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// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc. All rights reserved.
//
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file or at
// https://developers.google.com/open-source/licenses/bsd
package com.google.protobuf;
import static com.google.protobuf.Internal.checkNotNull;
import com.google.protobuf.Descriptors.Descriptor;
import com.google.protobuf.Descriptors.EnumDescriptor;
import com.google.protobuf.Descriptors.EnumValueDescriptor;
import com.google.protobuf.Descriptors.FieldDescriptor;
import com.google.protobuf.Descriptors.FileDescriptor;
import com.google.protobuf.Descriptors.OneofDescriptor;
import com.google.protobuf.Internal.BooleanList;
import com.google.protobuf.Internal.DoubleList;
import com.google.protobuf.Internal.FloatList;
import com.google.protobuf.Internal.IntList;
import com.google.protobuf.Internal.LongList;
import com.google.protobuf.Internal.ProtobufList;
import java.io.IOException;
import java.io.InputStream;
import java.io.ObjectStreamException;
import java.io.Serializable;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.SortedMap;
import java.util.TreeMap;
/**
* All generated protocol message classes extend this class. This class implements most of the
* Message and Builder interfaces using Java reflection. Users can ignore this class and pretend
* that generated messages implement the Message interface directly.
*
* @author [email protected] Kenton Varda
*/
public abstract class GeneratedMessage extends AbstractMessage implements Serializable {
private static final long serialVersionUID = 1L;
/**
* For testing. Allows a test to disable the optimization that avoids using field builders for
* nested messages until they are requested. By disabling this optimization, existing tests can be
* reused to test the field builders.
*/
protected static boolean alwaysUseFieldBuilders = false;
/**
* For use by generated code only.
*
* TODO: mark this private and final (breaking change)
*/
protected UnknownFieldSet unknownFields;
protected GeneratedMessage() {
unknownFields = UnknownFieldSet.getDefaultInstance();
}
protected GeneratedMessage(Builder> builder) {
unknownFields = builder.getUnknownFields();
}
/** TODO: Remove this unnecessary intermediate implementation of this method. */
@Override
public Parser extends GeneratedMessage> getParserForType() {
throw new UnsupportedOperationException("This is supposed to be overridden by subclasses.");
}
/**
* TODO: Stop using SingleFieldBuilder and remove this setting
*
* @see #setAlwaysUseFieldBuildersForTesting(boolean)
*/
static void enableAlwaysUseFieldBuildersForTesting() {
setAlwaysUseFieldBuildersForTesting(true);
}
/**
* For testing. Allows a test to disable/re-enable the optimization that avoids using field
* builders for nested messages until they are requested. By disabling this optimization, existing
* tests can be reused to test the field builders. See {@link RepeatedFieldBuilder} and {@link
* SingleFieldBuilder}.
*
*
TODO: Stop using SingleFieldBuilder and remove this setting
*/
static void setAlwaysUseFieldBuildersForTesting(boolean useBuilders) {
alwaysUseFieldBuilders = useBuilders;
}
/**
* Get the FieldAccessorTable for this type. We can't have the message class pass this in to the
* constructor because of bootstrapping trouble with DescriptorProtos.
*/
protected abstract FieldAccessorTable internalGetFieldAccessorTable();
@Override
public Descriptor getDescriptorForType() {
return internalGetFieldAccessorTable().descriptor;
}
/**
* TODO: This method should be removed. It enables parsing directly into an
* "immutable" message. Have to leave it for now to support old gencode.
*
* @deprecated use newBuilder().mergeFrom() instead
*/
@Deprecated
protected void mergeFromAndMakeImmutableInternal(
CodedInputStream input, ExtensionRegistryLite extensionRegistry)
throws InvalidProtocolBufferException {
Schema schema = Protobuf.getInstance().schemaFor(this);
try {
schema.mergeFrom(this, CodedInputStreamReader.forCodedInput(input), extensionRegistry);
} catch (InvalidProtocolBufferException e) {
throw e.setUnfinishedMessage(this);
} catch (IOException e) {
throw new InvalidProtocolBufferException(e).setUnfinishedMessage(this);
}
schema.makeImmutable(this);
}
/**
* Internal helper to return a modifiable map containing all the fields. The returned Map is
* modifiable so that the caller can add additional extension fields to implement {@link
* #getAllFields()}.
*
* @param getBytesForString whether to generate ByteString for string fields
*/
private Map getAllFieldsMutable(boolean getBytesForString) {
final TreeMap result = new TreeMap<>();
final FieldAccessorTable fieldAccessorTable = internalGetFieldAccessorTable();
final Descriptor descriptor = fieldAccessorTable.descriptor;
final List fields = descriptor.getFields();
for (int i = 0; i < fields.size(); i++) {
FieldDescriptor field = fields.get(i);
final OneofDescriptor oneofDescriptor = field.getContainingOneof();
/*
* If the field is part of a Oneof, then at maximum one field in the Oneof is set
* and it is not repeated. There is no need to iterate through the others.
*/
if (oneofDescriptor != null) {
// Skip other fields in the Oneof we know are not set
i += oneofDescriptor.getFieldCount() - 1;
if (!hasOneof(oneofDescriptor)) {
// If no field is set in the Oneof, skip all the fields in the Oneof
continue;
}
// Get the pointer to the only field which is set in the Oneof
field = getOneofFieldDescriptor(oneofDescriptor);
} else {
// If we are not in a Oneof, we need to check if the field is set and if it is repeated
if (field.isRepeated()) {
final List> value = (List>) getField(field);
if (!value.isEmpty()) {
result.put(field, value);
}
continue;
}
if (!hasField(field)) {
continue;
}
}
// Add the field to the map
if (getBytesForString && field.getJavaType() == FieldDescriptor.JavaType.STRING) {
result.put(field, getFieldRaw(field));
} else {
result.put(field, getField(field));
}
}
return result;
}
// TODO: compute this at {@code build()} time in the Builder class.
@Override
public boolean isInitialized() {
for (final FieldDescriptor field : getDescriptorForType().getFields()) {
// Check that all required fields are present.
if (field.isRequired()) {
if (!hasField(field)) {
return false;
}
}
// Check that embedded messages are initialized.
if (field.getJavaType() == FieldDescriptor.JavaType.MESSAGE) {
if (field.isRepeated()) {
@SuppressWarnings("unchecked")
final List messageList = (List) getField(field);
for (final Message element : messageList) {
if (!element.isInitialized()) {
return false;
}
}
} else {
if (hasField(field) && !((Message) getField(field)).isInitialized()) {
return false;
}
}
}
}
return true;
}
@Override
public Map getAllFields() {
return Collections.unmodifiableMap(getAllFieldsMutable(/* getBytesForString= */ false));
}
/**
* Returns a collection of all the fields in this message which are set and their corresponding
* values. A singular ("required" or "optional") field is set iff hasField() returns true for that
* field. A "repeated" field is set iff getRepeatedFieldCount() is greater than zero. The values
* are exactly what would be returned by calling {@link #getFieldRaw(Descriptors.FieldDescriptor)}
* for each field. The map is guaranteed to be a sorted map, so iterating over it will return
* fields in order by field number.
