public static EditorCurveBinding[] RemapAnimationBindingForAddKey(EditorCurveBinding binding, AnimationClip clip)
{
if (!AnimationWindowUtility.IsTransformType(binding.type))
{
return(null);
}
if (binding.propertyName.StartsWith("m_LocalPosition."))
{
if (binding.type == typeof(Transform))
{
return(RotationCurveInterpolation.GenerateTransformCurveBindingArray(binding.path, "m_LocalPosition.", binding.type, 3));
}
return(null);
}
else
{
if (binding.propertyName.StartsWith("m_LocalScale."))
{
return(RotationCurveInterpolation.GenerateTransformCurveBindingArray(binding.path, "m_LocalScale.", binding.type, 3));
}
if (!binding.propertyName.StartsWith("m_LocalRotation"))
{
return(null);
}
EditorCurveBinding binding2 = binding;
binding2.propertyName = "localEulerAngles.x";
if (AnimationUtility.GetEditorCurve(clip, binding2) != null)
{
return(RotationCurveInterpolation.GenerateTransformCurveBindingArray(binding.path, "localEulerAngles.", binding.type, 3));
}
return(RotationCurveInterpolation.GenerateTransformCurveBindingArray(binding.path, "localEulerAnglesBaked.", binding.type, 3));
}
}
public static void UpdateTangentsFromMode(AnimationCurve curve, AnimationClip clip, EditorCurveBinding curveBinding)
{
if (RotationCurveInterpolation.GetModeFromCurveData(curveBinding) == RotationCurveInterpolation.Mode.NonBaked)
{
QuaternionCurveTangentCalculation quaternionCurveTangentCalculation = default(QuaternionCurveTangentCalculation);
int curveIndexFromName = RotationCurveInterpolation.GetCurveIndexFromName(curveBinding.propertyName);
for (int i = 0; i < 3; i++)
{
if (i == curveIndexFromName)
{
quaternionCurveTangentCalculation.SetCurve(i, curve);
}
else
{
EditorCurveBinding binding = curveBinding;
binding.propertyName = "localEulerAngles." + RotationCurveInterpolation.kPostFix[i];
AnimationCurve editorCurve = AnimationUtility.GetEditorCurve(clip, binding);
if (editorCurve == null)
{
return;
}
quaternionCurveTangentCalculation.SetCurve(i, editorCurve);
}
}
quaternionCurveTangentCalculation.UpdateTangentsFromMode(curveIndexFromName);
}
else
{
CurveUtility.UpdateTangentsFromMode(curve);
}
}
internal static EditorCurveBinding[] ConvertRotationPropertiesToInterpolationType(EditorCurveBinding[] selection, RotationCurveInterpolation.Mode newInterpolationMode)
{
EditorCurveBinding[] result;
if (selection.Length != 4)
{
result = selection;
}
else if (RotationCurveInterpolation.GetModeFromCurveData(selection[0]) == RotationCurveInterpolation.Mode.RawQuaternions)
{
EditorCurveBinding[] array = new EditorCurveBinding[]
{
selection[0],
selection[1],
selection[2]
};
string prefixForInterpolation = RotationCurveInterpolation.GetPrefixForInterpolation(newInterpolationMode);
array[0].propertyName = prefixForInterpolation + ".x";
array[1].propertyName = prefixForInterpolation + ".y";
array[2].propertyName = prefixForInterpolation + ".z";
result = array;
}
else
{
result = selection;
}
return(result);
}
public static EditorCurveBinding[] RemapAnimationBindingForAddKey(EditorCurveBinding binding, AnimationClip clip)
{
if (!AnimationWindowUtility.IsTransformType(binding.type))
{
return(null);
}
if (binding.propertyName.StartsWith("m_LocalPosition."))
{
if (binding.type == typeof(Transform))
{
return(RotationCurveInterpolation.GenerateTransformCurveBindingArray(binding.path, "m_LocalPosition.", binding.type, 3));
}
return(null);
}
else
{
if (binding.propertyName.StartsWith("m_LocalScale."))
