SpawnModelParticles.java
package com.hypixel.hytale.protocol.packets.entities;
import com.hypixel.hytale.protocol.ModelParticle;
import com.hypixel.hytale.protocol.Packet;
import com.hypixel.hytale.protocol.io.ProtocolException;
import com.hypixel.hytale.protocol.io.ValidationResult;
import com.hypixel.hytale.protocol.io.VarInt;
import io.netty.buffer.ByteBuf;
import java.util.Arrays;
import javax.annotation.Nonnull;
import javax.annotation.Nullable;
public class SpawnModelParticles implements Packet {
public static final int PACKET_ID = 165;
public static final boolean IS_COMPRESSED = false;
public static final int NULLABLE_BIT_FIELD_SIZE = 1;
public static final int FIXED_BLOCK_SIZE = 5;
public static final int VARIABLE_FIELD_COUNT = 1;
public static final int VARIABLE_BLOCK_START = 5;
public static final int MAX_SIZE = 1677721600;
public int entityId;
@Nullable
public ModelParticle[] modelParticles;
public int getId() {
return 165;
}
public SpawnModelParticles() {
}
public SpawnModelParticles(int entityId, @Nullable ModelParticle[] modelParticles) {
this.entityId = entityId;
this.modelParticles = modelParticles;
}
public SpawnModelParticles(@Nonnull SpawnModelParticles other) {
this.entityId = other.entityId;
this.modelParticles = other.modelParticles;
}
@Nonnull
public static SpawnModelParticles deserialize(@Nonnull ByteBuf buf, int offset) {
SpawnModelParticles obj = new SpawnModelParticles();
byte nullBits = buf.getByte(offset);
obj.entityId = buf.getIntLE(offset + 1);
int pos = offset + 5;
if ((nullBits & 1) != 0) {
int modelParticlesCount = VarInt.peek(buf, pos);
if (modelParticlesCount < 0) {
throw ProtocolException.negativeLength("ModelParticles", modelParticlesCount);
}
if (modelParticlesCount > 4096000) {
throw ProtocolException.arrayTooLong("ModelParticles", modelParticlesCount, 4096000);
}
int modelParticlesVarLen = VarInt.size(modelParticlesCount);
if ((long)(pos + modelParticlesVarLen) + (long)modelParticlesCount * 34L > (long)buf.readableBytes()) {
throw ProtocolException.bufferTooSmall("ModelParticles", pos + modelParticlesVarLen + modelParticlesCount * 34, buf.readableBytes());
}
pos += modelParticlesVarLen;
obj.modelParticles = new ModelParticle[modelParticlesCount];
for(int i = 0; i < modelParticlesCount; ++i) {
obj.modelParticles[i] = ModelParticle.deserialize(buf, pos);
pos += ModelParticle.computeBytesConsumed(buf, pos);
}
}
return obj;
}
public static int computeBytesConsumed(@Nonnull ByteBuf buf, int offset) {
byte nullBits = buf.getByte(offset);
int pos = offset + 5;
if ((nullBits & 1) != 0) {
int arrLen = VarInt.peek(buf, pos);
pos += VarInt.length(buf, pos);
for(int i = 0; i < arrLen; ++i) {
pos += ModelParticle.computeBytesConsumed(buf, pos);
}
}
return pos - offset;
}
public void serialize(@Nonnull ByteBuf buf) {
byte nullBits = 0;
if (this.modelParticles != null) {
nullBits = (byte)(nullBits | 1);
}
buf.writeByte(nullBits);
buf.writeIntLE(this.entityId);
if (this.modelParticles != null) {
if (this.modelParticles.length > 4096000) {
throw ProtocolException.arrayTooLong("ModelParticles", this.modelParticles.length, 4096000);
}
VarInt.write(buf, this.modelParticles.length);
for(ModelParticle item : this.modelParticles) {
item.serialize(buf);
}
}
}
public int computeSize() {
int size = 5;
if (this.modelParticles != null) {
int modelParticlesSize = 0;
for(ModelParticle elem : this.modelParticles) {
modelParticlesSize += elem.computeSize();
}
size += VarInt.size(this.modelParticles.length) + modelParticlesSize;
}
return size;
}
public static ValidationResult validateStructure(@Nonnull ByteBuf buffer, int offset) {
if (buffer.readableBytes() - offset < 5) {
return ValidationResult.error("Buffer too small: expected at least 5 bytes");
} else {
byte nullBits = buffer.getByte(offset);
int pos = offset + 5;
if ((nullBits & 1) != 0) {
int modelParticlesCount = VarInt.peek(buffer, pos);
if (modelParticlesCount < 0) {
return ValidationResult.error("Invalid array count for ModelParticles");
}
if (modelParticlesCount > 4096000) {
return ValidationResult.error("ModelParticles exceeds max length 4096000");
}
pos += VarInt.length(buffer, pos);
for(int i = 0; i < modelParticlesCount; ++i) {
ValidationResult structResult = ModelParticle.validateStructure(buffer, pos);
if (!structResult.isValid()) {
return ValidationResult.error("Invalid ModelParticle in ModelParticles[" + i + "]: " + structResult.error());
}
pos += ModelParticle.computeBytesConsumed(buffer, pos);
}
}
return ValidationResult.OK;
}
}
public SpawnModelParticles clone() {
SpawnModelParticles copy = new SpawnModelParticles();
copy.entityId = this.entityId;
copy.modelParticles = this.modelParticles != null ? (ModelParticle[])Arrays.stream(this.modelParticles).map((e) -> e.clone()).toArray((x$0) -> new ModelParticle[x$0]) : null;
return copy;
}
public boolean equals(Object obj) {
if (this == obj) {
return true;
} else if (!(obj instanceof SpawnModelParticles)) {
return false;
} else {
SpawnModelParticles other = (SpawnModelParticles)obj;
return this.entityId == other.entityId && Arrays.equals(this.modelParticles, other.modelParticles);
}
}
public int hashCode() {
int result = 1;
result = 31 * result + Integer.hashCode(this.entityId);
result = 31 * result + Arrays.hashCode(this.modelParticles);
return result;
}
}