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// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc. All rights reserved.
// http://code.google.com/p/protobuf/
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
package com.facebook.presto.orc.protobuf;
import com.facebook.presto.orc.protobuf.Descriptors.Descriptor;
import com.facebook.presto.orc.protobuf.Descriptors.EnumValueDescriptor;
import com.facebook.presto.orc.protobuf.Descriptors.FieldDescriptor;
import java.io.IOException;
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.Collections;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
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;
protected GeneratedMessage() {
}
protected GeneratedMessage(Builder> builder) {
}
public Parser extends Message> getParserForType() {
throw new UnsupportedOperationException(
"This is supposed to be overridden by subclasses.");
}
/**
* 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.
* See {@link RepeatedFieldBuilder} and {@link SingleFieldBuilder}.
*/
static void enableAlwaysUseFieldBuildersForTesting() {
alwaysUseFieldBuilders = true;
}
/**
* 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 (Java 1.6 override semantics, but we must support 1.5)
public Descriptor getDescriptorForType() {
return internalGetFieldAccessorTable().descriptor;
}
/** Internal helper which returns a mutable map. */
private Map getAllFieldsMutable() {
final TreeMap result =
new TreeMap();
final Descriptor descriptor = internalGetFieldAccessorTable().descriptor;
for (final FieldDescriptor field : descriptor.getFields()) {
if (field.isRepeated()) {
final List> value = (List>) getField(field);
if (!value.isEmpty()) {
result.put(field, value);
}
} else {
if (hasField(field)) {
result.put(field, getField(field));
}
}
}
return result;
}
@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 (Java 1.6 override semantics, but we must support 1.5)
public Map getAllFields() {
return Collections.unmodifiableMap(getAllFieldsMutable());
}
//@Override (Java 1.6 override semantics, but we must support 1.5)
public boolean hasField(final FieldDescriptor field) {
return internalGetFieldAccessorTable().getField(field).has(this);
}
//@Override (Java 1.6 override semantics, but we must support 1.5)
public Object getField(final FieldDescriptor field) {
return internalGetFieldAccessorTable().getField(field).get(this);
}
//@Override (Java 1.6 override semantics, but we must support 1.5)
public int getRepeatedFieldCount(final FieldDescriptor field) {
return internalGetFieldAccessorTable().getField(field)
.getRepeatedCount(this);
}
//@Override (Java 1.6 override semantics, but we must support 1.5)
public Object getRepeatedField(final FieldDescriptor field, final int index) {
return internalGetFieldAccessorTable().getField(field)
.getRepeated(this, index);
}
//@Override (Java 1.6 override semantics, but we must support 1.5)
public UnknownFieldSet getUnknownFields() {
throw new UnsupportedOperationException(
"This is supposed to be overridden by subclasses.");
}
/**
* Called by subclasses to parse an unknown field.
* @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 {
return unknownFields.mergeFieldFrom(tag, input);
}
/**
* Used by parsing constructors in generated classes.
*/
protected void makeExtensionsImmutable() {
// Noop for messages without extensions.
}
protected abstract Message.Builder newBuilderForType(BuilderParent parent);
/**
* Interface for the parent of a Builder that allows the builder to
* communicate invalidations back to the parent for use when using nested
* builders.
*/
protected interface BuilderParent {
/**
* A builder becomes dirty whenever a field is modified -- including fields
* in nested builders -- and becomes clean when build() is called. Thus,
* when a builder becomes dirty, all its parents become dirty as well, and
* when it becomes clean, all its children become clean. The dirtiness
* state is used to invalidate certain cached values.
*
* To this end, a builder calls markAsDirty() on its parent whenever it
* transitions from clean to dirty. The parent must propagate this call to
* its own parent, unless it was already dirty, in which case the
* grandparent must necessarily already be dirty as well. The parent can
* only transition back to "clean" after calling build() on all children.
*/
void markDirty();
}
@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;
private UnknownFieldSet unknownFields =
UnknownFieldSet.getDefaultInstance();
protected Builder() {
this(null);
}
protected Builder(BuilderParent builderParent) {
this.builderParent = builderParent;
}
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.
*/
protected void markClean() {
this.isClean = true;
}
/**
* Gets whether invalidations are needed
*
* @return whether invalidations are needed
*/
protected boolean isClean() {
return isClean;
}
// This is implemented here only to work around an apparent bug in the
// Java compiler and/or build system. See bug #1898463. The mere presence
// of this dummy clone() implementation makes it go away.
@Override
public BuilderType clone() {
throw new UnsupportedOperationException(
"This is supposed to be overridden by subclasses.");
}
/**
* Called by the initialization and clear code paths to allow subclasses to
* reset any of their builtin fields back to the initial values.
