protected virtual void PrepareForUpdate()
{
// Set our main thread stuff
numVertices = originalVertices.Length;
numInnerBubbles = InnerBubbles.Count;
time = Time.time;
deltaTime = time - timeLastUpdated;
timeLastUpdated = time;
adjustedRadius = radius * (1 + radiusMultiplier);
bubbleWorldPos = transform.position;
for (int i = 0; i < innerBubbles.Count; i++)
{
InnerBubble b = innerBubbles[i];
b.Active = b.Transform != null && b.Transform.gameObject.activeSelf;
b.InnerPos = transform.InverseTransformPoint(b.Transform.position);
b.DistToCenter = Vector3.Distance(b.Transform.position, transform.position);
if (b.DistToCenter < radius - b.Radius)
{
if (!b.InsideBubble)
{
OnEnterBubble?.Invoke(i);
}
b.InsideBubble = true;
}
else
{
if (b.InsideBubble)
{
OnExitBubble?.Invoke(i);
}
b.InsideBubble = false;
}
innerBubbles[i] = b;
}
}
protected void CalculateInternalBubbleForces(Vector3 currentVertex, int vertexIndex)
{
Vector3 innerBubblePos = zero; //Vector3.zero;
Vector3 vertexDistVector = zero; //Vector3.zero;
Vector3 currentInnerBubbleForce = innerBubbleForces[vertexIndex];
Vector3 newInnerBubbleForce = zero;//Vector3.zero;
for (int i = 0; i < numInnerBubbles; i++)
{
InnerBubble innerBubble = innerBubbles[i];
if (!innerBubble.Active)
{
continue;
}
innerBubblePos = innerBubble.InnerPos;
vertexDistVector.x = currentVertex.x - innerBubblePos.x;
vertexDistVector.y = currentVertex.y - innerBubblePos.y;
vertexDistVector.z = currentVertex.z - innerBubblePos.z;
float innerBubbleRadius = Mathf.Max(minInnerBubbleRadius * adjustedRadius, innerBubble.Radius);
float sqrDistToInnerBubble = (vertexDistVector.x * vertexDistVector.x + vertexDistVector.y * vertexDistVector.y + vertexDistVector.z * vertexDistVector.z);
float normalizedDistToInnerBubble = sqrDistToInnerBubble / (innerBubbleRadius * innerBubbleRadius);
if (normalizedDistToInnerBubble >= 1f)
{
continue;
}
if (normalizedDistToInnerBubble < 0)
{
normalizedDistToInnerBubble = 0;
}
// Make the force direction come from the inner-most point of the inner bubble
innerBubblePos -= (innerBubblePos.normalized * innerBubbleRadius);
// Then re-calculate the direction from the bubble pos to the vertex
vertexDistVector.x = currentVertex.x - innerBubblePos.x;
vertexDistVector.y = currentVertex.y - innerBubblePos.y;
vertexDistVector.z = currentVertex.z - innerBubblePos.z;
// If the inner bubble is outside the radius, push the surface in
// Otherwise, push the surface out
if (innerBubble.DistToCenter > (radius - innerBubble.Radius))
{
vertexDistVector.x = -vertexDistVector.x;
vertexDistVector.y = -vertexDistVector.y;
vertexDistVector.z = -vertexDistVector.z;
}
float forceToInnerBubble = innerBubbleForceTable[(int)(normalizedDistToInnerBubble * (tableResolution - 1))] * innerBubbleForceMultiplier; //innerBubbleForceCurve.Evaluate(normalizedDistToInnerBubble) * innerBubbleForceMultiplier;
newInnerBubbleForce.x += (vertexDistVector.x * forceToInnerBubble);
newInnerBubbleForce.y += (vertexDistVector.y * forceToInnerBubble);
newInnerBubbleForce.z += (vertexDistVector.z * forceToInnerBubble);
if (useVertexColors && innerBubble.UseColor)
{
vertexColor = currentColors[vertexIndex];
float alpha = Mathf.Max(vertexColor.a, normalizedDistToInnerBubble * normalizedDistToInnerBubble);
vertexColor = Color.Lerp(vertexColor, innerBubble.Color, normalizedDistToInnerBubble);
vertexColor.a = alpha;
currentColors[vertexIndex] = vertexColor;
}
}
newInnerBubbleForce = Vector3.Lerp(currentInnerBubbleForce, newInnerBubbleForce, deltaTime * innerBubbleForceInertia);
innerBubbleForces[vertexIndex] = newInnerBubbleForce;
}
