// Code generated by protocol buffer compiler. Do not edit! package emu.nebula.proto; import java.io.IOException; import us.hebi.quickbuf.FieldName; import us.hebi.quickbuf.InvalidProtocolBufferException; import us.hebi.quickbuf.JsonSink; import us.hebi.quickbuf.JsonSource; import us.hebi.quickbuf.MessageFactory; import us.hebi.quickbuf.ProtoMessage; import us.hebi.quickbuf.ProtoSink; import us.hebi.quickbuf.ProtoSource; import us.hebi.quickbuf.RepeatedByte; public final class VampireTalentDetail { /** * Protobuf type {@code VampireTalentDetailResp} */ public static final class VampireTalentDetailResp extends ProtoMessage implements Cloneable { private static final long serialVersionUID = 0L; /** * optional int64 ResetTime = 3; */ private long resetTime; /** * optional uint32 ActiveCount = 9; */ private int activeCount; /** * optional uint32 ObtainCount = 10; */ private int obtainCount; /** * optional bytes Nodes = 1; */ private final RepeatedByte nodes = RepeatedByte.newEmptyInstance(); /** * optional bytes NextPackage = 2047; */ private final RepeatedByte nextPackage = RepeatedByte.newEmptyInstance(); private VampireTalentDetailResp() { } /** * @return a new empty instance of {@code VampireTalentDetailResp} */ public static VampireTalentDetailResp newInstance() { return new VampireTalentDetailResp(); } /** * optional int64 ResetTime = 3; * @return whether the resetTime field is set */ public boolean hasResetTime() { return (bitField0_ & 0x00000001) != 0; } /** * optional int64 ResetTime = 3; * @return this */ public VampireTalentDetailResp clearResetTime() { bitField0_ &= ~0x00000001; resetTime = 0L; return this; } /** * optional int64 ResetTime = 3; * @return the resetTime */ public long getResetTime() { return resetTime; } /** * optional int64 ResetTime = 3; * @param value the resetTime to set * @return this */ public VampireTalentDetailResp setResetTime(final long value) { bitField0_ |= 0x00000001; resetTime = value; return this; } /** * optional uint32 ActiveCount = 9; * @return whether the activeCount field is set */ public boolean hasActiveCount() { return (bitField0_ & 0x00000002) != 0; } /** * optional uint32 ActiveCount = 9; * @return this */ public VampireTalentDetailResp clearActiveCount() { bitField0_ &= ~0x00000002; activeCount = 0; return this; } /** * optional uint32 ActiveCount = 9; * @return the activeCount */ public int getActiveCount() { return activeCount; } /** * optional uint32 ActiveCount = 9; * @param value the activeCount to set * @return this */ public VampireTalentDetailResp setActiveCount(final int value) { bitField0_ |= 0x00000002; activeCount = value; return this; } /** * optional uint32 ObtainCount = 10; * @return whether the obtainCount field is set */ public boolean hasObtainCount() { return (bitField0_ & 0x00000004) != 0; } /** * optional uint32 ObtainCount = 10; * @return this */ public VampireTalentDetailResp clearObtainCount() { bitField0_ &= ~0x00000004; obtainCount = 0; return this; } /** * optional uint32 ObtainCount = 10; * @return the obtainCount */ public int getObtainCount() { return obtainCount; } /** * optional uint32 ObtainCount = 10; * @param value the obtainCount to set * @return this */ public VampireTalentDetailResp setObtainCount(final int value) { bitField0_ |= 0x00000004; obtainCount = value; return this; } /** * optional bytes Nodes = 1; * @return whether the nodes field is set */ public boolean hasNodes() { return (bitField0_ & 0x00000008) != 0; } /** * optional bytes Nodes = 1; * @return this */ public VampireTalentDetailResp clearNodes() { bitField0_ &= ~0x00000008; nodes.clear(); return this; } /** * optional bytes Nodes = 1; * * This method returns the internal storage object without modifying any has state. * The returned object should not be modified and be treated as read-only. * * Use {@link #getMutableNodes()} if you want to modify it. * * @return internal storage object for reading */ public RepeatedByte getNodes() { return nodes; } /** * optional bytes Nodes = 1; * * This method returns the internal storage object and sets the corresponding * has state. The returned object will become part of this message and its * contents may be modified as long as the has state is not cleared. * * @return internal storage object for modifications */ public RepeatedByte getMutableNodes() { bitField0_ |= 0x00000008; return nodes; } /** * optional bytes Nodes = 1; * @param value the nodes to add * @return this */ public VampireTalentDetailResp addNodes(final byte value) { bitField0_ |= 0x00000008; nodes.add(value); return this; } /** * optional bytes Nodes = 1; * @param values the nodes to add * @return this */ public VampireTalentDetailResp addAllNodes(final byte... values) { bitField0_ |= 