public void ProcessAnimation(AnimationStream stream)
{
float jobWeight = stream.GetInputWeight(0);
if (jobWeight > 0f)
{
AffineTransform overrideTx;
if (source.IsValid(stream))
{
var sourceLocalTx = new AffineTransform(source.GetLocalPosition(stream), source.GetLocalRotation(stream));
var sourceToSpaceRot = cache.Get <Quaternion>(sourceToCurrSpaceRotIdx);
overrideTx = Quaternion.Inverse(sourceToSpaceRot) * (sourceInvLocalBindTx * sourceLocalTx) * sourceToSpaceRot;
}
else
{
overrideTx = new AffineTransform(cache.Get <Vector3>(positionIdx), Quaternion.Euler(cache.Get <Vector3>(rotationIdx)));
}
Space overrideSpace = (Space)cache.GetRaw(spaceIdx);
var posW = cache.GetRaw(positionWeightIdx) * jobWeight;
var rotW = cache.GetRaw(rotationWeightIdx) * jobWeight;
switch (overrideSpace)
{
case Space.World:
driven.SetPosition(stream, Vector3.Lerp(driven.GetPosition(stream), overrideTx.translation, posW));
driven.SetRotation(stream, Quaternion.Lerp(driven.GetRotation(stream), overrideTx.rotation, rotW));
break;
case Space.Local:
driven.SetLocalPosition(stream, Vector3.Lerp(driven.GetLocalPosition(stream), overrideTx.translation, posW));
driven.SetLocalRotation(stream, Quaternion.Lerp(driven.GetLocalRotation(stream), overrideTx.rotation, rotW));
break;
case Space.Pivot:
var drivenLocalTx = new AffineTransform(driven.GetLocalPosition(stream), driven.GetLocalRotation(stream));
overrideTx = drivenLocalTx * overrideTx;
driven.SetLocalPosition(stream, Vector3.Lerp(drivenLocalTx.translation, overrideTx.translation, posW));
driven.SetLocalRotation(stream, Quaternion.Lerp(drivenLocalTx.rotation, overrideTx.rotation, rotW));
break;
default:
break;
}
}
else
{
AnimationRuntimeUtils.PassThrough(stream, driven);
}
}
public void ProcessAnimation(AnimationStream stream)
{
float jobWeight = stream.GetInputWeight(0);
if (jobWeight > 0f)
{
float sumWeights = AnimationRuntimeUtils.Sum(cache, sourceWeightStartIdx, sources.Length);
if (sumWeights < k_Epsilon)
{
return;
}
float weightScale = sumWeights > 1f ? 1f / sumWeights : 1f;
Vector3 currentWPos = driven.GetPosition(stream);
Quaternion currentWRot = driven.GetRotation(stream);
var accumTx = new AffineTransform(currentWPos, currentWRot);
for (int i = 0; i < sources.Length; ++i)
{
var normalizedWeight = cache.GetRaw(sourceWeightStartIdx, i) * weightScale;
if (normalizedWeight < k_Epsilon)
{
continue;
}
var sourceTx = new AffineTransform(sources[i].GetPosition(stream), sources[i].GetRotation(stream));
sourceTx *= sourceOffsets[i];
accumTx.rotation = Quaternion.Lerp(accumTx.rotation, sourceTx.rotation, normalizedWeight);
accumTx.translation += (sourceTx.translation - currentWPos) * normalizedWeight;
}
// Convert accumTx to local space
if (drivenParent.IsValid(stream))
{
var parentTx = new AffineTransform(drivenParent.GetPosition(stream), drivenParent.GetRotation(stream));
accumTx = parentTx.InverseMul(accumTx);
}
Vector3 currentLPos = driven.GetLocalPosition(stream);
Quaternion currentLRot = driven.GetLocalRotation(stream);
if (Vector3.Dot(positionAxesMask, positionAxesMask) < 3f)
{
accumTx.translation = AnimationRuntimeUtils.Lerp(currentLPos, accumTx.translation, positionAxesMask);
}
if (Vector3.Dot(rotationAxesMask, rotationAxesMask) < 3f)
{
accumTx.rotation = Quaternion.Euler(AnimationRuntimeUtils.Lerp(currentLRot.eulerAngles, accumTx.rotation.eulerAngles, rotationAxesMask));
}
driven.SetLocalPosition(stream, Vector3.Lerp(currentLPos, accumTx.translation, jobWeight));
driven.SetLocalRotation(stream, Quaternion.Lerp(currentLRot, accumTx.rotation, jobWeight));
}
else
{
AnimationRuntimeUtils.PassThrough(stream, driven);
}
}
public void ProcessAnimation(AnimationStream stream)
{
float jobWeight = stream.GetInputWeight(0);
if (jobWeight > 0f)
{
float sumWeights = AnimationRuntimeUtils.Sum(cache, sourceWeightStartIdx, sources.Length);
if (sumWeights < k_Epsilon)
{
return;
}
float weightScale = sumWeights > 1f ? 1f / sumWeights : 1f;
Quaternion currentWRot = driven.GetRotation(stream);
