import org.opendaylight.yangtools.yang.binding.DataObject;
import org.opendaylight.mdsal.binding.runtime.api.CompositeRuntimeType;
import org.opendaylight.yangtools.yang.binding.Augmentable;
import org.opendaylight.yangtools.yang.binding.Augmentation;
import org.opendaylight.yangtools.yang.binding.BindingObject;
import org.opendaylight.yangtools.yang.binding.DataObject;
import org.opendaylight.yangtools.yang.common.QName;
import org.opendaylight.yangtools.yang.data.api.YangInstanceIdentifier.NodeIdentifier;
import org.opendaylight.yangtools.yang.data.api.YangInstanceIdentifier.PathArgument;
import org.opendaylight.yangtools.yang.common.QName;
import org.opendaylight.yangtools.yang.data.api.YangInstanceIdentifier.NodeIdentifier;
import org.opendaylight.yangtools.yang.data.api.YangInstanceIdentifier.PathArgument;
// Final bits: generate the appropriate class, As a side effect we identify what Augmentations are possible
final List<AugmentRuntimeType> possibleAugmentations;
// Final bits: generate the appropriate class, As a side effect we identify what Augmentations are possible
final List<AugmentRuntimeType> possibleAugmentations;
if (Augmentable.class.isAssignableFrom(bindingClass)) {
// Verify we have the appropriate backing runtimeType
if (Augmentable.class.isAssignableFrom(bindingClass)) {
// Verify we have the appropriate backing runtimeType
if (!(runtimeType instanceof AugmentableRuntimeType augmentableRuntimeType)) {
throw new VerifyException(
"Unexpected type %s backing augmenable %s".formatted(runtimeType, bindingClass));
}
possibleAugmentations = augmentableRuntimeType.augments();
if (!(runtimeType instanceof AugmentableRuntimeType augmentableRuntimeType)) {
throw new VerifyException(
"Unexpected type %s backing augmenable %s".formatted(runtimeType, bindingClass));
}
possibleAugmentations = augmentableRuntimeType.augments();
- generatedClass = CodecDataObjectGenerator.generateAugmentable(factory().getLoader(), bindingClass,
- analysis.leafContexts, analysis.daoProperties, keyMethod);
+ generatedClass = CodecDataObjectGenerator.generateAugmentable(loader, bindingClass, analysis.leafContexts,
+ analysis.daoProperties, keyMethod);
- generatedClass = CodecDataObjectGenerator.generate(factory().getLoader(), bindingClass,
- analysis.leafContexts, analysis.daoProperties, keyMethod);
+ generatedClass = CodecDataObjectGenerator.generate(loader, bindingClass, analysis.leafContexts,
+ analysis.daoProperties, keyMethod);
// Deal with augmentations, which are not something we analysis provides
final var augPathToBinding = new HashMap<NodeIdentifier, Class<?>>();
// Deal with augmentations, which are not something we analysis provides
final var augPathToBinding = new HashMap<NodeIdentifier, Class<?>>();
for (var childPath : augProto.getChildArgs()) {
augPathToBinding.putIfAbsent(childPath, augBindingClass);
}
for (var childPath : augProto.getChildArgs()) {
augPathToBinding.putIfAbsent(childPath, augBindingClass);
}
final var child = super.pathChildPrototype(argType);
return child != null ? child : augmentToPrototype.get(argType);
}
@Override
final var child = super.pathChildPrototype(argType);
return child != null ? child : augmentToPrototype.get(argType);
}
@Override
final var child = super.streamChildPrototype(childClass);
if (child == null && Augmentation.class.isAssignableFrom(childClass)) {
return getAugmentationProtoByClass(childClass);
final var child = super.streamChildPrototype(childClass);
if (child == null && Augmentation.class.isAssignableFrom(childClass)) {
return getAugmentationProtoByClass(childClass);
* and walk all stream child and compare augmentations classes if they are equivalent. When we find a match
* we'll cache it so we do not need to perform reflection operations again.
*/
* and walk all stream child and compare augmentations classes if they are equivalent. When we find a match
* we'll cache it so we do not need to perform reflection operations again.
