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// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc.  All rights reserved.
// https://developers.google.com/protocol-buffers/
//
// 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
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package com.google.protobuf;

import com.google.protobuf.AbstractMessageLite.Builder.LimitedInputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.List;
import java.util.ListIterator;
import java.util.Map;
import java.util.TreeMap;

/**
 * {@code UnknownFieldSet} keeps track of fields which were seen when parsing a protocol
 * message but whose field numbers or types are unrecognized. This most frequently occurs when new
 * fields are added to a message type and then messages containing those fields are read by old
 * software that was compiled before the new types were added.
 *
 * 

Every {@link Message} contains an {@code UnknownFieldSet} (and every {@link Message.Builder} * contains a {@link Builder}). * *

Most users will never need to use this class. * * @author [email protected] Kenton Varda */ public final class UnknownFieldSet implements MessageLite { private final TreeMap fields; /** * Construct an {@code UnknownFieldSet} around the given map. */ UnknownFieldSet(TreeMap fields) { this.fields = fields; } /** Create a new {@link Builder}. */ public static Builder newBuilder() { return Builder.create(); } /** Create a new {@link Builder} and initialize it to be a copy of {@code copyFrom}. */ public static Builder newBuilder(UnknownFieldSet copyFrom) { return newBuilder().mergeFrom(copyFrom); } /** Get an empty {@code UnknownFieldSet}. */ public static UnknownFieldSet getDefaultInstance() { return defaultInstance; } @Override public UnknownFieldSet getDefaultInstanceForType() { return defaultInstance; } private static final UnknownFieldSet defaultInstance = new UnknownFieldSet(new TreeMap()); @Override public boolean equals(Object other) { if (this == other) { return true; } return (other instanceof UnknownFieldSet) && fields.equals(((UnknownFieldSet) other).fields); } @Override public int hashCode() { if (fields.isEmpty()) { // avoid allocation of iterator. // This optimization may not be helpful but it is needed for the allocation tests to pass. return 0; } return fields.hashCode(); } /** Get a map of fields in the set by number. */ public Map asMap() { return (Map) fields.clone(); } /** Check if the given field number is present in the set. */ public boolean hasField(int number) { return fields.containsKey(number); } /** Get a field by number. Returns an empty field if not present. Never returns {@code null}. */ public Field getField(int number) { Field result = fields.get(number); return (result == null) ? Field.getDefaultInstance() : result; } /** Serializes the set and writes it to {@code output}. */ @Override public void writeTo(CodedOutputStream output) throws IOException { for (Map.Entry entry : fields.entrySet()) { Field field = entry.getValue(); field.writeTo(entry.getKey(), output); } } /** * Converts the set to a string in protocol buffer text format. This is just a trivial wrapper * around {@link TextFormat.Printer#printToString(UnknownFieldSet)}. */ @Override public String toString() { return TextFormat.printer().printToString(this); } /** * Serializes the message to a {@code ByteString} and returns it. This is just a trivial wrapper * around {@link #writeTo(CodedOutputStream)}. */ @Override public ByteString toByteString() { try { ByteString.CodedBuilder out = ByteString.newCodedBuilder(getSerializedSize()); writeTo(out.getCodedOutput()); return out.build(); } catch (IOException e) { throw new RuntimeException( "Serializing to a ByteString threw an IOException (should never happen).", e); } } /** * Serializes the message to a {@code byte} array and returns it. This is just a trivial wrapper * around {@link #writeTo(CodedOutputStream)}. */ @Override public byte[] toByteArray() { try { byte[] result = new byte[getSerializedSize()]; CodedOutputStream output = CodedOutputStream.newInstance(result); writeTo(output); output.checkNoSpaceLeft(); return result; } catch (IOException e) { throw new RuntimeException( "Serializing to a byte array threw an