package net.minecraft.entity.boss;
import java.util.Iterator;
import java.util.List;
import net.minecraft.block.Block;
import net.minecraft.block.BlockEndPortal;
import net.minecraft.block.material.Material;
import net.minecraft.entity.Entity;
import net.minecraft.entity.EntityLiving;
import net.minecraft.entity.EntityLivingBase;
import net.minecraft.entity.IEntityMultiPart;
import net.minecraft.entity.SharedMonsterAttributes;
import net.minecraft.entity.item.EntityEnderCrystal;
import net.minecraft.entity.item.EntityXPOrb;
import net.minecraft.entity.monster.IMob;
import net.minecraft.entity.player.EntityPlayer;
import net.minecraft.init.Blocks;
import net.minecraft.util.AxisAlignedBB;
import net.minecraft.util.DamageSource;
import net.minecraft.util.MathHelper;
import net.minecraft.util.Vec3;
import net.minecraft.world.Explosion;
import net.minecraft.world.World;
public class EntityDragon extends EntityLiving implements IBossDisplayData, IEntityMultiPart, IMob
{
public double targetX;
public double targetY;
public double targetZ;
/** Ring buffer array for the last 64 Y-positions and yaw rotations. Used to calculate offsets for the animations. */
public double[][] ringBuffer = new double[64][3];
/** Index into the ring buffer. Incremented once per tick and restarts at 0 once it reaches the end of the buffer. */
public int ringBufferIndex = -1;
/** An array containing all body parts of this dragon */
public EntityDragonPart[] dragonPartArray;
/** The head bounding box of a dragon */
public EntityDragonPart dragonPartHead;
/** The body bounding box of a dragon */
public EntityDragonPart dragonPartBody;
public EntityDragonPart dragonPartTail1;
public EntityDragonPart dragonPartTail2;
public EntityDragonPart dragonPartTail3;
public EntityDragonPart dragonPartWing1;
public EntityDragonPart dragonPartWing2;
/** Animation time at previous tick. */
public float prevAnimTime;
/** Animation time, used to control the speed of the animation cycles (wings flapping, jaw opening, etc.) */
public float animTime;
/** Force selecting a new flight target at next tick if set to true. */
public boolean forceNewTarget;
/** Activated if the dragon is flying though obsidian, white stone or bedrock. Slows movement and animation speed. */
public boolean slowed;
private Entity target;
public int deathTicks;
/** The current endercrystal that is healing this dragon */
public EntityEnderCrystal healingEnderCrystal;
private static final String __OBFID = "CL_00001659";
public EntityDragon(World p_i1700_1_)
{
super(p_i1700_1_);
this.dragonPartArray = new EntityDragonPart[] {this.dragonPartHead = new EntityDragonPart(this, "head", 6.0F, 6.0F), this.dragonPartBody = new EntityDragonPart(this, "body", 8.0F, 8.0F), this.dragonPartTail1 = new EntityDragonPart(this, "tail", 4.0F, 4.0F), this.dragonPartTail2 = new EntityDragonPart(this, "tail", 4.0F, 4.0F), this.dragonPartTail3 = new EntityDragonPart(this, "tail", 4.0F, 4.0F), this.dragonPartWing1 = new EntityDragonPart(this, "wing", 4.0F, 4.0F), this.dragonPartWing2 = new EntityDragonPart(this, "wing", 4.0F, 4.0F)};
this.setHealth(this.getMaxHealth());
this.setSize(16.0F, 8.0F);
this.noClip = true;
this.isImmuneToFire = true;
this.targetY = 100.0D;
this.ignoreFrustumCheck = true;
}
protected void applyEntityAttributes()
{
super.applyEntityAttributes();
this.getEntityAttribute(SharedMonsterAttributes.maxHealth).setBaseValue(200.0D);
}
protected void entityInit()
{
super.entityInit();
}
/**
* Returns a double[3] array with movement offsets, used to calculate trailing tail/neck positions. [0] = yaw
* offset, [1] = y offset, [2] = unused, always 0. Parameters: buffer index offset, partial ticks.
