Unity aggiunge nemici a un platform 2D
Creare un platform in Unity è relativamente facile, ma aggiungere nemici funzionali potrebbe non essere così semplice.
In questo post, mostrerò come creare un gioco platform 2D con un'IA nemica.
Generalmente nei platform 2D, il giocatore può solo camminare avanti/indietro, saltare e in alcuni casi salire/scendere la scala, se la mappa è multilivello. Sapendo che potremmo utilizzare un approccio modulare in cui lo stesso controller è condiviso tra il giocatore e l'IA.
Passaggio 1: creare gli script
Iniziamo creando tutti gli script necessari. Controlla il codice sorgente qui sotto:
Ladder2D.cs
//Copyright @2018 sharpcoderblog.com
//You are free to use this script in free or commercial projects
//Selling the source code of this script is not allowed
using UnityEngine;
public class Ladder2D : MonoBehaviour
{
Collider2D ladderCollider;
[HideInInspector]
public Vector3 boundsCenter;
void Start()
{
//t = transform;
ladderCollider = GetComponent<Collider2D>();
if (ladderCollider)
{
ladderCollider.isTrigger = true;
ladderCollider.gameObject.layer = 2; //Set ladder collider layer to IgnoreRaycast
}
}
void OnTriggerEnter2D(Collider2D other)
{
if (other.CompareTag("Player"))
{
if (ladderCollider)
{
boundsCenter = ladderCollider.bounds.center;
}
other.SendMessage("AssignLadder", this, SendMessageOptions.DontRequireReceiver);
}
}
void OnTriggerExit2D(Collider2D other)
{
if (other.CompareTag("Player"))
{
other.SendMessage("RemoveLadder", this, SendMessageOptions.DontRequireReceiver);
}
}
}
PlayerController2D.cs
//Copyright @2018 sharpcoderblog.com
//You are free to use this script in free or commercial projects
//Selling the source code of this script is not allowed
using System.Collections.Generic;
using UnityEngine;
public class PlayerController2D : MonoBehaviour
{
//Move player in 2D space
public float maxSpeed = 2.57f;
public float jumpHeight = 6.47f;
public float playerHP = 100;
[HideInInspector]
public bool facingRight = true;
[HideInInspector]
public float moveDirection = 0;
[HideInInspector]
public Rigidbody2D r2d;
[HideInInspector]
public Collider2D mainCollider;
[HideInInspector]
public Vector2 playerDimensions;
[HideInInspector]
public bool isGrounded = false;
//Check every collider except Player and Ignore Raycast
LayerMask layerMask = ~(1 << 2 | 1 << 8); //Make sure our player has Layer 8
[HideInInspector]
public Ladder2D currentLadder;
List<Ladder2D> allLadders = new List<Ladder2D>();
float moveDirectionY = 0;
float distanceFromLadder;
[HideInInspector]
public bool isAttachedToLadder = false;
bool ladderGoingDown = false;
//bool isMovingOnLadder = false;
[HideInInspector]
public bool canGoDownOnLadder = false;
[HideInInspector]
public bool canClimbLadder = false;
//Bot movement directions
[HideInInspector]
public bool isBot = false;
[HideInInspector]
public float botMovement = 0;
[HideInInspector]
public float botVerticalMovement = 0;
[HideInInspector]
public bool botJump = false;
[HideInInspector]
public Transform t;
[HideInInspector]
public int selectedWeaponTmp = 0;
float gravityScale;
// Use this for initialization
void Start()
{
r2d = GetComponent<Rigidbody2D>();
r2d.freezeRotation = true;
mainCollider = GetComponent<Collider2D>();