*/
public BuilderType clear() {
unknownFields = UnknownFieldSet.getDefaultInstance();
onChanged();
return (BuilderType) 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 (Java 1.6 override semantics, but we must support 1.5)
public Descriptor getDescriptorForType() {
return internalGetFieldAccessorTable().descriptor;
}
//@Override (Java 1.6 override semantics, but we must support 1.5)
public Map getAllFields() {
return Collections.unmodifiableMap(getAllFieldsMutable());
}
/** Internal helper which returns a mutable map. */
private Map getAllFieldsMutable() {
final TreeMap result =
new TreeMap();
final Descriptor descriptor = internalGetFieldAccessorTable().descriptor;
for (final FieldDescriptor field : descriptor.getFields()) {
if (field.isRepeated()) {
final List value = (List) getField(field);
if (!value.isEmpty()) {
result.put(field, value);
}
} else {
if (hasField(field)) {
result.put(field, getField(field));
}
}
}
return result;
}
public Message.Builder newBuilderForField(
final FieldDescriptor field) {
return internalGetFieldAccessorTable().getField(field).newBuilder();
}
//@Override (Java 1.6 override semantics, but we must support 1.5)
public Message.Builder getFieldBuilder(final FieldDescriptor field) {
return internalGetFieldAccessorTable().getField(field).getBuilder(this);
}
//@Override (Java 1.6 override semantics, but we must support 1.5)
public boolean hasField(final FieldDescriptor field) {
return internalGetFieldAccessorTable().getField(field).has(this);
}
//@Override (Java 1.6 override semantics, but we must support 1.5)
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;
}
}
public BuilderType setField(final FieldDescriptor field,
final Object value) {
internalGetFieldAccessorTable().getField(field).set(this, value);
return (BuilderType) this;
}
//@Override (Java 1.6 override semantics, but we must support 1.5)
public BuilderType clearField(final FieldDescriptor field) {
internalGetFieldAccessorTable().getField(field).clear(this);
return (BuilderType) this;
}
//@Override (Java 1.6 override semantics, but we must support 1.5)
public int getRepeatedFieldCount(final FieldDescriptor field) {
return internalGetFieldAccessorTable().getField(field)
.getRepeatedCount(this);
}
//@Override (Java 1.6 override semantics, but we must support 1.5)
public Object getRepeatedField(final FieldDescriptor field,
final int index) {
return internalGetFieldAccessorTable().getField(field)
.getRepeated(this, index);
}
public BuilderType setRepeatedField(final FieldDescriptor field,
final int index, final Object value) {
internalGetFieldAccessorTable().getField(field)
.setRepeated(this, index, value);
return (BuilderType) this;
}
public BuilderType addRepeatedField(final FieldDescriptor field,
final Object value) {
internalGetFieldAccessorTable().getField(field).addRepeated(this, value);
return (BuilderType) this;
}
public final BuilderType setUnknownFields(
final UnknownFieldSet unknownFields) {
this.unknownFields = unknownFields;
onChanged();
return (BuilderType) this;
}
@Override
public final BuilderType mergeUnknownFields(
final UnknownFieldSet unknownFields) {
this.unknownFields =
UnknownFieldSet.newBuilder(this.unknownFields)
.mergeFrom(unknownFields)
.build();
onChanged();
return (BuilderType) this;
}
//@Override (Java 1.6 override semantics, but we must support 1.5)
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 (Java 1.6 override semantics, but we must support 1.5)
public final UnknownFieldSet getUnknownFields() {
return unknownFields;
}
/**
* Called by subclasses to parse an unknown field.
* @return {@code true} unless the tag is an end-group tag.
*/
protected boolean parseUnknownField(
final CodedInputStream input,
final UnknownFieldSet.Builder unknownFields,
final ExtensionRegistryLite extensionRegistry,
final int tag) throws IOException {
return unknownFields.mergeFieldFrom(tag, input);
}
/**
* 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 (Java 1.6 override semantics, but we must support 1.5)
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 the 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;
}
}
}
// =================================================================
// Extensions-related stuff
public interface ExtendableMessageOrBuilder<
MessageType extends ExtendableMessage> extends MessageOrBuilder {
/** Check if a singular extension is present. */
boolean hasExtension(
GeneratedExtension extension);
/** Get the number of elements in a repeated extension. */
int getExtensionCount(
GeneratedExtension> extension);
/** Get the value of an extension. */
Type getExtension(GeneratedExtension extension);
/** Get one element of a repeated extension. */
Type getExtension(
GeneratedExtension> 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<
MessageType extends ExtendableMessage>
extends GeneratedMessage
implements ExtendableMessageOrBuilder {
private final FieldSet extensions;
protected ExtendableMessage() {
this.extensions = FieldSet.newFieldSet();
}
protected ExtendableMessage(
ExtendableBuilder builder) {
super(builder);
this.extensions = builder.buildExtensions();
}
private void verifyExtensionContainingType(
final GeneratedExtension 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 (Java 1.6 override semantics, but we must support 1.5)
public final boolean hasExtension(
final GeneratedExtension extension) {
verifyExtensionContainingType(extension);
return extensions.hasField(extension.getDescriptor());
}
/** Get the number of elements in a repeated extension. */
//@Override (Java 1.6 override semantics, but we must support 1.5)
public final int getExtensionCount(
final GeneratedExtension> extension) {
verifyExtensionContainingType(extension);
final FieldDescriptor descriptor = extension.getDescriptor();
return extensions.getRepeatedFieldCount(descriptor);
}
/** Get the value of an extension. */
//@Override (Java 1.6 override semantics, but we must support 1.5)
@SuppressWarnings("unchecked")
public final Type getExtension(
final GeneratedExtension extension) {
verifyExtensionContainingType(extension);
FieldDescriptor descriptor = extension.getDescriptor();
final Object value = extensions.getField(descriptor);
if (value == null) {
if (descriptor.isRepeated()) {
return (Type) Collections.emptyList();
} else if (descriptor.getJavaType() ==
FieldDescriptor.JavaType.MESSAGE) {
return (Type) extension.getMessageDefaultInstance();