*/
Map getAllFieldsRaw() {
return Collections.unmodifiableMap(getAllFieldsMutable(/* getBytesForString= */ true));
}
@Override
public boolean hasOneof(final OneofDescriptor oneof) {
return internalGetFieldAccessorTable().getOneof(oneof).has(this);
}
@Override
public FieldDescriptor getOneofFieldDescriptor(final OneofDescriptor oneof) {
return internalGetFieldAccessorTable().getOneof(oneof).get(this);
}
@Override
public boolean hasField(final FieldDescriptor field) {
return internalGetFieldAccessorTable().getField(field).has(this);
}
@Override
public Object getField(final FieldDescriptor field) {
return internalGetFieldAccessorTable().getField(field).get(this);
}
/**
* Obtains the value of the given field, or the default value if it is not set. For primitive
* fields, the boxed primitive value is returned. For enum fields, the EnumValueDescriptor for the
* value is returned. For embedded message fields, the sub-message is returned. For repeated
* fields, a java.util.List is returned. For present string fields, a ByteString is returned
* representing the bytes that the field contains.
*/
Object getFieldRaw(final FieldDescriptor field) {
return internalGetFieldAccessorTable().getField(field).getRaw(this);
}
@Override
public int getRepeatedFieldCount(final FieldDescriptor field) {
return internalGetFieldAccessorTable().getField(field).getRepeatedCount(this);
}
@Override
public Object getRepeatedField(final FieldDescriptor field, final int index) {
return internalGetFieldAccessorTable().getField(field).getRepeated(this, index);
}
// TODO: This method should be final.
@Override
public UnknownFieldSet getUnknownFields() {
return unknownFields;
}
// TODO: This should go away when Schema classes cannot modify immutable
// GeneratedMessage objects anymore.
void setUnknownFields(UnknownFieldSet unknownFields) {
this.unknownFields = unknownFields;
}
/**
* Called by subclasses to parse an unknown field.
*
* TODO remove this method
*
* @return {@code true} unless the tag is an end-group tag.
*/
protected boolean parseUnknownField(
CodedInputStream input,
UnknownFieldSet.Builder unknownFields,
ExtensionRegistryLite extensionRegistry,
int tag)
throws IOException {
if (input.shouldDiscardUnknownFields()) {
return input.skipField(tag);
}
return unknownFields.mergeFieldFrom(tag, input);
}
/**
* Delegates to parseUnknownField. This method is obsolete, but we must retain it for
* compatibility with older generated code.
*
*
TODO remove this method
*/
protected boolean parseUnknownFieldProto3(
CodedInputStream input,
UnknownFieldSet.Builder unknownFields,
ExtensionRegistryLite extensionRegistry,
int tag)
throws IOException {
return parseUnknownField(input, unknownFields, extensionRegistry, tag);
}
/** Used by generated code. */
@SuppressWarnings("ProtoParseWithRegistry")
protected static M parseWithIOException(Parser parser, InputStream input)
throws IOException {
try {
return parser.parseFrom(input);
} catch (InvalidProtocolBufferException e) {
throw e.unwrapIOException();
}
}
/** Used by generated code. */
protected static M parseWithIOException(
Parser parser, InputStream input, ExtensionRegistryLite extensions) throws IOException {
try {
return parser.parseFrom(input, extensions);
} catch (InvalidProtocolBufferException e) {
throw e.unwrapIOException();
}
}
/** Used by generated code. */
@SuppressWarnings("ProtoParseWithRegistry")
protected static M parseWithIOException(
Parser parser, CodedInputStream input) throws IOException {
try {
return parser.parseFrom(input);
} catch (InvalidProtocolBufferException e) {
throw e.unwrapIOException();
}
}
/** Used by generated code. */
protected static M parseWithIOException(
Parser parser, CodedInputStream input, ExtensionRegistryLite extensions)
throws IOException {
try {
return parser.parseFrom(input, extensions);
} catch (InvalidProtocolBufferException e) {
throw e.unwrapIOException();
}
}
/** Used by generated code. */
@SuppressWarnings("ProtoParseWithRegistry")
protected static M parseDelimitedWithIOException(
Parser parser, InputStream input) throws IOException {
try {
return parser.parseDelimitedFrom(input);
} catch (InvalidProtocolBufferException e) {
throw e.unwrapIOException();
}
}
/** Used by generated code. */
protected static M parseDelimitedWithIOException(
Parser parser, InputStream input, ExtensionRegistryLite extensions) throws IOException {
try {
return parser.parseDelimitedFrom(input, extensions);
} catch (InvalidProtocolBufferException e) {
throw e.unwrapIOException();
}
}
protected static boolean canUseUnsafe() {
return UnsafeUtil.hasUnsafeArrayOperations() && UnsafeUtil.hasUnsafeByteBufferOperations();
}
protected static IntList emptyIntList() {
return IntArrayList.emptyList();
}
protected static LongList emptyLongList() {
return LongArrayList.emptyList();
}
protected static FloatList emptyFloatList() {
return FloatArrayList.emptyList();
}
protected static DoubleList emptyDoubleList() {
return DoubleArrayList.emptyList();
}
protected static BooleanList emptyBooleanList() {
return BooleanArrayList.emptyList();
}
protected static > ListT makeMutableCopy(ListT list) {
return makeMutableCopy(list, 0);
}
@SuppressWarnings("unchecked") // Guaranteed by proto runtime.
protected static > ListT makeMutableCopy(
ListT list, int minCapacity) {
int size = list.size();
if (minCapacity <= size) {
minCapacity = size * 2;
}
if (minCapacity <= 0) {
minCapacity = AbstractProtobufList.DEFAULT_CAPACITY;
}
return (ListT) list.mutableCopyWithCapacity(minCapacity);
}
@SuppressWarnings("unchecked") // The empty list can be safely cast
protected static ProtobufList emptyList(Class elementType) {
return (ProtobufList) ProtobufArrayList.emptyList();
}
@Override
public void writeTo(final CodedOutputStream output) throws IOException {
MessageReflection.writeMessageTo(this, getAllFieldsRaw(), output, false);
}
@Override
public int getSerializedSize() {
int size = memoizedSize;
if (size != -1) {
return size;
}
memoizedSize = MessageReflection.getSerializedSize(
this, getAllFieldsRaw());
return memoizedSize;
}
/**
* This class is used to make a generated protected method inaccessible from user's code (e.g.,
* the {@link #newInstance} method below). When this class is used as a parameter's type in a
* generated protected method, the method is visible to user's code in the same package, but since
* the constructor of this class is private to protobuf runtime, user's code can't obtain an
* instance of this class and as such can't actually make a method call on the protected method.
