*/
package org.opendaylight.yangtools.yang.data.codec.gson;
-import static com.google.common.base.Verify.verifyNotNull;
-
import com.google.common.annotations.Beta;
import java.util.List;
-import java.util.Optional;
-import java.util.function.BiFunction;
+import org.eclipse.jdt.annotation.NonNull;
import org.opendaylight.yangtools.yang.common.QNameModule;
import org.opendaylight.yangtools.yang.data.impl.codec.AbstractIntegerStringCodec;
import org.opendaylight.yangtools.yang.data.impl.codec.BinaryStringCodec;
import org.opendaylight.yangtools.yang.data.impl.codec.StringStringCodec;
import org.opendaylight.yangtools.yang.data.util.codec.AbstractCodecFactory;
import org.opendaylight.yangtools.yang.data.util.codec.CodecCache;
-import org.opendaylight.yangtools.yang.model.api.SchemaContext;
+import org.opendaylight.yangtools.yang.data.util.codec.LazyCodecCache;
+import org.opendaylight.yangtools.yang.model.api.EffectiveModelContext;
import org.opendaylight.yangtools.yang.model.api.type.BinaryTypeDefinition;
import org.opendaylight.yangtools.yang.model.api.type.BitsTypeDefinition;
import org.opendaylight.yangtools.yang.model.api.type.BooleanTypeDefinition;
/**
* Factory for creating JSON equivalents of codecs. Each instance of this object is bound to
- * a particular {@link SchemaContext}, but can be reused by multiple {@link JSONNormalizedNodeStreamWriter}s.
- *
- * <p>
- * There are multiple implementations available, each with distinct thread-safety, CPU/memory trade-offs and reuse
- * characteristics. See {@link #getShared(SchemaContext)}, {@link #getPrecomputed(SchemaContext)},
- * {@link #createLazy(SchemaContext)} and {@link #createSimple(SchemaContext)} for details.
+ * a particular {@link EffectiveModelContext}, but can be reused by multiple {@link JSONNormalizedNodeStreamWriter}s.
*/
@Beta
-public final class JSONCodecFactory extends AbstractCodecFactory<JSONCodec<?>> {
- private final JSONCodec<?> iidCodec;
-
- JSONCodecFactory(final SchemaContext context, final CodecCache<JSONCodec<?>> cache,
- final BiFunction<SchemaContext, JSONCodecFactory, JSONInstanceIdentifierCodec> iidCodecSupplier) {
+public abstract class JSONCodecFactory extends AbstractCodecFactory<JSONCodec<?>> {
+ JSONCodecFactory(final @NonNull EffectiveModelContext context, final @NonNull CodecCache<JSONCodec<?>> cache) {
super(context, cache);
- iidCodec = verifyNotNull(iidCodecSupplier.apply(context, this));
- }
-
- /**
- * Get a thread-safe, eagerly-caching {@link JSONCodecFactory} for a SchemaContext. This method can, and will,
- * return the same instance as long as the associated SchemaContext is present. Returned object can be safely
- * used by multiple threads concurrently. If the SchemaContext instance does not have a cached instance
- * of {@link JSONCodecFactory}, it will be completely precomputed before this method will return.
- *
- * <p>
- * Choosing this implementation is appropriate when the memory overhead of keeping a full codec tree is not as
- * great a concern as predictable performance. When compared to the implementation returned by
- * {@link #getShared(SchemaContext)}, this implementation is expected to offer higher performance and have lower
- * peak memory footprint when most of the SchemaContext is actually in use.
- *
- * <p>
- * For call sites which do not want to pay the CPU cost of pre-computing this implementation, but still would like
- * to use it if is available (by being populated by some other caller), you can use
- * {@link #getPrecomputedIfAvailable(SchemaContext)}.
- *
- * @param context SchemaContext instance
- * @return A sharable {@link JSONCodecFactory}
- * @throws NullPointerException if context is null
- *
- * @deprecated Use {@link JSONCodecFactorySupplier#getPrecomputed(SchemaContext)} instead.
- */
- @Deprecated
- public static JSONCodecFactory getPrecomputed(final SchemaContext context) {
- return JSONCodecFactorySupplier.DRAFT_LHOTKA_NETMOD_YANG_JSON_02.getPrecomputed(context);
- }
-
- /**
- * Get a thread-safe, eagerly-caching {@link JSONCodecFactory} for a SchemaContext, if it is available. This
- * method is a non-blocking equivalent of {@link #getPrecomputed(SchemaContext)} for use in code paths where
- * the potential of having to pre-compute the implementation is not acceptable. One such scenario is when the
- * code base wants to opportunistically take advantage of pre-computed version, but is okay with a fallback to
- * a different implementation.
- *
- * @param context SchemaContext instance
- * @return A sharable {@link JSONCodecFactory}, or absent if such an implementation is not available.
- * @throws NullPointerException if context is null
- *
- * @deprecated Use {@link JSONCodecFactorySupplier#getPrecomputedIfAvailable(SchemaContext)} instead.