*/
public double[] getMovementOffsets(int p_70974_1_, float p_70974_2_)
{
if (this.getHealth() <= 0.0F)
{
p_70974_2_ = 0.0F;
}
p_70974_2_ = 1.0F - p_70974_2_;
int j = this.ringBufferIndex - p_70974_1_ * 1 & 63;
int k = this.ringBufferIndex - p_70974_1_ * 1 - 1 & 63;
double[] adouble = new double[3];
double d0 = this.ringBuffer[j][0];
double d1 = MathHelper.wrapAngleTo180_double(this.ringBuffer[k][0] - d0);
adouble[0] = d0 + d1 * (double)p_70974_2_;
d0 = this.ringBuffer[j][1];
d1 = this.ringBuffer[k][1] - d0;
adouble[1] = d0 + d1 * (double)p_70974_2_;
adouble[2] = this.ringBuffer[j][2] + (this.ringBuffer[k][2] - this.ringBuffer[j][2]) * (double)p_70974_2_;
return adouble;
}
/**
* Called frequently so the entity can update its state every tick as required. For example, zombies and skeletons
* use this to react to sunlight and start to burn.
*/
public void onLivingUpdate()
{
float f;
float f1;
if (this.worldObj.isRemote)
{
f = MathHelper.cos(this.animTime * (float)Math.PI * 2.0F);
f1 = MathHelper.cos(this.prevAnimTime * (float)Math.PI * 2.0F);
if (f1 <= -0.3F && f >= -0.3F)
{
this.worldObj.playSound(this.posX, this.posY, this.posZ, "mob.enderdragon.wings", 5.0F, 0.8F + this.rand.nextFloat() * 0.3F, false);
}
}
this.prevAnimTime = this.animTime;
float f2;
if (this.getHealth() <= 0.0F)
{
f = (this.rand.nextFloat() - 0.5F) * 8.0F;
f1 = (this.rand.nextFloat() - 0.5F) * 4.0F;
f2 = (this.rand.nextFloat() - 0.5F) * 8.0F;
this.worldObj.spawnParticle("largeexplode", this.posX + (double)f, this.posY + 2.0D + (double)f1, this.posZ + (double)f2, 0.0D, 0.0D, 0.0D);
}
else
{
this.updateDragonEnderCrystal();
f = 0.2F / (MathHelper.sqrt_double(this.motionX * this.motionX + this.motionZ * this.motionZ) * 10.0F + 1.0F);
f *= (float)Math.pow(2.0D, this.motionY);
if (this.slowed)
{
this.animTime += f * 0.5F;
}
else
{
this.animTime += f;
}
this.rotationYaw = MathHelper.wrapAngleTo180_float(this.rotationYaw);
if (this.ringBufferIndex < 0)
{
for (int i = 0; i < this.ringBuffer.length; ++i)
{
this.ringBuffer[i][0] = (double)this.rotationYaw;
this.ringBuffer[i][1] = this.posY;
}
}
if (++this.ringBufferIndex == this.ringBuffer.length)
{
this.ringBufferIndex = 0;
}
this.ringBuffer[this.ringBufferIndex][0] = (double)this.rotationYaw;
this.ringBuffer[this.ringBufferIndex][1] = this.posY;
double d0;
double d1;
double d2;
double d10;
float f12;
if (this.worldObj.isRemote)
{
if (this.newPosRotationIncrements > 0)
{
d10 = this.posX + (this.newPosX - this.posX) / (double)this.newPosRotationIncrements;
d0 = this.posY + (this.newPosY - this.posY) / (double)this.newPosRotationIncrements;
d1 = this.posZ + (this.newPosZ - this.posZ) / (double)this.newPosRotationIncrements;
d2 = MathHelper.wrapAngleTo180_double(this.newRotationYaw - (double)this.rotationYaw);
this.rotationYaw = (float)((double)this.rotationYaw + d2 / (double)this.newPosRotationIncrements);
this.rotationPitch = (float)((double)this.rotationPitch + (this.newRotationPitch - (double)this.rotationPitch) / (double)this.newPosRotationIncrements);
--this.newPosRotationIncrements;
this.setPosition(d10, d0, d1);