{
return(RotationCurveInterpolation.GenerateTransformCurveBindingArray(binding.path, "m_LocalScale.", binding.type, 3));
}
if (binding.propertyName.StartsWith("m_LocalRotation"))
{
return(RotationCurveInterpolation.SelectRotationBindingForAddKey(binding, clip));
}
return(null);
}
}
private static EditorCurveBinding[] SelectRotationBindingForAddKey(EditorCurveBinding binding, AnimationClip clip)
{
EditorCurveBinding binding2 = binding;
binding2.propertyName = "localEulerAnglesBaked.x";
EditorCurveBinding[] result;
if (AnimationUtility.GetEditorCurve(clip, binding2) != null)
{
result = RotationCurveInterpolation.GenerateTransformCurveBindingArray(binding.path, "localEulerAnglesBaked.", binding.type, 3);
}
else
{
binding2.propertyName = "localEulerAngles.x";
if (AnimationUtility.GetEditorCurve(clip, binding2) != null)
{
result = RotationCurveInterpolation.GenerateTransformCurveBindingArray(binding.path, "localEulerAngles.", binding.type, 3);
}
else
{
binding2.propertyName = "localEulerAnglesRaw.x";
if (clip.legacy && AnimationUtility.GetEditorCurve(clip, binding2) == null)
{
result = RotationCurveInterpolation.GenerateTransformCurveBindingArray(binding.path, "localEulerAnglesBaked.", binding.type, 3);
}
else
{
result = RotationCurveInterpolation.GenerateTransformCurveBindingArray(binding.path, "localEulerAnglesRaw.", binding.type, 3);
}
}
}
return(result);
}
public static RotationCurveInterpolation.State GetCurveState(AnimationClip clip, EditorCurveBinding[] selection)
{
RotationCurveInterpolation.State result;
result.allAreNonBaked = true;
result.allAreBaked = false;
result.allAreRotations = false;
for (int i = 0; i < selection.Length; i++)
{
EditorCurveBinding data = selection[i];
RotationCurveInterpolation.Mode modeFromCurveData = RotationCurveInterpolation.GetModeFromCurveData(data);
if (modeFromCurveData == RotationCurveInterpolation.Mode.NonBaked)
{
result.allAreNonBaked = false;
}
else
{
if (modeFromCurveData == RotationCurveInterpolation.Mode.Baked)
{
result.allAreBaked = false;
}
else
{
result.allAreRotations = false;
}
}
}
return(result);
}
public static EditorCurveBinding RemapAnimationBindingForRotationCurves(EditorCurveBinding curveBinding, AnimationClip clip)
{
EditorCurveBinding result;
if (!AnimationWindowUtility.IsTransformType(curveBinding.type))
{
result = curveBinding;
}
else
{
RotationCurveInterpolation.Mode modeFromCurveData = RotationCurveInterpolation.GetModeFromCurveData(curveBinding);
if (modeFromCurveData != RotationCurveInterpolation.Mode.Undefined)
{
string str = curveBinding.propertyName.Split(new char[]
{
'.'
})[1];
EditorCurveBinding editorCurveBinding = curveBinding;
if (modeFromCurveData != RotationCurveInterpolation.Mode.NonBaked)
{
editorCurveBinding.propertyName = RotationCurveInterpolation.GetPrefixForInterpolation(RotationCurveInterpolation.Mode.NonBaked) + "." + str;
AnimationCurve editorCurve = AnimationUtility.GetEditorCurve(clip, editorCurveBinding);
if (editorCurve != null)
{
result = editorCurveBinding;
return(result);
}
}
if (modeFromCurveData != RotationCurveInterpolation.Mode.Baked)
{
editorCurveBinding.propertyName = RotationCurveInterpolation.GetPrefixForInterpolation(RotationCurveInterpolation.Mode.Baked) + "." + str;
AnimationCurve editorCurve2 = AnimationUtility.GetEditorCurve(clip, editorCurveBinding);
if (editorCurve2 != null)
{
result = editorCurveBinding;
return(result);
}
}
if (modeFromCurveData != RotationCurveInterpolation.Mode.RawEuler)
{
editorCurveBinding.propertyName = RotationCurveInterpolation.GetPrefixForInterpolation(RotationCurveInterpolation.Mode.RawEuler) + "." + str;
AnimationCurve editorCurve3 = AnimationUtility.GetEditorCurve(clip, editorCurveBinding);
if (editorCurve3 != null)
{
result = editorCurveBinding;
return(result);
}
}
result = curveBinding;
}
else
{
result = curveBinding;
}
}
return(result);
}
internal static void SetInterpolation(AnimationClip clip, EditorCurveBinding[] curveBindings, RotationCurveInterpolation.Mode newInterpolationMode)
{
Undo.RegisterCompleteObjectUndo(clip, "Rotation Interpolation");