*/
final var mismatched = local.get(childClass);
return mismatched != null ? mismatched : loadMismatchedAugmentation(local, childClass);
}
final var mismatched = local.get(childClass);
return mismatched != null ? mismatched : loadMismatchedAugmentation(local, childClass);
}
- private @Nullable AugmentationCodecPrototype loadMismatchedAugmentation(
- final ImmutableMap<Class<?>, AugmentationCodecPrototype> oldMismatched,
+ private @Nullable AugmentationCodecPrototype<?> loadMismatchedAugmentation(
+ final ImmutableMap<Class<?>, AugmentationCodecPrototype<?>> oldMismatched,
final @NonNull Class<?> childClass) {
@SuppressWarnings("rawtypes")
final Class<?> augTarget = findAugmentationTarget((Class) childClass);
final @NonNull Class<?> childClass) {
@SuppressWarnings("rawtypes")
final Class<?> augTarget = findAugmentationTarget((Class) childClass);
// context would load.
if (getBindingClass().equals(augTarget) && belongsToRuntimeContext(childClass)) {
for (var realChild : augmentToPrototype.values()) {
// context would load.
if (getBindingClass().equals(augTarget) && belongsToRuntimeContext(childClass)) {
for (var realChild : augmentToPrototype.values()) {
- if (Augmentation.class.isAssignableFrom(realChild.getBindingClass())
- && isSubstitutionFor(childClass, realChild.getBindingClass())) {
+ final var realClass = realChild.javaClass();
+ if (Augmentation.class.isAssignableFrom(realClass) && isSubstitutionFor(childClass, realClass)) {
- private @NonNull AugmentationCodecPrototype cacheMismatched(
- final @NonNull ImmutableMap<Class<?>, AugmentationCodecPrototype> oldMismatched,
- final @NonNull Class<?> childClass, final @NonNull AugmentationCodecPrototype prototype) {
+ private @NonNull AugmentationCodecPrototype<?> cacheMismatched(
+ final @NonNull ImmutableMap<Class<?>, AugmentationCodecPrototype<?>> oldMismatched,
+ final @NonNull Class<?> childClass, final @NonNull AugmentationCodecPrototype<?> prototype) {
MISMATCHED_AUGMENTED.compareAndExchangeRelease(this, expected, newMismatched);
if (witness == expected) {
LOG.trace("Cached mismatched augmentation {} -> {} in {}", childClass, prototype, this);
MISMATCHED_AUGMENTED.compareAndExchangeRelease(this, expected, newMismatched);
if (witness == expected) {
LOG.trace("Cached mismatched augmentation {} -> {} in {}", childClass, prototype, this);
// FIXME: in face of deviations this code should be looking at declared view, i.e. all possibilities at augment
// declaration site
final var childPaths = augment.statement()
// FIXME: in face of deviations this code should be looking at declared view, i.e. all possibilities at augment
// declaration site
final var childPaths = augment.statement()
throw new IllegalStateException(
"RuntimeContext references type " + javaType + " but failed to load its class", e);
}
throw new IllegalStateException(
"RuntimeContext references type " + javaType + " but failed to load its class", e);
}
- return new AugmentationCodecPrototype(augClass, augment, factory, childPaths);
+ return new AugmentationCodecPrototype<>(augClass, augment, factory, childPaths);
final var bindingClass = entry.getKey();
final var codecProto = augmentToPrototype.get(bindingClass);
if (codecProto != null) {
final var bindingClass = entry.getKey();
final var codecProto = augmentToPrototype.get(bindingClass);
if (codecProto != null) {
if (bindingObj != null) {
map.put(bindingClass, bindingObj);
}
if (bindingObj != null) {
map.put(bindingClass, bindingObj);
}
- public PathArgument serializePathArgument(final InstanceIdentifier.PathArgument arg) {
- checkArgument(bindingArg().equals(arg));
+ public PathArgument serializePathArgument(final DataObjectStep<?> step) {
+ checkArgument(bindingArg().equals(step));