this.setRotation(this.rotationYaw, this.rotationPitch);
}
}
else
{
d10 = this.targetX - this.posX;
d0 = this.targetY - this.posY;
d1 = this.targetZ - this.posZ;
d2 = d10 * d10 + d0 * d0 + d1 * d1;
if (this.target != null)
{
this.targetX = this.target.posX;
this.targetZ = this.target.posZ;
double d3 = this.targetX - this.posX;
double d5 = this.targetZ - this.posZ;
double d7 = Math.sqrt(d3 * d3 + d5 * d5);
double d8 = 0.4000000059604645D + d7 / 80.0D - 1.0D;
if (d8 > 10.0D)
{
d8 = 10.0D;
}
this.targetY = this.target.boundingBox.minY + d8;
}
else
{
this.targetX += this.rand.nextGaussian() * 2.0D;
this.targetZ += this.rand.nextGaussian() * 2.0D;
}
if (this.forceNewTarget || d2 < 100.0D || d2 > 22500.0D || this.isCollidedHorizontally || this.isCollidedVertically)
{
this.setNewTarget();
}
d0 /= (double)MathHelper.sqrt_double(d10 * d10 + d1 * d1);
f12 = 0.6F;
if (d0 < (double)(-f12))
{
d0 = (double)(-f12);
}
if (d0 > (double)f12)
{
d0 = (double)f12;
}
this.motionY += d0 * 0.10000000149011612D;
this.rotationYaw = MathHelper.wrapAngleTo180_float(this.rotationYaw);
double d4 = 180.0D - Math.atan2(d10, d1) * 180.0D / Math.PI;
double d6 = MathHelper.wrapAngleTo180_double(d4 - (double)this.rotationYaw);
if (d6 > 50.0D)
{
d6 = 50.0D;
}
if (d6 < -50.0D)
{
d6 = -50.0D;
}
Vec3 vec3 = Vec3.createVectorHelper(this.targetX - this.posX, this.targetY - this.posY, this.targetZ - this.posZ).normalize();
Vec3 vec32 = Vec3.createVectorHelper((double)MathHelper.sin(this.rotationYaw * (float)Math.PI / 180.0F), this.motionY, (double)(-MathHelper.cos(this.rotationYaw * (float)Math.PI / 180.0F))).normalize();
float f5 = (float)(vec32.dotProduct(vec3) + 0.5D) / 1.5F;
if (f5 < 0.0F)
{
f5 = 0.0F;
}
this.randomYawVelocity *= 0.8F;
float f6 = MathHelper.sqrt_double(this.motionX * this.motionX + this.motionZ * this.motionZ) * 1.0F + 1.0F;
double d9 = Math.sqrt(this.motionX * this.motionX + this.motionZ * this.motionZ) * 1.0D + 1.0D;
if (d9 > 40.0D)
{
d9 = 40.0D;
}
this.randomYawVelocity = (float)((double)this.randomYawVelocity + d6 * (0.699999988079071D / d9 / (double)f6));
this.rotationYaw += this.randomYawVelocity * 0.1F;
float f7 = (float)(2.0D / (d9 + 1.0D));
float f8 = 0.06F;
this.moveFlying(0.0F, -1.0F, f8 * (f5 * f7 + (1.0F - f7)));
if (this.slowed)
{
this.moveEntity(this.motionX * 0.800000011920929D, this.motionY * 0.800000011920929D, this.motionZ * 0.800000011920929D);
}
else
{
this.moveEntity(this.motionX, this.motionY, this.motionZ);
}
Vec3 vec31 = Vec3.createVectorHelper(this.motionX, this.motionY, this.motionZ).normalize();
float f9 = (float)(vec31.dotProduct(vec32) + 1.0D) / 2.0F;
f9 = 0.8F + 0.15F * f9;
this.motionX *= (double)f9;
this.motionZ *= (double)f9;
this.motionY *= 0.9100000262260437D;
}
this.renderYawOffset = this.rotationYaw;
this.dragonPartHead.width = this.dragonPartHead.height = 3.0F;
this.dragonPartTail1.width = this.dragonPartTail1.height = 2.0F;
this.dragonPartTail2.width = this.dragonPartTail2.height = 2.0F;
this.dragonPartTail3.width = this.dragonPartTail3.height = 2.0F;
this.dragonPartBody.height = 3.0F;
this.dragonPartBody.width = 5.0F;