- */
- @Deprecated
- public static Optional<JSONCodecFactory> getPrecomputedIfAvailable(final SchemaContext context) {
- return JSONCodecFactorySupplier.DRAFT_LHOTKA_NETMOD_YANG_JSON_02.getPrecomputedIfAvailable(context);
- }
-
- /**
- * Get a thread-safe, lazily-caching {@link JSONCodecFactory} for a SchemaContext. This method can, and will,
- * return the same instance as long as the associated SchemaContext is present or the factory is not invalidated
- * by memory pressure. Returned object can be safely used by multiple threads concurrently.
- *
- * <p>
- * Choosing this implementation is a safe default, as it will not incur prohibitive blocking, nor will it tie up
- * memory in face of pressure.
- *
- * @param context SchemaContext instance
- * @return A sharable {@link JSONCodecFactory}
- * @throws NullPointerException if context is null
- *
- * @deprecated Use {@link JSONCodecFactorySupplier#getShared(SchemaContext)} instead.
- */
- @Deprecated
- public static JSONCodecFactory getShared(final SchemaContext context) {
- return JSONCodecFactorySupplier.DRAFT_LHOTKA_NETMOD_YANG_JSON_02.getShared(context);
- }
-
- /**
- * Create a new thread-unsafe, lazily-caching {@link JSONCodecFactory} for a SchemaContext. This method will
- * return distinct objects every time it is invoked. Returned object may not be used from multiple threads
- * concurrently.
- *
- * <p>
- * This implementation is appropriate for one-off serialization from a single thread. It will aggressively cache
- * codecs for reuse and will tie them up in memory until the factory is freed.
- *
- * @param context SchemaContext instance
- * @return A non-sharable {@link JSONCodecFactory}
- * @throws NullPointerException if context is null
- *
- * @deprecated Use {@link JSONCodecFactorySupplier#createLazy(SchemaContext)} instead.
- */
- @Deprecated
- public static JSONCodecFactory createLazy(final SchemaContext context) {
- return JSONCodecFactorySupplier.DRAFT_LHOTKA_NETMOD_YANG_JSON_02.createLazy(context);
- }
-
- /**
- * Create a simplistic, thread-safe {@link JSONCodecFactory} for a {@link SchemaContext}. This method will return
- * distinct objects every time it is invoked. Returned object may be use from multiple threads concurrently.
- *
- * <p>
- * This implementation exists mostly for completeness only, as it does not perform any caching at all and each codec
- * is computed every time it is requested. This may be useful in extremely constrained environments, where memory
- * footprint is more critical than performance.
- *
- * @param context SchemaContext instance
- * @return A non-sharable {@link JSONCodecFactory}
- * @throws NullPointerException if context is null.
- *
- * @deprecated Use {@link JSONCodecFactorySupplier#createSimple(SchemaContext)} instead.
- */
- @Deprecated
- public static JSONCodecFactory createSimple(final SchemaContext context) {
- return JSONCodecFactorySupplier.DRAFT_LHOTKA_NETMOD_YANG_JSON_02.createSimple(context);
}
@Override
- protected JSONCodec<?> binaryCodec(final BinaryTypeDefinition type) {
+ protected final JSONCodec<?> binaryCodec(final BinaryTypeDefinition type) {
return new QuotedJSONCodec<>(BinaryStringCodec.from(type));
}
@Override
- protected JSONCodec<?> booleanCodec(final BooleanTypeDefinition type) {
+ protected final JSONCodec<?> booleanCodec(final BooleanTypeDefinition type) {
return new BooleanJSONCodec(BooleanStringCodec.from(type));
}
@Override
- protected JSONCodec<?> bitsCodec(final BitsTypeDefinition type) {
+ protected final JSONCodec<?> bitsCodec(final BitsTypeDefinition type) {
return new QuotedJSONCodec<>(BitsStringCodec.from(type));
}
@Override
- protected JSONCodec<?> decimalCodec(final DecimalTypeDefinition type) {
- return new NumberJSONCodec<>(DecimalStringCodec.from(type));
+ protected final JSONCodec<?> decimalCodec(final DecimalTypeDefinition type) {
+ return wrapDecimalCodec(DecimalStringCodec.from(type));
}
@Override
- protected JSONCodec<?> emptyCodec(final EmptyTypeDefinition type) {
+ protected final JSONCodec<?> emptyCodec(final EmptyTypeDefinition type) {
return EmptyJSONCodec.INSTANCE;
}
@Override
- protected JSONCodec<?> enumCodec(final EnumTypeDefinition type) {
+ protected final JSONCodec<?> enumCodec(final EnumTypeDefinition type) {
return new QuotedJSONCodec<>(EnumStringCodec.from(type));
}
@Override
