public SurfacePatch(Membrane membrane, string name, Color color, IEnumerable <Triangle> triangles)
{
Membrane = membrane;
Name = name;
Color = color;
Dictionary <Vertex, Vertex> VertexToTransformed = new Dictionary <Vertex, Vertex>();
List <Triangle> NewTriangles = new List <Triangle>(triangles.Count());
foreach (var t in triangles)
{
foreach (var v in t.Vertices)
{
if (!VertexToTransformed.ContainsKey(v))
{
VertexToTransformed.Add(v, new Vertex(v.VolumePosition, v.VolumeNormal));
}
}
Triangle NewTriangle = new Triangle(t.ID, VertexToTransformed[t.V0], VertexToTransformed[t.V1], VertexToTransformed[t.V2]);
NewTriangles.Add(NewTriangle);
OriginalToTransformed.Add(t, NewTriangle);
TransformedToOriginal.Add(NewTriangle, t);
}
SurfaceMesh = new Mesh();
SurfaceMesh.Vertices.AddRange(VertexToTransformed.Values);
SurfaceMesh.Triangles.AddRange(OriginalToTransformed.Values);
SurfaceMesh.UpdateGraph();
SurfaceMesh.UpdateVertexIDs();
TurnUpsideUp();
// Don't update buffers because there is no OpenGL context yet.
UpdateStats();
UpdatePlanarizationStats();
Membrane.DisplayedPatches.CollectionChanged += MembraneDisplayedPatches_CollectionChanged;
Membrane.PointGroups.CollectionChanged += MembranePointGroups_CollectionChanged;
MembranePointGroups_CollectionChanged(null, null);
}
public SurfacePatch(Membrane membrane, string name, Color color, IEnumerable<Triangle> triangles)
{
Membrane = membrane;
Name = name;
Color = color;
Dictionary<Vertex, Vertex> VertexToTransformed = new Dictionary<Vertex, Vertex>();
List<Triangle> NewTriangles = new List<Triangle>(triangles.Count());
foreach (var t in triangles)
{
foreach (var v in t.Vertices)
if (!VertexToTransformed.ContainsKey(v))
VertexToTransformed.Add(v, new Vertex(v.VolumePosition, v.VolumeNormal));
Triangle NewTriangle = new Triangle(t.ID, VertexToTransformed[t.V0], VertexToTransformed[t.V1], VertexToTransformed[t.V2]);
NewTriangles.Add(NewTriangle);
OriginalToTransformed.Add(t, NewTriangle);
TransformedToOriginal.Add(NewTriangle, t);
}
SurfaceMesh = new Mesh();
SurfaceMesh.Vertices.AddRange(VertexToTransformed.Values);
SurfaceMesh.Triangles.AddRange(OriginalToTransformed.Values);
SurfaceMesh.UpdateGraph();
SurfaceMesh.UpdateVertexIDs();
TurnUpsideUp();
// Don't update buffers because there is no OpenGL context yet.
UpdateStats();
UpdatePlanarizationStats();
Membrane.DisplayedPatches.CollectionChanged += MembraneDisplayedPatches_CollectionChanged;
Membrane.PointGroups.CollectionChanged += MembranePointGroups_CollectionChanged;
MembranePointGroups_CollectionChanged(null, null);
}
void Membrane_TriangleSelectionChanged(Membrane sender, List<Triangle> selection)
{
float Area = selection.Sum(t => t.GetVolumeArea());
TextSelectionStats.Text = String.Format("{0} faces, {1:0.0} Ų.", selection.Count, Area);
}
private void Membrane_MouseWheel(Membrane membrane, List<Intersection> intersections, System.Windows.Forms.MouseEventArgs e)
{
IEnumerable<Intersection> TriangleIntersections = intersections.Where(i => i.Target.GetType() == typeof(Triangle));
IEnumerable<Intersection> PointIntersections = intersections.Where(i => i.Target.GetType() == typeof(SurfacePoint));
bool IsPointForemost = PointIntersections.Count() > 0 ? PointIntersections.First() == intersections.First() : false;
bool RedrawNeeded = false;
if (KeyboardHelper.CtrlDown() && IsPointForemost) // Rotate closest point overlapping with cursor
{