this.dragonPartWing1.height = 2.0F;
this.dragonPartWing1.width = 4.0F;
this.dragonPartWing2.height = 3.0F;
this.dragonPartWing2.width = 4.0F;
f1 = (float)(this.getMovementOffsets(5, 1.0F)[1] - this.getMovementOffsets(10, 1.0F)[1]) * 10.0F / 180.0F * (float)Math.PI;
f2 = MathHelper.cos(f1);
float f10 = -MathHelper.sin(f1);
float f3 = this.rotationYaw * (float)Math.PI / 180.0F;
float f11 = MathHelper.sin(f3);
float f4 = MathHelper.cos(f3);
this.dragonPartBody.onUpdate();
this.dragonPartBody.setLocationAndAngles(this.posX + (double)(f11 * 0.5F), this.posY, this.posZ - (double)(f4 * 0.5F), 0.0F, 0.0F);
this.dragonPartWing1.onUpdate();
this.dragonPartWing1.setLocationAndAngles(this.posX + (double)(f4 * 4.5F), this.posY + 2.0D, this.posZ + (double)(f11 * 4.5F), 0.0F, 0.0F);
this.dragonPartWing2.onUpdate();
this.dragonPartWing2.setLocationAndAngles(this.posX - (double)(f4 * 4.5F), this.posY + 2.0D, this.posZ - (double)(f11 * 4.5F), 0.0F, 0.0F);
if (!this.worldObj.isRemote && this.hurtTime == 0)
{
this.collideWithEntities(this.worldObj.getEntitiesWithinAABBExcludingEntity(this, this.dragonPartWing1.boundingBox.expand(4.0D, 2.0D, 4.0D).offset(0.0D, -2.0D, 0.0D)));
this.collideWithEntities(this.worldObj.getEntitiesWithinAABBExcludingEntity(this, this.dragonPartWing2.boundingBox.expand(4.0D, 2.0D, 4.0D).offset(0.0D, -2.0D, 0.0D)));
this.attackEntitiesInList(this.worldObj.getEntitiesWithinAABBExcludingEntity(this, this.dragonPartHead.boundingBox.expand(1.0D, 1.0D, 1.0D)));
}
double[] adouble1 = this.getMovementOffsets(5, 1.0F);
double[] adouble = this.getMovementOffsets(0, 1.0F);
f12 = MathHelper.sin(this.rotationYaw * (float)Math.PI / 180.0F - this.randomYawVelocity * 0.01F);
float f13 = MathHelper.cos(this.rotationYaw * (float)Math.PI / 180.0F - this.randomYawVelocity * 0.01F);
this.dragonPartHead.onUpdate();
this.dragonPartHead.setLocationAndAngles(this.posX + (double)(f12 * 5.5F * f2), this.posY + (adouble[1] - adouble1[1]) * 1.0D + (double)(f10 * 5.5F), this.posZ - (double)(f13 * 5.5F * f2), 0.0F, 0.0F);
for (int j = 0; j < 3; ++j)
{
EntityDragonPart entitydragonpart = null;
if (j == 0)
{
entitydragonpart = this.dragonPartTail1;
}
if (j == 1)
{
entitydragonpart = this.dragonPartTail2;
}
if (j == 2)
{
entitydragonpart = this.dragonPartTail3;
}
double[] adouble2 = this.getMovementOffsets(12 + j * 2, 1.0F);
float f14 = this.rotationYaw * (float)Math.PI / 180.0F + this.simplifyAngle(adouble2[0] - adouble1[0]) * (float)Math.PI / 180.0F * 1.0F;
float f15 = MathHelper.sin(f14);
float f16 = MathHelper.cos(f14);
float f17 = 1.5F;
float f18 = (float)(j + 1) * 2.0F;
entitydragonpart.onUpdate();
entitydragonpart.setLocationAndAngles(this.posX - (double)((f11 * f17 + f15 * f18) * f2), this.posY + (adouble2[1] - adouble1[1]) * 1.0D - (double)((f18 + f17) * f10) + 1.5D, this.posZ + (double)((f4 * f17 + f16 * f18) * f2), 0.0F, 0.0F);
}
if (!this.worldObj.isRemote)
{
this.slowed = this.destroyBlocksInAABB(this.dragonPartHead.boundingBox) | this.destroyBlocksInAABB(this.dragonPartBody.boundingBox);
}
}
}
/**
* Updates the state of the enderdragon's current endercrystal.