if (clip.legacy && newInterpolationMode == RotationCurveInterpolation.Mode.RawEuler)
{
Debug.LogWarning("Warning, Euler Angles interpolation mode is not fully supported for Legacy animation clips. If you mix clips using Euler Angles interpolation with clips using other interpolation modes (using Animation.CrossFade, Animation.Blend or other methods), you will get erroneous results. Use with caution.", clip);
}
List <EditorCurveBinding> list = new List <EditorCurveBinding>();
List <AnimationCurve> list2 = new List <AnimationCurve>();
List <EditorCurveBinding> list3 = new List <EditorCurveBinding>();
for (int i = 0; i < curveBindings.Length; i++)
{
EditorCurveBinding editorCurveBinding = curveBindings[i];
RotationCurveInterpolation.Mode modeFromCurveData = RotationCurveInterpolation.GetModeFromCurveData(editorCurveBinding);
if (modeFromCurveData != RotationCurveInterpolation.Mode.Undefined)
{
if (modeFromCurveData == RotationCurveInterpolation.Mode.RawQuaternions)
{
Debug.LogWarning("Can't convert quaternion curve: " + editorCurveBinding.propertyName);
}
else
{
AnimationCurve editorCurve = AnimationUtility.GetEditorCurve(clip, editorCurveBinding);
if (editorCurve != null)
{
string propertyName = RotationCurveInterpolation.GetPrefixForInterpolation(newInterpolationMode) + '.' + RotationCurveInterpolation.ExtractComponentCharacter(editorCurveBinding.propertyName);
list.Add(new EditorCurveBinding
{
propertyName = propertyName,
type = editorCurveBinding.type,
path = editorCurveBinding.path
});
list2.Add(editorCurve);
list3.Add(new EditorCurveBinding
{
propertyName = editorCurveBinding.propertyName,
type = editorCurveBinding.type,
path = editorCurveBinding.path
});
}
}
}
}
Undo.RegisterCompleteObjectUndo(clip, "Rotation Interpolation");
foreach (EditorCurveBinding current in list3)
{
AnimationUtility.SetEditorCurve(clip, current, null);
}
foreach (EditorCurveBinding current2 in list)
{
AnimationUtility.SetEditorCurve(clip, current2, list2[list.IndexOf(current2)]);
}
}
public static string GetPrefixForInterpolation(RotationCurveInterpolation.Mode newInterpolationMode)
{
if (newInterpolationMode == RotationCurveInterpolation.Mode.Baked)
return "localEulerAnglesBaked";
if (newInterpolationMode == RotationCurveInterpolation.Mode.NonBaked)
return "localEulerAngles";
if (newInterpolationMode == RotationCurveInterpolation.Mode.RawEuler)
return "localEulerAnglesRaw";
if (newInterpolationMode == RotationCurveInterpolation.Mode.RawQuaternions)
return "m_LocalRotation";
return (string) null;
}
public static EditorCurveBinding[] RemapAnimationBindingForRotationAddKey(EditorCurveBinding binding, AnimationClip clip)
{
if (!AnimationWindowUtility.IsTransformType(binding.type))
{
return((EditorCurveBinding[])null);
}
if (binding.propertyName.StartsWith("m_LocalRotation"))
{
return(RotationCurveInterpolation.SelectRotationBindingForAddKey(binding, clip));
}
return((EditorCurveBinding[])null);
}
internal static void SetInterpolation(AnimationClip clip, EditorCurveBinding[] curveBindings, RotationCurveInterpolation.Mode newInterpolationMode)
{
Undo.RegisterCompleteObjectUndo(clip, "Rotation Interpolation");
List <EditorCurveBinding> list = new List <EditorCurveBinding>();
List <AnimationCurve> list2 = new List <AnimationCurve>();
List <EditorCurveBinding> list3 = new List <EditorCurveBinding>();
for (int i = 0; i < curveBindings.Length; i++)
{
EditorCurveBinding editorCurveBinding = curveBindings[i];
RotationCurveInterpolation.Mode modeFromCurveData = RotationCurveInterpolation.GetModeFromCurveData(editorCurveBinding);
if (modeFromCurveData != RotationCurveInterpolation.Mode.Undefined)
{
if (modeFromCurveData == RotationCurveInterpolation.Mode.RawQuaternions)
{
Debug.LogWarning("Can't convert quaternion curve: " + editorCurveBinding.propertyName);
}
else
{
AnimationCurve editorCurve = AnimationUtility.GetEditorCurve(clip, editorCurveBinding);
if (editorCurve != null)
{
string propertyName = RotationCurveInterpolation.GetPrefixForInterpolation(newInterpolationMode) + '.' + RotationCurveInterpolation.ExtractComponentCharacter(editorCurveBinding.propertyName);
