public override bool Simulate(StoryboardData data, StoryboardNode currentNode, StoryboardNode nextNode, SimulationTargetData targetData)
{
Vector3 finalPosition = Vector3.zero;
Quaternion finalRotation = Quaternion.identity;
int counter = 0;
while (counter < data.m_implementationTimeout)
{
Vector3 onSphere1 = targetData.m_targetPosition + Random.onUnitSphere * m_radiusLB;
Vector3 onSphere2 = targetData.m_targetPosition + Random.onUnitSphere * m_radiusUB;
finalPosition = Vector3.Lerp(onSphere1, onSphere2, Random.value);
finalRotation = Quaternion.LookRotation(targetData.m_targetPosition - finalPosition);
if (CheckVisibility(data, currentNode, finalPosition, finalRotation, targetData))
{
SetSimulationData(currentNode, finalPosition, finalRotation, data.m_defaultFOV);
return(true);
}
counter++;
}
SetSimulationData(currentNode, finalPosition, finalRotation, data.m_defaultFOV);
return(false);
}
public override bool Simulate(StoryboardData data, StoryboardNode currentNode, StoryboardNode nextNode, SimulationTargetData targetData)
{
return(true);
}
public override bool Simulate(StoryboardData data, StoryboardNode currentNode, StoryboardNode nextNode, SimulationTargetData targetData)
{
Vector3 finalPosition = Vector3.zero;
Quaternion finalRotation = Quaternion.identity;
int counter = 0;
while (counter < data.m_implementationTimeout)
{
float distance = Random.Range(m_distanceLB, m_distanceUB);
float directionMultiplier = m_fixedDirection ? (m_isRight ? 1.0f : -1.0f) : ((Random.Range(0.0f, 1.0f) < 0.5f) ? -1.0f : 1.0f);
finalPosition = targetData.m_targetPosition + targetData.m_targetRight * directionMultiplier * distance;
finalRotation = Quaternion.LookRotation(targetData.m_targetPosition - finalPosition);
if (CheckVisibility(data, currentNode, finalPosition, finalRotation, targetData))
{
SetSimulationData(currentNode, finalPosition, finalRotation, data.m_defaultFOV);
return(true);
}
counter++;
}
SetSimulationData(currentNode, finalPosition, finalRotation, data.m_defaultFOV);
return(false);
}
protected bool CheckVisibility(StoryboardData data, StoryboardNode currentnode, Vector3 finalPosition, Quaternion finalRotation, SimulationTargetData targetData)
{
ProxySet proxySet = data.m_proxySets[currentnode.m_index];
if (proxySet.CheckIfContains(finalPosition))
{
return(false);
}
RaycastHit hit;
Vector3 dir = (targetData.m_targetPosition - finalPosition);
if (Physics.SphereCast(finalPosition, data.m_visibilityCapsuleRadius, dir.normalized, out hit, dir.magnitude))
{
if (targetData.m_target != null && hit.transform == targetData.m_target)
{
return(true);
}
else if (targetData.m_target != null && hit.transform != targetData.m_target)
{
return(Vector3.Distance(hit.point, targetData.m_target.position) < data.m_visibilityContactThreshold);
}
else if (targetData.m_target == null)
{
return(Vector3.Distance(hit.point, targetData.m_targetPosition) < data.m_visibilityContactThreshold);
}
else
{
return(false);
}
}
return(true);
}
public abstract bool Simulate(StoryboardData data, StoryboardNode currentNode, StoryboardNode nextNode, SimulationTargetData targetData);
public bool Simulate(StoryboardWindow window, Transform cameraTransform, StoryboardData data, TimelineAsset timeline, PlayableDirector playable,
ref int simulatedMarkerCount, string debugPositioning, string debugLook, string debugTrack, string debugFX, RenderTexture rt, bool simulateAll, int simulatedIndex = -1)
{
StoryboardNode previousNode = simulateAll ? null : (simulatedIndex == 0 ? null : data.m_nodes[simulatedIndex - 1]);
int iStart = simulateAll ? 0 : simulatedIndex;
int iEnd = simulateAll ? data.m_nodes.Count : simulatedIndex + 1;
for (int i = iStart; i < iEnd; i++)
{
StoryboardNode currentNode = data.m_nodes[i];
if (currentNode.m_isLocked)
{
previousNode = currentNode;
simulatedMarkerCount++;
continue;
}
// Calculate target position
SimulationTargetData targetData = new SimulationTargetData();
targetData.m_target = null;
targetData.m_targetForward = Vector3.forward;
targetData.m_targetRight = Vector3.right;
targetData.m_targetUp = Vector3.up;
targetData.m_targetPosition = Vector3.zero;
for (int j = 0; j < currentNode.m_marker.m_targets.Length; j++)
{
var objects = Resources.FindObjectsOfTypeAll <StoryboardTarget>().Where(obj => obj.gameObject.name == currentNode.m_marker.m_targets[j]);
if (objects.Count <StoryboardTarget>() > 1)
{
Debug.LogError("Multiple storyboard targets with the same name is found. Please make sure each target has a unique name to avoid any confusions.");
currentNode.m_simulationData = null;
data.m_nodes.Clear();
return(false);
}
GameObject go = GameObject.Find(currentNode.m_marker.m_targets[j]);
if (go == null)
{
Debug.LogError("The target " + currentNode.m_marker.m_targets[j] + " could not be found, aborting simulation.");
currentNode.m_simulationData = null;
data.m_nodes.Clear();
return(false);
}
targetData.m_targetPosition += go.transform.position;
if (currentNode.m_marker.m_targets.Length == 1)
{
targetData.m_target = go.transform;
targetData.m_targetPosition = targetData.m_target.position;
targetData.m_targetForward = targetData.m_target.forward;
targetData.m_targetRight = targetData.m_target.right;
targetData.m_targetUp = targetData.m_target.up;
}
}
// Finalize target position as mid point.