t = transform;
gravityScale = r2d.gravityScale;
selectedWeaponTmp = -100;
facingRight = t.localScale.x > 0;
//sr = GetComponent<SpriteRenderer>();
playerDimensions = BotController2D.ColliderDimensions(GetComponent<Collider2D>());
}
void OnDisable()
{
r2d.bodyType = RigidbodyType2D.Static;
r2d.velocity = Vector3.zero;
}
// Update is called once per frame
void Update()
{
if (!isBot)
{
if ((Input.GetKey(KeyCode.A) || Input.GetKey(KeyCode.D)) &&
(isGrounded || r2d.velocity.x > 0.01f || isAttachedToLadder))
{
moveDirection = Input.GetKey(KeyCode.A) ? -1 : 1;
}
else
{
if (isGrounded || r2d.velocity.magnitude < 0.01f)
moveDirection = 0;
}
}
else
{
if (botMovement != 0 && (isGrounded || r2d.velocity.x > 0.01f))
{
moveDirection = botMovement < 0 ? -1 : 1;
}
else
{
if (isGrounded || r2d.velocity.magnitude < 0.01f)
moveDirection = 0;
}
}
//Change facing position
if (moveDirection != 0)
{
if (moveDirection > 0 && !facingRight)
{
facingRight = true;
}
if (moveDirection < 0 && facingRight)
{
facingRight = false;
}
}
if (facingRight)
{
if (t.localScale.x < 0)
{
t.localScale = new Vector3(Mathf.Abs(t.localScale.x), t.localScale.y, transform.localScale.z);
}
}
else
{
if (t.localScale.x > 0)
{
t.localScale = new Vector3(-Mathf.Abs(t.localScale.x), t.localScale.y, t.localScale.z);
}
}
//Vector2 velocityTmp = r2d.velocity;
bool canGoDownTmp = false;
// LADDER CONTROL START
if (currentLadder)
{
distanceFromLadder = Mathf.Abs(currentLadder.boundsCenter.x - t.position.x);
canClimbLadder = distanceFromLadder < 0.34f;
if (!isAttachedToLadder)
{
if (canClimbLadder)
{
if (currentLadder.boundsCenter.y > t.position.y)
{
if (!isBot)
{
if (Input.GetKey(KeyCode.W))
{
isAttachedToLadder = true;
}
}
else
{
if (botVerticalMovement > 0)
{
isAttachedToLadder = true;
}
}
}
if (currentLadder.boundsCenter.y < t.position.y)
{
if (!isBot)
{
if (Input.GetKey(KeyCode.S))
{
isAttachedToLadder = true;
}
}
else
{
if (botVerticalMovement < 0)
{
isAttachedToLadder = true;
}
}
canGoDownTmp = true;
}
}
if (isAttachedToLadder)
{
r2d.gravityScale = 0;
moveDirection = 0;
moveDirectionY = 0;
}
}
else
{
//Make our collider trigger if we stand on top of the ladder (To prevent collision with the ground while going down)
mainCollider.isTrigger = currentLadder.boundsCenter.y < t.position.y;
//Ladder movement
if ((!isBot && Input.GetKey(KeyCode.W)) || (isBot && botVerticalMovement > 0))
{
moveDirectionY = 3.97f;
ladderGoingDown = false;
//For sound controller
//isMovingOnLadder = true;
}
else if ((!isBot && Input.GetKey(KeyCode.S)) || (isBot && botVerticalMovement < 0))
{
moveDirectionY = -3.97f;
ladderGoingDown = true;
if (!mainCollider.isTrigger && isGrounded)
{
//RemoveLadder(currentLadder);
isAttachedToLadder = false;
mainCollider.isTrigger = false;
r2d.gravityScale = gravityScale;
moveDirectionY = 0;
}
//For sound controller
//isMovingOnLadder = true;
}
else
{
//isMovingOnLadder = false;
moveDirectionY = 0;
}
}
if (distanceFromLadder > playerDimensions.x * 2)
{
RemoveLadder(currentLadder);
}
}
canGoDownOnLadder = canGoDownTmp;
// LADDER CONTROL END
if (!isBot)
{
//Jumping
if (Input.GetKeyDown(KeyCode.W))
{
Jump();
}
}
else
{
if (botJump)
{
botJump = false;
Jump();
}
}
if (!isBot)
{
//Weapon firing
if (Input.GetKeyDown(KeyCode.LeftControl))