list.Add(new EditorCurveBinding
{
propertyName = propertyName,
type = editorCurveBinding.type,
path = editorCurveBinding.path
});
list2.Add(editorCurve);
list3.Add(new EditorCurveBinding
{
propertyName = editorCurveBinding.propertyName,
type = editorCurveBinding.type,
path = editorCurveBinding.path
});
}
}
}
}
Undo.RegisterCompleteObjectUndo(clip, "Rotation Interpolation");
foreach (EditorCurveBinding current in list3)
{
AnimationUtility.SetEditorCurve(clip, current, null);
}
foreach (EditorCurveBinding current2 in list)
{
AnimationUtility.SetEditorCurve(clip, current2, list2[list.IndexOf(current2)]);
}
}
internal static EditorCurveBinding[] ConvertRotationPropertiesToInterpolationType(EditorCurveBinding[] selection, RotationCurveInterpolation.Mode newInterpolationMode)
{
if (selection.Length != 4 || RotationCurveInterpolation.GetModeFromCurveData(selection[0]) != RotationCurveInterpolation.Mode.RawQuaternions)
return selection;
EditorCurveBinding[] editorCurveBindingArray = new EditorCurveBinding[3]
{
selection[0],
selection[1],
selection[2]
};
string forInterpolation = RotationCurveInterpolation.GetPrefixForInterpolation(newInterpolationMode);
editorCurveBindingArray[0].propertyName = forInterpolation + ".x";
editorCurveBindingArray[1].propertyName = forInterpolation + ".y";
editorCurveBindingArray[2].propertyName = forInterpolation + ".z";
return editorCurveBindingArray;
}
public static RotationCurveInterpolation.State GetCurveState(AnimationClip clip, EditorCurveBinding[] selection)
{
RotationCurveInterpolation.State state;
state.allAreRaw = true;
state.allAreNonBaked = true;
state.allAreBaked = true;
state.allAreRotations = true;
foreach (EditorCurveBinding data in selection)
{
RotationCurveInterpolation.Mode modeFromCurveData = RotationCurveInterpolation.GetModeFromCurveData(data);
state.allAreBaked &= modeFromCurveData == RotationCurveInterpolation.Mode.Baked;
state.allAreNonBaked &= modeFromCurveData == RotationCurveInterpolation.Mode.NonBaked;
state.allAreRaw &= modeFromCurveData == RotationCurveInterpolation.Mode.RawEuler;
state.allAreRotations &= modeFromCurveData != RotationCurveInterpolation.Mode.Undefined;
}
return(state);
}
public static RotationCurveInterpolation.State GetCurveState(AnimationClip clip, EditorCurveBinding[] selection)
{
RotationCurveInterpolation.State result;
result.allAreRaw = true;
result.allAreNonBaked = true;
result.allAreBaked = true;
result.allAreRotations = true;
for (int i = 0; i < selection.Length; i++)
{
EditorCurveBinding data = selection[i];
RotationCurveInterpolation.Mode modeFromCurveData = RotationCurveInterpolation.GetModeFromCurveData(data);
result.allAreBaked &= (modeFromCurveData == RotationCurveInterpolation.Mode.Baked);
result.allAreNonBaked &= (modeFromCurveData == RotationCurveInterpolation.Mode.NonBaked);
result.allAreRaw &= (modeFromCurveData == RotationCurveInterpolation.Mode.RawEuler);
result.allAreRotations &= (modeFromCurveData != RotationCurveInterpolation.Mode.Undefined);
}
return(result);
}
internal static EditorCurveBinding[] ConvertRotationPropertiesToInterpolationType(EditorCurveBinding[] selection, RotationCurveInterpolation.Mode newInterpolationMode)
{
if (selection.Length != 4 || RotationCurveInterpolation.GetModeFromCurveData(selection[0]) != RotationCurveInterpolation.Mode.RawQuaternions)
{
return(selection);
}
EditorCurveBinding[] editorCurveBindingArray = new EditorCurveBinding[3]
{
selection[0],
selection[1],
selection[2]
};
string forInterpolation = RotationCurveInterpolation.GetPrefixForInterpolation(newInterpolationMode);
editorCurveBindingArray[0].propertyName = forInterpolation + ".x";
editorCurveBindingArray[1].propertyName = forInterpolation + ".y";
editorCurveBindingArray[2].propertyName = forInterpolation + ".z";
return(editorCurveBindingArray);
}
public static CurveRenderer GetCurveRenderer(AnimationClip clip, EditorCurveBinding curveBinding)
{
if (curveBinding.type == typeof(Transform) && curveBinding.propertyName.StartsWith("localEulerAngles."))
