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Kotlin core Protocol Buffers library. Protocol Buffers are a way of encoding structured data in an efficient yet extensible format.

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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 com.google.protobuf.Descriptors.EnumValueDescriptor;
import com.google.protobuf.Descriptors.FieldDescriptor;
import com.google.protobuf.Descriptors.OneofDescriptor;
import com.google.protobuf.Internal.EnumLite;
import java.io.IOException;
import java.io.InputStream;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;

/**
 * A partial implementation of the {@link Message} interface which implements as many methods of
 * that interface as possible in terms of other methods.
 *
 * @author [email protected] Kenton Varda
 */
public abstract class AbstractMessage
    // TODO: Update GeneratedMessage to parameterize with MessageType and BuilderType.
    extends AbstractMessageLite implements Message {

  @Override
  public boolean isInitialized() {
    return MessageReflection.isInitialized(this);
  }

  /**
   * 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 markDirty() 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(); } /** Create a nested builder. */ protected Message.Builder newBuilderForType(BuilderParent parent) { throw new UnsupportedOperationException("Nested builder is not supported for this type."); } @Override public List findInitializationErrors() { return MessageReflection.findMissingFields(this); } @Override public String getInitializationErrorString() { return MessageReflection.delimitWithCommas(findInitializationErrors()); } // TODO: Clear it when all subclasses have implemented this method. @Override public boolean hasOneof(OneofDescriptor oneof) { throw new UnsupportedOperationException("hasOneof() is not implemented."); } // TODO: Clear it when all subclasses have implemented this method. @Override public FieldDescriptor getOneofFieldDescriptor(OneofDescriptor oneof) { throw new UnsupportedOperationException("getOneofFieldDescriptor() is not implemented."); } @Override public final String toString() { return TextFormat.printer().printToString(this); } @Override public void writeTo(final CodedOutputStream output) throws IOException { MessageReflection.writeMessageTo(this, getAllFields(), output, false); } protected int memoizedSize = -1; @Override int getMemoizedSerializedSize() { return memoizedSize; } @Override void setMemoizedSerializedSize(int size) { memoizedSize = size; } @Override public int getSerializedSize() { int size = memoizedSize; if (size != -1) { return size; } memoizedSize = MessageReflection.getSerializedSize(this, getAllFields()); return memoizedSize; } @Override public boolean equals(final Object other) { if (other == this) { return true; } if (!(other instanceof Message)) { return false; } final Message otherMessage = (Message) other; if (getDescriptorForType() != otherMessage.getDescriptorForType()) { return false; } return compareFields(getAllFields(), otherMessage.getAllFields()) && getUnknownFields().equals(otherMessage.getUnknownFields()); } @Override public int hashCode() { int hash = memoizedHashCode; if (hash == 0) { hash = 41; hash = (19 * hash) + getDescriptorForType().hashCode(); hash = hashFields(hash, getAllFields()); hash = (29 * hash) + getUnknownFields().hashCode(); memoizedHashCode = hash; } return hash; } private static ByteString toByteString(Object value) { if (value instanceof byte[]) { return ByteString.copyFrom((byte[]) value); } else { return (ByteString) value; } } /** * Compares two bytes fields. The parameters must be either a byte array or a ByteString object. * They can be of different type though. */ private static boolean compareBytes(Object a, Object b) { if (a instanceof byte[] && b instanceof byte[]) { return Arrays.equals((byte[]) a, (byte[]) b); } return toByteString(a).equals(toByteString(b)); } /** Converts a list of MapEntry messages into a Map used for equals() and hashCode(). */ @SuppressWarnings({"rawtypes", "unchecked"}) private static Map convertMapEntryListToMap(List list) { if (list.isEmpty()) { return Collections.emptyMap(); } Map result = new HashMap<>(); Iterator iterator = list.iterator(); Message entry = (Message) iterator.next(); Descriptors.Descriptor descriptor = entry.getDescriptorForType(); Descriptors.FieldDescriptor