private void Update()
        {
            if (_grabHingeJoint2D != null)
            {
                _grabHingeJoint2D.autoConfigureConnectedAnchor = false;
            }

            if (Activated == false || GrabbedObject != null)
            {
                _grabFocus = null;
                return;
            }


            BehaviorManager.JumpBehavior.Activated = true;
            List <Collider2D> overlappingColliders = new List <Collider2D>();

            if (Physics2D.GetContacts(GrabHitbox, overlappingColliders) > 0)
            {
                for (int i = 0; i < overlappingColliders.Count; i++)
                {
                    if (overlappingColliders[i].gameObject.tag == "Grabbable")
                    {
                        //Debug.Log("Ready to Grab");
                        _grabFocus = overlappingColliders[i].gameObject;
                        BehaviorManager.JumpBehavior.Activated = false;
                        return;
                    }
                }
            }
            _grabFocus = null;
        }
Exemple #2
0
    private void _CheckCollisions()
    {
        Physics2D.GetContacts(boxCollider, contactFilter2D, colliders);

        if (colliders.Count > 0 && colliders[0] != null)
        {
            // Debug.Log("Hit: " + colliders[0].gameObject.name);
            BulletManager.Instance().ReturnBullet(gameObject);
        }
    }
Exemple #3
0
 private void _checkCollision()
 {
     Physics2D.GetContacts(boxCollider, contactFilter, colliders);
     if (colliders.Count > 0)
     {
         if (colliders[0] != null)
         {
             BulletManager.Instance().ReturnBullet(gameObject);
         }
     }
 }
Exemple #4
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    /// <summary>
    /// Обработчик кадра. Обрабатываем ввод пользователя, если нужно - включаем интерфейс магазина.
    /// </summary>
    void Update()
    {
        GameObject player = GameObject.FindGameObjectWithTag("Player");
        int        x      = Physics2D.GetContacts(
            gameObject.GetComponent <Collider2D>(),
            new Collider2D[] { player.GetComponent <Collider2D>() });

        if (Input.GetKeyUp(KeyCode.E) && x > 0)
        {
            SwitchVisible();
        }
    }
Exemple #5
0
    /// <summary>
    /// Обработчик кадра. Проверяем ввод пользователя, если нужно, запускаем процедуру подбора предмета.
    /// </summary>
    private void Update()
    {
        GameObject player = GameObject.FindGameObjectWithTag("Player");
        int        x      = Physics2D.GetContacts(
            gameObject.GetComponent <Collider2D>(),
            new Collider2D[] { player.GetComponent <Collider2D>() });

        if ((Input.GetKeyDown(KeyCode.E)) && x > 0 && pickable)
        {
            PickUp(player.GetComponent <Inventory>());
        }
    }
    private void _CheckCollision()
    {
        Physics2D.GetContacts(circleCollider, contactFilter, colliders);

        if (colliders.Count > 0)
        {
            if (colliders[0] != null)
            {
                BulletManager.Instance().ReturnBullet(PoolType.PLAYER, gameObject);
                colliders.Clear();
            }
        }
    }
Exemple #7
0
        protected override bool IsOnGround()
        {
            var count = Physics2D.GetContacts(collider, contactPoints);

            for (int i = 0; i < count; i++)
            {
                if (Vector2.Angle(contactPoints[i].normal, Vector2.up) < 30)
                {
                    return(true);
                }
            }

            return(false);
        }
Exemple #8
0
        public void OnTriggerStay2D(Collider2D _other)
        {
            detectedEntities = new Collider2D[5];
            Physics2D.GetContacts(this.collider, detectedEntities);
            PlayerManager _detectedPlayer = _other.GetComponentInParent <PlayerManager>();

            if (_detectedPlayer != null)
            {
                if (_detectedPlayer.team == targetTeam)
                {
                    float _distance = (this.transform.position - _detectedPlayer.transform.position).magnitude;
                    WarnPlayer(_distance);
                }
            }
        }
        protected override bool IsOnGround()
        {
            var count = Physics2D.GetContacts(collider, contactPoints);

            for (int i = 0; i < count; i++)
            {
                Debug.DrawRay(contactPoints[i].point, contactPoints[i].normal * 10);
                if (Vector2.Dot(contactPoints[i].normal, Vector2.up) > 0.4f)
                {
                    return(true);
                }
            }