{
int curveIndexFromName = RotationCurveInterpolation.GetCurveIndexFromName(curveBinding.propertyName);
string key = CurveUtility.GetCurveGroupID(clip, curveBinding).ToString();
EulerCurveCombinedRenderer eulerCurveCombinedRenderer = (EulerCurveCombinedRenderer)CurveRendererCache.m_CombiRenderers[key];
if (eulerCurveCombinedRenderer == null)
{
eulerCurveCombinedRenderer = new EulerCurveCombinedRenderer(AnimationUtility.GetEditorCurve(clip, EditorCurveBinding.FloatCurve(curveBinding.path, typeof(Transform), "m_LocalRotation.x")), AnimationUtility.GetEditorCurve(clip, EditorCurveBinding.FloatCurve(curveBinding.path, typeof(Transform), "m_LocalRotation.y")), AnimationUtility.GetEditorCurve(clip, EditorCurveBinding.FloatCurve(curveBinding.path, typeof(Transform), "m_LocalRotation.z")), AnimationUtility.GetEditorCurve(clip, EditorCurveBinding.FloatCurve(curveBinding.path, typeof(Transform), "m_LocalRotation.w")), AnimationUtility.GetEditorCurve(clip, EditorCurveBinding.FloatCurve(curveBinding.path, typeof(Transform), "localEulerAngles.x")), AnimationUtility.GetEditorCurve(clip, EditorCurveBinding.FloatCurve(curveBinding.path, typeof(Transform), "localEulerAngles.y")), AnimationUtility.GetEditorCurve(clip, EditorCurveBinding.FloatCurve(curveBinding.path, typeof(Transform), "localEulerAngles.z")));
CurveRendererCache.m_CombiRenderers.Add(key, eulerCurveCombinedRenderer);
}
return(new EulerCurveRenderer(curveIndexFromName, eulerCurveCombinedRenderer));
}
string key2 = CurveUtility.GetCurveID(clip, curveBinding).ToString();
NormalCurveRenderer normalCurveRenderer = (NormalCurveRenderer)CurveRendererCache.m_NormalRenderers[key2];
if (normalCurveRenderer == null)
{
normalCurveRenderer = new NormalCurveRenderer(AnimationUtility.GetEditorCurve(clip, curveBinding));
CurveRendererCache.m_NormalRenderers.Add(key2, normalCurveRenderer);
}
return(normalCurveRenderer);
}
internal static void SetInterpolation(AnimationClip clip, EditorCurveBinding[] curveBindings, RotationCurveInterpolation.Mode newInterpolationMode)
{
Undo.RegisterCompleteObjectUndo((UnityEngine.Object) clip, "Rotation Interpolation");
if (clip.legacy && newInterpolationMode == RotationCurveInterpolation.Mode.RawEuler)
Debug.LogWarning((object) "Warning, Euler Angles interpolation mode is not fully supported for Legacy animation clips. If you mix clips using Euler Angles interpolation with clips using other interpolation modes (using Animation.CrossFade, Animation.Blend or other methods), you will get erroneous results. Use with caution.", (UnityEngine.Object) clip);
List<EditorCurveBinding> editorCurveBindingList1 = new List<EditorCurveBinding>();
List<AnimationCurve> animationCurveList = new List<AnimationCurve>();
List<EditorCurveBinding> editorCurveBindingList2 = new List<EditorCurveBinding>();
foreach (EditorCurveBinding curveBinding in curveBindings)
{
switch (RotationCurveInterpolation.GetModeFromCurveData(curveBinding))
{
case RotationCurveInterpolation.Mode.Undefined:
continue;
case RotationCurveInterpolation.Mode.RawQuaternions:
Debug.LogWarning((object) ("Can't convert quaternion curve: " + curveBinding.propertyName));
continue;
default:
AnimationCurve editorCurve = AnimationUtility.GetEditorCurve(clip, curveBinding);
if (editorCurve != null)
{
string str = RotationCurveInterpolation.GetPrefixForInterpolation(newInterpolationMode) + (object) '.' + (object) RotationCurveInterpolation.ExtractComponentCharacter(curveBinding.propertyName);
editorCurveBindingList1.Add(new EditorCurveBinding()
{
propertyName = str,
type = curveBinding.type,
path = curveBinding.path
});