*/
protected static final class UnusedPrivateParameter {
static final UnusedPrivateParameter INSTANCE = new UnusedPrivateParameter();
private UnusedPrivateParameter() {}
}
/** Creates a new instance of this message type. Overridden in the generated code. */
@SuppressWarnings({"unused"})
protected Object newInstance(UnusedPrivateParameter unused) {
throw new UnsupportedOperationException("This method must be overridden by the subclass.");
}
/** Builder class for {@link GeneratedMessage}. */
@SuppressWarnings("unchecked")
public abstract static class Builder>
extends AbstractMessage.Builder {
private BuilderParent builderParent;
private BuilderParentImpl meAsParent;
// Indicates that we've built a message and so we are now obligated
// to dispatch dirty invalidations. See GeneratedMessage.BuilderListener.
private boolean isClean;
/**
* This field holds either an {@link UnknownFieldSet} or {@link UnknownFieldSet.Builder}.
*
* We use an object because it should only be one or the other of those things at a time and
* Object is the only common base. This also saves space.
*
*
Conversions are lazy: if {@link #setUnknownFields} is called, this will contain {@link
* UnknownFieldSet}. If unknown fields are merged into this builder, the current {@link
* UnknownFieldSet} will be converted to a {@link UnknownFieldSet.Builder} and left that way
* until either {@link #setUnknownFields} or {@link #buildPartial} or {@link #build} is called.
*/
private Object unknownFieldsOrBuilder = UnknownFieldSet.getDefaultInstance();
protected Builder() {
this(null);
}
protected Builder(BuilderParent builderParent) {
this.builderParent = builderParent;
}
@Override
void dispose() {
builderParent = null;
}
/** Called by the subclass when a message is built. */
protected void onBuilt() {
if (builderParent != null) {
markClean();
}
}
/**
* Called by the subclass or a builder to notify us that a message was built and may be cached
* and therefore invalidations are needed.
*/
@Override
protected void markClean() {
this.isClean = true;
}
/**
* Gets whether invalidations are needed
*
* @return whether invalidations are needed
*/
protected boolean isClean() {
return isClean;
}
@Override
public BuilderT clone() {
BuilderT builder = (BuilderT) getDefaultInstanceForType().newBuilderForType();
builder.mergeFrom(buildPartial());
return builder;
}
/**
* Called by the initialization and clear code paths to allow subclasses to reset any of their
* builtin fields back to the initial values.
*/
@Override
public BuilderT clear() {
unknownFieldsOrBuilder = UnknownFieldSet.getDefaultInstance();
onChanged();
return (BuilderT) this;
}
/**
* Get the FieldAccessorTable for this type. We can't have the message class pass this in to the
* constructor because of bootstrapping trouble with DescriptorProtos.
*/
protected abstract FieldAccessorTable internalGetFieldAccessorTable();
@Override
public Descriptor getDescriptorForType() {
return internalGetFieldAccessorTable().descriptor;
}
@Override
public Map getAllFields() {
return Collections.unmodifiableMap(getAllFieldsMutable());
}
/** Internal helper which returns a mutable map. */
private Map getAllFieldsMutable() {
final TreeMap result = new TreeMap<>();
final FieldAccessorTable fieldAccessorTable = internalGetFieldAccessorTable();
final Descriptor descriptor = fieldAccessorTable.descriptor;
final List fields = descriptor.getFields();
for (int i = 0; i < fields.size(); i++) {
FieldDescriptor field = fields.get(i);
final OneofDescriptor oneofDescriptor = field.getContainingOneof();
/*
* If the field is part of a Oneof, then at maximum one field in the Oneof is set
* and it is not repeated. There is no need to iterate through the others.
*/
if (oneofDescriptor != null) {
// Skip other fields in the Oneof we know are not set
i += oneofDescriptor.getFieldCount() - 1;
if (!hasOneof(oneofDescriptor)) {
// If no field is set in the Oneof, skip all the fields in the Oneof
continue;
}
// Get the pointer to the only field which is set in the Oneof
field = getOneofFieldDescriptor(oneofDescriptor);
} else {
// If we are not in a Oneof, we need to check if the field is set and if it is repeated
if (field.isRepeated()) {
final List> value = (List>) getField(field);
if (!value.isEmpty()) {
result.put(field, value);
}
continue;
}
if (!hasField(field)) {
continue;
}
}
// Add the field to the map
result.put(field, getField(field));
}
return result;
}
@Override
public Message.Builder newBuilderForField(final FieldDescriptor field) {
return internalGetFieldAccessorTable().getField(field).newBuilder();
}
@Override
public Message.Builder getFieldBuilder(final FieldDescriptor field) {
return internalGetFieldAccessorTable().getField(field).getBuilder(this);
}
@Override
public Message.Builder getRepeatedFieldBuilder(final FieldDescriptor field, int index) {
return internalGetFieldAccessorTable().getField(field).getRepeatedBuilder(this, index);
}
@Override
public boolean hasOneof(final OneofDescriptor oneof) {
return internalGetFieldAccessorTable().getOneof(oneof).has(this);
}
@Override
public FieldDescriptor getOneofFieldDescriptor(final OneofDescriptor oneof) {
return internalGetFieldAccessorTable().getOneof(oneof).get(this);
}
@Override
public boolean hasField(final FieldDescriptor field) {
return internalGetFieldAccessorTable().getField(field).has(this);
}
@Override
public Object getField(final FieldDescriptor field) {
Object object = internalGetFieldAccessorTable().getField(field).get(this);
if (field.isRepeated()) {
// The underlying list object is still modifiable at this point.