*/
private void updateDragonEnderCrystal()
{
if (this.healingEnderCrystal != null)
{
if (this.healingEnderCrystal.isDead)
{
if (!this.worldObj.isRemote)
{
this.attackEntityFromPart(this.dragonPartHead, DamageSource.setExplosionSource((Explosion)null), 10.0F);
}
this.healingEnderCrystal = null;
}
else if (this.ticksExisted % 10 == 0 && this.getHealth() < this.getMaxHealth())
{
this.setHealth(this.getHealth() + 1.0F);
}
}
if (this.rand.nextInt(10) == 0)
{
float f = 32.0F;
List list = this.worldObj.getEntitiesWithinAABB(EntityEnderCrystal.class, this.boundingBox.expand((double)f, (double)f, (double)f));
EntityEnderCrystal entityendercrystal = null;
double d0 = Double.MAX_VALUE;
Iterator iterator = list.iterator();
while (iterator.hasNext())
{
EntityEnderCrystal entityendercrystal1 = (EntityEnderCrystal)iterator.next();
double d1 = entityendercrystal1.getDistanceSqToEntity(this);
if (d1 < d0)
{
d0 = d1;
entityendercrystal = entityendercrystal1;
}
}
this.healingEnderCrystal = entityendercrystal;
}
}
/**
* Pushes all entities inside the list away from the enderdragon.
*/
private void collideWithEntities(List p_70970_1_)
{
double d0 = (this.dragonPartBody.boundingBox.minX + this.dragonPartBody.boundingBox.maxX) / 2.0D;
double d1 = (this.dragonPartBody.boundingBox.minZ + this.dragonPartBody.boundingBox.maxZ) / 2.0D;
Iterator iterator = p_70970_1_.iterator();
while (iterator.hasNext())
{
Entity entity = (Entity)iterator.next();
if (entity instanceof EntityLivingBase)
{
double d2 = entity.posX - d0;
double d3 = entity.posZ - d1;
double d4 = d2 * d2 + d3 * d3;
entity.addVelocity(d2 / d4 * 4.0D, 0.20000000298023224D, d3 / d4 * 4.0D);
}
}
}
/**
* Attacks all entities inside this list, dealing 5 hearts of damage.
*/
private void attackEntitiesInList(List p_70971_1_)
{
for (int i = 0; i < p_70971_1_.size(); ++i)
{
Entity entity = (Entity)p_70971_1_.get(i);
if (entity instanceof EntityLivingBase)
{
entity.attackEntityFrom(DamageSource.causeMobDamage(this), 10.0F);
}
}
}
/**
* Sets a new target for the flight AI. It can be a random coordinate or a nearby player.
*/
private void setNewTarget()
{
this.forceNewTarget = false;
if (this.rand.nextInt(2) == 0 && !this.worldObj.playerEntities.isEmpty())
{
this.target = (Entity)this.worldObj.playerEntities.get(this.rand.nextInt(this.worldObj.playerEntities.size()));
}
else
{
boolean flag = false;
do
{
this.targetX = 0.0D;
this.targetY = (double)(70.0F + this.rand.nextFloat() * 50.0F);
this.targetZ = 0.0D;
this.targetX += (double)(this.rand.nextFloat() * 120.0F - 60.0F);
this.targetZ += (double)(this.rand.nextFloat() * 120.0F - 60.0F);
double d0 = this.posX - this.targetX;
double d1 = this.posY - this.targetY;
double d2 = this.posZ - this.targetZ;
flag = d0 * d0 + d1 * d1 + d2 * d2 > 100.0D;
}
while (!flag);
this.target = null;
}
}
/**
* Simplifies the value of a number by adding/subtracting 180 to the point that the number is between -180 and 180.
*/
private float simplifyAngle(double p_70973_1_)
{
return (float)MathHelper.wrapAngleTo180_double(p_70973_1_);
}
/**
* Destroys all blocks that aren't associated with 'The End' inside the given bounding box.