animationCurveList.Add(editorCurve);
editorCurveBindingList2.Add(new EditorCurveBinding()
{
propertyName = curveBinding.propertyName,
type = curveBinding.type,
path = curveBinding.path
});
continue;
}
continue;
}
}
Undo.RegisterCompleteObjectUndo((UnityEngine.Object) clip, "Rotation Interpolation");
using (List<EditorCurveBinding>.Enumerator enumerator = editorCurveBindingList2.GetEnumerator())
{
while (enumerator.MoveNext())
{
EditorCurveBinding current = enumerator.Current;
AnimationUtility.SetEditorCurve(clip, current, (AnimationCurve) null);
}
}
using (List<EditorCurveBinding>.Enumerator enumerator = editorCurveBindingList1.GetEnumerator())
{
while (enumerator.MoveNext())
{
EditorCurveBinding current = enumerator.Current;
AnimationUtility.SetEditorCurve(clip, current, animationCurveList[editorCurveBindingList1.IndexOf(current)]);
}
}
}
internal static EditorCurveBinding[] ConvertRotationPropertiesToDefaultInterpolation(AnimationClip clip, EditorCurveBinding[] selection)
{
RotationCurveInterpolation.Mode newInterpolationMode = !clip.legacy ? RotationCurveInterpolation.Mode.RawEuler : RotationCurveInterpolation.Mode.Baked;
return(RotationCurveInterpolation.ConvertRotationPropertiesToInterpolationType(selection, newInterpolationMode));
}
private void MaintainTreeviewStateAfterRotationInterpolation(RotationCurveInterpolation.Mode newMode)
{
List<int> selectedIds = this.state.hierarchyState.selectedIDs;
List<int> expandedIds = this.state.hierarchyState.expandedIDs;
List<int> intList1 = new List<int>();
List<int> intList2 = new List<int>();
for (int index = 0; index < selectedIds.Count; ++index)
{
AnimationWindowHierarchyNode windowHierarchyNode = this.state.hierarchyData.FindItem(selectedIds[index]) as AnimationWindowHierarchyNode;
if (windowHierarchyNode != null && !windowHierarchyNode.propertyName.Equals(RotationCurveInterpolation.GetPrefixForInterpolation(newMode)))
{
string oldValue = windowHierarchyNode.propertyName.Split('.')[0];
string str = windowHierarchyNode.propertyName.Replace(oldValue, RotationCurveInterpolation.GetPrefixForInterpolation(newMode));
intList1.Add(selectedIds[index]);
intList2.Add((windowHierarchyNode.path + windowHierarchyNode.animatableObjectType.Name + str).GetHashCode());
}
}
for (int index1 = 0; index1 < intList1.Count; ++index1)
{
if (selectedIds.Contains(intList1[index1]))
{
int index2 = selectedIds.IndexOf(intList1[index1]);
selectedIds[index2] = intList2[index1];
}
if (expandedIds.Contains(intList1[index1]))
{
int index2 = expandedIds.IndexOf(intList1[index1]);
expandedIds[index2] = intList2[index1];
}
if (this.state.hierarchyState.lastClickedID == intList1[index1])
this.state.hierarchyState.lastClickedID = intList2[index1];
}
this.state.hierarchyState.selectedIDs = new List<int>((IEnumerable<int>) selectedIds);
this.state.hierarchyState.expandedIDs = new List<int>((IEnumerable<int>) expandedIds);
}
private void MaintainTreeviewStateAfterRotationInterpolation(RotationCurveInterpolation.Mode newMode)
{
List<int> selectedIDs = this.state.m_hierarchyState.selectedIDs;
List<int> expandedIDs = this.state.m_hierarchyState.expandedIDs;
List<int> list = new List<int>();
List<int> list2 = new List<int>();
for (int i = 0; i < selectedIDs.Count; i++)
{
AnimationWindowHierarchyNode animationWindowHierarchyNode = this.state.m_HierarchyData.FindItem(selectedIDs[i]) as AnimationWindowHierarchyNode;
if (animationWindowHierarchyNode != null && !animationWindowHierarchyNode.propertyName.Equals(RotationCurveInterpolation.GetPrefixForInterpolation(newMode)))
{
string oldValue = animationWindowHierarchyNode.propertyName.Split(new char[]
{
'.'