            return(false);
        }
 private void CalculateNextDir(Collision2D coll)
 {
     if (coll.collider.CompareTag("Wall") || coll.collider.CompareTag("Bullet"))
     {
         ContactPoint2D[] contacts = new ContactPoint2D[1];
         int contactCount          = Physics2D.GetContacts(coll.collider, contacts);
         //Debug.Log("contactCount : " + contactCount);
         if (contactCount > 0)
         {
             Vector2 _normalVector = contacts[0].normal;
             //Debug.Log("Normal : " + _normalVector);
             float _angle = Mathf.Asin(Vector2.Dot(moveDir, _normalVector)) * Mathf.Rad2Deg;
             //Debug.Log(_angle);
             nextMoveDir = moveDir - 2 * Vector2.Dot(moveDir, _normalVector) * _normalVector;
             moveDir     = nextMoveDir;
         }
     }
 }
    void Update()
    {
        ContactPoint2D[] cp        = new ContactPoint2D[11];
        Collider2D[]     colliders = new Collider2D[11];

        Physics2D.GetContacts(collider: kolliderKtoryDotyka, contacts: cp);

        kolliderKtoryDotyka.GetContacts(contacts: cp);
        kolliderKtoryDotyka.GetContacts(contactFilter: cf, contacts: cp);
//
//
//		rig.GetContacts (colliders: colliders);
//		rig.GetContacts (contactFilter: cf, colliders: colliders);
//
//		rig.GetContacts (contacts: cp);
//		rig.GetContacts (contactFilter: cf, contacts: cp);
        cps = new ContactPoint2DSerialized(cp [0]);
    }
Exemple #12
0
    /// генерация золота из трупа (в будущем ещё и лута)
    private void LootGeneration()
    {
        GameObject player = GameObject.FindGameObjectsWithTag("Character")[0];

        int x = Physics2D.GetContacts(gameObject.GetComponent <Collider2D>(), new Collider2D[] { player.GetComponent <Collider2D>() });

        if (Input.GetKeyDown(KeyCode.E) && x > 0)
        {
            isGenerated = true;
            var value     = Random.Range(10, 100);
            var inventory = FindObjectOfType <Inventory>();
            inventory.money += value;

            FindObjectOfType <QuestNoticeManager>().ShowNotice(
                new QuestNotice("Нашёл деньги", "+ " + value + " монет"));

            Debug.Log(inventory.money);
        }
    }
Exemple #13
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        private void Update()
        {
            List <Collider2D> overlappingColliders = new List <Collider2D>();

            if (Physics2D.GetContacts(GroundedCollider2D, overlappingColliders) > 0)
            {
                for (int i = 0; i < overlappingColliders.Count; i++)
                {
//                    if (overlappingColliders[i].gameObject.tag == "Ground")
//                    {
                    Grounded = true;
//                    }
                }
            }
            else
            {
                Grounded = false;
            }
        }
Exemple #14
0
    private void UpdateSlopeAngle(Collider2D pColliderTerrain)
    {
        ContactPoint2D[] arrContactPoint = new ContactPoint2D[10];
        int iContactCount = Physics2D.GetContacts(pColliderTerrain, _pCollider_Leg, new ContactFilter2D(), arrContactPoint);

        _fSlopeAngle           = 0f;
        _fSlopeAngle_Signed    = 0f;
        _vecCurrentSlopeNormal = Vector3.zero;

        for (int i = 0; i < iContactCount; i++)
        {
            float fSlopeAngle = Vector2.Angle(arrContactPoint[i].normal, Vector2.up);
            if (_fSlopeAngle == 0f || _fSlopeAngle > fSlopeAngle)
            {
                _fSlopeAngle           = fSlopeAngle;
                _fSlopeAngle_Signed    = Vector2.SignedAngle(arrContactPoint[i].normal, Vector2.up);
                _vecCurrentSlopeNormal = arrContactPoint[i].normal;
            }
        }
    }
Exemple #15
0
    void FixedUpdate()
    {
        character.Move(moveVector * Time.deltaTime);

        if (alive && Physics2D.IsTouching(dropCollider, contactFilter))
        {
            Collider2D[] targets = new Collider2D[1];
            Physics2D.GetContacts(dropCollider, contactFilter, targets);
            if (targets.Length > 0)
            {
                Collider2D coll = targets[0];
                switch (coll.tag)
                {
                case "Player":
                    Player.Players p = coll.gameObject.GetComponent <Player>().playerChoice;
                    GM.ScorePoints(p, 15);
                    break;

                default:
                    break;
                }
            }

            alive = false;