targetData.m_targetPosition /= currentNode.m_marker.m_targets.Length;
StoryboardDirectorData dirData = data.m_directorData;
DecisionTechniquePreference pref = data.m_decisionTechnique;
float dramThresh = data.m_dramatizationThreshold;
float paceThresh = data.m_paceThreshold;
bool useFX = data.m_useFX;
bool simulationSuccessful = false;
int timeoutCounter = 0;
StoryboardNode nextNode = i < data.m_nodes.Count - 1 ? data.m_nodes[i + 1] : null;
while (!simulationSuccessful && timeoutCounter < data.m_techniqueTimeout)
{
currentNode.m_positioningTechnique = GetTechnique("Positioning", previousNode, currentNode, dirData, pref, dramThresh, paceThresh, useFX);
currentNode.m_simulationData = new SimulationData();
simulationSuccessful = currentNode.m_positioningTechnique.m_implementation.Simulate(data, currentNode, nextNode, targetData);
timeoutCounter++;
}
// Set simulation's target data.
currentNode.m_simulationData.m_targetData = targetData;
//currentNode.m_lookTechnique = GetTechnique("Look", previousNode, currentNode, dirData, pref, dramThresh, paceThresh, useFX);
//currentNode.m_trackTechnique = GetTechnique("Track", previousNode, currentNode, dirData, pref, dramThresh, paceThresh, useFX);
//currentNode.m_fxTechnique = GetTechnique("FX", previousNode, currentNode, dirData, pref, dramThresh, paceThresh, useFX);
// D E B U G
if (debugPositioning != "")
{
currentNode.m_trackTechnique = data.m_directorData.m_categories[0].m_techniques.Find(o => o.m_title.CompareTo(debugPositioning) == 0);
}
if (debugLook != "")
{
currentNode.m_lookTechnique = data.m_directorData.m_categories[1].m_techniques.Find(o => o.m_title.CompareTo(debugLook) == 0);
}
if (debugTrack != "")
{
currentNode.m_trackTechnique = data.m_directorData.m_categories[2].m_techniques.Find(o => o.m_title.CompareTo(debugTrack) == 0);
}
if (debugFX != "")
{
currentNode.m_fxTechnique = data.m_directorData.m_categories[3].m_techniques.Find(o => o.m_title.CompareTo(debugFX) == 0);
}
ApplySimulationPropertiesToCamera(currentNode.m_simulationData, cameraTransform);
currentNode.m_simulationData.m_snapshots.Add(TakeCameraSnapshot(cameraTransform.GetComponent <Camera>(), rt));
previousNode = currentNode;
simulatedMarkerCount++;
targetData = null;
}
// Make sure we reset back the playable.
playable.time = 0.0;
playable.Evaluate();
window.OnSimulationEnd();
return(true);
}
public override bool Simulate(StoryboardData data, StoryboardNode currentNode, StoryboardNode nextNode, SimulationTargetData targetData)
{
float distance = 0.0f;
Vector3 fwPosition = Vector3.zero;
Vector3 rightPosition = Vector3.zero;
Vector3 leftPosition = Vector3.zero;
Vector3 upPosition = Vector3.zero;
Vector3 downPosition = Vector3.zero;
Vector3 finalPosition = Vector3.zero;
Quaternion finalRotation = Quaternion.identity;
int counter = 0;
while (counter < data.m_implementationTimeout)
{
float t = Random.Range(-m_xArc, m_xArc);
distance = Random.Range(m_distanceLB, m_distanceUB);
fwPosition = targetData.m_targetPosition + targetData.m_targetForward * distance;
rightPosition = targetData.m_targetPosition + targetData.m_targetRight * distance;
leftPosition = targetData.m_targetPosition + -targetData.m_targetRight * distance;
upPosition = targetData.m_targetPosition + targetData.m_targetUp * distance;
downPosition = targetData.m_targetPosition + -targetData.m_targetUp * distance;
finalPosition = fwPosition;
if (t > 0)
{
finalPosition = MathUtility.SampleParabola(fwPosition, leftPosition, m_arcHeight, t, Quaternion.LookRotation(leftPosition - finalPosition) * Vector3.right);
}
else
{
finalPosition = MathUtility.SampleParabola(fwPosition, rightPosition, m_arcHeight, -t, Quaternion.LookRotation(rightPosition - finalPosition) * Vector3.left);
}
t = Random.Range(-m_yArc, m_yArc);
if (t > 0)
{
finalPosition = MathUtility.SampleParabola(finalPosition, upPosition, m_arcHeight, t, Quaternion.LookRotation(upPosition - finalPosition) * Vector3.up);
}
else
{
finalPosition = MathUtility.SampleParabola(finalPosition, downPosition, m_arcHeight, -t, Quaternion.LookRotation(downPosition - finalPosition) * Vector3.down);
}
finalRotation = Quaternion.LookRotation(targetData.m_targetPosition - finalPosition);
if (CheckVisibility(data, currentNode, finalPosition, finalRotation, targetData))
{
SetSimulationData(currentNode, finalPosition, finalRotation, data.m_defaultFOV);
return(true);
}
counter++;
}
SetSimulationData(currentNode, finalPosition, finalRotation, data.m_defaultFOV);
return(false);
}