*/
private boolean destroyBlocksInAABB(AxisAlignedBB p_70972_1_)
{
int i = MathHelper.floor_double(p_70972_1_.minX);
int j = MathHelper.floor_double(p_70972_1_.minY);
int k = MathHelper.floor_double(p_70972_1_.minZ);
int l = MathHelper.floor_double(p_70972_1_.maxX);
int i1 = MathHelper.floor_double(p_70972_1_.maxY);
int j1 = MathHelper.floor_double(p_70972_1_.maxZ);
boolean flag = false;
boolean flag1 = false;
for (int k1 = i; k1 <= l; ++k1)
{
for (int l1 = j; l1 <= i1; ++l1)
{
for (int i2 = k; i2 <= j1; ++i2)
{
Block block = this.worldObj.getBlock(k1, l1, i2);
if (!block.isAir(worldObj, k1, l1, i2))
{
if (block.canEntityDestroy(worldObj, k1, l1, i2, this) && this.worldObj.getGameRules().getGameRuleBooleanValue("mobGriefing"))
{
flag1 = this.worldObj.setBlockToAir(k1, l1, i2) || flag1;
}
else
{
flag = true;
}
}
}
}
}
if (flag1)
{
double d1 = p_70972_1_.minX + (p_70972_1_.maxX - p_70972_1_.minX) * (double)this.rand.nextFloat();
double d2 = p_70972_1_.minY + (p_70972_1_.maxY - p_70972_1_.minY) * (double)this.rand.nextFloat();
double d0 = p_70972_1_.minZ + (p_70972_1_.maxZ - p_70972_1_.minZ) * (double)this.rand.nextFloat();
this.worldObj.spawnParticle("largeexplode", d1, d2, d0, 0.0D, 0.0D, 0.0D);
}
return flag;
}
public boolean attackEntityFromPart(EntityDragonPart p_70965_1_, DamageSource p_70965_2_, float p_70965_3_)
{
if (p_70965_1_ != this.dragonPartHead)
{
p_70965_3_ = p_70965_3_ / 4.0F + 1.0F;
}
float f1 = this.rotationYaw * (float)Math.PI / 180.0F;
float f2 = MathHelper.sin(f1);
float f3 = MathHelper.cos(f1);
this.targetX = this.posX + (double)(f2 * 5.0F) + (double)((this.rand.nextFloat() - 0.5F) * 2.0F);
this.targetY = this.posY + (double)(this.rand.nextFloat() * 3.0F) + 1.0D;
this.targetZ = this.posZ - (double)(f3 * 5.0F) + (double)((this.rand.nextFloat() - 0.5F) * 2.0F);
this.target = null;
if (p_70965_2_.getEntity() instanceof EntityPlayer || p_70965_2_.isExplosion())
{
this.func_82195_e(p_70965_2_, p_70965_3_);
}
return true;
}
/**
* Called when the entity is attacked.
*/
public boolean attackEntityFrom(DamageSource source, float amount)
{
return false;
}
protected boolean func_82195_e(DamageSource p_82195_1_, float p_82195_2_)
{
return super.attackEntityFrom(p_82195_1_, p_82195_2_);
}
/**
* handles entity death timer, experience orb and particle creation
*/
protected void onDeathUpdate()
{
++this.deathTicks;
if (this.deathTicks >= 180 && this.deathTicks <= 200)
{
float f = (this.rand.nextFloat() - 0.5F) * 8.0F;
float f1 = (this.rand.nextFloat() - 0.5F) * 4.0F;
float f2 = (this.rand.nextFloat() - 0.5F) * 8.0F;
this.worldObj.spawnParticle("hugeexplosion", this.posX + (double)f, this.posY + 2.0D + (double)f1, this.posZ + (double)f2, 0.0D, 0.0D, 0.0D);
}
int i;
int j;
if (!this.worldObj.isRemote)
{
if (this.deathTicks > 150 && this.deathTicks % 5 == 0)
{
i = 1000;
while (i > 0)
{
j = EntityXPOrb.getXPSplit(i);
i -= j;
this.worldObj.spawnEntityInWorld(new EntityXPOrb(this.worldObj, this.posX, this.posY, this.posZ, j));
}
}
if (this.deathTicks == 1)
{
this.worldObj.playBroadcastSound(1018, (int)this.posX, (int)this.posY, (int)this.posZ, 0);
}
}
this.moveEntity(0.0D, 0.10000000149011612D, 0.0D);
this.renderYawOffset = this.rotationYaw += 20.0F;
if (this.deathTicks == 200 && !this.worldObj.isRemote)
{
i = 2000;
while (i > 0)
{
j = EntityXPOrb.getXPSplit(i);
i -= j;
this.worldObj.spawnEntityInWorld(new EntityXPOrb(this.worldObj, this.posX, this.posY, this.posZ, j));
}
this.createEnderPortal(MathHelper.floor_double(this.posX), MathHelper.floor_double(this.posZ));
this.setDead();
}
}
/**
* Creates the ender portal leading back to the normal world after defeating the enderdragon.