// Make sure not to expose the modifiable list to the caller.
return Collections.unmodifiableList((List>) object);
} else {
return object;
}
}
@Override
public BuilderT setField(final FieldDescriptor field, final Object value) {
internalGetFieldAccessorTable().getField(field).set(this, value);
return (BuilderT) this;
}
@Override
public BuilderT clearField(final FieldDescriptor field) {
internalGetFieldAccessorTable().getField(field).clear(this);
return (BuilderT) this;
}
@Override
public BuilderT clearOneof(final OneofDescriptor oneof) {
internalGetFieldAccessorTable().getOneof(oneof).clear(this);
return (BuilderT) this;
}
@Override
public int getRepeatedFieldCount(final FieldDescriptor field) {
return internalGetFieldAccessorTable().getField(field).getRepeatedCount(this);
}
@Override
public Object getRepeatedField(final FieldDescriptor field, final int index) {
return internalGetFieldAccessorTable().getField(field).getRepeated(this, index);
}
@Override
public BuilderT setRepeatedField(
final FieldDescriptor field, final int index, final Object value) {
internalGetFieldAccessorTable().getField(field).setRepeated(this, index, value);
return (BuilderT) this;
}
@Override
public BuilderT addRepeatedField(final FieldDescriptor field, final Object value) {
internalGetFieldAccessorTable().getField(field).addRepeated(this, value);
return (BuilderT) this;
}
private BuilderT setUnknownFieldsInternal(final UnknownFieldSet unknownFields) {
unknownFieldsOrBuilder = unknownFields;
onChanged();
return (BuilderT) this;
}
@Override
public BuilderT setUnknownFields(final UnknownFieldSet unknownFields) {
return setUnknownFieldsInternal(unknownFields);
}
/**
* This method is obsolete, but we must retain it for compatibility with older generated code.
*/
protected BuilderT setUnknownFieldsProto3(final UnknownFieldSet unknownFields) {
return setUnknownFieldsInternal(unknownFields);
}
@Override
public BuilderT mergeUnknownFields(final UnknownFieldSet unknownFields) {
if (UnknownFieldSet.getDefaultInstance().equals(unknownFields)) {
return (BuilderT) this;
}
if (UnknownFieldSet.getDefaultInstance().equals(unknownFieldsOrBuilder)) {
unknownFieldsOrBuilder = unknownFields;
onChanged();
return (BuilderT) this;
}
getUnknownFieldSetBuilder().mergeFrom(unknownFields);
onChanged();
return (BuilderT) this;
}
@Override
public boolean isInitialized() {
for (final FieldDescriptor field : getDescriptorForType().getFields()) {
// Check that all required fields are present.
if (field.isRequired()) {
if (!hasField(field)) {
return false;
}
}
// Check that embedded messages are initialized.
if (field.getJavaType() == FieldDescriptor.JavaType.MESSAGE) {
if (field.isRepeated()) {
@SuppressWarnings("unchecked")
final List messageList = (List) getField(field);
for (final Message element : messageList) {
if (!element.isInitialized()) {
return false;
}
}
} else {
if (hasField(field) && !((Message) getField(field)).isInitialized()) {
return false;
}
}
}
}
return true;
}
@Override
public final UnknownFieldSet getUnknownFields() {
if (unknownFieldsOrBuilder instanceof UnknownFieldSet) {
return (UnknownFieldSet) unknownFieldsOrBuilder;
} else {
return ((UnknownFieldSet.Builder) unknownFieldsOrBuilder).buildPartial();
}
}
/**
* Called by generated subclasses to parse an unknown field.
*
* @return {@code true} unless the tag is an end-group tag.
*/
protected boolean parseUnknownField(
CodedInputStream input, ExtensionRegistryLite extensionRegistry, int tag)
throws IOException {
if (input.shouldDiscardUnknownFields()) {
return input.skipField(tag);
}
return getUnknownFieldSetBuilder().mergeFieldFrom(tag, input);
}
/** Called by generated subclasses to add to the unknown field set. */
protected final void mergeUnknownLengthDelimitedField(int number, ByteString bytes) {
getUnknownFieldSetBuilder().mergeLengthDelimitedField(number, bytes);
}
/** Called by generated subclasses to add to the unknown field set. */
protected final void mergeUnknownVarintField(int number, int value) {
getUnknownFieldSetBuilder().mergeVarintField(number, value);
}
@Override
protected UnknownFieldSet.Builder getUnknownFieldSetBuilder() {
if (unknownFieldsOrBuilder instanceof UnknownFieldSet) {
unknownFieldsOrBuilder = ((UnknownFieldSet) unknownFieldsOrBuilder).toBuilder();
}
onChanged();
return (UnknownFieldSet.Builder) unknownFieldsOrBuilder;
}
@Override
protected void setUnknownFieldSetBuilder(UnknownFieldSet.Builder builder) {
unknownFieldsOrBuilder = builder;
onChanged();
}
/**
* Implementation of {@link BuilderParent} for giving to our children. This small inner class
* makes it so we don't publicly expose the BuilderParent methods.
*/
private class BuilderParentImpl implements BuilderParent {
@Override
public void markDirty() {
onChanged();
}
}
/**
* Gets the {@link BuilderParent} for giving to our children.
*
* @return The builder parent for our children.
*/
protected BuilderParent getParentForChildren() {
if (meAsParent == null) {
meAsParent = new BuilderParentImpl();
}
return meAsParent;
}
/**
* Called when a builder or one of its nested children has changed and any parent should be
* notified of its invalidation.
*/
protected final void onChanged() {
if (isClean && builderParent != null) {
builderParent.markDirty();
// Don't keep dispatching invalidations until build is called again.
isClean = false;
}
}
/**
* Gets the map field with the given field number. This method should be overridden in the
* generated message class if the message contains map fields.
*
* Unlike other field types, reflection support for map fields can't be implemented based on
* generated public API because we need to access a map field as a list in reflection API but
* the generated API only allows us to access it as a map. This method returns the underlying
* map field directly and thus enables us to access the map field as a list.
*/
@SuppressWarnings({"unused", "rawtypes"})
protected MapFieldReflectionAccessor internalGetMapFieldReflection(int fieldNumber) {
return internalGetMapField(fieldNumber);
}
/** TODO: Remove, exists for compatibility with generated code. */
@Deprecated
@SuppressWarnings({"unused", "rawtypes"})
protected MapField internalGetMapField(int fieldNumber) {
// Note that we can't use descriptor names here because this method will
// be called when descriptor is being initialized.
throw new IllegalArgumentException("No map fields found in " + getClass().getName());
}
/** Like {@link #internalGetMapFieldReflection} but return a mutable version. */
@SuppressWarnings({"unused", "rawtypes"})
protected MapFieldReflectionAccessor internalGetMutableMapFieldReflection(int fieldNumber) {
return internalGetMutableMapField(fieldNumber);
}
/** TODO: Remove, exists for compatibility with generated code. */
@Deprecated
@SuppressWarnings({"unused", "rawtypes"})
protected MapField internalGetMutableMapField(int fieldNumber) {
// Note that we can't use descriptor names here because this method will
// be called when descriptor is being initialized.
throw new IllegalArgumentException("No map fields found in " + getClass().getName());
}
}
// =================================================================
// Extensions-related stuff
/** Extends {@link MessageOrBuilder} with extension-related functions. */
public interface ExtendableMessageOrBuilder>
extends MessageOrBuilder {
// Re-define for return type covariance.