{
Attack();
}
}
}
void FixedUpdate()
{
Bounds colliderBounds = mainCollider.bounds;
Vector3 groundCheckPos = colliderBounds.min + new Vector3(colliderBounds.size.x * 0.5f, 0.1f, 0);
//Check if player is grounded
isGrounded = Physics2D.OverlapCircle(groundCheckPos, 0.25f, layerMask);
Debug.DrawLine(groundCheckPos, groundCheckPos - new Vector3(0, 0.25f, 0), isGrounded ? Color.green : Color.red);
//Apply player velocity
r2d.velocity = new Vector2((moveDirection) * maxSpeed, isAttachedToLadder ? moveDirectionY : r2d.velocity.y);
}
void AssignLadder(Ladder2D ladderTmp)
{
currentLadder = ladderTmp;
allLadders.Add(ladderTmp);
}
void RemoveLadder(Ladder2D ladderTmp)
{
//print("On trigger out");
allLadders.Remove(ladderTmp);
if (currentLadder == ladderTmp)
{
currentLadder = null;
if (allLadders.Count > 0)
{
currentLadder = allLadders[allLadders.Count - 1];
}
}
if (isAttachedToLadder && !currentLadder)
{
isAttachedToLadder = false;
//r2d.bodyType = RigidbodyType2D.Dynamic;
mainCollider.isTrigger = false;
r2d.gravityScale = gravityScale;
r2d.velocity = Vector3.zero;
if (!ladderGoingDown)
{
r2d.velocity = new Vector2(r2d.velocity.x, 1.47f);
}
ladderGoingDown = false;
}
}
public void Jump()
{
if (isGrounded && !isAttachedToLadder)
{
r2d.velocity = new Vector2(r2d.velocity.x, jumpHeight);
//Tip: Play jump sound here
}
}
public void Attack()
{
print(gameObject.name + " is Attacking");
//Tip: Write your attack function here (ex. Raycast toward the enemy to inflict the damage)
}
}
CameraFollow2D.cs
//Copyright @2018 sharpcoderblog.com
//You are free to use this script in free or commercial projects
//Selling the source code of this script is not allowed
using UnityEngine;
public class CameraFollow2D : MonoBehaviour
{
public Transform target;
public Vector3 offset = new Vector3(0, 2.8f, 0);
public bool smoothFollow = true;
Vector2 moveToPos;
bool beginMove = false;
float distanceTmp = 0f;
// Update is called once per frame
void LateUpdate()
{
if (!target)
return;
if (smoothFollow)
{
distanceTmp = ((target.position + offset) - transform.position).sqrMagnitude;
if (beginMove)
{
moveToPos = Vector3.Lerp(moveToPos, target.position + offset, Time.fixedDeltaTime * 7.75f);
transform.position = new Vector3(moveToPos.x, moveToPos.y, -10);
if (distanceTmp < 0.05f * 0.05f)
{
beginMove = false;
}
}
else
{
if (distanceTmp > 0.5f * 0.5f)
{
beginMove = true;
}
}
}
else
{
transform.position = new Vector3(target.position.x, target.position.y, -10);
}
}
void StopFollowing()
{
beginMove = false;
}
}
BotController2D.cs
//Copyright @2018 sharpcoderblog.com
//You are free to use this script in free or commercial projects
//Selling the source code of this script is not allowed
using System.Collections;
using UnityEngine;
public class BotController2D : MonoBehaviour
{
//This script will handle bot control
public enum BotType { Enemy, Friendly }
public BotType botType = BotType.Enemy;
public enum BotDifficulty { Easy, Medium, Hard }
public BotDifficulty botDifficulty = BotDifficulty.Medium;
public enum InitialState { Idle, Explore }
public InitialState initialState = InitialState.Idle; //Should the Bot stand in place until approached or begin exploring the level right away
public bool canJump = true; //Can this bot jump?
