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using UnityEngine;
using System.Collections;
using System.Collections.Generic;
using System.IO;
[RequireComponent(typeof(Rigidbody))]
[RequireComponent(typeof(CapsuleCollider))]
public class EnemyActions : MonoBehaviour {
[Space(10)]
[Header ("Linked components")]
public GameObject target; //current target
public UnitAnimator animator; //animator component
public GameObject GFX; //GFX of this unit
public Rigidbody rb; //rigidbody component
public CapsuleCollider capsule; //capsule collider
[Header("Attack Data")]
public DamageObject[] AttackList; //a list of attacks
public bool PickRandomAttack; //choose a random attack from the list
public float hitZRange = 2; //the z range of all attacks
public float defendChance = 0; //the chance that an incoming attack is defended %
public float hitRecoveryTime = .4f; //the timeout after a hit before the enemy can do an action
public float standUpTime = 1.1f; //the time it takes for this enemy to stand up
public bool canDefendDuringAttack; //true if the enemy is able to defend an incoming attack while he is doing his own attack
public bool AttackPlayerAirborne; //attack a player while he is in the air
private DamageObject lastAttack; //data from the last attack that has taken place
private int AttackCounter = 0; //current attack number
public bool canHitEnemies; //true is this enemy can hit other enemies
public bool canHitDestroyableObjects; //true is this enemy can hit destroyable objects like crates, barrels.
[HideInInspector]
public float lastAttackTime; //time of the last attack
[Header ("Settings")]
public bool pickARandomName; //assign a random name
public TextAsset enemyNamesList; //the list of enemy names
public string enemyName = ""; //the name of this enemy
public float attackRangeDistance = 1.4f; //the distance from the target where the enemy is able to attack
public float closeRangeDistance = 2f; //the distance from the target at close range
public float midRangeDistance = 3f; //the distance from the target at mid range
public float farRangeDistance = 4.5f; //the distance from the target at far range
public float RangeMarging = 1f; //the amount of space that is allowed between the player and enemy before we reposition ourselves
public float walkSpeed = 1.95f; //the speed of a walk
public float walkBackwardSpeed = 1.2f; //the speed of walking backwards
public float sightDistance = 10f; //the distance when we can see the target
public float attackInterval = 1.2f; //the time inbetween attacking
public float rotationSpeed = 15f; //the rotation speed when switching directions
public float lookaheadDistance; //the distance at which we check for obstacles in from of us
public bool ignoreCliffs; //ignore cliff detection
public float KnockdownTimeout = 0f; //the time before we stand up after a knockdown
public float KnockdownUpForce = 5f; //the up force of a knockDown
public float KnockbackForce = 4; //the horizontal force of a knockDown
private LayerMask HitLayerMask; //the layermask for damagable objects
public LayerMask CollisionLayer; //the layers we check collisions with
public bool randomizeValues = true; //randomize values to avoid enemy synchronization
[HideInInspector]
public float zSpreadMultiplier = 2f; //multiplyer for the z distance between enemies
[Header ("Stats")]
public RANGE range;
public ENEMYTACTIC enemyTactic;
public UNITSTATE enemyState;
public DIRECTION currentDirection;
public bool targetSpotted;
public bool cliffSpotted;
public bool wallspotted;
public bool isGrounded;
public bool isDead;
private Vector3 moveDirection;
public float distance;
private Vector3 fixedVelocity;
private bool updateVelocity;
//list of states where the enemy cannot move
private List<UNITSTATE> NoMovementStates = new List<UNITSTATE> {
UNITSTATE.DEATH,
UNITSTATE.ATTACK,
UNITSTATE.DEFEND,
UNITSTATE.GROUNDHIT,
UNITSTATE.HIT,
UNITSTATE.IDLE,
UNITSTATE.KNOCKDOWNGROUNDED,