@Override
Message getDefaultInstanceForType();
/** Check if a singular extension is present. */
boolean hasExtension(ExtensionLite extension);
/** Get the number of elements in a repeated extension. */
int getExtensionCount(ExtensionLite> extension);
/** Get the value of an extension. */
T getExtension(ExtensionLite extension);
/** Get one element of a repeated extension. */
T getExtension(ExtensionLite> extension, int index);
}
/**
* Generated message classes for message types that contain extension ranges subclass this.
*
* This class implements type-safe accessors for extensions. They implement all the same
* operations that you can do with normal fields -- e.g. "has", "get", and "getCount" -- but for
* extensions. The extensions are identified using instances of the class {@link
* GeneratedExtension}; the protocol compiler generates a static instance of this class for every
* extension in its input. Through the magic of generics, all is made type-safe.
*
*
For example, imagine you have the {@code .proto} file:
*
*
* option java_class = "MyProto";
*
* message Foo {
* extensions 1000 to max;
* }
*
* extend Foo {
* optional int32 bar;
* }
*
*
* Then you might write code like:
*
*
* MyProto.Foo foo = getFoo();
* int i = foo.getExtension(MyProto.bar);
*
*
* See also {@link ExtendableBuilder}.
*/
public abstract static class ExtendableMessage>
extends GeneratedMessage implements ExtendableMessageOrBuilder {
private static final long serialVersionUID = 1L;
private final FieldSet extensions;
protected ExtendableMessage() {
this.extensions = FieldSet.newFieldSet();
}
protected ExtendableMessage(ExtendableBuilder builder) {
super(builder);
this.extensions = builder.buildExtensions();
}
private void verifyExtensionContainingType(final Extension extension) {
if (extension.getDescriptor().getContainingType() != getDescriptorForType()) {
// This can only happen if someone uses unchecked operations.
throw new IllegalArgumentException(
"Extension is for type \""
+ extension.getDescriptor().getContainingType().getFullName()
+ "\" which does not match message type \""
+ getDescriptorForType().getFullName()
+ "\".");
}
}
/** Check if a singular extension is present. */
@Override
public final boolean hasExtension(final ExtensionLite extensionLite) {
Extension extension = checkNotLite(extensionLite);
verifyExtensionContainingType(extension);
return extensions.hasField(extension.getDescriptor());
}
/** Get the number of elements in a repeated extension. */
@Override
public final int getExtensionCount(final ExtensionLite> extensionLite) {
Extension> extension = checkNotLite(extensionLite);
verifyExtensionContainingType(extension);
final FieldDescriptor descriptor = extension.getDescriptor();
return extensions.getRepeatedFieldCount(descriptor);
}
/** Get the value of an extension. */
@Override
@SuppressWarnings("unchecked")
public final T getExtension(final ExtensionLite extensionLite) {
Extension extension = checkNotLite(extensionLite);
verifyExtensionContainingType(extension);
FieldDescriptor descriptor = extension.getDescriptor();
final Object value = extensions.getField(descriptor);
if (value == null) {
if (descriptor.isRepeated()) {
return (T) Collections.emptyList();
} else if (descriptor.getJavaType() == FieldDescriptor.JavaType.MESSAGE) {
return (T) extension.getMessageDefaultInstance();
} else {
return (T) extension.fromReflectionType(descriptor.getDefaultValue());
}
} else {
return (T) extension.fromReflectionType(value);
}
}
/** Get one element of a repeated extension. */
@Override
@SuppressWarnings("unchecked")
public final T getExtension(
final ExtensionLite> extensionLite, final int index) {
Extension> extension = checkNotLite(extensionLite);
verifyExtensionContainingType(extension);
FieldDescriptor descriptor = extension.getDescriptor();
return (T)
extension.singularFromReflectionType(extensions.getRepeatedField(descriptor, index));
}
/** Called by subclasses to check if all extensions are initialized. */
protected boolean extensionsAreInitialized() {
return extensions.isInitialized();
}
// TODO: compute this in the builder at {@code build()} time.
@Override
public boolean isInitialized() {
return super.isInitialized() && extensionsAreInitialized();
}
/**
* Used by subclasses to serialize extensions. Extension ranges may be interleaved with field
* numbers, but we must write them in canonical (sorted by field number) order.
* ExtensionSerializer helps us write individual ranges of extensions at once.
*/
protected interface ExtensionSerializer {
public void writeUntil(final int end, final CodedOutputStream output) throws IOException;
}
/** No-op implementation that writes nothing, for messages with no extensions. */
private static final class NoOpExtensionSerializer implements ExtensionSerializer {
// Singleton instance so we can avoid allocating a new one for each message serialization.
private static final NoOpExtensionSerializer INSTANCE = new NoOpExtensionSerializer();
@Override
public void writeUntil(final int end, final CodedOutputStream output) {
// no-op
}
}
/**
* ExtensionSerializer that writes extensions from the FieldSet, for messages with extensions.
*/
protected class ExtensionWriter implements ExtensionSerializer {
// Imagine how much simpler this code would be if Java iterators had
// a way to get the next element without advancing the iterator.
private final Iterator> iter = extensions.iterator();
private Map.Entry next;
private final boolean messageSetWireFormat;
private ExtensionWriter(final boolean messageSetWireFormat) {
if (iter.hasNext()) {
next = iter.next();
}
this.messageSetWireFormat = messageSetWireFormat;
}
@Override
public void writeUntil(final int end, final CodedOutputStream output) throws IOException {
while (next != null && next.getKey().getNumber() < end) {
FieldDescriptor descriptor = next.getKey();
if (messageSetWireFormat
&& descriptor.getLiteJavaType() == WireFormat.JavaType.MESSAGE
&& !descriptor.isRepeated()) {
if (next instanceof LazyField.LazyEntry>) {
output.writeRawMessageSetExtension(
descriptor.getNumber(),
((LazyField.LazyEntry>) next).getField().toByteString());
} else {
output.writeMessageSetExtension(descriptor.getNumber(), (Message) next.getValue());
}
} else {
// TODO: Taken care of following code, it may cause
// problem when we use LazyField for normal fields/extensions.
// Due to the optional field can be duplicated at the end of
// serialized bytes, which will make the serialized size change
// after lazy field parsed. So when we use LazyField globally,
// we need to change the following write method to write cached
// bytes directly rather than write the parsed message.
FieldSet.writeField(descriptor, next.getValue(), output);
}
if (iter.hasNext()) {
next = iter.next();
} else {
next = null;
}
}
}
}
/**
* For compatibility with older gencode.
*
* TODO Remove this in the next breaking release.
*
* @deprecated Use {@link newExtensionSerializer()} instead.