key = descriptor.findFieldByName("key"); Descriptors.FieldDescriptor value = descriptor.findFieldByName("value"); Object fieldValue = entry.getField(value); if (fieldValue instanceof EnumValueDescriptor) { fieldValue = ((EnumValueDescriptor) fieldValue).getNumber(); } result.put(entry.getField(key), fieldValue); while (iterator.hasNext()) { entry = (Message) iterator.next(); fieldValue = entry.getField(value); if (fieldValue instanceof EnumValueDescriptor) { fieldValue = ((EnumValueDescriptor) fieldValue).getNumber(); } result.put(entry.getField(key), fieldValue); } return result; } /** Compares two map fields. The parameters must be a list of MapEntry messages. */ @SuppressWarnings({"rawtypes", "unchecked"}) private static boolean compareMapField(Object a, Object b) { Map ma = convertMapEntryListToMap((List) a); Map mb = convertMapEntryListToMap((List) b); return MapFieldLite.equals(ma, mb); } /** * Compares two sets of fields. This method is used to implement {@link * AbstractMessage#equals(Object)} and {@link AbstractMutableMessage#equals(Object)}. It takes * special care of bytes fields because immutable messages and mutable messages use different Java * type to represent a bytes field and this method should be able to compare immutable messages, * mutable messages and also an immutable message to a mutable message. */ static boolean compareFields(Map a, Map b) { if (a.size() != b.size()) { return false; } for (FieldDescriptor descriptor : a.keySet()) { if (!b.containsKey(descriptor)) { return false; } Object value1 = a.get(descriptor); Object value2 = b.get(descriptor); if (descriptor.getType() == FieldDescriptor.Type.BYTES) { if (descriptor.isRepeated()) { List list1 = (List) value1; List list2 = (List) value2; if (list1.size() != list2.size()) { return false; } for (int i = 0; i < list1.size(); i++) { if (!compareBytes(list1.get(i), list2.get(i))) { return false; } } } else { // Compares a singular bytes field. if (!compareBytes(value1, value2)) { return false; } } } else if (descriptor.isMapField()) { if (!compareMapField(value1, value2)) { return false; } } else { // Compare non-bytes fields. if (!value1.equals(value2)) { return false; } } } return true; } /** Calculates the hash code of a map field. {@code value} must be a list of MapEntry messages. */ @SuppressWarnings("unchecked") private static int hashMapField(Object value) { return MapFieldLite.calculateHashCodeForMap(convertMapEntryListToMap((List) value)); } /** Get a hash code for given fields and values, using the given seed. */ @SuppressWarnings("unchecked") protected static int hashFields(int hash, Map map) { for (Map.Entry entry : map.entrySet()) { FieldDescriptor field = entry.getKey(); Object value = entry.getValue(); hash = (37 * hash) + field.getNumber(); if (field.isMapField()) { hash = (53 * hash) + hashMapField(value); } else if (field.getType() != FieldDescriptor.Type.ENUM) { hash = (53 * hash) + value.hashCode(); } else if (field.isRepeated()) { List list = (List) value; hash = (53 * hash) + Internal.hashEnumList(list); } else { hash = (53 * hash) + Internal.hashEnum((EnumLite) value); } } return hash; } /** * Package private helper method for AbstractParser to create UninitializedMessageException with * missing field information. */ @Override UninitializedMessageException newUninitializedMessageException() { return Builder.newUninitializedMessageException(this); } // ================================================================= /** * A partial implementation of the {@link Message.Builder} interface which implements as many * methods of that interface as possible in terms of other methods. */ @SuppressWarnings("unchecked") public abstract static class Builder> extends AbstractMessageLite.Builder implements Message.Builder { // The compiler produces an error if this is not declared explicitly. // Method isn't abstract to bypass Java 1.6 compiler issue: // http://bugs.java.com/view_bug.do?bug_id=6908259 @Override public BuilderType clone() { throw new UnsupportedOperationException("clone() should be implemented in subclasses."); } /** TODO: Clear it when all subclasses have implemented this method. */ @Override public boolean hasOneof(OneofDescriptor oneof) { throw new UnsupportedOperationException("hasOneof() is not implemented."); } /** TODO: Clear it when all subclasses have implemented this method. */ @Override public