            Rigidbody2D rb = GetComponent <Rigidbody2D>();
            rb.simulated = false;

            dropCollider.enabled   = false;
            spriteRenderer.enabled = false;

            if (pickupParticles != null)
            {
                Vector3 spawn = transform.position;
                spawn.z = -1f;
                GameObject b = GameObject.Instantiate(pickupParticles, spawn, Quaternion.identity);
            }

            DieForReal();
        }
    }
Exemple #16
0
    private void Update()
    {
        bool isGrounded = Physics2D.IsTouchingLayers(col2d, groundLayer);

        if (isGrounded)
        {
            ContactFilter2D filter = new ContactFilter2D();
            filter.layerMask = groundLayer;
            ContactPoint2D[] contacts = new ContactPoint2D[10];
            int nb = Physics2D.GetContacts(col2d, filter, contacts);
            if (nb == 1)
            {
                targetAngle = GetLandingAngle(contacts[0].normal);
            }
        }
        else
        {
            PlotTrajectory(transform.position, rb.velocity, 0.1f, 0.5f, ref targetAngle);
        }

        currentAngle = Mathf.Lerp(currentAngle, targetAngle, Time.deltaTime / timeToRotate);
        SetSpriteAngle(currentAngle);
    }
Exemple #17
0
 // Update is called once per frame
 void FixedUpdate()
 {
     transform.position   = entity.position;
     transform.localScale = entity.localScale;
     Physics2D.GetContacts(LOSCollider, contactFilter, colliders);
 }
Exemple #18
0
    private void OnDrawGizmos()
    {
        if (_pRigidbody == null || _pCollider_Leg == null || (p_bUseCrouching && _pTransform_CeilingCheck == null))
        {
            EventOnAwake_Force();
        }

        if (p_eDebugFilter.ContainEnumFlag(EDebugFilter.Debug_Level_1))
        {
            bool         bHitGround       = false;
            Collider2D   pColliderTerrain = null;
            Collider2D[] arrColliders     = Physics2D.OverlapCircleAll((Vector2)transform.position + _pCollider_Leg.offset, _pCollider_Leg.radius, p_sWhatIsGround);
            for (int i = 0; i < arrColliders.Length; i++)
            {
                if (arrColliders[i].gameObject != gameObject)
                {
                    pColliderTerrain = arrColliders[i];
                    bHitGround       = true;
                    break;
                }
            }

            if (bHitGround)
            {
                Gizmos.color = Color.red;
            }
            else
            {
                Gizmos.color = Color.green;
            }
            Gizmos.DrawWireSphere((Vector2)transform.position + _pCollider_Leg.offset, _pCollider_Leg.radius);


            if (bHitGround && p_bUseSlopeSliding)
            {
                Gizmos.color = Color.green;
                ContactPoint2D[] arrContactPoint = new ContactPoint2D[10];
                int iContactCount = Physics2D.GetContacts(pColliderTerrain, _pCollider_Leg, new ContactFilter2D(), arrContactPoint);
                for (int i = 0; i < iContactCount; i++)
                {
                    float fSlopeAngle = Vector2.Angle(arrContactPoint[i].normal, Vector2.up);
                    Gizmos.DrawWireSphere(arrContactPoint[i].point, 1f);
                    UnityEditor.Handles.Label(arrContactPoint[i].point, "fSlopeAngle : " + fSlopeAngle);
                    Gizmos.DrawRay(arrContactPoint[i].point, arrContactPoint[i].normal * 1f);
                }
            }


            if (p_bUseCrouching)
            {
                if (Physics2D.OverlapCircle(_pTransform_CeilingCheck.position, p_fCeilingRadius, p_sWhatIsGround))
                {
                    Gizmos.color = Color.red;
                }
                else
                {
                    Gizmos.color = Color.green;
                }
                Gizmos.DrawWireSphere(_pTransform_CeilingCheck.position, p_fCeilingRadius);
            }


            if (p_eWallSlidingDetect == EWallSlidingDetect.Collider || p_eWallSlidingDetect == EWallSlidingDetect.RayCasting)
            {
                Color pColorLight_Red   = new Color(0.7f, 0f, 0f, 0.5f);
                Color pColorLight_Green = new Color(0f, 0.7f, 0f, 0.5f);