} else {
return (Type) extension.fromReflectionType(
descriptor.getDefaultValue());
}
} else {
return (Type) extension.fromReflectionType(value);
}
}
/** Get one element of a repeated extension. */
//@Override (Java 1.6 override semantics, but we must support 1.5)
@SuppressWarnings("unchecked")
public final Type getExtension(
final GeneratedExtension> extension,
final int index) {
verifyExtensionContainingType(extension);
FieldDescriptor descriptor = extension.getDescriptor();
return (Type) extension.singularFromReflectionType(
extensions.getRepeatedField(descriptor, index));
}
/** Called by subclasses to check if all extensions are initialized. */
protected boolean extensionsAreInitialized() {
return extensions.isInitialized();
}
@Override
public boolean isInitialized() {
return super.isInitialized() && extensionsAreInitialized();
}
@Override
protected boolean parseUnknownField(
CodedInputStream input,
UnknownFieldSet.Builder unknownFields,
ExtensionRegistryLite extensionRegistry,
int tag) throws IOException {
return AbstractMessage.Builder.mergeFieldFrom(
input, unknownFields, extensionRegistry, getDescriptorForType(),
null, extensions, tag);
}
/**
* Used by parsing constructors in generated classes.
*/
@Override
protected void makeExtensionsImmutable() {
extensions.makeImmutable();
}
/**
* 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. ExtensionWriter helps us write
* individual ranges of extensions at once.
*/
protected class ExtensionWriter {
// 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;
}
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(xiangl): 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;
}
}
}
}
protected ExtensionWriter newExtensionWriter() {
return new ExtensionWriter(false);
}
protected ExtensionWriter newMessageSetExtensionWriter() {
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();
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.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<
MessageType extends ExtendableMessage,
BuilderType extends ExtendableBuilder>
extends Builder
implements ExtendableMessageOrBuilder {
private FieldSet extensions = FieldSet.emptySet();
protected ExtendableBuilder() {}
protected ExtendableBuilder(
BuilderParent parent) {
super(parent);
}
@Override
public BuilderType clear() {
extensions = FieldSet.emptySet();
return super.clear();
}
// This is implemented here only to work around an apparent bug in the
// Java compiler and/or build system. See bug #1898463. The mere presence
// of this dummy clone() implementation makes it go away.
@Override
public BuilderType clone() {
throw new UnsupportedOperationException(
"This is supposed to be overridden by subclasses.");
}
private void ensureExtensionsIsMutable() {
if (extensions.isImmutable()) {
extensions = extensions.clone();
}
}
private void verifyExtensionContainingType(
final GeneratedExtension 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 (Java 1.6 override semantics, but we must support 1.5)
public final boolean hasExtension(
final GeneratedExtension extension) {
verifyExtensionContainingType(extension);
return extensions.hasField(extension.getDescriptor());
}
/** Get the number of elements in a repeated extension. */
//@Override (Java 1.6 override semantics, but we must support 1.5)
public final int getExtensionCount(
final GeneratedExtension> extension) {
verifyExtensionContainingType(extension);
final FieldDescriptor descriptor = extension.getDescriptor();
return extensions.getRepeatedFieldCount(descriptor);
}
/** Get the value of an extension. */
//@Override (Java 1.6 override semantics, but we must support 1.5)
public final Type getExtension(
final GeneratedExtension extension) {
verifyExtensionContainingType(extension);
FieldDescriptor descriptor = extension.getDescriptor();
final Object value = extensions.getField(descriptor);
if (value == null) {
if (descriptor.isRepeated()) {
return (Type) Collections.emptyList();
} else if (descriptor.getJavaType() ==
FieldDescriptor.JavaType.MESSAGE) {
return (Type) extension.getMessageDefaultInstance();
} else {
return (Type) extension.fromReflectionType(
descriptor.getDefaultValue());
}
} else {
return (Type) extension.fromReflectionType(value);
}
}
/** Get one element of a repeated extension. */
//@Override (Java 1.6 override semantics, but we must support 1.5)
public final Type getExtension(
final GeneratedExtension> extension,
final int index) {
verifyExtensionContainingType(extension);
FieldDescriptor descriptor = extension.getDescriptor();
return (Type) extension.singularFromReflectionType(
extensions.getRepeatedField(descriptor, index));
}
/** Set the value of an extension. */
public final BuilderType setExtension(
final GeneratedExtension extension,
final Type value) {
verifyExtensionContainingType(extension);
ensureExtensionsIsMutable();
final FieldDescriptor descriptor = extension.getDescriptor();
extensions.setField(descriptor, extension.toReflectionType(value));
onChanged();
return (BuilderType) this;
}
/** Set the value of one element of a repeated extension. */
public final BuilderType setExtension(
final GeneratedExtension> extension,
final int index, final Type value) {
verifyExtensionContainingType(extension);
ensureExtensionsIsMutable();
final FieldDescriptor descriptor = extension.getDescriptor();
extensions.setRepeatedField(
descriptor, index,
extension.singularToReflectionType(value));
onChanged();
return (BuilderType) this;
}
/** Append a value to a repeated extension. */
public final BuilderType addExtension(
final GeneratedExtension> extension,
final Type value) {
verifyExtensionContainingType(extension);
ensureExtensionsIsMutable();
final FieldDescriptor descriptor = extension.getDescriptor();
extensions.addRepeatedField(
descriptor, extension.singularToReflectionType(value));
onChanged();
return (BuilderType) this;
}
/** Clear an extension. */
public final BuilderType clearExtension(
final GeneratedExtension extension) {
verifyExtensionContainingType(extension);
ensureExtensionsIsMutable();
extensions.clearField(extension.getDescriptor());
onChanged();
return (BuilderType) this;
}
/** Called by subclasses to check if all extensions are initialized. */
protected boolean extensionsAreInitialized() {
return extensions.isInitialized();
}
/**
* Called by the build code path to create a copy of the extensions for
* building the message.