FieldDescriptor getOneofFieldDescriptor(OneofDescriptor oneof) { throw new UnsupportedOperationException("getOneofFieldDescriptor() is not implemented."); } /** TODO: Clear it when all subclasses have implemented this method. */ @Override public BuilderType clearOneof(OneofDescriptor oneof) { throw new UnsupportedOperationException("clearOneof() is not implemented."); } @Override public BuilderType clear() { for (final Map.Entry entry : getAllFields().entrySet()) { clearField(entry.getKey()); } return (BuilderType) this; } @Override public List findInitializationErrors() { return MessageReflection.findMissingFields(this); } @Override public String getInitializationErrorString() { return MessageReflection.delimitWithCommas(findInitializationErrors()); } @Override protected BuilderType internalMergeFrom(AbstractMessageLite other) { return mergeFrom((Message) other); } @Override public BuilderType mergeFrom(final Message other) { return mergeFrom(other, other.getAllFields()); } BuilderType mergeFrom(final Message other, Map allFields) { if (other.getDescriptorForType() != getDescriptorForType()) { throw new IllegalArgumentException( "mergeFrom(Message) can only merge messages of the same type."); } // Note: We don't attempt to verify that other's fields have valid // types. Doing so would be a losing battle. We'd have to verify // all sub-messages as well, and we'd have to make copies of all of // them to insure that they don't change after verification (since // the Message interface itself cannot enforce immutability of // implementations). for (final Map.Entry entry : allFields.entrySet()) { final FieldDescriptor field = entry.getKey(); if (field.isRepeated()) { for (final Object element : (List) entry.getValue()) { addRepeatedField(field, element); } } else if (field.getJavaType() == FieldDescriptor.JavaType.MESSAGE) { final Message existingValue = (Message) getField(field); if (existingValue == existingValue.getDefaultInstanceForType()) { setField(field, entry.getValue()); } else { setField( field, existingValue .newBuilderForType() .mergeFrom(existingValue) .mergeFrom((Message) entry.getValue()) .build()); } } else { setField(field, entry.getValue()); } } mergeUnknownFields(other.getUnknownFields()); return (BuilderType) this; } @Override public BuilderType mergeFrom(final CodedInputStream input) throws IOException { return mergeFrom(input, ExtensionRegistry.getEmptyRegistry()); } @Override public BuilderType mergeFrom( final CodedInputStream input, final ExtensionRegistryLite extensionRegistry) throws IOException { boolean discardUnknown = input.shouldDiscardUnknownFields(); final UnknownFieldSet.Builder unknownFields = discardUnknown ? null : getUnknownFieldSetBuilder(); MessageReflection.mergeMessageFrom(this, unknownFields, input, extensionRegistry); if (unknownFields != null) { setUnknownFieldSetBuilder(unknownFields); } return (BuilderType) this; } protected UnknownFieldSet.Builder getUnknownFieldSetBuilder() { return UnknownFieldSet.newBuilder(getUnknownFields()); } protected void setUnknownFieldSetBuilder(final UnknownFieldSet.Builder builder) { setUnknownFields(builder.build()); } @Override public BuilderType mergeUnknownFields(final UnknownFieldSet unknownFields) { setUnknownFields( UnknownFieldSet.newBuilder(getUnknownFields()).mergeFrom(unknownFields).build()); return (BuilderType) this; } @Override public Message.Builder getFieldBuilder(final FieldDescriptor field) { throw new UnsupportedOperationException( "getFieldBuilder() called on an unsupported message type."); } @Override public Message.Builder getRepeatedFieldBuilder(final FieldDescriptor field, int index) { throw new UnsupportedOperationException( "getRepeatedFieldBuilder() called on an unsupported message type."); } @Override public String toString() { return TextFormat.printer().printToString(this); } /** Construct an UninitializedMessageException reporting missing fields in the given message. */ protected static UninitializedMessageException newUninitializedMessageException( Message message) { return new UninitializedMessageException(MessageReflection.findMissingFields(message)); } /** * Used to support nested builders and called to mark this builder as clean. Clean builders will * propagate the {@link BuilderParent#markDirty()} event to their parent builders, while dirty * builders will not, as their parents should be dirty already. * *