                if (_pBoxCollider_LeftCheck == null || _pBoxCollider_RightCheck == null)
                {
                    EventOnAwake_Force();
                }

                if (Physics2D.OverlapBox((Vector2)_pBoxCollider_LeftCheck.transform.position + _pBoxCollider_LeftCheck.offset, _pBoxCollider_LeftCheck.size, 0f, p_sWhatIsGround))
                {
                    Gizmos.color = pColorLight_Red;
                }
                else
                {
                    Gizmos.color = pColorLight_Green;
                }
                Gizmos.DrawWireCube((Vector2)_pBoxCollider_LeftCheck.transform.position + _pBoxCollider_LeftCheck.offset, _pBoxCollider_LeftCheck.size);

                if (Physics2D.OverlapBox((Vector2)_pBoxCollider_RightCheck.transform.position + _pBoxCollider_RightCheck.offset, _pBoxCollider_RightCheck.size, 0f, p_sWhatIsGround))
                {
                    Gizmos.color = pColorLight_Red;
                }
                else
                {
                    Gizmos.color = pColorLight_Green;
                }
                Gizmos.DrawWireCube((Vector2)_pBoxCollider_RightCheck.transform.position + _pBoxCollider_RightCheck.offset, _pBoxCollider_RightCheck.size);
            }


            if (p_eWallSlidingDetect == EWallSlidingDetect.RayCasting)
            {
                // 왠지 모르게 Bounds가 잘 구해지지 않아서 직접 구현
                Vector2 vecRayPos = Vector2.zero;
                vecRayPos.x = _pBoxCollider_LeftCheck.transform.position.x + _pBoxCollider_LeftCheck.offset.x + (_pBoxCollider_LeftCheck.size.x / 2f);
                vecRayPos.y = _pBoxCollider_LeftCheck.transform.position.y + _pBoxCollider_LeftCheck.offset.y - (_pBoxCollider_LeftCheck.size.y / 2f);
                if (Physics2D.Raycast(vecRayPos, Vector2.left, _pBoxCollider_LeftCheck.size.x, p_sWhatIsGround))
                {
                    Gizmos.color = Color.red;
                }
                else
                {
                    Gizmos.color = Color.green;
                }
                Gizmos.DrawRay(vecRayPos, Vector2.left * _pBoxCollider_LeftCheck.size.x);


                vecRayPos.y = _pBoxCollider_LeftCheck.transform.position.y + _pBoxCollider_LeftCheck.offset.y + (_pBoxCollider_LeftCheck.size.y / 2f);
                if (Physics2D.Raycast(vecRayPos, Vector2.left, _pBoxCollider_LeftCheck.size.x, p_sWhatIsGround))
                {
                    Gizmos.color = Color.red;
                }
                else
                {
                    Gizmos.color = Color.green;
                }
                Gizmos.DrawRay(vecRayPos, Vector2.left * _pBoxCollider_LeftCheck.size.x);



                vecRayPos.x = _pBoxCollider_RightCheck.transform.position.x + _pBoxCollider_RightCheck.offset.x - (_pBoxCollider_RightCheck.size.x / 2f);
                vecRayPos.y = _pBoxCollider_RightCheck.transform.position.y + _pBoxCollider_RightCheck.offset.y - (_pBoxCollider_RightCheck.size.y / 2f);
                if (Physics2D.Raycast(vecRayPos, Vector2.right, _pBoxCollider_RightCheck.size.x, p_sWhatIsGround))
                {
                    Gizmos.color = Color.red;
                }
                else
                {
                    Gizmos.color = Color.green;
                }
                Gizmos.DrawRay(vecRayPos, Vector2.right * _pBoxCollider_RightCheck.size.x);


                vecRayPos.y = _pBoxCollider_RightCheck.transform.position.y + _pBoxCollider_RightCheck.offset.y + (_pBoxCollider_RightCheck.size.y / 2f);
                if (Physics2D.Raycast(vecRayPos, Vector2.right, _pBoxCollider_RightCheck.size.x, p_sWhatIsGround))
                {
                    Gizmos.color = Color.red;
                }
                else
                {
                    Gizmos.color = Color.green;
                }
                Gizmos.DrawRay(vecRayPos, Vector2.right * _pBoxCollider_RightCheck.size.x);
            }

            float   fPosYOffset = 1f;
            Vector3 vecPos      = transform.position + new Vector3(1f, 1f);