IOException (should never happen).", e); } } /** * Serializes the message and writes it to {@code output}. This is just a trivial wrapper around * {@link #writeTo(CodedOutputStream)}. */ @Override public void writeTo(OutputStream output) throws IOException { CodedOutputStream codedOutput = CodedOutputStream.newInstance(output); writeTo(codedOutput); codedOutput.flush(); } @Override public void writeDelimitedTo(OutputStream output) throws IOException { CodedOutputStream codedOutput = CodedOutputStream.newInstance(output); codedOutput.writeUInt32NoTag(getSerializedSize()); writeTo(codedOutput); codedOutput.flush(); } /** Get the number of bytes required to encode this set. */ @Override public int getSerializedSize() { int result = 0; if (!fields.isEmpty()) { for (Map.Entry entry : fields.entrySet()) { result += entry.getValue().getSerializedSize(entry.getKey()); } } return result; } /** Serializes the set and writes it to {@code output} using {@code MessageSet} wire format. */ public void writeAsMessageSetTo(CodedOutputStream output) throws IOException { for (Map.Entry entry : fields.entrySet()) { entry.getValue().writeAsMessageSetExtensionTo(entry.getKey(), output); } } /** Serializes the set and writes it to {@code writer}. */ void writeTo(Writer writer) throws IOException { if (writer.fieldOrder() == Writer.FieldOrder.DESCENDING) { // Write fields in descending order. for (Map.Entry entry : fields.descendingMap().entrySet()) { entry.getValue().writeTo(entry.getKey(), writer); } } else { // Write fields in ascending order. for (Map.Entry entry : fields.entrySet()) { entry.getValue().writeTo(entry.getKey(), writer); } } } /** Serializes the set and writes it to {@code writer} using {@code MessageSet} wire format. */ void writeAsMessageSetTo(Writer writer) throws IOException { if (writer.fieldOrder() == Writer.FieldOrder.DESCENDING) { // Write fields in descending order. for (Map.Entry entry : fields.descendingMap().entrySet()) { entry.getValue().writeAsMessageSetExtensionTo(entry.getKey(), writer); } } else { // Write fields in ascending order. for (Map.Entry entry : fields.entrySet()) { entry.getValue().writeAsMessageSetExtensionTo(entry.getKey(), writer); } } } /** Get the number of bytes required to encode this set using {@code MessageSet} wire format. */ public int getSerializedSizeAsMessageSet() { int result = 0; for (Map.Entry entry : fields.entrySet()) { result += entry.getValue().getSerializedSizeAsMessageSetExtension(entry.getKey()); } return result; } @Override public boolean isInitialized() { // UnknownFieldSets do not have required fields, so they are always // initialized. return true; } /** Parse an {@code UnknownFieldSet} from the given input stream. */ public static UnknownFieldSet parseFrom(CodedInputStream input) throws IOException { return newBuilder().mergeFrom(input).build(); } /** Parse {@code data} as an {@code UnknownFieldSet} and return it. */ public static UnknownFieldSet parseFrom(ByteString data) throws InvalidProtocolBufferException { return newBuilder().mergeFrom(data).build(); } /** Parse {@code data} as an {@code UnknownFieldSet} and return it. */ public static UnknownFieldSet parseFrom(byte[] data) throws InvalidProtocolBufferException { return newBuilder().mergeFrom(data).build(); } /** Parse an {@code UnknownFieldSet} from {@code input} and return it. */ public static UnknownFieldSet parseFrom(InputStream input) throws IOException { return newBuilder().mergeFrom(input).build(); } @Override public Builder newBuilderForType() { return newBuilder(); } @Override public Builder toBuilder() { return newBuilder().mergeFrom(this); } /** * Builder for {@link UnknownFieldSet}s. * *

Note that this class maintains {@link Field.Builder}s for all fields in the set. Thus, * adding one element to an existing {@link Field} does not require making a copy. This is * important for efficient parsing of unknown repeated fields. However, it implies that {@link * Field}s cannot be constructed independently, nor can two {@link UnknownFieldSet}s share the * same {@code Field} object. * *