public enum CurrentState { Idle, MovingLeft, MovingRight, GoinUPLadder, GoingDownLadder, Attack }
CurrentState currentState;
InitialState appliedState;
PlayerController2D pc2d;
RaycastHit2D hitLeft;
RaycastHit2D hitRight;
RaycastHit2D groundHit;
Vector3 leftOrigin;
Vector3 rightOrigin;
float distanceLeft = -1;
float distanceRight = -1;
int encounteredLadders = 0;
int encounteredLaddersCacche = 0;
Ladder2D previousLadder;
Ladder2D lastAttachedLadder;
bool previousCanGoDownOnLadder = false;
bool previousCanClimbLadder = false;
//Everything except "Player" and "IgnoreRaycast" layers
LayerMask layerMask = ~(1 << 2 | 1 << 8);
//Only "Player" layer
LayerMask playerLayerMask = 1 << 8;
float timeMotionless = 0.0f;
bool statePause = false;
float trVelocity;
Vector3 previousPos;
Collider2D[] detectedPlayers = new Collider2D[0];
Collider2D[] previousDetectedPlayers = new Collider2D[0];
PlayerController2D enemyToFollow;
int followPriority = 0; //0 = Easy, 1 = Medium (This player inflicted the damage)
[HideInInspector]
public Transform t;
bool checkingTotalEnemies = false;
bool runAway = false;
int attackingFromLeft = 0;
int attackingFromRight = 0;
//Limit attack rate for easy bots
float attackTimer = 0;
float nextAttackTime = 0;
Camera mainCamera;
float cameraWidth; //Horizontal size of camera view
// Use this for initialization
void Start()
{
pc2d = GetComponent<PlayerController2D>();
pc2d.isBot = true;
t = transform;
appliedState = initialState;
if (Random.Range(-10, 10) > 0)
{
StartCoroutine(StatePause(CurrentState.Idle, true));
}
}
// Update is called once per frame
void FixedUpdate()
{
//Draw rays back and forth
if (!mainCamera)
{
mainCamera = Camera.main;
cameraWidth = mainCamera.aspect * mainCamera.orthographicSize;
}
rightOrigin = t.position + t.right * (pc2d.playerDimensions.x / 2f);
hitRight = Physics2D.Raycast(rightOrigin, t.right, cameraWidth, layerMask);
if (hitRight)
{
Debug.DrawLine(rightOrigin, hitRight.point, Color.red);
distanceRight = hitRight.distance;
}
else
{
Debug.DrawLine(rightOrigin, rightOrigin + t.right * cameraWidth, Color.cyan);
distanceRight = -1;
}
leftOrigin = t.position - t.right * (pc2d.playerDimensions.x / 2f);
hitLeft = Physics2D.Raycast(leftOrigin, -t.right, cameraWidth, layerMask);
if (hitLeft)
{
Debug.DrawLine(leftOrigin, hitLeft.point, Color.red);
distanceLeft = hitLeft.distance;
}
else
{
Debug.DrawLine(leftOrigin, leftOrigin - t.right * cameraWidth, Color.cyan);
distanceLeft = -1;
}
if (appliedState == InitialState.Explore)
{
if (currentState == CurrentState.Idle)
{
if (!statePause)
{
//Decide which direction to move
if (distanceRight == -1 && distanceLeft == -1)
{
//Decide random direaction
currentState = Random.Range(-10, 10) > 0 ? CurrentState.MovingRight : CurrentState.MovingLeft;
}
else if (distanceRight == -1 && distanceLeft >= 0)
{
currentState = CurrentState.MovingRight;
}
else if (distanceRight >= 0 && distanceLeft == -1)
{
currentState = CurrentState.MovingLeft;
}
else if (distanceRight > distanceLeft)
{
currentState = CurrentState.MovingRight;
}
else if (distanceRight < distanceLeft)
{
currentState = CurrentState.MovingLeft;
}
}
}
else if (currentState == CurrentState.MovingLeft)