NOTE: Implementations that don't support nested builders don't need to override this * method. */ void markClean() { throw new IllegalStateException("Should be overridden by subclasses."); } /** * Used to support nested builders and called when this nested builder is no longer used by its * parent builder and should release the reference to its parent builder. * *

NOTE: Implementations that don't support nested builders don't need to override this * method. */ void dispose() { throw new IllegalStateException("Should be overridden by subclasses."); } // =============================================================== // The following definitions seem to be required in order to make javac // not produce weird errors like: // // java/com/google/protobuf/DynamicMessage.java:203: types // com.google.protobuf.AbstractMessage.Builder< // com.google.protobuf.DynamicMessage.Builder> and // com.google.protobuf.AbstractMessage.Builder< // com.google.protobuf.DynamicMessage.Builder> are incompatible; both // define mergeFrom(com.google.protobuf.ByteString), but with unrelated // return types. // // Strangely, these lines are only needed if javac is invoked separately // on AbstractMessage.java and AbstractMessageLite.java. If javac is // invoked on both simultaneously, it works. (Or maybe the important // point is whether or not DynamicMessage.java is compiled together with // AbstractMessageLite.java -- not sure.) I suspect this is a compiler // bug. @Override public BuilderType mergeFrom(final ByteString data) throws InvalidProtocolBufferException { return (BuilderType) super.mergeFrom(data); } @Override public BuilderType mergeFrom( final ByteString data, final ExtensionRegistryLite extensionRegistry) throws InvalidProtocolBufferException { return (BuilderType) super.mergeFrom(data, extensionRegistry); } @Override public BuilderType mergeFrom(final byte[] data) throws InvalidProtocolBufferException { return (BuilderType) super.mergeFrom(data); } @Override public BuilderType mergeFrom(final byte[] data, final int off, final int len) throws InvalidProtocolBufferException { return (BuilderType) super.mergeFrom(data, off, len); } @Override public BuilderType mergeFrom(final byte[] data, final ExtensionRegistryLite extensionRegistry) throws InvalidProtocolBufferException { return (BuilderType) super.mergeFrom(data, extensionRegistry); } @Override public BuilderType mergeFrom( final byte[] data, final int off, final int len, final ExtensionRegistryLite extensionRegistry) throws InvalidProtocolBufferException { return (BuilderType) super.mergeFrom(data, off, len, extensionRegistry); } @Override public BuilderType mergeFrom(final InputStream input) throws IOException { return (BuilderType) super.mergeFrom(input); } @Override public BuilderType mergeFrom( final InputStream input, final ExtensionRegistryLite extensionRegistry) throws IOException { return (BuilderType) super.mergeFrom(input, extensionRegistry); } } /** * @deprecated from v3.0.0-beta-3+, for compatibility with v2.5.0 and v2.6.1 * generated code. */ @Deprecated protected static int hashLong(long n) { return (int) (n ^ (n >>> 32)); } /** * @deprecated from v3.0.0-beta-3+, for compatibility with v2.5.0 and v2.6.1 * generated code. */ @Deprecated protected static int hashBoolean(boolean b) { return b ? 1231 : 1237; } /** * @deprecated from v3.0.0-beta-3+, for compatibility with v2.5.0 and v2.6.1 * generated code. */ @Deprecated protected static int hashEnum(EnumLite e) { return e.getNumber(); } /** * @deprecated from v3.0.0-beta-3+, for compatibility with v2.5.0 and v2.6.1 * generated code. */ @Deprecated protected static int hashEnumList(List list) { int hash = 1; for (EnumLite e : list) { hash = 31 * hash + hashEnum(e); } return hash; } }





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