Use {@link UnknownFieldSet#newBuilder()} to construct a {@code Builder}. */ public static final class Builder implements MessageLite.Builder { // This constructor should never be called directly (except from 'create'). private Builder() {} private TreeMap fieldBuilders = new TreeMap<>(); private static Builder create() { return new Builder(); } /** * Get a field builder for the given field number which includes any values that already exist. */ private Field.Builder getFieldBuilder(int number) { if (number == 0) { return null; } else { Field.Builder builder = fieldBuilders.get(number); if (builder == null) { builder = Field.newBuilder(); fieldBuilders.put(number, builder); } return builder; } } /** * Build the {@link UnknownFieldSet} and return it. */ @Override public UnknownFieldSet build() { UnknownFieldSet result; if (fieldBuilders.isEmpty()) { result = getDefaultInstance(); } else { TreeMap fields = new TreeMap<>(); for (Map.Entry entry : fieldBuilders.entrySet()) { fields.put(entry.getKey(), entry.getValue().build()); } result = new UnknownFieldSet(fields); } return result; } @Override public UnknownFieldSet buildPartial() { // No required fields, so this is the same as build(). return build(); } @Override public Builder clone() { Builder clone = UnknownFieldSet.newBuilder(); for (Map.Entry entry : fieldBuilders.entrySet()) { Integer key = entry.getKey(); Field.Builder value = entry.getValue(); clone.fieldBuilders.put(key, value.clone()); } return clone; } @Override public UnknownFieldSet getDefaultInstanceForType() { return UnknownFieldSet.getDefaultInstance(); } /** Reset the builder to an empty set. */ @Override public Builder clear() { fieldBuilders = new TreeMap<>(); return this; } /** * Clear fields from the set with a given field number. * * @throws IllegalArgumentException if number is not positive */ public Builder clearField(int number) { if (number <= 0) { throw new IllegalArgumentException(number + " is not a valid field number."); } if (fieldBuilders.containsKey(number)) { fieldBuilders.remove(number); } return this; } /** * Merge the fields from {@code other} into this set. If a field number exists in both sets, * {@code other}'s values for that field will be appended to the values in this set. */ public Builder mergeFrom(UnknownFieldSet other) { if (other != getDefaultInstance()) { for (Map.Entry entry : other.fields.entrySet()) { mergeField(entry.getKey(), entry.getValue()); } } return this; } /** * Add a field to the {@code UnknownFieldSet}. If a field with the same number already exists, * the two are merged. * * @throws IllegalArgumentException if number is not positive */ public Builder mergeField(int number, final Field field) { if (number <= 0) { throw new IllegalArgumentException(number + " is not a valid field number."); } if (hasField(number)) { getFieldBuilder(number).mergeFrom(field); } else { // Optimization: We could call getFieldBuilder(number).mergeFrom(field) // in this case, but that would create a copy of the Field object. // We'd rather reuse the one passed to us, so call addField() instead. addField(number, field); } return this; } /** * Convenience method for merging a new field containing a single varint value. This is used in * particular when an unknown enum value is encountered. * * @throws IllegalArgumentException if number is not positive */ public Builder mergeVarintField(int number, int value) { if (number <= 0) { throw new IllegalArgumentException(number + " is not a valid field number."); } getFieldBuilder(number).addVarint(value); return this; } /** * Convenience method for merging a length-delimited field. * *

For use by generated code only. * * @throws IllegalArgumentException if number is not positive */ public Builder mergeLengthDelimitedField(int number, ByteString value) { if (number <= 0) { throw new IllegalArgumentException(number + " is not a valid field number."); } getFieldBuilder(number).addLengthDelimited(value); return this; } /** Check if the given field number is present in the set. */ public boolean hasField(int number) { return fieldBuilders.containsKey(number); } /** * Add a field to the {@code UnknownFieldSet}. If a field with the same number already exists, * it is removed. * * @throws IllegalArgumentException if number is not positive */ public Builder addField(int number, Field field) { if (number <= 0) { throw new IllegalArgumentException(number + " is not a valid field number."); } fieldBuilders.put(number, Field.newBuilder(field)); return this; } /** * Get all present {@code Field}s as an immutable {@code Map}. If more fields are added, the * changes may or may not be reflected in this map. */ public Map asMap() { TreeMap fields = new TreeMap<>(); for (Map.Entry entry : fieldBuilders.entrySet()) { fields.put(entry.getKey(), entry.getValue().build()); } return Collections.unmodifiableMap(fields); } /** Parse an entire message from {@code input} and merge its fields into this set. */ @Override public Builder mergeFrom(CodedInputStream input) throws IOException { while (true) { int tag = input.readTag(); if (tag == 0 || !mergeFieldFrom(tag, input)) { break; } } return this; } /** * Parse a single field from {@code input} and merge it into this set. * * @param tag The field's tag number, which was already parsed. * @return {@code false} if the tag is an end group tag. */ public boolean mergeFieldFrom(int tag, CodedInputStream input) throws IOException { int number = WireFormat.getTagFieldNumber(tag); switch (WireFormat.getTagWireType(tag)) { case WireFormat.WIRETYPE_VARINT: getFieldBuilder(number).addVarint(input.readInt64()); return true; case WireFormat.WIRETYPE_FIXED64: getFieldBuilder(number).addFixed64(input.readFixed64()); return true; case WireFormat.WIRETYPE_LENGTH_DELIMITED: getFieldBuilder(number).addLengthDelimited(input.readBytes()); return true; case WireFormat.WIRETYPE_START_GROUP: Builder subBuilder = newBuilder(); input.readGroup(number, subBuilder, ExtensionRegistry.getEmptyRegistry()); getFieldBuilder(number).addGroup(subBuilder.build()); return true; case WireFormat.WIRETYPE_END_GROUP: return false; case WireFormat.WIRETYPE_FIXED32: getFieldBuilder(number).addFixed32(input.readFixed32()); return true; default: throw InvalidProtocolBufferException.invalidWireType(); } } /** * Parse {@code data} as an {@code UnknownFieldSet} and merge it with the set being built. This * is just a small wrapper around {@link #mergeFrom(CodedInputStream)}. */ @Override public Builder mergeFrom(ByteString data) throws InvalidProtocolBufferException { try { CodedInputStream input = data.newCodedInput(); mergeFrom(input); input.checkLastTagWas(0); return this; } catch (InvalidProtocolBufferException e) { throw e; } catch (IOException e) { throw new RuntimeException( "Reading from a ByteString threw an IOException (should never happen).", e); } } /** * Parse {@code data} as an {@code UnknownFieldSet} and merge it with the set being built. This * is just a small wrapper around {@link #mergeFrom(CodedInputStream)}. */ @Override public Builder mergeFrom(byte[] data) throws InvalidProtocolBufferException { try { CodedInputStream input = CodedInputStream.newInstance(data); mergeFrom(input); input.checkLastTagWas(0); return this; } catch (InvalidProtocolBufferException e) { throw e; } catch (IOException e) { throw new RuntimeException( "Reading from a byte array threw an IOException (should never happen).", e); } } /** * Parse an {@code UnknownFieldSet} from {@code input} and merge it with the set being built. * This is just a small wrapper around {@link #mergeFrom(CodedInputStream)}. */ @Override public Builder mergeFrom(InputStream input) throws IOException { CodedInputStream codedInput = CodedInputStream.newInstance(input); mergeFrom(codedInput); codedInput.checkLastTagWas(0); return this; } @Override public boolean mergeDelimitedFrom(InputStream input) throws IOException { int firstByte = input.read(); if (firstByte == -1) { return false; } int size = CodedInputStream.readRawVarint32(firstByte, input); InputStream limitedInput = new LimitedInputStream(input, size); mergeFrom(limitedInput); return true; } @Override public boolean mergeDelimitedFrom(InputStream input, ExtensionRegistryLite extensionRegistry) throws IOException { // UnknownFieldSet has no extensions. return mergeDelimitedFrom(input); } @Override public Builder mergeFrom(CodedInputStream input, ExtensionRegistryLite extensionRegistry) throws IOException { // UnknownFieldSet has no extensions. return mergeFrom(input); } @Override public Builder mergeFrom(ByteString data, ExtensionRegistryLite extensionRegistry) throws InvalidProtocolBufferException { // UnknownFieldSet has no extensions. return mergeFrom(data); } @Override public Builder mergeFrom(byte[] data, int off, int len) throws InvalidProtocolBufferException { try { CodedInputStream input = CodedInputStream.newInstance(data, off, len); mergeFrom(input); input.checkLastTagWas(0); return this; } catch (InvalidProtocolBufferException e) { throw e; } catch (IOException e) { throw new RuntimeException( "Reading from a byte array threw an IOException (should never happen).", e); } } @Override public Builder mergeFrom(byte[] data, ExtensionRegistryLite extensionRegistry) throws InvalidProtocolBufferException { // UnknownFieldSet has no extensions. return mergeFrom(data); } @Override public Builder mergeFrom(byte[] data, int off, int len, ExtensionRegistryLite extensionRegistry) throws InvalidProtocolBufferException { // UnknownFieldSet has no extensions. return mergeFrom(data, off, len); } @Override public Builder mergeFrom(InputStream input, ExtensionRegistryLite extensionRegistry) throws IOException { // UnknownFieldSet has no extensions. return mergeFrom(input); } @Override public Builder mergeFrom(MessageLite m) { if (m instanceof UnknownFieldSet) { return mergeFrom((UnknownFieldSet) m); } throw new IllegalArgumentException( "mergeFrom(MessageLite) can only merge messages of the same type."); } @Override public boolean isInitialized() { // UnknownFieldSets do not have required fields, so they are always // initialized. return true; } } /** * Represents a single field in an {@code UnknownFieldSet}. * *

A {@code Field} consists of five lists of values. The lists correspond to the five "wire * types" used in the protocol buffer binary format. The wire type of each field can be determined * from the encoded form alone, without knowing the field's declared type. So, we are able to * parse unknown values at least this far and separate them. Normally, only one of the five lists * will contain any values, since it is impossible to define a valid message type that declares * two different types for the same field number. However, the code is designed to allow for the * case where the same unknown field number is encountered using multiple different wire types. * *

{@code Field} is an immutable class. To construct one, you must use a {@link Builder}. * * @see UnknownFieldSet */ public static final class Field { private Field() {} /** Construct a new {@link Builder}. */ public static Builder newBuilder() { return Builder.create(); } /** Construct a new {@link Builder} and initialize it to a copy of {@code copyFrom}. */ public static Builder newBuilder(Field copyFrom) { return newBuilder().mergeFrom(copyFrom); } /** Get an empty {@code Field}. */ public static Field getDefaultInstance() { return fieldDefaultInstance; } private static final Field fieldDefaultInstance = newBuilder().build(); /** Get the list of varint values for this field. */ public List getVarintList() { return varint; } /** Get the list of fixed32 values for this field. */ public List getFixed32List() { return fixed32; } /** Get the list of fixed64 values for this field. */ public List getFixed64List() { return fixed64; } /** Get the list of length-delimited values for this field. */ public List getLengthDelimitedList() { return lengthDelimited; } /** * Get the list of embedded group values for this field. These are represented using {@link * UnknownFieldSet}s rather than {@link Message}s since the group's type is presumably unknown. */ public List getGroupList() { return group; } @Override public boolean equals(Object other) { if (this == other) { return true; } if (!