public void KnowWhenThereIsNoCollision()
{
var originalVector = Vector2.right;
var newVectors = VectorSplitter.Split(originalVector, this.collisionEvent);
Assert.AreEqual(CollisionAlignment.NoSplit, newVectors.Alignment);
}
public void KnowWhenThereIsANonOpposedCollision(Vector2 originalVector, Vector2 collisionNormal)
{
this.collisionEvent.percentToHit = 0.5f;
this.collisionEvent.normal = collisionNormal;
var newVectors = VectorSplitter.Split(originalVector, this.collisionEvent);
Assert.AreEqual(CollisionAlignment.NonOpposed, newVectors.Alignment);
}
public void KnowWhenOriginalVectorAndCollisionNormalAreAligned(Vector2 originalVector, Vector2 collisionNormal)
{
this.collisionEvent.percentToHit = 0.4f;
this.collisionEvent.normal = collisionNormal;
var newVectors = VectorSplitter.Split(originalVector, this.collisionEvent);
Assert.AreEqual(CollisionAlignment.Aligned, newVectors.Alignment);
}
public void ResultInTheSecondReturnedVectorBeingPerpindicularToTheNormal(Vector2 originalVector, Vector2 collisionNormal, Vector2 reflectedVector)
{
this.collisionEvent.percentToHit = 0.4f;
this.collisionEvent.normal = collisionNormal;
var newVectors = VectorSplitter.Split(originalVector, this.collisionEvent);
Assert.Less(Vector2.Distance(reflectedVector.normalized, newVectors.Second.normalized), Common.FloatTolerance);
}
public void ResultInTheFirstReturnedVectorAndTheOriginalVectorPointingTheSameDirection(Vector2 originalVector, Vector2 collisionNormal)
{
this.collisionEvent.percentToHit = 0.4f;
this.collisionEvent.normal = collisionNormal;
var newVectors = VectorSplitter.Split(originalVector, this.collisionEvent);
Assert.Less(Vector2.Distance(originalVector.normalized, newVectors.First.normalized), Common.FloatTolerance);
}
public void ReturnsSecondVectorAsZeroIfThereIsNoCollision()
{
var originalVector = new Vector2(4, 2);
this.collisionEvent.percentToHit = 1;
var newVectors = VectorSplitter.Split(originalVector, this.collisionEvent);
Assert.AreEqual(0, newVectors.Second.magnitude, Common.FloatTolerance);
}
public void ReturnsSecondVectorAsZeroIfCollisionIsOpposite()
{
var originalVector = new Vector2(4, 2);
this.collisionEvent.percentToHit = 0.4f;
this.collisionEvent.normal = originalVector * -1f;
var newVectors = VectorSplitter.Split(originalVector, this.collisionEvent);
Assert.AreEqual(0, newVectors.Second.magnitude, Common.FloatTolerance);
}
public void ReturnsFirstVectorWithMagnitudeProportionalToCollisionTime(float timeToCollision, float normalRotation)
{
var originalVector = new Vector2(1, 3);
this.collisionEvent.percentToHit = timeToCollision;
this.collisionEvent.normal = (originalVector * -1f).Rotate(normalRotation);
var newVectors = VectorSplitter.Split(originalVector, this.collisionEvent);
Assert.AreEqual(timeToCollision, newVectors.First.magnitude / originalVector.magnitude, Common.FloatTolerance);
}
public void ReturnsSecondVectorWithMagnitudeProportionalToCollisionTimeIfNotOpposite(float timeToCollision, float normalRotation)
{
var originalVector = new Vector2(4, 2);
this.collisionEvent.percentToHit = timeToCollision;
this.collisionEvent.normal = (originalVector * -1f).Rotate(normalRotation);
var newVectors = VectorSplitter.Split(originalVector, this.collisionEvent);
var expectedMagnitude = Mathf.Cos((90 - Mathf.Abs(normalRotation)) * Mathf.Deg2Rad) * (1 - timeToCollision);
Assert.AreEqual(expectedMagnitude, newVectors.Second.magnitude / originalVector.magnitude, Common.FloatTolerance);
}
private void ApplyVelocity(Vector2 velocity, bool isInputVelocity, int recurseDepth = 0)
{
var collision = new BoxProjection(this.Collider.bounds, this.Position, velocity).Project();
var adjustmentVectors = VectorSplitter.Split(velocity, collision);
this.Position += adjustmentVectors.First;
if (collision)
{
if (this.lastCollisionNormal == Vector2.zero || collision.normal.y > this.lastCollisionNormal.y)
{
this.lastCollisionNormal = collision.normal;
}
if ((Vector2.Angle(collision.normal, Vector2.up) < 45 && adjustmentVectors.Alignment == CollisionAlignment.Opposed) ||
collision.normal.y < 0)
{
// Ground / Ceiling
if (!isInputVelocity)
{
this.Velocity = Vector2.zero;
}
}
else
{
// Anything else
if (!isInputVelocity)
{
this.Velocity = this.Velocity.Project(adjustmentVectors.Second);
}
if (adjustmentVectors.Second.sqrMagnitude > 0)
{
// HACK: Just give up. We can't seem to get this right.
if (recurseDepth >= 3)
{
this.Position += adjustmentVectors.Second;
}
else
{
this.ApplyVelocity(adjustmentVectors.Second, isInputVelocity, recurseDepth + 1);
}
}
}
}
else if (isInputVelocity)
{
this.ClampToSlopes(velocity);
}
}
public void ReturnOriginalVectorWhenThereIsNoCollision(Vector2 originalVector, Vector2 goalVector)
{
var newVectors = VectorSplitter.Split(originalVector, this.collisionEvent);
Assert.AreEqual(goalVector, newVectors.First);
}