*/
@Deprecated
protected ExtensionWriter newExtensionWriter() {
return new ExtensionWriter(false);
}
protected ExtensionSerializer newExtensionSerializer() {
// Avoid allocation in the common case of no extensions.
if (extensions.isEmpty()) {
return NoOpExtensionSerializer.INSTANCE;
}
return new ExtensionWriter(false);
}
// TODO: Remove, replace with newMessageSetExtensionSerializer().
protected ExtensionWriter newMessageSetExtensionWriter() {
return new ExtensionWriter(true);
}
protected ExtensionSerializer newMessageSetExtensionSerializer() {
// Avoid allocation in the common case of no extensions.
if (extensions.isEmpty()) {
return NoOpExtensionSerializer.INSTANCE;
}
return new ExtensionWriter(true);
}
/** Called by subclasses to compute the size of extensions. */
protected int extensionsSerializedSize() {
return extensions.getSerializedSize();
}
protected int extensionsSerializedSizeAsMessageSet() {
return extensions.getMessageSetSerializedSize();
}
// ---------------------------------------------------------------
// Reflection
protected Map getExtensionFields() {
return extensions.getAllFields();
}
@Override
public Map getAllFields() {
final Map result =
super.getAllFieldsMutable(/* getBytesForString= */ false);
result.putAll(getExtensionFields());
return Collections.unmodifiableMap(result);
}
@Override
public Map getAllFieldsRaw() {
final Map result =
super.getAllFieldsMutable(/* getBytesForString= */ false);
result.putAll(getExtensionFields());
return Collections.unmodifiableMap(result);
}
@Override
public boolean hasField(final FieldDescriptor field) {
if (field.isExtension()) {
verifyContainingType(field);
return extensions.hasField(field);
} else {
return super.hasField(field);
}
}
@Override
public Object getField(final FieldDescriptor field) {
if (field.isExtension()) {
verifyContainingType(field);
final Object value = extensions.getField(field);
if (value == null) {
if (field.isRepeated()) {
return Collections.emptyList();
} else if (field.getJavaType() == FieldDescriptor.JavaType.MESSAGE) {
// Lacking an ExtensionRegistry, we have no way to determine the
// extension's real type, so we return a DynamicMessage.
return DynamicMessage.getDefaultInstance(field.getMessageType());
} else {
return field.getDefaultValue();
}
} else {
return value;
}
} else {
return super.getField(field);
}
}
@Override
public int getRepeatedFieldCount(final FieldDescriptor field) {
if (field.isExtension()) {
verifyContainingType(field);
return extensions.getRepeatedFieldCount(field);
} else {
return super.getRepeatedFieldCount(field);
}
}
@Override
public Object getRepeatedField(final FieldDescriptor field, final int index) {
if (field.isExtension()) {
verifyContainingType(field);
return extensions.getRepeatedField(field, index);
} else {
return super.getRepeatedField(field, index);
}
}
private void verifyContainingType(final FieldDescriptor field) {
if (field.getContainingType() != getDescriptorForType()) {
throw new IllegalArgumentException("FieldDescriptor does not match message type.");
}
}
}
/**
* Generated message builders for message types that contain extension ranges subclass this.
*
* This class implements type-safe accessors for extensions. They implement all the same
* operations that you can do with normal fields -- e.g. "get", "set", and "add" -- but for
* extensions. The extensions are identified using instances of the class {@link
* GeneratedExtension}; the protocol compiler generates a static instance of this class for every
* extension in its input. Through the magic of generics, all is made type-safe.
*
*
For example, imagine you have the {@code .proto} file:
*
*
* option java_class = "MyProto";
*
* message Foo {
* extensions 1000 to max;
* }
*
* extend Foo {
* optional int32 bar;
* }
*
*
* Then you might write code like:
*
*
* MyProto.Foo foo =
* MyProto.Foo.newBuilder()
* .setExtension(MyProto.bar, 123)
* .build();
*
*
* See also {@link ExtendableMessage}.
*/
@SuppressWarnings("unchecked")
public abstract static class ExtendableBuilder<
MessageT extends ExtendableMessage,
BuilderT extends ExtendableBuilder>
extends Builder implements ExtendableMessageOrBuilder {
private FieldSet.Builder extensions;
protected ExtendableBuilder() {}
protected ExtendableBuilder(BuilderParent parent) {
super(parent);
}
// For immutable message conversion.
void internalSetExtensionSet(FieldSet extensions) {
this.extensions = FieldSet.Builder.fromFieldSet(extensions);
}
@Override
public BuilderT clear() {
extensions = null;
return super.clear();
}
private void ensureExtensionsIsMutable() {
if (extensions == null) {
extensions = FieldSet.newBuilder();
}
}
private void verifyExtensionContainingType(final Extension extension) {
if (extension.getDescriptor().getContainingType() != getDescriptorForType()) {
// This can only happen if someone uses unchecked operations.
throw new IllegalArgumentException(
"Extension is for type \""
+ extension.getDescriptor().getContainingType().getFullName()
+ "\" which does not match message type \""
+ getDescriptorForType().getFullName()
+ "\".");
}
}
/** Check if a singular extension is present. */
@Override
public final boolean hasExtension(final ExtensionLite extensionLite) {
Extension extension = checkNotLite(extensionLite);
verifyExtensionContainingType(extension);
return extensions != null && extensions.hasField(extension.getDescriptor());
}
/** Get the number of elements in a repeated extension. */
@Override
public final int getExtensionCount(final ExtensionLite> extensionLite) {
Extension> extension = checkNotLite(extensionLite);
verifyExtensionContainingType(extension);
final FieldDescriptor descriptor = extension.getDescriptor();
return extensions == null ? 0 : extensions.getRepeatedFieldCount(descriptor);
}
/** Get the value of an extension. */
@Override
public final T getExtension(final ExtensionLite extensionLite) {
Extension extension = checkNotLite(extensionLite);
verifyExtensionContainingType(extension);
FieldDescriptor descriptor = extension.getDescriptor();
final Object value = extensions == null ? null : extensions.getField(descriptor);
if (value == null) {
if (descriptor.isRepeated()) {
return (T) Collections.emptyList();
} else if (descriptor.getJavaType() == FieldDescriptor.JavaType.MESSAGE) {
return (T) extension.getMessageDefaultInstance();
} else {
return (T) extension.fromReflectionType(descriptor.getDefaultValue());
}
} else {
return (T) extension.fromReflectionType(value);
}
}
/** Get one element of a repeated extension. */
@Override
public final T getExtension(
final ExtensionLite> extensionLite, final int index) {
Extension> extension = checkNotLite(extensionLite);
verifyExtensionContainingType(extension);
FieldDescriptor descriptor = extension.getDescriptor();
if (extensions == null) {
throw new IndexOutOfBoundsException();
}
return (T)
extension.singularFromReflectionType(extensions.getRepeatedField(descriptor, index));
}
/** Set the value of an extension. */
public final BuilderT setExtension(
final ExtensionLite extensionLite, final T value) {
Extension extension = checkNotLite(extensionLite);
verifyExtensionContainingType(extension);
ensureExtensionsIsMutable();
final FieldDescriptor descriptor = extension.getDescriptor();
extensions.setField(descriptor, extension.toReflectionType(value));
onChanged();
return (BuilderT) this;
}
/** Set the value of one element of a repeated extension. */
public final BuilderT setExtension(
final ExtensionLite> extensionLite, final int index, final T value) {
Extension> extension = checkNotLite(extensionLite);
verifyExtensionContainingType(extension);
ensureExtensionsIsMutable();
final FieldDescriptor descriptor = extension.getDescriptor();
extensions.setRepeatedField(descriptor, index, extension.singularToReflectionType(value));
onChanged();
return (BuilderT) this;
}
/** Append a value to a repeated extension. */
public final BuilderT addExtension(
final ExtensionLite> extensionLite, final T value) {
Extension> extension = checkNotLite(extensionLite);
verifyExtensionContainingType(extension);
ensureExtensionsIsMutable();
final FieldDescriptor descriptor = extension.getDescriptor();
extensions.addRepeatedField(descriptor, extension.singularToReflectionType(value));
onChanged();
return (BuilderT) this;
}
/** Clear an extension. */
public final BuilderT clearExtension(final ExtensionLite extensionLite) {
Extension extension = checkNotLite(extensionLite);
verifyExtensionContainingType(extension);
ensureExtensionsIsMutable();
extensions.clearField(extension.getDescriptor());
onChanged();
return (BuilderT) this;
}
/** Called by subclasses to check if all extensions are initialized. */
protected boolean extensionsAreInitialized() {
return extensions == null || extensions.isInitialized();
}
/**
* Called by the build code path to create a copy of the extensions for building the message.