(other instanceof Field)) { return false; } return Arrays.equals(getIdentityArray(), ((Field) other).getIdentityArray()); } @Override public int hashCode() { return Arrays.hashCode(getIdentityArray()); } /** Returns the array of objects to be used to uniquely identify this {@link Field} instance. */ private Object[] getIdentityArray() { return new Object[] {varint, fixed32, fixed64, lengthDelimited, group}; } /** * Serializes the message to a {@code ByteString} and returns it. This is just a trivial wrapper * around {@link #writeTo(int, CodedOutputStream)}. */ public ByteString toByteString(int fieldNumber) { try { // TODO(lukes): consider caching serialized size in a volatile long ByteString.CodedBuilder out = ByteString.newCodedBuilder(getSerializedSize(fieldNumber)); writeTo(fieldNumber, out.getCodedOutput()); return out.build(); } catch (IOException e) { throw new RuntimeException( "Serializing to a ByteString should never fail with an IOException", e); } } /** Serializes the field, including field number, and writes it to {@code output}. */ public void writeTo(int fieldNumber, CodedOutputStream output) throws IOException { for (long value : varint) { output.writeUInt64(fieldNumber, value); } for (int value : fixed32) { output.writeFixed32(fieldNumber, value); } for (long value : fixed64) { output.writeFixed64(fieldNumber, value); } for (ByteString value : lengthDelimited) { output.writeBytes(fieldNumber, value); } for (UnknownFieldSet value : group) { output.writeGroup(fieldNumber, value); } } /** Get the number of bytes required to encode this field, including field number. */ public int getSerializedSize(int fieldNumber) { int result = 0; for (long value : varint) { result += CodedOutputStream.computeUInt64Size(fieldNumber, value); } for (int value : fixed32) { result += CodedOutputStream.computeFixed32Size(fieldNumber, value); } for (long value : fixed64) { result += CodedOutputStream.computeFixed64Size(fieldNumber, value); } for (ByteString value : lengthDelimited) { result += CodedOutputStream.computeBytesSize(fieldNumber, value); } for (UnknownFieldSet value : group) { result += CodedOutputStream.computeGroupSize(fieldNumber, value); } return result; } /** * Serializes the field, including field number, and writes it to {@code output}, using {@code * MessageSet} wire format. */ public void writeAsMessageSetExtensionTo(int fieldNumber, CodedOutputStream output) throws IOException { for (ByteString value : lengthDelimited) { output.writeRawMessageSetExtension(fieldNumber, value); } } /** Serializes the field, including field number, and writes it to {@code writer}. */ void writeTo(int fieldNumber, Writer writer) throws IOException { writer.writeInt64List(fieldNumber, varint, false); writer.writeFixed32List(fieldNumber, fixed32, false); writer.writeFixed64List(fieldNumber, fixed64, false); writer.writeBytesList(fieldNumber, lengthDelimited); if (writer.fieldOrder() == Writer.FieldOrder.ASCENDING) { for (int i = 0; i < group.size(); i++) { writer.writeStartGroup(fieldNumber); group.get(i).writeTo(writer); writer.writeEndGroup(fieldNumber); } } else { for (int i = group.size() - 1; i >= 0; i--) { writer.writeEndGroup(fieldNumber); group.get(i).writeTo(writer); writer.writeStartGroup(fieldNumber); } } } /** * Serializes the field, including field number, and writes it to {@code writer}, using {@code * MessageSet} wire format. */ private void writeAsMessageSetExtensionTo(int fieldNumber, Writer writer) throws IOException { if (writer.fieldOrder() == Writer.FieldOrder.DESCENDING) { // Write in descending field order. ListIterator iter = lengthDelimited.listIterator(lengthDelimited.size()); while (iter.hasPrevious()) { writer.writeMessageSetItem(fieldNumber, iter.previous()); } } else { // Write in ascending field order. for (ByteString value : lengthDelimited) { writer.writeMessageSetItem(fieldNumber, value); } } } /** * Get the number of bytes required to encode this field, including field number, using {@code * MessageSet} wire format. */ public int getSerializedSizeAsMessageSetExtension(int fieldNumber) { int result = 0; for (ByteString value : lengthDelimited) { result += CodedOutputStream.computeRawMessageSetExtensionSize(fieldNumber, value); } return result; } private List varint; private List fixed32; private List fixed64; private List lengthDelimited; private List group; /** * Used to build a {@link Field} within an {@link UnknownFieldSet}. * *