UNITSTATE.STANDUP,
};
//list of states where the player can be hit
private List<UNITSTATE> HitableStates = new List<UNITSTATE> {
UNITSTATE.ATTACK,
UNITSTATE.DEFEND,
UNITSTATE.HIT,
UNITSTATE.IDLE,
UNITSTATE.KICK,
UNITSTATE.PUNCH,
UNITSTATE.STANDUP,
UNITSTATE.WALK,
UNITSTATE.KNOCKDOWNGROUNDED,
};
[HideInInspector]
public float ZSpread; //the distance between enemies on the z-axis
//[HideInInspector]
public Vector3 distanceToTarget;
private List<UNITSTATE> defendableStates = new List<UNITSTATE> { UNITSTATE.IDLE, UNITSTATE.WALK, UNITSTATE.DEFEND }; //a list of states where the enemy is able to defend an incoming attack
//global event handler for enemies
public delegate void UnitEventHandler(GameObject Unit);
//global event Handler for destroying units
public static event UnitEventHandler OnUnitDestroy;
//---
public void OnStart(){
//assign a name to this enemy
if(pickARandomName) enemyName = GetRandomName();
//set random player as target
GameObject[] players = GameObject.FindGameObjectsWithTag("Player");
if (target == null) target = players[Random.Range(0, players.Length)];
//tell enemymanager to update the list of active enemies
EnemyManager.getActiveEnemies();
//enable defending during an attack
if (canDefendDuringAttack) defendableStates.Add (UNITSTATE.ATTACK);
//set up HitLayerMask
HitLayerMask = 1 << LayerMask.NameToLayer("Player");
if(canHitEnemies)HitLayerMask |= (1 << LayerMask.NameToLayer("Enemy"));
if(canHitDestroyableObjects)HitLayerMask |= (1 << LayerMask.NameToLayer("DestroyableObject"));
}
#region Update
//late Update
public void OnLateUpdate(){
//apply any root motion offsets to parent
if(animator && animator.GetComponent<Animator>().applyRootMotion && animator.transform.localPosition != Vector3.zero) {
Vector3 offset = animator.transform.localPosition;
animator.transform.localPosition = Vector3.zero;
transform.position += offset * (int)currentDirection;
}
}
//physics update
public void OnFixedUpdate() {
if(updateVelocity) {
rb.velocity = fixedVelocity;
updateVelocity = false;
}
}
//set velocity on next fixed update
void SetVelocity(Vector3 velocity) {
fixedVelocity = velocity;
updateVelocity = true;
}
#endregion
#region Attack
//Attack
public void ATTACK() {
//don't attack when player is jumping
var playerMovement = target.GetComponent<PlayerMovement>();
if (!AttackPlayerAirborne && playerMovement != null && playerMovement.jumpInProgress) {
return;
} else {
//init
enemyState = UNITSTATE.ATTACK;
Move(Vector3.zero, 0f);
LookAtTarget(target.transform);
TurnToDir(currentDirection);
//pick random attack
if (PickRandomAttack) AttackCounter = Random.Range (0, AttackList.Length);
//play animation
animator.SetAnimatorTrigger (AttackList[AttackCounter].animTrigger);
//go to the next attack in the list
if (!PickRandomAttack) {
AttackCounter += 1;
if (AttackCounter >= AttackList.Length) AttackCounter = 0;
}
lastAttackTime = Time.time;
lastAttack = AttackList [AttackCounter];
lastAttack.inflictor = gameObject;
//resume
Invoke ("Ready", AttackList [AttackCounter].duration);
}
}
#endregion
#region We are Hit
//Unit was hit
public void Hit(DamageObject d){
if(HitableStates.Contains(enemyState)) {
//only allow ground attacks to hit us when we are knocked down
if(enemyState == UNITSTATE.KNOCKDOWNGROUNDED && !d.isGroundAttack) return;
CancelInvoke();
StopAllCoroutines();
animator.StopAllCoroutines();
Move(Vector3.zero, 0f);
//add attack time out so this enemy cannot attack instantly after a hit
lastAttackTime = Time.time;
//don't hit this unit when it's allready down
if((enemyState == UNITSTATE.KNOCKDOWNGROUNDED || enemyState == UNITSTATE.GROUNDHIT) && !d.isGroundAttack)
return;
//defend an incoming attack
if(!d.DefenceOverride && defendableStates.Contains(enemyState)) {
int rand = Random.Range(0, 100);
if(rand < defendChance) {
Defend();
return;
}
}
//hit sfx
GlobalAudioPlayer.PlaySFXAtPosition(d.hitSFX, transform.position);