*/
private FieldSet buildExtensions() {
return extensions == null
? (FieldSet) FieldSet.emptySet()
: extensions.buildPartial();
}
@Override
public boolean isInitialized() {
return super.isInitialized() && extensionsAreInitialized();
}
// ---------------------------------------------------------------
// Reflection
@Override
public Map getAllFields() {
final Map result = super.getAllFieldsMutable();
if (extensions != null) {
result.putAll(extensions.getAllFields());
}
return Collections.unmodifiableMap(result);
}
@Override
public Object getField(final FieldDescriptor field) {
if (field.isExtension()) {
verifyContainingType(field);
final Object value = extensions == null ? null : extensions.getField(field);
if (value == null) {
if (field.getJavaType() == FieldDescriptor.JavaType.MESSAGE) {
// Lacking an ExtensionRegistry, we have no way to determine the
// extension's real type, so we return a DynamicMessage.
return DynamicMessage.getDefaultInstance(field.getMessageType());
} else {
return field.getDefaultValue();
}
} else {
return value;
}
} else {
return super.getField(field);
}
}
@Override
public Message.Builder getFieldBuilder(final FieldDescriptor field) {
if (field.isExtension()) {
verifyContainingType(field);
if (field.getJavaType() != FieldDescriptor.JavaType.MESSAGE) {
throw new UnsupportedOperationException(
"getFieldBuilder() called on a non-Message type.");
}
ensureExtensionsIsMutable();
final Object value = extensions.getFieldAllowBuilders(field);
if (value == null) {
Message.Builder builder = DynamicMessage.newBuilder(field.getMessageType());
extensions.setField(field, builder);
onChanged();
return builder;
} else {
if (value instanceof Message.Builder) {
return (Message.Builder) value;
} else if (value instanceof Message) {
Message.Builder builder = ((Message) value).toBuilder();
extensions.setField(field, builder);
onChanged();
return builder;
} else {
throw new UnsupportedOperationException(
"getRepeatedFieldBuilder() called on a non-Message type.");
}
}
} else {
return super.getFieldBuilder(field);
}
}
@Override
public int getRepeatedFieldCount(final FieldDescriptor field) {
if (field.isExtension()) {
verifyContainingType(field);
return extensions == null ? 0 : extensions.getRepeatedFieldCount(field);
} else {
return super.getRepeatedFieldCount(field);
}
}
@Override
public Object getRepeatedField(final FieldDescriptor field, final int index) {
if (field.isExtension()) {
verifyContainingType(field);
if (extensions == null) {
throw new IndexOutOfBoundsException();
}
return extensions.getRepeatedField(field, index);
} else {
return super.getRepeatedField(field, index);
}
}
@Override
public Message.Builder getRepeatedFieldBuilder(final FieldDescriptor field, final int index) {
if (field.isExtension()) {
verifyContainingType(field);
ensureExtensionsIsMutable();
if (field.getJavaType() != FieldDescriptor.JavaType.MESSAGE) {
throw new UnsupportedOperationException(
"getRepeatedFieldBuilder() called on a non-Message type.");
}
final Object value = extensions.getRepeatedFieldAllowBuilders(field, index);
if (value instanceof Message.Builder) {
return (Message.Builder) value;
} else if (value instanceof Message) {
Message.Builder builder = ((Message) value).toBuilder();
extensions.setRepeatedField(field, index, builder);
onChanged();
return builder;
} else {
throw new UnsupportedOperationException(
"getRepeatedFieldBuilder() called on a non-Message type.");
}
} else {
return super.getRepeatedFieldBuilder(field, index);
}
}
@Override
public boolean hasField(final FieldDescriptor field) {
if (field.isExtension()) {
verifyContainingType(field);
return extensions != null && extensions.hasField(field);
} else {
return super.hasField(field);
}
}
@Override
public BuilderT setField(final FieldDescriptor field, final Object value) {
if (field.isExtension()) {
verifyContainingType(field);
ensureExtensionsIsMutable();
extensions.setField(field, value);
onChanged();
return (BuilderT) this;
} else {
return super.setField(field, value);
}
}
@Override
public BuilderT clearField(final FieldDescriptor field) {
if (field.isExtension()) {
verifyContainingType(field);
ensureExtensionsIsMutable();
extensions.clearField(field);
onChanged();
return (BuilderT) this;
} else {
return super.clearField(field);
}
}
@Override
public BuilderT setRepeatedField(
final FieldDescriptor field, final int index, final Object value) {
if (field.isExtension()) {
verifyContainingType(field);
ensureExtensionsIsMutable();
extensions.setRepeatedField(field, index, value);
onChanged();
return (BuilderT) this;
} else {
return super.setRepeatedField(field, index, value);
}
}
@Override
public BuilderT addRepeatedField(final FieldDescriptor field, final Object value) {
if (field.isExtension()) {
verifyContainingType(field);
ensureExtensionsIsMutable();
extensions.addRepeatedField(field, value);
onChanged();
return (BuilderT) this;
} else {
return super.addRepeatedField(field, value);
}
}
@Override
public Message.Builder newBuilderForField(final FieldDescriptor field) {
if (field.isExtension()) {
return DynamicMessage.newBuilder(field.getMessageType());
} else {
return super.newBuilderForField(field);
}
}
protected final void mergeExtensionFields(final ExtendableMessage> other) {
if (other.extensions != null) {
ensureExtensionsIsMutable();
extensions.mergeFrom(other.extensions);
onChanged();
}
}
@Override
protected boolean parseUnknownField(
CodedInputStream input, ExtensionRegistryLite extensionRegistry, int tag)
throws IOException {
ensureExtensionsIsMutable();
return MessageReflection.mergeFieldFrom(
input,
input.shouldDiscardUnknownFields() ? null : getUnknownFieldSetBuilder(),
extensionRegistry,
getDescriptorForType(),
new MessageReflection.ExtensionBuilderAdapter(extensions),
tag);
}
private void verifyContainingType(final FieldDescriptor field) {
if (field.getContainingType() != getDescriptorForType()) {
throw new IllegalArgumentException("FieldDescriptor does not match message type.");
}
}
}
// -----------------------------------------------------------------
/**
* Gets the descriptor for an extension. The implementation depends on whether the extension is
* scoped in the top level of a file or scoped in a Message.