0x00000008; nodes.addAll(values); return this; } /** * optional bytes Nodes = 1; * @param values the nodes to set * @return this */ public VampireTalentDetailResp setNodes(final byte... values) { bitField0_ |= 0x00000008; nodes.copyFrom(values); return this; } /** * optional bytes NextPackage = 2047; * @return whether the nextPackage field is set */ public boolean hasNextPackage() { return (bitField0_ & 0x00000010) != 0; } /** * optional bytes NextPackage = 2047; * @return this */ public VampireTalentDetailResp clearNextPackage() { bitField0_ &= ~0x00000010; nextPackage.clear(); return this; } /** * optional bytes NextPackage = 2047; * * This method returns the internal storage object without modifying any has state. * The returned object should not be modified and be treated as read-only. * * Use {@link #getMutableNextPackage()} if you want to modify it. * * @return internal storage object for reading */ public RepeatedByte getNextPackage() { return nextPackage; } /** * optional bytes NextPackage = 2047; * * This method returns the internal storage object and sets the corresponding * has state. The returned object will become part of this message and its * contents may be modified as long as the has state is not cleared. * * @return internal storage object for modifications */ public RepeatedByte getMutableNextPackage() { bitField0_ |= 0x00000010; return nextPackage; } /** * optional bytes NextPackage = 2047; * @param value the nextPackage to add * @return this */ public VampireTalentDetailResp addNextPackage(final byte value) { bitField0_ |= 0x00000010; nextPackage.add(value); return this; } /** * optional bytes NextPackage = 2047; * @param values the nextPackage to add * @return this */ public VampireTalentDetailResp addAllNextPackage(final byte... values) { bitField0_ |= 0x00000010; nextPackage.addAll(values); return this; } /** * optional bytes NextPackage = 2047; * @param values the nextPackage to set * @return this */ public VampireTalentDetailResp setNextPackage(final byte... values) { bitField0_ |= 0x00000010; nextPackage.copyFrom(values); return this; } @Override public VampireTalentDetailResp copyFrom(final VampireTalentDetailResp other) { cachedSize = other.cachedSize; if ((bitField0_ | other.bitField0_) != 0) { bitField0_ = other.bitField0_; resetTime = other.resetTime; activeCount = other.activeCount; obtainCount = other.obtainCount; nodes.copyFrom(other.nodes); nextPackage.copyFrom(other.nextPackage); } return this; } @Override public VampireTalentDetailResp mergeFrom(final VampireTalentDetailResp other) { if (other.isEmpty()) { return this; } cachedSize = -1; if (other.hasResetTime()) { setResetTime(other.resetTime); } if (other.hasActiveCount()) { setActiveCount(other.activeCount); } if (other.hasObtainCount()) { setObtainCount(other.obtainCount); } if (other.hasNodes()) { getMutableNodes().copyFrom(other.nodes); } if (other.hasNextPackage()) { getMutableNextPackage().copyFrom(other.nextPackage); } return this; } @Override public VampireTalentDetailResp clear() { if (isEmpty()) { return this; } cachedSize = -1; bitField0_ = 0; resetTime = 0L; activeCount = 0; obtainCount = 0; nodes.clear(); nextPackage.clear(); return this; } @Override public VampireTalentDetailResp clearQuick() { if (isEmpty()) { return this; } cachedSize = -1; bitField0_ = 0; nodes.clear(); nextPackage.clear(); return this; } @Override public boolean equals(Object o) { if (o == this) { return true; } if (!(o instanceof VampireTalentDetailResp)) { return false; } VampireTalentDetailResp other = (VampireTalentDetailResp) o; return bitField0_ == other.bitField0_ && (!hasResetTime() || resetTime == other.resetTime) && (!hasActiveCount() || activeCount == other.activeCount) && (!hasObtainCount() || obtainCount == other.obtainCount) && (!hasNodes() || nodes.equals(other.nodes)) && (!hasNextPackage() || nextPackage.equals(other.nextPackage)); } @Override public void writeTo(final ProtoSink output) throws IOException { if ((bitField0_ & 0x00000001) != 0) { output.writeRawByte((byte) 24); output.writeInt64NoTag(resetTime); } if ((bitField0_ & 0x00000002) != 0) { output.writeRawByte((byte) 72); output.writeUInt32NoTag(activeCount); } if ((bitField0_ & 0x00000004) != 0) { output.writeRawByte((byte) 80); output.writeUInt32NoTag(obtainCount); } if ((bitField0_ & 0x00000008) != 0) { output.writeRawByte((byte) 10); output.writeBytesNoTag(nodes); } if ((bitField0_ & 0x00000010) != 0) { output.writeRawLittleEndian16((short) 32762); output.writeBytesNoTag(nextPackage); } } @Override protected int computeSerializedSize() { int size = 0; if ((bitField0_ & 0x00000001) != 0) { size += 1 + ProtoSink.computeInt64SizeNoTag(resetTime); } if ((bitField0_ & 0x00000002) != 0) { size += 1 + ProtoSink.computeUInt32SizeNoTag(activeCount); } if ((bitField0_ & 0x00000004) != 0) { size += 1 + ProtoSink.computeUInt32SizeNoTag(obtainCount); } if ((bitField0_ & 0x00000008) != 0) { size += 1 + ProtoSink.computeBytesSizeNoTag(nodes); } if ((bitField0_ & 0x00000010) != 0) { size += 2 + ProtoSink.computeBytesSizeNoTag(nextPackage); } return size; } @Override @SuppressWarnings("fallthrough") public VampireTalentDetailResp mergeFrom(final ProtoSource input) throws IOException { // Enabled Fall-Through Optimization (QuickBuffers) int tag = input.readTag(); while (true) { switch (tag) { case 24: { // resetTime resetTime = input.readInt64(); bitField0_ |= 0x00000001; tag = input.readTag(); if (tag != 72) { break; } } case 72: { // activeCount activeCount = input.readUInt32(); bitField0_ |= 0x00000002; tag = input.readTag(); if (tag != 80) { break; } } case 80: { // obtainCount obtainCount = input.readUInt32(); bitField0_ |= 0x00000004; tag = input.readTag(); if (tag != 10) { break; } } case 10: { // nodes input.readBytes(nodes); bitField0_ |= 0x00000008; tag = input.readTag(); if (tag != 16378) { break; } } case 16378: { // nextPackage input.readBytes(nextPackage); bitField0_ |= 0x00000010; tag = input.readTag(); if (tag != 0) { break; } } case 0: { return this; } default: { if (!input.skipField(tag)) { return this; } tag = input.readTag(); break; } } } } @Override public void writeTo(final JsonSink output) throws IOException { output.beginObject(); if ((bitField0_ & 0x00000001) != 0) { output.writeInt64(FieldNames.resetTime, resetTime); } if ((bitField0_ & 0x00000002) != 0) { output.writeUInt32(FieldNames.activeCount, activeCount); } if ((bitField0_ & 0x00000004) != 0) { output.writeUInt32(FieldNames.obtainCount, obtainCount); } if ((bitField0_ & 0x00000008) != 0) { output.writeBytes(FieldNames.nodes, nodes); } if ((bitField0_ & 0x00000010) != 0) { output.writeBytes(FieldNames.nextPackage, nextPackage); } output.endObject(); } @Override public VampireTalentDetailResp mergeFrom(final JsonSource input) throws IOException { if (!input.beginObject()) { return this; } while (!input.isAtEnd()) { switch (input.readFieldHash()) { case -267205476: { if (input.isAtField(FieldNames.resetTime)) { if (!input.trySkipNullValue()) { resetTime = input.readInt64(); bitField0_ |= 0x00000001; } } else { input.skipUnknownField(); } break; } case 590544265: { if (input.isAtField(FieldNames.activeCount)) { if (!input.trySkipNullValue()) { activeCount = input.readUInt32(); bitField0_ |= 0x00000002; } } else { input.skipUnknownField(); } break; } case 1946978122: { if (input.isAtField(FieldNames.obtainCount)) { if (!input.trySkipNullValue()) { obtainCount = input.readUInt32(); bitField0_ |= 0x00000004; } } else { input.skipUnknownField(); } break; } case 75440785: { if (input.isAtField(FieldNames.nodes)) { if (!input.trySkipNullValue()) { input.readBytes(nodes); bitField0_ |= 0x00000008; } } else { input.skipUnknownField(); } break; } case -2082324045: { if (input.isAtField(FieldNames.nextPackage)) { if (!input.trySkipNullValue()) { input.readBytes(nextPackage); bitField0_ |= 0x00000010; } } else { input.skipUnknownField(); } break; } default: { input.skipUnknownField(); break; } } } input.endObject(); return this; } @Override public VampireTalentDetailResp clone() { return new VampireTalentDetailResp().copyFrom(this); } @Override public boolean isEmpty() { return ((bitField0_) == 0); } public static VampireTalentDetailResp parseFrom(final byte[] data) throws InvalidProtocolBufferException { return ProtoMessage.mergeFrom(new VampireTalentDetailResp(), data).checkInitialized(); } public static VampireTalentDetailResp parseFrom(final ProtoSource input) throws IOException { return ProtoMessage.mergeFrom(new VampireTalentDetailResp(), input).checkInitialized(); } public static VampireTalentDetailResp parseFrom(final JsonSource input) throws IOException { return ProtoMessage.mergeFrom(new VampireTalentDetailResp(), input).checkInitialized(); } /** * @return factory for creating VampireTalentDetailResp messages */ public static MessageFactory getFactory() { return VampireTalentDetailRespFactory.INSTANCE; } private enum VampireTalentDetailRespFactory implements MessageFactory { INSTANCE; @Override public VampireTalentDetailResp create() { return VampireTalentDetailResp.newInstance(); } } /** * Contains name constants used for serializing JSON */ static class FieldNames { static final FieldName resetTime = FieldName.forField("ResetTime"); static final FieldName activeCount = FieldName.forField("ActiveCount"); static final FieldName obtainCount = FieldName.forField("ObtainCount"); static final FieldName nodes = FieldName.forField("Nodes"); static final FieldName nextPackage = FieldName.forField("NextPackage"); } } }