{
if (!statePause && pc2d.isGrounded)
{
pc2d.botMovement = -1;
float jumpHeightTmp = pc2d.jumpHeight * 0.25f;
if (distanceLeft > 0 && distanceLeft < pc2d.playerDimensions.x)
{
if (hitLeft && canJump &&
!Physics2D.Linecast(t.position + t.up * jumpHeightTmp, (t.position + t.up * jumpHeightTmp) - t.right * pc2d.playerDimensions.x * 2, layerMask) &&
Random.Range(-2, 10) > 0
)
{
StartCoroutine(DoJump());
}
else
{
if (!enemyToFollow)
{
StartCoroutine(StatePause(CurrentState.Idle, true));
}
}
}
/*if(!Physics2D.Linecast(t.position + t.up * jumpHeightTmp, (t.position + t.up * jumpHeightTmp) - t.right * pc2d.playerDimensions.x * 2)){
Debug.DrawLine(t.position + t.up * jumpHeightTmp, (t.position + t.up * jumpHeightTmp) - t.right * pc2d.playerDimensions.x * 2, Color.yellow);
}
else
{
Debug.DrawLine(t.position + t.up * jumpHeightTmp, (t.position + t.up * jumpHeightTmp) - t.right * pc2d.playerDimensions.x * 2, Color.red);
}*/
//Jump if there is no groun in front
groundHit = Physics2D.Raycast(leftOrigin, -t.up, pc2d.playerDimensions.y * 2.1f, layerMask);
if (groundHit)
{
Debug.DrawLine(leftOrigin, groundHit.point, Color.red);
}
else
{
Debug.DrawLine(leftOrigin, leftOrigin - t.up * (pc2d.playerDimensions.y * 2.1f), Color.blue);
if (canJump)
{
StartCoroutine(DoJump());
}
else
{
//StartCoroutine(StatePause(CurrentState.MovingRight, true));
StartCoroutine(CheckEnemiesEnumerator(1, 0, false));
}
}
}
}
else if (currentState == CurrentState.MovingRight)
{
if (!statePause && pc2d.isGrounded)
{
pc2d.botMovement = 1;
float jumpHeightTmp = pc2d.jumpHeight * 0.25f;
if (distanceRight > 0 && distanceRight < pc2d.playerDimensions.x)
{
if (hitRight && canJump &&
!Physics2D.Linecast(t.position + t.up * jumpHeightTmp, (t.position + t.up * jumpHeightTmp) + t.right * pc2d.playerDimensions.x * 2, layerMask) &&
Random.Range(-2, 10) > 0
)
{
StartCoroutine(DoJump());
}
else
{
if (!enemyToFollow)
{
StartCoroutine(StatePause(CurrentState.Idle, true));
}
}
}
/*if (!Physics2D.Linecast(t.position + t.up * jumpHeightTmp, (t.position + t.up * jumpHeightTmp) + t.right * pc2d.playerDimensions.x * 2))
{
Debug.DrawLine(t.position + t.up * jumpHeightTmp, (t.position + t.up * jumpHeightTmp) + t.right * pc2d.playerDimensions.x * 2, Color.yellow);
}
else
{
Debug.DrawLine(t.position + t.up * jumpHeightTmp, (t.position + t.up * jumpHeightTmp) + t.right * pc2d.playerDimensions.x * 2, Color.red);
}*/
//Jump if there is no groun in front
groundHit = Physics2D.Raycast(rightOrigin, -t.up, pc2d.playerDimensions.y * 2.1f, layerMask);
if (groundHit)
{
Debug.DrawLine(rightOrigin, groundHit.point, Color.red);
}
else
{
Debug.DrawLine(rightOrigin, rightOrigin - t.up * (pc2d.playerDimensions.y * 2.1f), Color.blue);
if (canJump)
{
StartCoroutine(DoJump());
}
else
{
//StartCoroutine(StatePause(CurrentState.MovingLeft, true));
StartCoroutine(CheckEnemiesEnumerator(0, 1, false));
}
}
}
}
else if (currentState == CurrentState.GoinUPLadder)
{
if (!statePause)
{
pc2d.botVerticalMovement = 1;
if (!pc2d.currentLadder)
{
StartCoroutine(StatePause(CurrentState.Idle, true));
}
}
}
else if (currentState == CurrentState.GoingDownLadder)
{
if (!statePause)
{
pc2d.botVerticalMovement = -1;
if (!pc2d.currentLadder)