*/
private FieldSet buildExtensions() {
extensions.makeImmutable();
return extensions;
}
@Override
public boolean isInitialized() {
return super.isInitialized() && extensionsAreInitialized();
}
/**
* Called by subclasses to parse an unknown field or an extension.
* @return {@code true} unless the tag is an end-group tag.
*/
@Override
protected boolean parseUnknownField(
final CodedInputStream input,
final UnknownFieldSet.Builder unknownFields,
final ExtensionRegistryLite extensionRegistry,
final int tag) throws IOException {
return AbstractMessage.Builder.mergeFieldFrom(
input, unknownFields, extensionRegistry, getDescriptorForType(),
this, null, tag);
}
// ---------------------------------------------------------------
// Reflection
@Override
public Map getAllFields() {
final Map result = super.getAllFieldsMutable();
result.putAll(extensions.getAllFields());
return Collections.unmodifiableMap(result);
}
@Override
public Object getField(final FieldDescriptor field) {
if (field.isExtension()) {
verifyContainingType(field);
final Object value = 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 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);
}
}
@Override
public boolean hasField(final FieldDescriptor field) {
if (field.isExtension()) {
verifyContainingType(field);
return extensions.hasField(field);
} else {
return super.hasField(field);
}
}
@Override
public BuilderType setField(final FieldDescriptor field,
final Object value) {
if (field.isExtension()) {
verifyContainingType(field);
ensureExtensionsIsMutable();
extensions.setField(field, value);
onChanged();
return (BuilderType) this;
} else {
return super.setField(field, value);
}
}
@Override
public BuilderType clearField(final FieldDescriptor field) {
if (field.isExtension()) {
verifyContainingType(field);
ensureExtensionsIsMutable();
extensions.clearField(field);
onChanged();
return (BuilderType) this;
} else {
return super.clearField(field);
}
}
@Override
public BuilderType setRepeatedField(final FieldDescriptor field,
final int index, final Object value) {
if (field.isExtension()) {
verifyContainingType(field);
ensureExtensionsIsMutable();
extensions.setRepeatedField(field, index, value);
onChanged();
return (BuilderType) this;
} else {
return super.setRepeatedField(field, index, value);
}
}
@Override
public BuilderType addRepeatedField(final FieldDescriptor field,
final Object value) {
if (field.isExtension()) {
verifyContainingType(field);
ensureExtensionsIsMutable();
extensions.addRepeatedField(field, value);
onChanged();
return (BuilderType) this;
} else {
return super.addRepeatedField(field, value);
}
}
protected final void mergeExtensionFields(final ExtendableMessage other) {
ensureExtensionsIsMutable();
extensions.mergeFrom(other.extensions);
onChanged();
}
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.
*/
private static 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 ExtensionDescriptorRetriever() {
//@Override (Java 1.6 override semantics, but we must support 1.5)
public FieldDescriptor getDescriptor() {
return scope.getDescriptorForType().getExtensions()
.get(descriptorIndex);
}
},
singularType,
defaultInstance);
}
/** 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);
}
/**
* 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 final class GeneratedExtension<
ContainingType extends Message, Type> {
// TODO(kenton): Find ways to avoid using Java reflection within this
// class. Also try to avoid suppressing unchecked warnings.
// 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.
private GeneratedExtension(ExtensionDescriptorRetriever descriptorRetriever,
Class singularType,
Message messageDefaultInstance) {
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;
}
}
/** For use by generated code only. */
public void internalInit(final FieldDescriptor descriptor) {
if (descriptorRetriever != null) {
throw new IllegalStateException("Already initialized.");
}
descriptorRetriever = new ExtensionDescriptorRetriever() {
//@Override (Java 1.6 override semantics, but we must support 1.5)
public FieldDescriptor getDescriptor() {
return descriptor;
}
};
}
private ExtensionDescriptorRetriever descriptorRetriever;
private final Class singularType;
private final Message messageDefaultInstance;
private final Method enumValueOf;
private final Method enumGetValueDescriptor;
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.