            UnityEditor.Handles.Label(vecPos, "Movement State ---------------------------------------------");
            vecPos.y -= fPosYOffset;

            UnityEditor.Handles.Label(vecPos, " _vecAddForce_Custom : " + _vecAddForce_Custom);
            vecPos.y -= fPosYOffset;

            UnityEditor.Handles.Label(vecPos, "_fMoveDelta_0_1 : " + _fMoveDelta_0_1 + " p_fMoveVelocity : " + p_fMoveVelocity);
            vecPos.y -= fPosYOffset;

            UnityEditor.Handles.Label(vecPos, "_pRigidbody.velocityPrev : " + _queueVelocityPrev.ToList().ToStringList());
            vecPos.y -= fPosYOffset;

            UnityEditor.Handles.Label(vecPos, "_pRigidbody.velocity : " + _pRigidbody.velocity);
            vecPos.y -= fPosYOffset;

            UnityEditor.Handles.Label(vecPos, "_bInputAddForce_Custom : " + _bInputAddForce_Custom + " _vecAddForce_Custom : " + _vecAddForce_Custom);
            vecPos.y -= fPosYOffset * 2f;



            UnityEditor.Handles.Label(vecPos, "Platformer State ---------------------------------------------");
            vecPos.y -= fPosYOffset;

            UnityEditor.Handles.Label(vecPos, "_ePlatformerState_Flags_Prev : " + p_ePlatformerState_Prev);
            vecPos.y -= fPosYOffset;

            UnityEditor.Handles.Label(vecPos, "_ePlatformerState_Flags_Current : " + p_ePlatformerState_Current);
            vecPos.y -= fPosYOffset * 2f;



            UnityEditor.Handles.Label(vecPos, "Platform Check State -----------------------------------------");
            vecPos.y -= fPosYOffset;

            UnityEditor.Handles.Label(vecPos, "_bIsGround : " + p_bIsGround + " _bIsCrouch : " + p_bIsCrouch + " _bIsMoving : " + p_bIsMoving + " _bIsJumping : " + p_bIsJumping);
            vecPos.y -= fPosYOffset;

            UnityEditor.Handles.Label(vecPos, "_bCheckIsFalling : " + _bCheckIsFalling + " _bIsFalling : " + _bIsFalling);
            vecPos.y -= fPosYOffset;

            UnityEditor.Handles.Label(vecPos, "_bIsWallSliding : " + _bIsWallSliding + " _bLeftDirection_IsBlocked : " + p_bLeftDirection_IsBlocked + " _bRightDirection_IsBlocked : " + p_bRightDirection_IsBlocked);
            vecPos.y -= fPosYOffset * 2f;


            if (p_bUseSlopeSliding)
            {
                UnityEditor.Handles.Label(vecPos, "Slope Check State -----------------------------------------");
                vecPos.y -= fPosYOffset;

                UnityEditor.Handles.Label(vecPos, "p_bIsSlopeSliding : " + p_bIsSlopeSliding + " _fSlopeAngle : " + _fSlopeAngle + " _fSlopeAngle_Signed : " + _fSlopeAngle_Signed + " _vecCurrentSlopeNormal : " + _vecCurrentSlopeNormal);
                vecPos.y -= fPosYOffset;
            }
        }
    }
Exemple #19
0
    void FixedUpdate()
    {
        if (destroyWhenOutOfView)
        {
            Vector3 screenPoint = Camera.main.WorldToViewportPoint(transform.position);
            bool    onScreen    = screenPoint.z > 0 &&
                                  screenPoint.x > -0.01f &&
                                  screenPoint.x <1 + 0.01f &&
                                                 screenPoint.y> -0.01f &&
                                  screenPoint.y < 1 + 0.01f;
            if (!onScreen)
            {
                Destroy(this.gameObject);
            }
        }

        if (timeBeforeAutodestruct > 0f)
        {
            timer += Time.deltaTime;
            if (timer > timeBeforeAutodestruct)
            {
                Destroy(this.gameObject);
            }
        }

        if (alive && Physics2D.IsTouching(bulletCollider, contactFilter))
        {
            Collider2D[] targets = new Collider2D[1];
            Physics2D.GetContacts(bulletCollider, contactFilter, targets);
            if (targets.Length > 0)
            {
                Collider2D coll = targets[0];
                switch (coll.tag)
                {
                case "Player":
                    //Debug.Log("hit player");
                    break;

                case "Enemy":
                    //Debug.Log("hit enemy");
                    HealthLife hl = coll.gameObject.GetComponent <HealthLife>();
                    if (hl != null)
                    {
                        hl.TakeHit(damage);
                    }
                    break;

                default:
                    break;
                }
            }

            alive = false;

            bulletCollider.enabled = false;
            spriteRenderer.enabled = false;

            if (particles != null)
            {
                particles.Play();
            }

