Esempio n. 1
0
        /// <summary>
        /// Computes a new local scale for this object
        /// </summary>
        protected virtual void ComputeNewLocalScale()
        {
            if (_squashing)
            {
                float elapsed = MMMaths.Remap(TimescaleTime - _squashStartedAt, 0f, _squashDuration, 0f, 1f);
                _newLocalScale.x = _initialScale.x + SquashCurve.Evaluate(elapsed) * _squashIntensity;
                _newLocalScale.y = _initialScale.y - SquashCurve.Evaluate(elapsed) * _squashIntensity;
                _newLocalScale.z = _initialScale.z + SquashCurve.Evaluate(elapsed) * _squashIntensity;

                if (elapsed >= 1f)
                {
                    _squashing = false;
                }
            }
            else
            {
                _newLocalScale.x = Mathf.Clamp01(1f / (RemappedVelocity + 0.001f));
                _newLocalScale.y = RemappedVelocity;
                _newLocalScale.z = Mathf.Clamp01(1f / (RemappedVelocity + 0.001f));
                _newLocalScale   = Vector3.Lerp(Vector3.one, _newLocalScale, VelocityMagnitude * Intensity);
            }

            _newLocalScale.x = Mathf.Clamp(_newLocalScale.x, MinimumScale.x, MaximumScale.x);
            _newLocalScale.y = Mathf.Clamp(_newLocalScale.y, MinimumScale.y, MaximumScale.y);

            if (Spring)
            {
                MMMaths.Spring(ref _springScale, _newLocalScale, ref _springVelocity, SpringDamping, SpringFrequency, SpringSpeed, Time.deltaTime);
                _newLocalScale = _springScale;
            }

            this.transform.localScale = _newLocalScale;
        }
Esempio n. 2
0
        /// <summary>
        /// Follows the target, lerping the position or not based on what's been defined in the inspector
        /// </summary>
        protected virtual void FollowTargetPosition()
        {
            if (Target == null)
            {
                return;
            }

            if (!FollowPosition)
            {
                return;
            }

            _newTargetPosition = Target.position + Offset;
            if (!FollowPositionX)
            {
                _newTargetPosition.x = _initialPosition.x;
            }
            if (!FollowPositionY)
            {
                _newTargetPosition.y = _initialPosition.y;
            }
            if (!FollowPositionZ)
            {
                _newTargetPosition.z = _initialPosition.z;
            }

            float trueDistance = 0f;

            _direction   = (_newTargetPosition - this.transform.position).normalized;
            trueDistance = Vector3.Distance(this.transform.position, _newTargetPosition);

            float interpolatedDistance = trueDistance;

            if (InterpolatePosition)
            {
                switch (FollowPositionMode)
                {
                case FollowModes.MMLerp:
                    interpolatedDistance = MMMaths.Lerp(0f, trueDistance, FollowPositionSpeed, Time.deltaTime);
                    interpolatedDistance = ApplyMinMaxDistancing(trueDistance, interpolatedDistance);
                    this.transform.Translate(_direction * interpolatedDistance, Space.World);
                    break;

                case FollowModes.RegularLerp:
                    interpolatedDistance = Mathf.Lerp(0f, trueDistance, Time.deltaTime * FollowPositionSpeed);
                    interpolatedDistance = ApplyMinMaxDistancing(trueDistance, interpolatedDistance);
                    this.transform.Translate(_direction * interpolatedDistance, Space.World);
                    break;

                case FollowModes.MMSpring:
                    _newPosition = this.transform.position;
                    MMMaths.Spring(ref _newPosition, _newTargetPosition, ref _velocity, PositionSpringDamping, PositionSpringFrequency, FollowPositionSpeed, Time.deltaTime);
                    if (_localSpace)
                    {
                        this.transform.localPosition = _newPosition;
                    }
                    else
                    {
                        this.transform.position = _newPosition;
                    }
                    break;
                }
            }
            else
            {
                interpolatedDistance = ApplyMinMaxDistancing(trueDistance, interpolatedDistance);
                this.transform.Translate(_direction * interpolatedDistance, Space.World);
            }

            if (AnchorToInitialPosition)
            {
                if (Vector3.Distance(this.transform.position, _initialPosition) > MaxDistanceToAnchor)
                {
                    if (_localSpace)
                    {
                        this.transform.localPosition = _initialPosition + Vector3.ClampMagnitude(this.transform.localPosition - _initialPosition, MaxDistanceToAnchor);
                    }
                    else
                    {
                        this.transform.position = _initialPosition + Vector3.ClampMagnitude(this.transform.position - _initialPosition, MaxDistanceToAnchor);
                    }
                }
            }
        }