//hit particle effect
ShowHitEffectAtPosition(new Vector3(transform.position.x, d.inflictor.transform.position.y + d.collHeight, transform.position.z));
//camera Shake
CamShake camShake = Camera.main.GetComponent<CamShake>();
if(camShake != null)
camShake.Shake(.1f);
//activate slow motion camera
if(d.slowMotionEffect) {
CamSlowMotionDelay cmd = Camera.main.GetComponent<CamSlowMotionDelay>();
if(cmd != null)
cmd.StartSlowMotionDelay(.2f);
}
//substract health
HealthSystem healthSystem = GetComponent<HealthSystem>();
if(healthSystem != null) {
healthSystem.SubstractHealth(d.damage);
if(healthSystem.CurrentHp == 0)
return;
}
//ground attack
if(enemyState == UNITSTATE.KNOCKDOWNGROUNDED) {
StopAllCoroutines();
enemyState = UNITSTATE.GROUNDHIT;
StartCoroutine(GroundHit());
return;
}
//turn towards the direction of the incoming attack
int dir = d.inflictor.transform.position.x > transform.position.x? 1 : -1;
TurnToDir((DIRECTION)dir);
//check for a knockdown
if(d.knockDown) {
StartCoroutine(KnockDownSequence(d.inflictor));
return;
} else {
//default hit
int rand = Random.Range(1, 3);
animator.SetAnimatorTrigger("Hit" + rand);
enemyState = UNITSTATE.HIT;
//add small force from the impact
LookAtTarget(d.inflictor.transform);
animator.AddForce(-KnockbackForce);
//switch enemy state from passive to aggressive when attacked
if(enemyTactic != ENEMYTACTIC.ENGAGE) {
EnemyManager.setAgressive(gameObject);
}
Invoke("Ready", hitRecoveryTime);
return;
}
}
}
//Defend
void Defend(){
enemyState = UNITSTATE.DEFEND;
animator.ShowDefendEffect();
animator.SetAnimatorTrigger ("Defend");
GlobalAudioPlayer.PlaySFX ("DefendHit");
animator.SetDirection (currentDirection);
}
#endregion
#region Check for hit
//checks if we have hit something (Animation Event)
public void CheckForHit() {
//draws a hitbox in front of the character to see which objects are overlapping it
Vector3 boxPosition = transform.position + (Vector3.up * lastAttack.collHeight) + Vector3.right * ((int)currentDirection * lastAttack.collDistance);
Vector3 boxSize = new Vector3 (lastAttack.CollSize/2, lastAttack.CollSize/2, hitZRange/2);
Collider[] hitColliders = Physics.OverlapBox(boxPosition, boxSize, Quaternion.identity, HitLayerMask);
int i=0;
while (i < hitColliders.Length) {
//hit a damagable object
IDamagable<DamageObject> damagableObject = hitColliders[i].GetComponent(typeof(IDamagable<DamageObject>)) as IDamagable<DamageObject>;
if (damagableObject != null && damagableObject != (IDamagable<DamageObject>)this) {
damagableObject.Hit(lastAttack);
}
i++;
}
}
//Display hit box + lookahead sphere in Unity Editor (Debug)
#if UNITY_EDITOR
void OnDrawGizmos(){
//visualize hitbox
if (lastAttack != null && (Time.time - lastAttackTime) < lastAttack.duration) {
Gizmos.color = Color.red;
Vector3 boxPosition = transform.position + (Vector3.up * lastAttack.collHeight) + Vector3.right * ((int)currentDirection * lastAttack.collDistance);
Vector3 boxSize = new Vector3 (lastAttack.CollSize, lastAttack.CollSize, hitZRange);
Gizmos.DrawWireCube (boxPosition, boxSize);
}
//visualize lookahead sphere
Gizmos.color = Color.yellow;
Vector3 offset = -moveDirection.normalized * lookaheadDistance;
Gizmos.DrawWireSphere (transform.position + capsule.center - offset, capsule.radius);
}
#endif
#endregion
#region KnockDown Sequence
//knockDown sequence
IEnumerator KnockDownSequence(GameObject inflictor) {
enemyState = UNITSTATE.KNOCKDOWN;
yield return new WaitForFixedUpdate();
//look towards the direction of the incoming attack
int dir = 1;
if(inflictor != null) dir = inflictor.transform.position.x > transform.position.x? 1 : -1;
currentDirection = (DIRECTION)dir;
animator.SetDirection(currentDirection);
TurnToDir(currentDirection);
//add knockback force
animator.SetAnimatorTrigger("KnockDown_Up");
while(IsGrounded()){
SetVelocity(new Vector3(KnockbackForce * -dir, KnockdownUpForce, 0));
yield return new WaitForFixedUpdate();
}
//going up...
