package com.hypixel.hytale.protocol;
import com.hypixel.hytale.protocol.io.ValidationResult;
import io.netty.buffer.ByteBuf;
import java.util.Objects;
import javax.annotation.Nonnull;
import javax.annotation.Nullable;
public class RaycastSelector extends Selector {
public static final int NULLABLE_BIT_FIELD_SIZE = 1;
public static final int FIXED_BLOCK_SIZE = 23;
public static final int VARIABLE_FIELD_COUNT = 0;
public static final int VARIABLE_BLOCK_START = 23;
public static final int MAX_SIZE = 23;
@Nullable
public Vector3f offset;
public int distance;
public int blockTagIndex = -2147483648;
public boolean ignoreFluids;
public boolean ignoreEmptyCollisionMaterial;
public RaycastSelector() {
}
public RaycastSelector(@Nullable Vector3f offset, int distance, int blockTagIndex, boolean ignoreFluids, boolean ignoreEmptyCollisionMaterial) {
this.offset = offset;
this.distance = distance;
this.blockTagIndex = blockTagIndex;
this.ignoreFluids = ignoreFluids;
this.ignoreEmptyCollisionMaterial = ignoreEmptyCollisionMaterial;
}
public RaycastSelector(@Nonnull RaycastSelector other) {
this.offset = other.offset;
this.distance = other.distance;
this.blockTagIndex = other.blockTagIndex;
this.ignoreFluids = other.ignoreFluids;
this.ignoreEmptyCollisionMaterial = other.ignoreEmptyCollisionMaterial;
}
@Nonnull
public static RaycastSelector deserialize(@Nonnull ByteBuf buf, int offset) {
RaycastSelector obj = new RaycastSelector();
byte nullBits = buf.getByte(offset);
if ((nullBits & 1) != 0) {
obj.offset = Vector3f.deserialize(buf, offset + 1);
}
obj.distance = buf.getIntLE(offset + 13);
obj.blockTagIndex = buf.getIntLE(offset + 17);
obj.ignoreFluids = buf.getByte(offset + 21) != 0;
obj.ignoreEmptyCollisionMaterial = buf.getByte(offset + 22) != 0;
return obj;
}
public static int computeBytesConsumed(@Nonnull ByteBuf buf, int offset) {
return 23;
}
public int serialize(@Nonnull ByteBuf buf) {
int startPos = buf.writerIndex();
byte nullBits = 0;
if (this.offset != null) {
nullBits = (byte)(nullBits | 1);
}
buf.writeByte(nullBits);
if (this.offset != null) {
this.offset.serialize(buf);
} else {
buf.writeZero(12);
}
buf.writeIntLE(this.distance);
buf.writeIntLE(this.blockTagIndex);
buf.writeByte(this.ignoreFluids ? 1 : 0);
buf.writeByte(this.ignoreEmptyCollisionMaterial ? 1 : 0);
return buf.writerIndex() - startPos;
}
public int computeSize() {
return 23;
}
public static ValidationResult validateStructure(@Nonnull ByteBuf buffer, int offset) {
return buffer.readableBytes() - offset < 23 ? ValidationResult.error("Buffer too small: expected at least 23 bytes") : ValidationResult.OK;
}
public RaycastSelector clone() {
RaycastSelector copy = new RaycastSelector();
copy.offset = this.offset != null ? this.offset.clone() : null;
copy.distance = this.distance;
copy.blockTagIndex = this.blockTagIndex;
copy.ignoreFluids = this.ignoreFluids;
copy.ignoreEmptyCollisionMaterial = this.ignoreEmptyCollisionMaterial;
return copy;
}
public boolean equals(Object obj) {
if (this == obj) {
return true;
} else if (!(obj instanceof RaycastSelector)) {
return false;
} else {
RaycastSelector other = (RaycastSelector)obj;
return Objects.equals(this.offset, other.offset) && this.distance == other.distance && this.blockTagIndex == other.blockTagIndex && this.ignoreFluids == other.ignoreFluids && this.ignoreEmptyCollisionMaterial == other.ignoreEmptyCollisionMaterial;
}
}
public int hashCode() {
return Objects.hash(new Object[]{this.offset, this.distance, this.blockTagIndex, this.ignoreFluids, this.ignoreEmptyCollisionMaterial});
}
}