*/
private void createEnderPortal(int p_70975_1_, int p_70975_2_)
{
byte b0 = 64;
BlockEndPortal.field_149948_a = true;
byte b1 = 4;
for (int k = b0 - 1; k <= b0 + 32; ++k)
{
for (int l = p_70975_1_ - b1; l <= p_70975_1_ + b1; ++l)
{
for (int i1 = p_70975_2_ - b1; i1 <= p_70975_2_ + b1; ++i1)
{
double d0 = (double)(l - p_70975_1_);
double d1 = (double)(i1 - p_70975_2_);
double d2 = d0 * d0 + d1 * d1;
if (d2 <= ((double)b1 - 0.5D) * ((double)b1 - 0.5D))
{
if (k < b0)
{
if (d2 <= ((double)(b1 - 1) - 0.5D) * ((double)(b1 - 1) - 0.5D))
{
this.worldObj.setBlock(l, k, i1, Blocks.bedrock);
}
}
else if (k > b0)
{
this.worldObj.setBlock(l, k, i1, Blocks.air);
}
else if (d2 > ((double)(b1 - 1) - 0.5D) * ((double)(b1 - 1) - 0.5D))
{
this.worldObj.setBlock(l, k, i1, Blocks.bedrock);
}
else
{
this.worldObj.setBlock(l, k, i1, Blocks.end_portal);
}
}
}
}
}
this.worldObj.setBlock(p_70975_1_, b0 + 0, p_70975_2_, Blocks.bedrock);
this.worldObj.setBlock(p_70975_1_, b0 + 1, p_70975_2_, Blocks.bedrock);
this.worldObj.setBlock(p_70975_1_, b0 + 2, p_70975_2_, Blocks.bedrock);
this.worldObj.setBlock(p_70975_1_ - 1, b0 + 2, p_70975_2_, Blocks.torch);
this.worldObj.setBlock(p_70975_1_ + 1, b0 + 2, p_70975_2_, Blocks.torch);
this.worldObj.setBlock(p_70975_1_, b0 + 2, p_70975_2_ - 1, Blocks.torch);
this.worldObj.setBlock(p_70975_1_, b0 + 2, p_70975_2_ + 1, Blocks.torch);
this.worldObj.setBlock(p_70975_1_, b0 + 3, p_70975_2_, Blocks.bedrock);
this.worldObj.setBlock(p_70975_1_, b0 + 4, p_70975_2_, Blocks.dragon_egg);
BlockEndPortal.field_149948_a = false;
}
/**
* Makes the entity despawn if requirements are reached
*/
protected void despawnEntity() {}
/**
* Return the Entity parts making up this Entity (currently only for dragons)
*/
public Entity[] getParts()
{
return this.dragonPartArray;
}
/**
* Returns true if other Entities should be prevented from moving through this Entity.
*/
public boolean canBeCollidedWith()
{
return false;
}
public World func_82194_d()
{
return this.worldObj;
}
/**
* Returns the sound this mob makes while it's alive.
*/
protected String getLivingSound()
{
return "mob.enderdragon.growl";
}
/**
* Returns the sound this mob makes when it is hurt.
*/
protected String getHurtSound()
{
return "mob.enderdragon.hit";
}
/**
* Returns the volume for the sounds this mob makes.
*/
protected float getSoundVolume()
{
return 5.0F;
}
}