while(rb.velocity.y >= 0) yield return new WaitForFixedUpdate();
//going down
animator.SetAnimatorTrigger ("KnockDown_Down");
while(!IsGrounded()) yield return new WaitForFixedUpdate();
//hit ground
animator.SetAnimatorTrigger ("KnockDown_End");
GlobalAudioPlayer.PlaySFXAtPosition("Drop", transform.position);
animator.SetAnimatorFloat ("MovementSpeed", 0f);
animator.ShowDustEffectLand();
enemyState = UNITSTATE.KNOCKDOWNGROUNDED;
Move(Vector3.zero, 0f);
//cam shake
CamShake camShake = Camera.main.GetComponent<CamShake>();
if (camShake != null) camShake.Shake(.3f);
//dust effect
animator.ShowDustEffectLand();
//stop sliding
float t = 0;
float speed = 2;
Vector3 fromVelocity = rb.velocity;
while (t<1){
SetVelocity(Vector3.Lerp (new Vector3(fromVelocity.x, rb.velocity.y + Physics.gravity.y * Time.fixedDeltaTime, fromVelocity.z), new Vector3(0, rb.velocity.y, 0), t));
t += Time.deltaTime * speed;
yield return new WaitForFixedUpdate();
}
//knockDown Timeout
Move(Vector3.zero, 0f);
yield return new WaitForSeconds(KnockdownTimeout);
//stand up
enemyState = UNITSTATE.STANDUP;
animator.SetAnimatorTrigger ("StandUp");
Invoke("Ready", standUpTime);
}
//ground hit
public IEnumerator GroundHit(){
CancelInvoke();
GlobalAudioPlayer.PlaySFXAtPosition ("EnemyGroundPunchHit", transform.position);
animator.SetAnimatorTrigger ("GroundHit");
yield return new WaitForSeconds(KnockdownTimeout);
if(!isDead) animator.SetAnimatorTrigger ("StandUp");
Invoke("Ready", standUpTime);
}
#endregion
#region Movement
//walk to target
public void WalkTo(float proximityRange, float movementMargin){
Vector3 dirToTarget;
LookAtTarget(target.transform);
enemyState = UNITSTATE.WALK;
//clamp zspread to attackDistance when ENGAGED, otherwise we might not be able to reach the player at all
if (enemyTactic == ENEMYTACTIC.ENGAGE) {
dirToTarget = target.transform.position - (transform.position + new Vector3 (0, 0, Mathf.Clamp(ZSpread, 0, attackRangeDistance)));
} else {
dirToTarget = target.transform.position - (transform.position + new Vector3 (0, 0, ZSpread));
}
//we are too far away, move closer
if (distance >= proximityRange ) {
moveDirection = new Vector3(dirToTarget.x,0,dirToTarget.z);
if (IsGrounded() && !WallSpotted() && !PitfallSpotted()) {
Move(moveDirection.normalized, walkSpeed);
animator.SetAnimatorFloat ("MovementSpeed", rb.velocity.sqrMagnitude);
return;
}
}
//we are too close, move away
if (distance <= proximityRange - movementMargin) {
moveDirection = new Vector3(-dirToTarget.x,0,0);
if (IsGrounded() && !WallSpotted() && !PitfallSpotted()) {
Move(moveDirection.normalized, walkBackwardSpeed);
animator.SetAnimatorFloat ("MovementSpeed", -rb.velocity.sqrMagnitude);
return;
}
}
//otherwise do nothing
Move(Vector3.zero, 0f);
animator.SetAnimatorFloat ("MovementSpeed", 0);
}
//move towards a vector
public void Move(Vector3 vector, float speed){
if(!NoMovementStates.Contains(enemyState)) {
SetVelocity(new Vector3(vector.x * speed, rb.velocity.y + Physics.gravity.y * Time.fixedDeltaTime, vector.z * speed));
} else {
SetVelocity(Vector3.zero);
}
}
//returns true if there is an environment collider in front of us
bool WallSpotted(){
Vector3 Offset = moveDirection.normalized * lookaheadDistance;