*/
public Message getMessageDefaultInstance() {
return messageDefaultInstance;
}
/**
* 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.
*/
@SuppressWarnings("unchecked")
private 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 result = new ArrayList();
for (final Object element : (List) value) {
result.add(singularFromReflectionType(element));
}
return result;
} else {
return value;
}
} else {
return singularFromReflectionType(value);
}
}
/**
* Like {@link #fromReflectionType(Object)}, but if the type is a repeated
* type, this converts a single element.
*/
private Object singularFromReflectionType(final Object value) {
FieldDescriptor descriptor = getDescriptor();
switch (descriptor.getJavaType()) {
case MESSAGE:
if (singularType.isInstance(value)) {
return value;
} else {
// It seems the copy of the embedded message stored inside the
// extended message is not of the exact type the user was
// expecting. This can happen if a user defines a
// GeneratedExtension manually and gives it a different type.
// This should not happen in normal use. But, to be nice, we'll
// copy the message to whatever type the caller was expecting.
return messageDefaultInstance.newBuilderForType()
.mergeFrom((Message) value).build();
}
case ENUM:
return invokeOrDie(enumValueOf, null, (EnumValueDescriptor) value);
default:
return value;
}
}
/**
* Convert from the type used by the native accessors to the type used
* by reflection accessors. E.g., for enums, the reflection accessors use
* EnumValueDescriptors but the native accessors use the generated enum
* type.
*/
@SuppressWarnings("unchecked")
private Object toReflectionType(final Object value) {
FieldDescriptor descriptor = getDescriptor();
if (descriptor.isRepeated()) {
if (descriptor.getJavaType() == FieldDescriptor.JavaType.ENUM) {
// Must convert the whole list.
final List result = new ArrayList();
for (final Object element : (List) value) {
result.add(singularToReflectionType(element));
}
return result;
} else {
return value;
}
} else {
return singularToReflectionType(value);
}
}
/**
* Like {@link #toReflectionType(Object)}, but if the type is a repeated
* type, this converts a single element.
*/
private Object singularToReflectionType(final Object value) {
FieldDescriptor descriptor = getDescriptor();
switch (descriptor.getJavaType()) {
case ENUM:
return invokeOrDie(enumGetValueDescriptor, value);
default:
return value;
}
}
}
// =================================================================
/** Calls Class.getMethod and throws a RuntimeException if it fails. */
@SuppressWarnings("unchecked")
private static Method getMethodOrDie(
final Class clazz, final String name, final Class... params) {
try {
return clazz.getMethod(name, params);
} catch (NoSuchMethodException e) {
throw new RuntimeException(
"Generated message class \"" + clazz.getName() +
"\" missing method \"" + name + "\".", e);
}
}
/** Calls invoke and throws a RuntimeException if it fails. */
private static Object invokeOrDie(
final Method method, final Object object, final Object... params) {
try {
return method.invoke(object, params);
} catch (IllegalAccessException e) {
throw new RuntimeException(
"Couldn't use Java reflection to implement protocol message " +
"reflection.", e);
} catch (InvocationTargetException e) {
final Throwable cause = e.getCause();
if (cause instanceof RuntimeException) {
throw (RuntimeException) cause;
} else if (cause instanceof Error) {
throw (Error) cause;
} else {
throw new RuntimeException(
"Unexpected exception thrown by generated accessor method.", cause);
}
}
}
/**
* Users should ignore this class. This class provides the implementation
* with access to the fields of a message object using Java reflection.
*/
public static final class FieldAccessorTable {
/**
* Construct a FieldAccessorTable for a particular message class. Only
* one FieldAccessorTable should ever be constructed per class.
*
* @param descriptor The type's descriptor.
* @param camelCaseNames The camelcase names of all fields in the message.
* These are used to derive the accessor method names.
* @param messageClass The message type.
* @param builderClass The builder type.
*/
public FieldAccessorTable(
final Descriptor descriptor,
final String[] camelCaseNames,
final Class extends GeneratedMessage> messageClass,
final Class extends Builder> builderClass) {
this(descriptor, camelCaseNames);
ensureFieldAccessorsInitialized(messageClass, builderClass);
}
/**
* Construct a FieldAccessorTable for a particular message class without
* initializing FieldAccessors.
*/
public FieldAccessorTable(
final Descriptor descriptor,
final String[] camelCaseNames) {
this.descriptor = descriptor;
this.camelCaseNames = camelCaseNames;
fields = new FieldAccessor[descriptor.getFields().size()];
initialized = false;
}
/**
* Ensures the field accessors are initialized. This method is thread-safe.
*
* @param messageClass The message type.
* @param builderClass The builder type.