- protected JSONCodec<?> identityRefCodec(final IdentityrefTypeDefinition type, final QNameModule module) {
- return new IdentityrefJSONCodec(getSchemaContext(), module);
+ protected final JSONCodec<?> identityRefCodec(final IdentityrefTypeDefinition type, final QNameModule module) {
+ return new IdentityrefJSONCodec(getEffectiveModelContext(), module);
}
@Override
- protected JSONCodec<?> instanceIdentifierCodec(final InstanceIdentifierTypeDefinition type) {
- return iidCodec;
- }
-
- @Override
- protected JSONCodec<?> int8Codec(final Int8TypeDefinition type) {
+ protected final JSONCodec<?> int8Codec(final Int8TypeDefinition type) {
return new NumberJSONCodec<>(AbstractIntegerStringCodec.from(type));
}
@Override
- protected JSONCodec<?> int16Codec(final Int16TypeDefinition type) {
+ protected final JSONCodec<?> int16Codec(final Int16TypeDefinition type) {
return new NumberJSONCodec<>(AbstractIntegerStringCodec.from(type));
}
@Override
- protected JSONCodec<?> int32Codec(final Int32TypeDefinition type) {
+ protected final JSONCodec<?> int32Codec(final Int32TypeDefinition type) {
return new NumberJSONCodec<>(AbstractIntegerStringCodec.from(type));
}
@Override
- protected JSONCodec<?> int64Codec(final Int64TypeDefinition type) {
- return new NumberJSONCodec<>(AbstractIntegerStringCodec.from(type));
+ protected final JSONCodec<?> int64Codec(final Int64TypeDefinition type) {
+ return wrapIntegerCodec(AbstractIntegerStringCodec.from(type));
}
@Override
- protected JSONCodec<?> stringCodec(final StringTypeDefinition type) {
+ protected final JSONCodec<?> stringCodec(final StringTypeDefinition type) {
return new QuotedJSONCodec<>(StringStringCodec.from(type));
}
@Override
- protected JSONCodec<?> uint8Codec(final Uint8TypeDefinition type) {
+ protected final JSONCodec<?> uint8Codec(final Uint8TypeDefinition type) {
return new NumberJSONCodec<>(AbstractIntegerStringCodec.from(type));
}
@Override
- protected JSONCodec<?> uint16Codec(final Uint16TypeDefinition type) {
+ protected final JSONCodec<?> uint16Codec(final Uint16TypeDefinition type) {
return new NumberJSONCodec<>(AbstractIntegerStringCodec.from(type));
}
@Override
- protected JSONCodec<?> uint32Codec(final Uint32TypeDefinition type) {
+ protected final JSONCodec<?> uint32Codec(final Uint32TypeDefinition type) {
return new NumberJSONCodec<>(AbstractIntegerStringCodec.from(type));
}
@Override
- protected JSONCodec<?> uint64Codec(final Uint64TypeDefinition type) {
- return new NumberJSONCodec<>(AbstractIntegerStringCodec.from(type));
+ protected final JSONCodec<?> uint64Codec(final Uint64TypeDefinition type) {
+ return wrapIntegerCodec(AbstractIntegerStringCodec.from(type));
}
@Override
- protected JSONCodec<?> unionCodec(final UnionTypeDefinition type, final List<JSONCodec<?>> codecs) {
+ protected final JSONCodec<?> unionCodec(final UnionTypeDefinition type, final List<JSONCodec<?>> codecs) {
return UnionJSONCodec.create(type, codecs);
}
@Override
- protected JSONCodec<?> unknownCodec(final UnknownTypeDefinition type) {
+ protected final JSONCodec<?> unknownCodec(final UnknownTypeDefinition type) {
return NullJSONCodec.INSTANCE;
}
+
+ @Override
+ protected abstract JSONCodec<?> instanceIdentifierCodec(InstanceIdentifierTypeDefinition type);
+
+ // Returns a one-off factory for the purposes of normalizing an anydata tree.
+ //
+ // FIXME: 6.0.0: this is really ugly, as we should be able to tell if the new context is the same as ours and
+ // whether our cache is thread-safe -- in which case we should just return this.
+ // The supplier/cache/factory layout needs to be reworked so that this call ends up being equivalent
+ // to JSONCodecFactorySupplier.getShared() in case this factory is not thread safe.
+ //
+ // The above is not currently possible, as we cannot reference JSONCodecFactorySupplier from the
+ // factory due to that potentially creating a circular reference.
+ final JSONCodecFactory rebaseTo(final EffectiveModelContext newSchemaContext) {
+ return rebaseTo(newSchemaContext, new LazyCodecCache<>());
+ }
+
+ abstract JSONCodecFactory rebaseTo(EffectiveModelContext newSchemaContext, CodecCache<JSONCodec<?>> newCache);
+
+ abstract JSONCodec<?> wrapDecimalCodec(DecimalStringCodec decimalCodec);
+
+ abstract JSONCodec<?> wrapIntegerCodec(AbstractIntegerStringCodec<?, ?> integerCodec);
}