Collider[] hitColliders = Physics.OverlapSphere (transform.position + capsule.center + Offset, capsule.radius, CollisionLayer);
int i = 0;
bool hasHitwall = false;
while (i < hitColliders.Length) {
if(CollisionLayer == (CollisionLayer | 1 << hitColliders[i].gameObject.layer)) {
hasHitwall = true;
}
i++;
}
wallspotted = hasHitwall;
return hasHitwall;
}
//returns true if there is a cliff in front of us
bool PitfallSpotted(){
if (!ignoreCliffs) {
float lookDownDistance = 1f;
Vector3 StartPoint = transform.position + (Vector3.up * .3f) + (Vector3.right * (capsule.radius + lookaheadDistance) * moveDirection.normalized.x);
RaycastHit hit;
#if UNITY_EDITOR
Debug.DrawRay (StartPoint, Vector3.down * lookDownDistance, Color.red);
#endif
if (!Physics.Raycast (StartPoint, Vector3.down, out hit, lookDownDistance, CollisionLayer)) {
cliffSpotted = true;
return true;
}
}
cliffSpotted = false;
return false;
}
//returns true if this unit is grounded
public bool IsGrounded(){
float colliderSize = capsule.bounds.extents.y - .1f;
if (Physics.CheckCapsule (capsule.bounds.center, capsule.bounds.center + Vector3.down*colliderSize, capsule.radius, CollisionLayer)) {
isGrounded = true;
return true;
} else {
isGrounded = false;
return false;
}
}
//turn towards a direction
public void TurnToDir(DIRECTION dir) {
transform.rotation = Quaternion.LookRotation(Vector3.forward * (int)dir);
}
#endregion
//show hit effect
public void ShowHitEffectAtPosition(Vector3 pos) {
GameObject.Instantiate (Resources.Load ("HitEffect"), pos, Quaternion.identity);
}
//unit is ready for new actions
public void Ready() {
enemyState = UNITSTATE.IDLE;
animator.SetAnimatorTrigger("Idle");
animator.SetAnimatorFloat ("MovementSpeed", 0f);
Move(Vector3.zero, 0f);
}
//look at the current target
public void LookAtTarget(Transform _target){
if(_target != null){
Vector3 newDir = Vector3.zero;
int dir = _target.transform.position.x >= transform.position.x ? 1 : -1;
currentDirection = (DIRECTION)dir;
if (animator != null) animator.currentDirection = currentDirection;
newDir = Vector3.RotateTowards(transform.forward, Vector3.forward * dir, rotationSpeed * Time.deltaTime, 0.0f);
transform.rotation = Quaternion.LookRotation(newDir);
}
}
//randomizes values
public void SetRandomValues(){
walkSpeed *= Random.Range(.8f, 1.2f);
walkBackwardSpeed *= Random.Range(.8f, 1.2f);
attackInterval *= Random.Range(.7f, 1.5f);
KnockdownTimeout *= Random.Range(.7f, 1.5f);
KnockdownUpForce *= Random.Range(.8f, 1.2f);
KnockbackForce *= Random.Range(.7f, 1.5f);
}
//destroy event
public void DestroyUnit(){
if(OnUnitDestroy != null) OnUnitDestroy(gameObject);
}
//returns a random name
string GetRandomName(){
if(enemyNamesList == null) {
Debug.Log("no list of names was found, please create 'EnemyNames.txt' that contains a list of enemy names and put it in the 'Resources' folder.");
return "";
}
//convert the lines of the txt file to an array
string data = enemyNamesList.ToString();
string cReturns = System.Environment.NewLine + "\n" + "\r";
string[] lines = data.Split(cReturns.ToCharArray());
//pick a random name from the list
string name = "";
int cnt = 0;
while(name.Length == 0 && cnt < 100) {
int rand = Random.Range(0, lines.Length);
name = lines[rand];
cnt += 1;
}
return name;
}
}