* @return this
*/
public FieldAccessorTable ensureFieldAccessorsInitialized(
Class extends GeneratedMessage> messageClass,
Class extends Builder> builderClass) {
if (initialized) { return this; }
synchronized (this) {
if (initialized) { return this; }
for (int i = 0; i < fields.length; i++) {
FieldDescriptor field = descriptor.getFields().get(i);
if (field.isRepeated()) {
if (field.getJavaType() == FieldDescriptor.JavaType.MESSAGE) {
fields[i] = new RepeatedMessageFieldAccessor(
field, camelCaseNames[i], messageClass, builderClass);
} else if (field.getJavaType() == FieldDescriptor.JavaType.ENUM) {
fields[i] = new RepeatedEnumFieldAccessor(
field, camelCaseNames[i], messageClass, builderClass);
} else {
fields[i] = new RepeatedFieldAccessor(
field, camelCaseNames[i], messageClass, builderClass);
}
} else {
if (field.getJavaType() == FieldDescriptor.JavaType.MESSAGE) {
fields[i] = new SingularMessageFieldAccessor(
field, camelCaseNames[i], messageClass, builderClass);
} else if (field.getJavaType() == FieldDescriptor.JavaType.ENUM) {
fields[i] = new SingularEnumFieldAccessor(
field, camelCaseNames[i], messageClass, builderClass);
} else {
fields[i] = new SingularFieldAccessor(
field, camelCaseNames[i], messageClass, builderClass);
}
}
}
initialized = true;
camelCaseNames = null;
return this;
}
}
private final Descriptor descriptor;
private final FieldAccessor[] fields;
private String[] camelCaseNames;
private volatile boolean initialized;
/** Get the FieldAccessor for a particular field. */
private FieldAccessor getField(final FieldDescriptor field) {
if (field.getContainingType() != descriptor) {
throw new IllegalArgumentException(
"FieldDescriptor does not match message type.");
} else if (field.isExtension()) {
// If this type had extensions, it would subclass ExtendableMessage,
// which overrides the reflection interface to handle extensions.
throw new IllegalArgumentException(
"This type does not have extensions.");
}
return fields[field.getIndex()];
}
/**
* Abstract interface that provides access to a single field. This is
* implemented differently depending on the field type and cardinality.
*/
private interface FieldAccessor {
Object get(GeneratedMessage message);
Object get(GeneratedMessage.Builder builder);
void set(Builder builder, Object value);
Object getRepeated(GeneratedMessage message, int index);
Object getRepeated(GeneratedMessage.Builder builder, int index);
void setRepeated(Builder builder,
int index, Object value);
void addRepeated(Builder builder, Object value);
boolean has(GeneratedMessage message);
boolean has(GeneratedMessage.Builder builder);
int getRepeatedCount(GeneratedMessage message);
int getRepeatedCount(GeneratedMessage.Builder builder);
void clear(Builder builder);
Message.Builder newBuilder();
Message.Builder getBuilder(GeneratedMessage.Builder builder);
}
// ---------------------------------------------------------------
private static class SingularFieldAccessor implements FieldAccessor {
SingularFieldAccessor(
final FieldDescriptor descriptor, final String camelCaseName,
final Class extends GeneratedMessage> messageClass,
final Class extends Builder> builderClass) {
getMethod = getMethodOrDie(messageClass, "get" + camelCaseName);
getMethodBuilder = getMethodOrDie(builderClass, "get" + camelCaseName);
type = getMethod.getReturnType();
setMethod = getMethodOrDie(builderClass, "set" + camelCaseName, type);
hasMethod =
getMethodOrDie(messageClass, "has" + camelCaseName);
hasMethodBuilder =
getMethodOrDie(builderClass, "has" + camelCaseName);
clearMethod = getMethodOrDie(builderClass, "clear" + camelCaseName);
}
// Note: We use Java reflection to call public methods rather than
// access private fields directly as this avoids runtime security
// checks.