{
StartCoroutine(StatePause(CurrentState.Idle, true));
}
}
}
else if (currentState == CurrentState.Attack)
{
if (!statePause)
{
if (!enemyToFollow)
{
StartCoroutine(StatePause(CurrentState.Idle, true));
}
else
{
//Firing weapon
if (attackTimer >= nextAttackTime)
{
//Check if player is above us and jump
if (enemyToFollow.t.position.y > t.position.y && enemyToFollow.t.position.y - t.position.y > pc2d.playerDimensions.y * 0.95f)
{
if (Random.Range(-5, 10) > 0)
{
StartCoroutine(DoJump());
}
}
//
pc2d.Attack();
if (botDifficulty == BotDifficulty.Easy)
{
attackTimer = 0;
nextAttackTime = Random.Range(0.25f, 0.95f);
}
if (botDifficulty == BotDifficulty.Medium)
{
attackTimer = 0;
nextAttackTime = Random.Range(0.01f, 0.37f);
}
if (botDifficulty == BotDifficulty.Hard)
{
attackTimer = 0;
nextAttackTime = Random.Range(0.01f, 0.24f);
}
}
else
{
attackTimer += Time.deltaTime;
}
if (enemyToFollow && !checkingTotalEnemies)
{
if (enemyToFollow.t.position.x > t.position.x && !pc2d.facingRight)
{
pc2d.facingRight = true;
}
if (enemyToFollow.t.position.x < t.position.x && pc2d.facingRight)
{
pc2d.facingRight = false;
}
attackingFromLeft = 0;
attackingFromRight = 0;
//Check if there too many player attacking us and run away
for (int i = 0; i < detectedPlayers.Length; i++)
{
if (detectedPlayers[i])
{
BotController2D bcTmp = detectedPlayers[i].GetComponent<BotController2D>();
if (bcTmp && bcTmp.botType != botType && bcTmp.enemyToFollow == pc2d && bcTmp.currentState == CurrentState.Attack)
{
if (bcTmp.t.position.x > t.position.x)
{
attackingFromRight++;
}
else
{
attackingFromLeft++;
}
}
}
}
//If the value playerHP from PlayerController2D get too low, and the bot is being attacked, increase the probability to run away
if (attackingFromRight >= 2 || attackingFromLeft >= 2 || (pc2d.playerHP < 70 && botDifficulty == BotDifficulty.Hard && (attackingFromRight > 0 || attackingFromLeft > 0)) || (pc2d.playerHP < 40 && botDifficulty == BotDifficulty.Medium && (attackingFromRight > 0 || attackingFromLeft > 0)))
{
StartCoroutine(CheckEnemiesEnumerator(attackingFromLeft, attackingFromRight, false));
}
}
}
}
}
}
if (pc2d.currentLadder && (previousLadder != pc2d.currentLadder || previousCanGoDownOnLadder != pc2d.canGoDownOnLadder || previousCanClimbLadder != pc2d.canClimbLadder))
{
previousLadder = pc2d.currentLadder;
previousCanGoDownOnLadder = pc2d.canGoDownOnLadder;
previousCanClimbLadder = pc2d.canClimbLadder;
if (!pc2d.isAttachedToLadder)
{
if (pc2d.canClimbLadder)
{
encounteredLadders++;
if ((lastAttachedLadder != pc2d.currentLadder || encounteredLadders > 1) && !statePause)
{
if (Random.Range(-10, 10) > 0)
{
if (pc2d.canGoDownOnLadder)
{
StartCoroutine(StatePause(CurrentState.GoingDownLadder, true));
}
else
{
StartCoroutine(StatePause(CurrentState.GoinUPLadder, true));
}
}
}
}
}
else
{
encounteredLadders = 0;
lastAttachedLadder = pc2d.currentLadder;
}
}
trVelocity = ((t.position - previousPos).magnitude) / Time.deltaTime;
previousPos = t.position;
if (trVelocity < 0.01f && !statePause)
{
timeMotionless += Time.deltaTime;
if (timeMotionless > 0.5f)
{
StartCoroutine(StatePause(CurrentState.Idle, true));
}
}
else
{
timeMotionless = 0;
}
