private void RotateWidgets(Vector2 pivotPoint, List <Widget> widgets, Vector2 curMousePos, Vector2 prevMousePos,
bool discret, ref float accumAngle, ref float prevAngle)
{
List <KeyValuePair <Widget, float> > wasRotations = widgets.Select(widget => new KeyValuePair <Widget, float>(widget, widget.Rotation)).ToList();
float rotationRes = prevAngle;
Utils.ApplyTransformationToWidgetsGroupOobb(
sv.Scene,
widgets, pivotPoint, false, curMousePos, prevMousePos,
(originalVectorInOobbSpace, deformedVectorInOobbSpace) => {
float rotation = 0;
if (originalVectorInOobbSpace.Length > Mathf.ZeroTolerance &&
deformedVectorInOobbSpace.Length > Mathf.ZeroTolerance)
{
rotation = Mathf.Wrap180(deformedVectorInOobbSpace.Atan2Deg - originalVectorInOobbSpace.Atan2Deg);
}
if (discret)
{
rotation = Utils.RoundTo(rotation, 15);
}
rotationRes = rotation;
return(Matrix32.Rotation(rotation * Mathf.DegToRad));
}
);
// accumulate rotation, each visual turn of widget will increase it's angle on 360,
// without that code angle will be allways [-180; 180)
rotationRes = rotationRes.NormalizeRotation();
float rotationDelta = (rotationRes - prevAngle).NormalizeRotation();
prevAngle = rotationRes;
accumAngle += rotationDelta;
foreach (KeyValuePair <Widget, float> wasRotation in wasRotations)
{
SetAnimableProperty.Perform(wasRotation.Key, nameof(Widget.Rotation), wasRotation.Value + accumAngle);
}
}
private void DrawSegments(RulerData rulerData, float strokeDelta, float strokeLength, float?strokeValue = null)
{
var maskInverted = rulerData.RulerOrientation.GetDirection();
var mask = (Vector2.One - maskInverted);
var delta = mask * strokeDelta;
var j = -(int)Math.Round(((rulerData.Origin * mask).Length - rulerData.LeftStoper) / strokeDelta);
var b = maskInverted * rulerData.Offset + rulerData.Origin * mask + j * strokeDelta * mask;
var a = b - maskInverted * strokeLength;
var fontHeight = 14f;
var letterspacing = 1f;
var textOffset = Vector2.Zero;
do
{
if (GetVectorComponentForOrientation(a, rulerData.RulerOrientation) - rulerData.Offset >= 0)
{
Renderer.DrawLine(a, b, ColorTheme.Current.SceneView.RulerTextColor);
if (strokeValue != null)
{
var lengthMarkerText = ((int)(j * strokeValue.Value)).ToString();
var textLength = FontPool.Instance.DefaultFont.MeasureTextLine(lengthMarkerText, fontHeight, letterspacing);
var lengthMarkerPosition = a + textOffset;
Renderer.PushState(RenderState.Transform1);
Renderer.MultiplyTransform1(Matrix32.Translation(lengthMarkerPosition.X.Round(), lengthMarkerPosition.Y.Round()));
if (rulerData.RulerOrientation == RulerOrientation.Vertical)
{
Renderer.MultiplyTransform1(Matrix32.Rotation(-Mathf.HalfPi));
textOffset = Vector2.Down * (5 + textLength.X);
}
else
{
textOffset = Vector2.Right * 5;
}
Renderer.DrawTextLine(Vector2.Zero, lengthMarkerText, fontHeight, ColorTheme.Current.SceneView.RulerTextColor, letterspacing);
Renderer.PopState();
}
}
j++;
a += delta;
b += delta;
} while (rulerData.RightStoper > GetVectorComponentForOrientation(a, rulerData.RulerOrientation));
}
void Render(Widget widget)
{
var maxCol = Timeline.Instance.ColumnCount;
widget.PrepareRendererState();