Use {@link Field#newBuilder()} to construct a {@code Builder}. */ public static final class Builder { // This constructor should only be called directly from 'create' and 'clone'. private Builder() { result = new Field(); } private static Builder create() { Builder builder = new Builder(); return builder; } private Field result; @Override public Builder clone() { Field copy = new Field(); if (result.varint == null) { copy.varint = null; } else { copy.varint = new ArrayList<>(result.varint); } if (result.fixed32 == null) { copy.fixed32 = null; } else { copy.fixed32 = new ArrayList<>(result.fixed32); } if (result.fixed64 == null) { copy.fixed64 = null; } else { copy.fixed64 = new ArrayList<>(result.fixed64); } if (result.lengthDelimited == null) { copy.lengthDelimited = null; } else { copy.lengthDelimited = new ArrayList<>(result.lengthDelimited); } if (result.group == null) { copy.group = null; } else { copy.group = new ArrayList<>(result.group); } Builder clone = new Builder(); clone.result = copy; return clone; } /** * Build the field. */ public Field build() { Field built = new Field(); if (result.varint == null) { built.varint = Collections.emptyList(); } else { built.varint = Collections.unmodifiableList(new ArrayList<>(result.varint)); } if (result.fixed32 == null) { built.fixed32 = Collections.emptyList(); } else { built.fixed32 = Collections.unmodifiableList(new ArrayList<>(result.fixed32)); } if (result.fixed64 == null) { built.fixed64 = Collections.emptyList(); } else { built.fixed64 = Collections.unmodifiableList(new ArrayList<>(result.fixed64)); } if (result.lengthDelimited == null) { built.lengthDelimited = Collections.emptyList(); } else { built.lengthDelimited = Collections.unmodifiableList( new ArrayList<>(result.lengthDelimited)); } if (result.group == null) { built.group = Collections.emptyList(); } else { built.group = Collections.unmodifiableList(new ArrayList<>(result.group)); } return built; } /** Discard the field's contents. */ public Builder clear() { result = new Field(); return this; } /** * Merge the values in {@code other} into this field. For each list of values, {@code other}'s * values are append to the ones in this field. */ public Builder mergeFrom(Field other) { if (!other.varint.isEmpty()) { if (result.varint == null) { result.varint = new ArrayList(); } result.varint.addAll(other.varint); } if (!other.fixed32.isEmpty()) { if (result.fixed32 == null) { result.fixed32 = new ArrayList(); } result.fixed32.addAll(other.fixed32); } if (!other.fixed64.isEmpty()) { if (result.fixed64 == null) { result.fixed64 = new ArrayList<>(); } result.fixed64.addAll(other.fixed64); } if (!other.lengthDelimited.isEmpty()) { if (result.lengthDelimited == null) { result.lengthDelimited = new ArrayList<>(); } result.lengthDelimited.addAll(other.lengthDelimited); } if (!other.group.isEmpty()) { if (result.group == null) { result.group = new ArrayList<>(); } result.group.addAll(other.group); } return this; } /** Add a varint value. */ public Builder addVarint(long value) { if (result.varint == null) { result.varint = new ArrayList<>(); } result.varint.add(value); return this; } /** Add a fixed32 value. */ public Builder addFixed32(int value) { if (result.fixed32 == null) { result.fixed32 = new ArrayList<>(); } result.fixed32.add(value); return this; } /** Add a fixed64 value. */ public Builder addFixed64(long value) { if (result.fixed64 == null) { result.fixed64 = new ArrayList<>(); } result.fixed64.add(value); return this; } /** Add a length-delimited value. */ public Builder addLengthDelimited(ByteString value) { if (result.lengthDelimited == null) { result.lengthDelimited = new ArrayList<>(); } result.lengthDelimited.add(value); return this; } /** Add an embedded group. */ public Builder addGroup(UnknownFieldSet value) { if (result.group == null) { result.group = new ArrayList<>(); } result.group.add(value); return this; } } } /** Parser to implement MessageLite interface. */ public static final class Parser extends AbstractParser { @Override public UnknownFieldSet parsePartialFrom( CodedInputStream input, ExtensionRegistryLite extensionRegistry) throws InvalidProtocolBufferException { Builder builder = newBuilder(); try { builder.mergeFrom(input); } catch (InvalidProtocolBufferException e) { throw e.setUnfinishedMessage(builder.buildPartial()); } catch (IOException e) { throw new InvalidProtocolBufferException(e).setUnfinishedMessage(builder.buildPartial()); } return builder.buildPartial(); } } private static final Parser PARSER = new Parser(); @Override public final Parser getParserForType() { return PARSER; } }





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