            Invoke("DieForReal", 2f);
        }
    }
 // Update is called once per frame
 void FixedUpdate()
 {
     Physics2D.GetContacts(LOSCollider, contactFilter, colliders);
 }
Exemple #21
0
 static public IEnumerable <ContactPoint2D> GetContacts(Collider2D collider1, Collider2D collider2)
 {
     return(CONTACT_POINT_POOL.UseEnumerateExpand(delegate(ContactPoint2D[] contacts) {
         return Physics2D.GetContacts(collider1, collider2, ContactFilter2DExtensions.NONE, contacts);
     }));
 }
Exemple #22
0
    void Update()
    {
        if (curEnergy <= 0f || energyTransferScale == 0f || !mTriggerBoxColl || (block && block.state == (int)EntityState.Dead))
        {
            return;
        }

        float curTime = Time.time;

        if (curTime - mLastUpdateTime >= energyTransferDelay)
        {
            mLastUpdateTime = curTime;

            //setup energy to transfer
            bool isDeath = explodeOnOverCapacity && isCapacityReached;

            float energyTransfer = curEnergy * energyTransferScale;
            curEnergy -= energyTransfer;

            mReceivers.Clear();

            int contactCount = Physics2D.GetContacts(mTriggerBoxColl, mCollContacts);
            if (contactCount > 0)
            {
                M8.EntityBase killEnt = null;

                for (int i = 0; i < contactCount; i++)
                {
                    var coll = mCollContacts[i];

                    //kill?
                    if (!string.IsNullOrEmpty(killTag) && !killEnt && coll.gameObject.CompareTag(killTag))
                    {
                        killEnt = coll.GetComponent <M8.EntityBase>();
                        continue;
                    }

                    var conductive = coll.GetComponent <ConductiveController>();

                    //check criterias
                    if (coll == mTriggerBoxColl)
                    {
                        continue;
                    }
                    if (conductive.energyReceiveScale == 0f) //cannot receive energy?
                    {
                        continue;
                    }
                    if (conductive.isCapacityReached) //capacity already reached
                    {
                        continue;
                    }
                    if (conductive.IsReceiver(this)) //are we already a receiver from this conductor?
                    {
                        continue;
                    }

                    mReceivers.Add(new Contact(coll, conductive));
                }

                //distribute energy transfer
                if (mReceivers.Count > 0)
                {
                    float energyPerReceiver = energyTransfer / mReceivers.Count;

                    for (int i = 0; i < mReceivers.Count; i++)
                    {
                        var ctrl = mReceivers[i].ctrl;

                        ctrl.curEnergy += energyPerReceiver;

                        if (ctrl.receivedCallback != null)
                        {
                            ctrl.receivedCallback(this, energyPerReceiver);
                        }
                    }
                }

                //kill entity?
                if (killEnt)
                {
                    //check if it is within kill bounds
                    if (colliderBody)
                    {
                        Vector2 pos = transform.worldToLocalMatrix.MultiplyPoint3x4(killEnt.transform.position);
                        Vector2 boxPos = mTriggerBoxColl.offset;
                        Vector2 min = boxPos - mKillExt, max = boxPos + mKillExt;
                        if (pos.x >= min.x && pos.x <= max.x && pos.y >= min.y && pos.y <= max.y)
                        {
                            killEnt.state = (int)EntityState.Dead;
                        }
                    }
                    else
                    {
                        killEnt.state = (int)EntityState.Dead;
                    }
                }
            }

            //die from capacity reached?
            if (isDeath && block && !block.isReleased)
            {
                block.state = (int)EntityState.Dead;
            }
        }
    }
        protected override bool IsDetectedGround()
        {
            var count = Physics2D.GetContacts(collider, contactPoints);

            return(count > 0);
        }
Exemple #24
0
 // Update is called once per frame
 void FixedUpdate()
 {
     Physics2D.GetContacts(LosColliderp, Contactfilterp, collidep);
 }