Renderer.DrawRect(Vector2.Zero, widget.ContentSize, ColorTheme.Current.TimelineGrid.PropertyRowBackground);
var colorIndex = PropertyAttributes <TangerineKeyframeColorAttribute> .Get(node.GetType(), animator.TargetProperty)?.ColorIndex ?? 0;
var color = KeyframePalette.Colors[colorIndex];
var baseTransform = Renderer.Transform1;
for (int i = 0; i < animator.ReadonlyKeys.Count; i++)
{
var key = animator.ReadonlyKeys[i];
Renderer.Transform1 =
Matrix32.Rotation(Mathf.Pi / 4) *
Matrix32.Translation((key.Frame + 0.5f) * TimelineMetrics.ColWidth + 0.5f, widget.Height / 2 + 0.5f) *
baseTransform;
var v = TimelineMetrics.ColWidth / 3 * Vector2.One;
Renderer.DrawRect(-v, v, color);
}
}
public override void ExecuteTransaction()
{
var groups = Document.Current?.SelectedNodes().OfType <Frame>().ToList();
if (groups?.Count == 0)
{
return;
}
var container = (Widget)Document.Current.Container;
var p = container.RootFolder().Find(groups[0]);
ClearRowSelection.Perform();
UntieWidgetsFromBones.Perform(Document.Current.Container.Nodes.OfType <Bone>(), groups);
foreach (var group in groups)
{
UnlinkFolderItem.Perform(container, group);
}
foreach (var group in groups)
{
var flipXFactor = group.Scale.X < 0 ? -1 : 1;
var flipYFactor = group.Scale.Y < 0 ? -1 : 1;
var flipVector = Vector2.Right + Vector2.Down * flipXFactor * flipYFactor;
var groupRootBones = new List <Bone>();
var groupNodes = group.Nodes.ToList().Where(GroupNodes.IsValidNode).ToList();
var localToParentTransform = group.CalcLocalToParentTransform();
foreach (var node in groupNodes)
{
UnlinkFolderItem.Perform(group, node);
InsertFolderItem.Perform(container, p, node);
SelectNode.Perform(node);
p.Index++;
if (node is Widget)
{
GroupNodes.TransformPropertyAndKeyframes <Vector2>(node, nameof(Widget.Position), v => localToParentTransform * v);
GroupNodes.TransformPropertyAndKeyframes <Vector2>(node, nameof(Widget.Scale), v => v * group.Scale);
GroupNodes.TransformPropertyAndKeyframes <float>(node, nameof(Widget.Rotation),
v => v * Mathf.Sign(group.Scale.X * group.Scale.Y) + group.Rotation);
GroupNodes.TransformPropertyAndKeyframes <Color4>(node, nameof(Widget.Color), v => group.Color * v);
}
else if (node is Bone)
{
var root = BoneUtils.FindBoneRoot((Bone)node, groupNodes);
if (!groupRootBones.Contains(root))
{
GroupNodes.TransformPropertyAndKeyframes <Vector2>(node, nameof(Bone.Position), v => localToParentTransform * v);
GroupNodes.TransformPropertyAndKeyframes <float>(node, nameof(Bone.Rotation),
v => (Matrix32.Rotation(v * Mathf.DegToRad) * localToParentTransform).ToTransform2().Rotation);
groupRootBones.Add(root);
}
else if (flipVector != Vector2.One)
{
GroupNodes.TransformPropertyAndKeyframes <Vector2>(node, nameof(Bone.Position), v => v * flipVector);
GroupNodes.TransformPropertyAndKeyframes <float>(node, nameof(Bone.Rotation), v => - v);
}
GroupNodes.TransformPropertyAndKeyframes <Vector2>(node, nameof(Bone.RefPosition), v => localToParentTransform * v);
GroupNodes.TransformPropertyAndKeyframes <float>(node, nameof(Bone.RefRotation),
v => (Matrix32.Rotation(v * Mathf.DegToRad) * localToParentTransform).ToTransform2().Rotation);
}
}
}
}