//Detect and attack enemy players
detectedPlayers = Physics2D.OverlapCircleAll(t.position, cameraWidth, playerLayerMask);
if (!enemyToFollow)
{
if (!runAway)
{
if (previousDetectedPlayers.Length != detectedPlayers.Length || (previousDetectedPlayers.Length > 0 && detectedPlayers.Length > 0 && previousDetectedPlayers[0] != detectedPlayers[0]))
{
previousDetectedPlayers = detectedPlayers;
for (int i = 0; i < detectedPlayers.Length; i++)
{
BotController2D bcTmp = detectedPlayers[i].GetComponent<BotController2D>();
PlayerController2D pc2dTmp = null;
if (!bcTmp)
{
pc2dTmp = detectedPlayers[i].GetComponent<PlayerController2D>();
}
if ((pc2dTmp && botType == BotType.Enemy) || (bcTmp && bcTmp.botType != botType))
{
Vector3 enemyPos = bcTmp ? bcTmp.t.position : pc2dTmp.t.position;
float yDistance = Mathf.Abs(enemyPos.y - t.position.y);
if (yDistance < pc2d.playerDimensions.y * 2)
{
if (!enemyToFollow || Mathf.Abs(enemyPos.x - t.position.x) < Mathf.Abs(enemyToFollow.t.position.x - t.position.x))
{
enemyToFollow = bcTmp ? bcTmp.pc2d : pc2dTmp;
appliedState = InitialState.Explore;
}
}
}
}
}
}
}
else
{
float yDistance = enemyToFollow.t.position.y - t.position.y;
float xDistance = enemyToFollow.t.position.x - t.position.x;
if (Mathf.Abs(yDistance) >= pc2d.playerDimensions.y * 2 || Mathf.Abs(xDistance) > cameraWidth || !enemyToFollow.enabled)
{
enemyToFollow = null;
}
else
{
if (Mathf.Abs(xDistance) > pc2d.playerDimensions.x * 1.45f)
{
if (!statePause && pc2d.botVerticalMovement == 0)
{
if (xDistance > 0)
{
if (currentState != CurrentState.MovingRight)
{
statePauseCoroutine = StartCoroutine(StatePause(CurrentState.MovingRight, false));
}
}
else if (xDistance < 0)
{
if (currentState != CurrentState.MovingLeft)
{
statePauseCoroutine = StartCoroutine(StatePause(CurrentState.MovingLeft, false));
}
}
}
else
{
StopPauseCoroutine();
}
}
else
{
if (pc2d.botVerticalMovement == 0)
{
if (currentState != CurrentState.Attack)
{
if (!statePause)
{
statePauseCoroutine = StartCoroutine(StatePause(CurrentState.Attack, true));
}
}
else
{
if (Mathf.Abs(xDistance) < pc2d.playerDimensions.x / 3 && !checkingTotalEnemies)
{
//print("Enemies are too close!!!");
StartCoroutine(CheckEnemiesEnumerator(attackingFromLeft, attackingFromRight, true));
}
}
}
}
}
}
}
Coroutine statePauseCoroutine = null;
void StopPauseCoroutine()
{
if (statePauseCoroutine != null)
{
StopCoroutine(statePauseCoroutine);
statePauseCoroutine = null;
statePause = false;
}
}
IEnumerator StatePause(CurrentState newState, bool stopMovement)
{
//print("State pause");
statePause = true;
if (stopMovement)
{
pc2d.botMovement = 0;
pc2d.botVerticalMovement = 0;
}
currentState = newState;
if (newState == CurrentState.Attack && botDifficulty == BotDifficulty.Hard)
{
yield return new WaitForSeconds(Random.Range(0.15f, 0.45f));
}
else
{
yield return new WaitForSeconds(Random.Range(0.45f, 0.75f));
}
statePause = false;
}
IEnumerator DoJump()
{
//print("Do jump");
statePause = true;
pc2d.botJump = true;
yield return new WaitForSeconds(0.65f);
statePause = false;
}
IEnumerator CheckEnemiesEnumerator(int attackingFromLeft, int attackingFromRight, bool doNotRunAway)
{
checkingTotalEnemies = true;