Quaternion accumRot = currentWRot;
for (int i = 0; i < sources.Length; ++i)
{
var normalizedWeight = cache.GetRaw(sourceWeightStartIdx, i) * weightScale;
if (normalizedWeight < k_Epsilon)
{
continue;
}
accumRot = Quaternion.Lerp(accumRot, sources[i].GetRotation(stream) * sourceOffsets[i], normalizedWeight);
}
// Convert accumRot to local space
if (drivenParent.IsValid(stream))
{
accumRot = Quaternion.Inverse(drivenParent.GetRotation(stream)) * accumRot;
}
Quaternion currentLRot = driven.GetLocalRotation(stream);
if (Vector3.Dot(axesMask, axesMask) < 3f)
{
accumRot = Quaternion.Euler(AnimationRuntimeUtils.Lerp(currentLRot.eulerAngles, accumRot.eulerAngles, axesMask));
}
var offset = cache.Get <Vector3>(drivenOffsetIdx);
if (Vector3.Dot(offset, offset) > 0f)
{
accumRot *= Quaternion.Euler(offset);
}
driven.SetLocalRotation(stream, Quaternion.Lerp(currentLRot, accumRot, jobWeight));
}
else
{
AnimationRuntimeUtils.PassThrough(stream, driven);
}
}
public void ProcessAnimation(AnimationStream stream)
{
float jobWeight = stream.GetInputWeight(0);
if (jobWeight > 0f)
{
var flags = (int)cache.GetRaw(optionsIdx);
if ((flags & k_BlendTranslationMask) != 0)
{
Vector3 posBlend = Vector3.Lerp(
sourceA.GetPosition(stream) + sourceAOffset.translation,
sourceB.GetPosition(stream) + sourceBOffset.translation,
cache.GetRaw(positionWeightIdx)
);
driven.SetPosition(stream, Vector3.Lerp(driven.GetPosition(stream), posBlend, jobWeight));
}
else
{
driven.SetLocalPosition(stream, driven.GetLocalPosition(stream));
}
if ((flags & k_BlendRotationMask) != 0)
{
Quaternion rotBlend = Quaternion.Lerp(
sourceA.GetRotation(stream) * sourceAOffset.rotation,
sourceB.GetRotation(stream) * sourceBOffset.rotation,
cache.GetRaw(rotationWeightIdx)
);
driven.SetRotation(stream, Quaternion.Lerp(driven.GetRotation(stream), rotBlend, jobWeight));
}
else
{
driven.SetLocalRotation(stream, driven.GetLocalRotation(stream));
}
}
else
{
AnimationRuntimeUtils.PassThrough(stream, driven);
}
}
public static void PassThrough(AnimationStream stream, TransformHandle handle)
{
handle.SetLocalPosition(stream, handle.GetLocalPosition(stream));
handle.SetLocalRotation(stream, handle.GetLocalRotation(stream));
handle.SetLocalScale(stream, handle.GetLocalScale(stream));
}
public void ProcessAnimation(AnimationStream stream)
{
float jobWeight = stream.GetInputWeight(0);
if (jobWeight > 0f)
{
float sumWeights = AnimationRuntimeUtils.Sum(cache, sourceWeightStartIdx, sources.Length);
if (sumWeights < k_Epsilon)
{
return;
}
float weightScale = sumWeights > 1f ? 1f / sumWeights : 1f;
Vector2 minMaxAngles = cache.Get <Vector2>(limitsIdx);
Vector3 currentWPos = driven.GetPosition(stream);
Quaternion currentWRot = driven.GetRotation(stream);
Vector3 currentDir = currentWRot * aimAxis;
Quaternion accumDeltaRot = Quaternion.identity;
for (int i = 0; i < sources.Length; ++i)
{
var normalizedWeight = cache.GetRaw(sourceWeightStartIdx, i) * weightScale;
if (normalizedWeight < k_Epsilon)
{
continue;
}
var toDir = sources[i].GetPosition(stream) - currentWPos;
var rotToSource = Quaternion.AngleAxis(
Mathf.Clamp(Vector3.Angle(currentDir, toDir), minMaxAngles.x, minMaxAngles.y),
Vector3.Cross(currentDir, toDir).normalized
);
accumDeltaRot = Quaternion.Lerp(accumDeltaRot, sourceOffsets[i] * rotToSource, normalizedWeight);
}
Quaternion newRot = accumDeltaRot * currentWRot;
// Convert newRot to local space
if (drivenParent.IsValid(stream))
{
newRot = Quaternion.Inverse(drivenParent.GetRotation(stream)) * newRot;
}
Quaternion currentLRot = driven.GetLocalRotation(stream);
if (Vector3.Dot(axesMask, axesMask) < 3f)
{
newRot = Quaternion.Euler(AnimationRuntimeUtils.Lerp(currentLRot.eulerAngles, newRot.eulerAngles, axesMask));
}
var offset = cache.Get <Vector3>(drivenOffset);
if (Vector3.Dot(offset, offset) > 0f)
{
newRot *= Quaternion.Euler(offset);
}
driven.SetLocalRotation(stream, Quaternion.Lerp(currentLRot, newRot, jobWeight));
}
else
{
AnimationRuntimeUtils.PassThrough(stream, driven);
}
}