})[0];
string str = animationWindowHierarchyNode.propertyName.Replace(oldValue, RotationCurveInterpolation.GetPrefixForInterpolation(newMode));
list.Add(selectedIDs[i]);
list2.Add((animationWindowHierarchyNode.path + animationWindowHierarchyNode.animatableObjectType.Name + str).GetHashCode());
}
}
for (int j = 0; j < list.Count; j++)
{
if (selectedIDs.Contains(list[j]))
{
int index = selectedIDs.IndexOf(list[j]);
selectedIDs[index] = list2[j];
}
if (expandedIDs.Contains(list[j]))
{
int index2 = expandedIDs.IndexOf(list[j]);
expandedIDs[index2] = list2[j];
}
if (this.state.m_hierarchyState.lastClickedID == list[j])
{
this.state.m_hierarchyState.lastClickedID = list2[j];
}
}
this.state.m_hierarchyState.selectedIDs = new List<int>(selectedIDs);
this.state.m_hierarchyState.expandedIDs = new List<int>(expandedIDs);
}
public static int GetCurveIndexFromName(string name)
{
return((int)RotationCurveInterpolation.ExtractComponentCharacter(name) - 120);
}
internal static void SetInterpolation(AnimationClip clip, EditorCurveBinding[] curveBindings, RotationCurveInterpolation.Mode newInterpolationMode)
{
Undo.RegisterCompleteObjectUndo((UnityEngine.Object)clip, "Rotation Interpolation");
if (clip.legacy && newInterpolationMode == RotationCurveInterpolation.Mode.RawEuler)
{
Debug.LogWarning((object)"Warning, Euler Angles interpolation mode is not fully supported for Legacy animation clips. If you mix clips using Euler Angles interpolation with clips using other interpolation modes (using Animation.CrossFade, Animation.Blend or other methods), you will get erroneous results. Use with caution.", (UnityEngine.Object)clip);
}
List <EditorCurveBinding> editorCurveBindingList1 = new List <EditorCurveBinding>();
List <AnimationCurve> animationCurveList = new List <AnimationCurve>();
List <EditorCurveBinding> editorCurveBindingList2 = new List <EditorCurveBinding>();
foreach (EditorCurveBinding curveBinding in curveBindings)
{
switch (RotationCurveInterpolation.GetModeFromCurveData(curveBinding))
{
case RotationCurveInterpolation.Mode.Undefined:
continue;
case RotationCurveInterpolation.Mode.RawQuaternions:
Debug.LogWarning((object)("Can't convert quaternion curve: " + curveBinding.propertyName));
continue;
default:
AnimationCurve editorCurve = AnimationUtility.GetEditorCurve(clip, curveBinding);
if (editorCurve != null)
{
string str = RotationCurveInterpolation.GetPrefixForInterpolation(newInterpolationMode) + (object)'.' + (object)RotationCurveInterpolation.ExtractComponentCharacter(curveBinding.propertyName);
editorCurveBindingList1.Add(new EditorCurveBinding()
{
propertyName = str,
type = curveBinding.type,
path = curveBinding.path
});
animationCurveList.Add(editorCurve);
editorCurveBindingList2.Add(new EditorCurveBinding()
{
propertyName = curveBinding.propertyName,
type = curveBinding.type,
path = curveBinding.path
});
continue;
}
continue;
}
}
Undo.RegisterCompleteObjectUndo((UnityEngine.Object)clip, "Rotation Interpolation");
using (List <EditorCurveBinding> .Enumerator enumerator = editorCurveBindingList2.GetEnumerator())
{
while (enumerator.MoveNext())
{
EditorCurveBinding current = enumerator.Current;
AnimationUtility.SetEditorCurve(clip, current, (AnimationCurve)null);
}
}
using (List <EditorCurveBinding> .Enumerator enumerator = editorCurveBindingList1.GetEnumerator())
{
while (enumerator.MoveNext())
{
EditorCurveBinding current = enumerator.Current;
AnimationUtility.SetEditorCurve(clip, current, animationCurveList[editorCurveBindingList1.IndexOf(current)]);
}
}
}
private void MaintainTreeviewStateAfterRotationInterpolation(RotationCurveInterpolation.Mode newMode)
{
List<int> selectedIDs = this.state.hierarchyState.selectedIDs;
List<int> expandedIDs = this.state.hierarchyState.expandedIDs;
List<int> list3 = new List<int>();
List<int> list4 = new List<int>();
for (int i = 0; i < selectedIDs.Count; i++)
{