*/
interface ExtensionDescriptorRetriever {
FieldDescriptor getDescriptor();
}
/** For use by generated code only. */
public static
GeneratedExtension newMessageScopedGeneratedExtension(
final Message scope,
final int descriptorIndex,
final Class> singularType,
final Message defaultInstance) {
// For extensions scoped within a Message, we use the Message to resolve
// the outer class's descriptor, from which the extension descriptor is
// obtained.
return new GeneratedExtension<>(
new CachedDescriptorRetriever() {
@Override
public FieldDescriptor loadDescriptor() {
return scope.getDescriptorForType().getExtensions().get(descriptorIndex);
}
},
singularType,
defaultInstance,
Extension.ExtensionType.IMMUTABLE);
}
/** For use by generated code only. */
public static
GeneratedExtension newFileScopedGeneratedExtension(
final Class> singularType, final Message defaultInstance) {
// For extensions scoped within a file, we rely on the outer class's
// static initializer to call internalInit() on the extension when the
// descriptor is available.
return new GeneratedExtension<>(
null, // ExtensionDescriptorRetriever is initialized in internalInit();
singularType,
defaultInstance,
Extension.ExtensionType.IMMUTABLE);
}
private abstract static class CachedDescriptorRetriever implements ExtensionDescriptorRetriever {
private volatile FieldDescriptor descriptor;
protected abstract FieldDescriptor loadDescriptor();
@Override
public FieldDescriptor getDescriptor() {
if (descriptor == null) {
FieldDescriptor tmpDescriptor = loadDescriptor();
synchronized (this) {
if (descriptor == null) {
descriptor = tmpDescriptor;
}
}
}
return descriptor;
}
}
/**
* Type used to represent generated extensions. The protocol compiler generates a static singleton
* instance of this class for each extension.
*
* For example, imagine you have the {@code .proto} file:
*
*
* option java_class = "MyProto";
*
* message Foo {
* extensions 1000 to max;
* }
*
* extend Foo {
* optional int32 bar;
* }
*
*
* Then, {@code MyProto.Foo.bar} has type {@code GeneratedExtension}.
*
* In general, users should ignore the details of this type, and simply use these static
* singletons as parameters to the extension accessors defined in {@link ExtendableMessage} and
* {@link ExtendableBuilder}.
*/
public static class GeneratedExtension
extends Extension {
// We can't always initialize the descriptor of a GeneratedExtension when
// we first construct it due to initialization order difficulties (namely,
// the descriptor may not have been constructed yet, since it is often
// constructed by the initializer of a separate module).
//
// In the case of nested extensions, we initialize the
// ExtensionDescriptorRetriever with an instance that uses the scoping
// Message's default instance to retrieve the extension's descriptor.
//
// In the case of non-nested extensions, we initialize the
// ExtensionDescriptorRetriever to null and rely on the outer class's static
// initializer to call internalInit() after the descriptor has been parsed.
GeneratedExtension(
ExtensionDescriptorRetriever descriptorRetriever,
Class> singularType,
Message messageDefaultInstance,
ExtensionType extensionType) {
if (Message.class.isAssignableFrom(singularType)
&& !singularType.isInstance(messageDefaultInstance)) {
throw new IllegalArgumentException(
"Bad messageDefaultInstance for " + singularType.getName());
}
this.descriptorRetriever = descriptorRetriever;
this.singularType = singularType;
this.messageDefaultInstance = messageDefaultInstance;
if (ProtocolMessageEnum.class.isAssignableFrom(singularType)) {
this.enumValueOf = getMethodOrDie(singularType, "valueOf", EnumValueDescriptor.class);
this.enumGetValueDescriptor = getMethodOrDie(singularType, "getValueDescriptor");
} else {
this.enumValueOf = null;
this.enumGetValueDescriptor = null;
}
this.extensionType = extensionType;
}
/** For use by generated code only. */
public void internalInit(final FieldDescriptor descriptor) {
if (descriptorRetriever != null) {
throw new IllegalStateException("Already initialized.");
}
descriptorRetriever =
new ExtensionDescriptorRetriever() {
@Override
public FieldDescriptor getDescriptor() {
return descriptor;
}
};
}
private ExtensionDescriptorRetriever descriptorRetriever;
private final Class> singularType;
private final Message messageDefaultInstance;
private final Method enumValueOf;
private final Method enumGetValueDescriptor;
private final ExtensionType extensionType;
@Override
public FieldDescriptor getDescriptor() {
if (descriptorRetriever == null) {
throw new IllegalStateException("getDescriptor() called before internalInit()");
}
return descriptorRetriever.getDescriptor();
}
/**
* If the extension is an embedded message or group, returns the default instance of the
* message.
*/
@Override
public Message getMessageDefaultInstance() {
return messageDefaultInstance;
}
@Override
protected ExtensionType getExtensionType() {
return extensionType;
}
/**
* Convert from the type used by the reflection accessors to the type used by native accessors.
* E.g., for enums, the reflection accessors use EnumValueDescriptors but the native accessors
* use the generated enum type.
*/
@Override
protected Object fromReflectionType(final Object value) {
FieldDescriptor descriptor = getDescriptor();
if (descriptor.isRepeated()) {
if (descriptor.getJavaType() == FieldDescriptor.JavaType.MESSAGE
|| descriptor.getJavaType() == FieldDescriptor.JavaType.ENUM) {
// Must convert the whole list.
final List