//print("CHECKING FOR TOTAL ENEMIES");
yield return new WaitForSeconds(Random.Range(0.27f, 0.75f));
if (Random.Range(-10, 10) > 0)
{
runAway = true;
enemyToFollow = null;
if (attackingFromLeft > attackingFromRight)
{
currentState = CurrentState.MovingRight;
}
else
{
currentState = CurrentState.MovingLeft;
}
}
checkingTotalEnemies = false;
if (runAway)
{
if (doNotRunAway)
{
//Simply walk away a bit
yield return new WaitForSeconds(Random.Range(0.37f, 0.75f));
}
else
{
//Run away
yield return new WaitForSeconds(Random.Range(1.57f, 2.45f));
}
runAway = false;
}
}
public static Vector2 ColliderDimensions(Collider2D sp)
{
return new Vector2(sp.bounds.max.x - sp.bounds.min.x, sp.bounds.max.y - sp.bounds.min.y);
}
}
Passaggio 2: imposta il giocatore e i nemici
Ora è il momento di impostare il nostro giocatore e l'IA nemica usando gli script sopra.
Impostazione della nostra istanza Player
- Crea un nuovo GameObject e chiamalo "Player"
- Cambia il tag di quell'oggetto in "Player"
- Cambia il livello dell'oggetto in 8 (se non c'è il livello 8 nella selezione, aggiungine uno facendo clic su Aggiungi livello..., chiamalo "Player")
- Crea un altro GameObject, chiamalo "Body" e aggiungi un componente SpriteRenderer
- Assegna il tuo player Sprite a un "Body" e spostalo all'interno dell'oggetto "Player"
- Seleziona l'oggetto "Player" e aggiungi i componenti CapsuleCollider2D, Rigidbody2D e PlayerController2D
- Ridimensiona il CapsuleCollider2D finché non si adatta allo Sprite del giocatore
Come puoi vedere PlayerController2D ha un paio di variabili, la maggior parte di esse sono autoesplicative, tuttavia, una di esse ha bisogno di un po' di spiegazione:
PlayerHP - questo valore viene utilizzato in BotController2D per decidere se l'IA deve scappare quando i suoi HP sono troppo bassi.
Utilizzare la variabile PlayerHP durante l'implementazione della funzione di attacco (selezionare void Attack() alla fine dello script PlayerController2D.cs).
Configurazione della fotocamera del lettore
- Seleziona la fotocamera principale e aggiungi il componente CameraFollow2D
- Assegna il giocatore alla variabile Target
- Opzionalmente puoi modificare la variabile Offset (se non vuoi che la fotocamera sia centrata esattamente nel mezzo)
Installazione di una scala
PlayerController2D supporta anche scale scalabili.
Configurare una nuova scala è molto semplice:
- Crea un nuovo GameObject e chiamalo "Ladder"
- Cambia il suo livello in "IgnoreRaycast"
- Crea un altro oggetto di gioco con uno SpriteRenderer e assegna uno sprite della tua scala e spostalo all'interno dell'oggetto Ladder
- Aggiungi i componenti BoxCollider2D e Ladder2D all'oggetto "Ladder"
- Ridimensiona le dimensioni del collider in modo che corrispondano allo Sprite ladder e contrassegnalo come Trigger
Impostare l'IA nemica
- Innanzitutto, vai al pannello Physics2D e disabilita una collisione tra il livello Player, in modo che i robot e i giocatori non siano bloccati tra loro.
- Duplica l'istanza Player
- Aggiungere un componente BotController2D
- Il robot è ora pronto
Guarda il video qui sotto per vedere l'IA nemica in azione (l'istanza bianca è il nostro giocatore, le istanze rosse sono controllate dall'IA):