AnimationWindowHierarchyNode node = this.state.hierarchyData.FindItem(selectedIDs[i]) as AnimationWindowHierarchyNode;
if ((node != null) && !node.propertyName.Equals(RotationCurveInterpolation.GetPrefixForInterpolation(newMode)))
{
char[] separator = new char[] { '.' };
string oldValue = node.propertyName.Split(separator)[0];
string str2 = node.propertyName.Replace(oldValue, RotationCurveInterpolation.GetPrefixForInterpolation(newMode));
list3.Add(selectedIDs[i]);
list4.Add((node.path + node.animatableObjectType.Name + str2).GetHashCode());
}
}
for (int j = 0; j < list3.Count; j++)
{
if (selectedIDs.Contains(list3[j]))
{
int index = selectedIDs.IndexOf(list3[j]);
selectedIDs[index] = list4[j];
}
if (expandedIDs.Contains(list3[j]))
{
int num4 = expandedIDs.IndexOf(list3[j]);
expandedIDs[num4] = list4[j];
}
if (this.state.hierarchyState.lastClickedID == list3[j])
{
this.state.hierarchyState.lastClickedID = list4[j];
}
}
this.state.hierarchyState.selectedIDs = new List<int>(selectedIDs);
this.state.hierarchyState.expandedIDs = new List<int>(expandedIDs);
}
internal static void SetInterpolation(AnimationClip clip, EditorCurveBinding[] curveBindings, RotationCurveInterpolation.Mode newInterpolationMode)
{
Undo.RegisterCompleteObjectUndo(clip, "Rotation Interpolation");
List<EditorCurveBinding> list = new List<EditorCurveBinding>();
List<AnimationCurve> list2 = new List<AnimationCurve>();
List<EditorCurveBinding> list3 = new List<EditorCurveBinding>();
for (int i = 0; i < curveBindings.Length; i++)
{
EditorCurveBinding editorCurveBinding = curveBindings[i];
RotationCurveInterpolation.Mode modeFromCurveData = RotationCurveInterpolation.GetModeFromCurveData(editorCurveBinding);
if (modeFromCurveData != RotationCurveInterpolation.Mode.Undefined)
{
if (modeFromCurveData == RotationCurveInterpolation.Mode.RawQuaternions)
{
Debug.LogWarning("Can't convert quaternion curve: " + editorCurveBinding.propertyName);
}
else
{
AnimationCurve editorCurve = AnimationUtility.GetEditorCurve(clip, editorCurveBinding);
if (editorCurve != null)
{
string propertyName = RotationCurveInterpolation.GetPrefixForInterpolation(newInterpolationMode) + '.' + RotationCurveInterpolation.ExtractComponentCharacter(editorCurveBinding.propertyName);
list.Add(new EditorCurveBinding
{
propertyName = propertyName,
type = editorCurveBinding.type,
path = editorCurveBinding.path
});
list2.Add(editorCurve);
list3.Add(new EditorCurveBinding
{
propertyName = editorCurveBinding.propertyName,
type = editorCurveBinding.type,
path = editorCurveBinding.path
});
}
}
}
}
Undo.RegisterCompleteObjectUndo(clip, "Rotation Interpolation");
foreach (EditorCurveBinding current in list3)
{
AnimationUtility.SetEditorCurve(clip, current, null);
}
foreach (EditorCurveBinding current2 in list)
{
AnimationUtility.SetEditorCurve(clip, current2, list2[list.IndexOf(current2)]);
}
}
internal static EditorCurveBinding[] ConvertRotationPropertiesToInterpolationType(EditorCurveBinding[] selection, RotationCurveInterpolation.Mode newInterpolationMode)
{
if (selection.Length != 4)
{
return selection;
}
if (RotationCurveInterpolation.GetModeFromCurveData(selection[0]) == RotationCurveInterpolation.Mode.RawQuaternions)
{
EditorCurveBinding[] array = new EditorCurveBinding[]
{
selection[0],
selection[1],
selection[2]
};
string prefixForInterpolation = RotationCurveInterpolation.GetPrefixForInterpolation(newInterpolationMode);
array[0].propertyName = prefixForInterpolation + ".x";
array[1].propertyName = prefixForInterpolation + ".y";
array[2].propertyName = prefixForInterpolation + ".z";
return array;
}
return selection;
}
internal static EditorCurveBinding[] ConvertRotationPropertiesToDefaultInterpolation(AnimationClip clip, EditorCurveBinding[] selection)
{
return(RotationCurveInterpolation.ConvertRotationPropertiesToInterpolationType(selection, RotationCurveInterpolation.Mode.Baked));
}