protected final Class> type;
protected final Method getMethod;
protected final Method getMethodBuilder;
protected final Method setMethod;
protected final Method hasMethod;
protected final Method hasMethodBuilder;
protected final Method clearMethod;
public Object get(final GeneratedMessage message) {
return invokeOrDie(getMethod, message);
}
public Object get(GeneratedMessage.Builder builder) {
return invokeOrDie(getMethodBuilder, builder);
}
public void set(final Builder builder, final Object value) {
invokeOrDie(setMethod, builder, value);
}
public Object getRepeated(final GeneratedMessage message,
final int index) {
throw new UnsupportedOperationException(
"getRepeatedField() called on a singular field.");
}
public Object getRepeated(GeneratedMessage.Builder builder, int index) {
throw new UnsupportedOperationException(
"getRepeatedField() called on a singular field.");
}
public void setRepeated(final Builder builder,
final int index, final Object value) {
throw new UnsupportedOperationException(
"setRepeatedField() called on a singular field.");
}
public void addRepeated(final Builder builder, final Object value) {
throw new UnsupportedOperationException(
"addRepeatedField() called on a singular field.");
}
public boolean has(final GeneratedMessage message) {
return (Boolean) invokeOrDie(hasMethod, message);
}
public boolean has(GeneratedMessage.Builder builder) {
return (Boolean) invokeOrDie(hasMethodBuilder, builder);
}
public int getRepeatedCount(final GeneratedMessage message) {
throw new UnsupportedOperationException(
"getRepeatedFieldSize() called on a singular field.");
}
public int getRepeatedCount(GeneratedMessage.Builder builder) {
throw new UnsupportedOperationException(
"getRepeatedFieldSize() called on a singular field.");
}
public void clear(final Builder builder) {
invokeOrDie(clearMethod, builder);
}
public Message.Builder newBuilder() {
throw new UnsupportedOperationException(
"newBuilderForField() called on a non-Message type.");
}
public Message.Builder getBuilder(GeneratedMessage.Builder builder) {
throw new UnsupportedOperationException(
"getFieldBuilder() called on a non-Message type.");
}
}
private static class RepeatedFieldAccessor implements FieldAccessor {
protected final Class type;
protected final Method getMethod;
protected final Method getMethodBuilder;
protected final Method getRepeatedMethod;
protected final Method getRepeatedMethodBuilder;
protected final Method setRepeatedMethod;
protected final Method addRepeatedMethod;
protected final Method getCountMethod;
protected final Method getCountMethodBuilder;
protected final Method clearMethod;
RepeatedFieldAccessor(
final FieldDescriptor descriptor, final String camelCaseName,
final Class extends GeneratedMessage> messageClass,
final Class extends Builder> builderClass) {
getMethod = getMethodOrDie(messageClass,
"get" + camelCaseName + "List");
getMethodBuilder = getMethodOrDie(builderClass,
"get" + camelCaseName + "List");
getRepeatedMethod =
getMethodOrDie(messageClass, "get" + camelCaseName, Integer.TYPE);
getRepeatedMethodBuilder =
getMethodOrDie(builderClass, "get" + camelCaseName, Integer.TYPE);
type = getRepeatedMethod.getReturnType();
setRepeatedMethod =
getMethodOrDie(builderClass, "set" + camelCaseName,
Integer.TYPE, type);
addRepeatedMethod =
getMethodOrDie(builderClass, "add" + camelCaseName, type);
getCountMethod =
getMethodOrDie(messageClass, "get" + camelCaseName + "Count");
getCountMethodBuilder =
getMethodOrDie(builderClass, "get" + camelCaseName + "Count");
clearMethod = getMethodOrDie(builderClass, "clear" + camelCaseName);
}
public Object get(final GeneratedMessage message) {
return invokeOrDie(getMethod, message);
}
public Object get(GeneratedMessage.Builder builder) {
return invokeOrDie(getMethodBuilder, builder);
}
public void set(final Builder builder, final Object value) {
// Add all the elements individually. This serves two purposes:
// 1) Verifies that each element has the correct type.
// 2) Insures that the caller cannot modify the list later on and
// have the modifications be reflected in the message.
clear(builder);
for (final Object element : (List>) value) {
addRepeated(builder, element);
}
}
public Object getRepeated(final GeneratedMessage message,
final int index) {
return invokeOrDie(getRepeatedMethod, message, index);
}
public Object getRepeated(GeneratedMessage.Builder builder, int index) {
return invokeOrDie(getRepeatedMethodBuilder, builder, index);
}
public void setRepeated(final Builder builder,
final int index, final Object value) {
invokeOrDie(setRepeatedMethod, builder, index, value);
}
public void addRepeated(final Builder builder, final Object value) {
invokeOrDie(addRepeatedMethod, builder, value);
}
public boolean has(final GeneratedMessage message) {
throw new UnsupportedOperationException(
"hasField() called on a repeated field.");
}
public boolean has(GeneratedMessage.Builder builder) {
throw new UnsupportedOperationException(
"hasField() called on a repeated field.");
}
public int getRepeatedCount(final GeneratedMessage message) {
return (Integer) invokeOrDie(getCountMethod, message);
}
public int getRepeatedCount(GeneratedMessage.Builder builder) {
return (Integer) invokeOrDie(getCountMethodBuilder, builder);
}
public void clear(final Builder builder) {
invokeOrDie(clearMethod, builder);
}
public Message.Builder newBuilder() {
throw new UnsupportedOperationException(
"newBuilderForField() called on a non-Message type.");
}
public Message.Builder getBuilder(GeneratedMessage.Builder builder) {
throw new UnsupportedOperationException(
"getFieldBuilder() called on a non-Message type.");
}
}
// ---------------------------------------------------------------
private static final class SingularEnumFieldAccessor
extends SingularFieldAccessor {
SingularEnumFieldAccessor(
final FieldDescriptor descriptor, final String camelCaseName,
final Class extends GeneratedMessage> messageClass,
final Class extends Builder> builderClass) {
super(descriptor, camelCaseName, messageClass, builderClass);
valueOfMethod = getMethodOrDie(type, "valueOf",
EnumValueDescriptor.class);
getValueDescriptorMethod =
getMethodOrDie(type, "getValueDescriptor");
}
private Method valueOfMethod;
private Method getValueDescriptorMethod;
@Override
public Object get(final GeneratedMessage message) {
return invokeOrDie(getValueDescriptorMethod, super.get(message));
}
@Override
public Object get(final GeneratedMessage.Builder builder) {
return invokeOrDie(getValueDescriptorMethod, super.get(builder));
}
@Override
public void set(final Builder builder, final Object value) {
super.set(builder, invokeOrDie(valueOfMethod, null, value));
}
}
private static final class RepeatedEnumFieldAccessor
extends RepeatedFieldAccessor {
RepeatedEnumFieldAccessor(
final FieldDescriptor descriptor, final String camelCaseName,
final Class extends GeneratedMessage> messageClass,
final Class extends Builder> builderClass) {
super(descriptor, camelCaseName, messageClass, builderClass);
valueOfMethod = getMethodOrDie(type, "valueOf",
EnumValueDescriptor.class);
getValueDescriptorMethod =
getMethodOrDie(type, "getValueDescriptor");
}
private final Method valueOfMethod;
private final Method getValueDescriptorMethod;
@Override
@SuppressWarnings("unchecked")
public Object get(final GeneratedMessage message) {
final List newList = new ArrayList();
for (final Object element : (List) super.get(message)) {
newList.add(invokeOrDie(getValueDescriptorMethod, element));
}
return Collections.unmodifiableList(newList);
}
@Override
@SuppressWarnings("unchecked")
public Object get(final GeneratedMessage.Builder builder) {
final List newList = new ArrayList();
for (final Object element : (List) super.get(builder)) {
newList.add(invokeOrDie(getValueDescriptorMethod, element));
}
return Collections.unmodifiableList(newList);
}
@Override
public Object getRepeated(final GeneratedMessage message,
final int index) {
return invokeOrDie(getValueDescriptorMethod,
super.getRepeated(message, index));
}
@Override
public Object getRepeated(final GeneratedMessage.Builder builder,
final int index) {
return invokeOrDie(getValueDescriptorMethod,
super.getRepeated(builder, index));
}
@Override
public void setRepeated(final Builder builder,
final int index, final Object value) {
super.setRepeated(builder, index, invokeOrDie(valueOfMethod, null,
value));
}
@Override
public void addRepeated(final Builder builder, final Object value) {
super.addRepeated(builder, invokeOrDie(valueOfMethod, null, value));
}
}
// ---------------------------------------------------------------
private static final class SingularMessageFieldAccessor
extends SingularFieldAccessor {
SingularMessageFieldAccessor(
final FieldDescriptor descriptor, final String camelCaseName,
final Class extends GeneratedMessage> messageClass,
final Class extends Builder> builderClass) {
super(descriptor, camelCaseName, messageClass, builderClass);
newBuilderMethod = getMethodOrDie(type, "newBuilder");
getBuilderMethodBuilder =
getMethodOrDie(builderClass, "get" + camelCaseName + "Builder");
}
private final Method newBuilderMethod;
private final Method getBuilderMethodBuilder;
private Object coerceType(final Object value) {
if (type.isInstance(value)) {
return value;
} else {
// The value is not the exact right message type. However, if it
// is an alternative implementation of the same type -- e.g. a
// DynamicMessage -- we should accept it. In this case we can make
// a copy of the message.
return ((Message.Builder) invokeOrDie(newBuilderMethod, null))
.mergeFrom((Message) value).buildPartial();
}
}
@Override
public void set(final Builder builder, final Object value) {
super.set(builder, coerceType(value));
}
@Override
public Message.Builder newBuilder() {
return (Message.Builder) invokeOrDie(newBuilderMethod, null);
}
@Override
public Message.Builder getBuilder(GeneratedMessage.Builder builder) {
return (Message.Builder) invokeOrDie(getBuilderMethodBuilder, builder);
}
}
private static final class RepeatedMessageFieldAccessor
extends RepeatedFieldAccessor {
RepeatedMessageFieldAccessor(
final FieldDescriptor descriptor, final String camelCaseName,
final Class extends GeneratedMessage> messageClass,
final Class extends Builder> builderClass) {
super(descriptor, camelCaseName, messageClass, builderClass);
newBuilderMethod = getMethodOrDie(type, "newBuilder");
}
private final Method newBuilderMethod;
private Object coerceType(final Object value) {
if (type.isInstance(value)) {
return value;
} else {
// The value is not the exact right message type. However, if it
// is an alternative implementation of the same type -- e.g. a
// DynamicMessage -- we should accept it. In this case we can make
// a copy of the message.
return ((Message.Builder) invokeOrDie(newBuilderMethod, null))
.mergeFrom((Message) value).build();
}
}
@Override
public void setRepeated(final Builder builder,
final int index, final Object value) {
super.setRepeated(builder, index, coerceType(value));
}
@Override
public void addRepeated(final Builder builder, final Object value) {
super.addRepeated(builder, coerceType(value));
}
@Override
public Message.Builder newBuilder() {
return (Message.Builder) invokeOrDie(newBuilderMethod, null);
}
}
}
/**
* Replaces this object in the output stream with a serialized form.
* Part of Java's serialization magic. Generated sub-classes must override
* this method by calling {@code return super.writeReplace();}
* @return a SerializedForm of this message
*/
protected Object writeReplace() throws ObjectStreamException {
return new GeneratedMessageLite.SerializedForm(this);
}
}