float Mult = KeyboardHelper.ShiftDown() ? 30f : 3f;
((SurfacePoint)PointIntersections.First().Target).Psi -= e.Delta / 120f * Mult / 180f * (float)Math.PI;
((SurfacePoint)PointIntersections.First().Target).Group.PointCloud.UpdateBuffers();
RedrawNeeded = true;
}
if (KeyboardHelper.CtrlDown() && membrane.PreviewGroup.Points.Count == 1) // Rotate preview point
{
float Mult = KeyboardHelper.ShiftDown() ? 30f : 3f;
membrane.PreviewGroup.Points[0].Psi -= e.Delta / 120f * Mult / 180f * (float)Math.PI;
membrane.PreviewGroup.Points[0].Group.PointCloud.UpdateBuffers();
Options.Viewport.Redraw();
RedrawNeeded = true;
}
if (RedrawNeeded)
Options.Viewport.Redraw();
}
void Membrane_MouseUp(Membrane sender, List<Intersection> intersections, System.Windows.Forms.MouseEventArgs e)
{
IEnumerable<Intersection> TriangleIntersections = intersections.Where(i => i.Target.GetType() == typeof(Triangle));
IEnumerable<Intersection> PointIntersections = intersections.Where(i => i.Target.GetType() == typeof(SurfacePoint));
bool IsPointForemost = PointIntersections.Count() > 0 ? PointIntersections.First() == intersections.First() : false;
DraggingPoint = null;
}
void Membrane_MouseMove(Membrane sender, List<Intersection> intersections, System.Windows.Forms.MouseEventArgs e)
{
bool RedrawNeeded = false;
Options.Viewport.AreUpdatesDisabled = true;
IEnumerable<Intersection> TriangleIntersections = intersections.Where(i => i.Target.GetType() == typeof (Triangle));
IEnumerable<Intersection> PointIntersections = intersections.Where(i => i.Target.GetType() == typeof(SurfacePoint));
bool IsPointForemost = PointIntersections.Count() > 0 ? PointIntersections.First() == intersections.First() : false;
if (TriangleIntersections.Count() > 0)
{
Triangle PickedTriangle = (Triangle)TriangleIntersections.First().Target;
Vector3 Position = TriangleIntersections.First().Position;
TextCursorPosition.Text = $"{Position.X:0.00}, {Position.Y:0.00}, {Position.Z:0.00} Å";
if (PickedTriangle != null && e.Button == System.Windows.Forms.MouseButtons.Left) // Extent triangle selection
{
if (KeyboardHelper.ShiftDown() && !KeyboardHelper.AltDown())
{
sender.SelectTriangles(new[] { PickedTriangle });
RedrawNeeded = true;
}
else if (KeyboardHelper.AltDown() && !KeyboardHelper.ShiftDown())
{
sender.DeselectTriangles(new[] { PickedTriangle });
RedrawNeeded = true;
}
}
else if (KeyboardHelper.CtrlDown() && !IsPointForemost && !KeyboardHelper.ShiftDown() && !KeyboardHelper.AltDown()) // Show surface point preview
{
sender.PreviewGroup.CopyPropertiesFrom(sender.ActiveGroup);
Vector3 PointPosition = Position;
if (sender.PreviewGroup.Depiction == PointDepiction.LocalSurface && sender.TomogramTexture != null) // Discretize position in case of local isosurface
{
Vector3 TomoOffset = sender.TomogramTexture.Offset;
float Scale = Options.PixelScale.X;
PointPosition.X = (float)Math.Round((Position.X - TomoOffset.X) / Scale) * Scale + TomoOffset.X;
PointPosition.Y = (float)Math.Round((Position.Y - TomoOffset.Y) / Scale) * Scale + TomoOffset.Y;
PointPosition.Z = (float)Math.Round((Position.Z - TomoOffset.Z) / Scale) * Scale + TomoOffset.Z;
}
if (sender.PreviewGroup.Points.Count == 0 ||
(sender.PreviewGroup.Points[0].Position - PointPosition).Length > 0.1f)
{
float PsiDiff = 0;
if (sender.PreviewGroup.Points.Count == 1)
{
OpenTK.Matrix3 OldFrame = sender.PreviewGroup.Points[0].TransformedMatrix;
OpenTK.Matrix3 NewFrame = PickedTriangle.GetPlaneMatrix3();
OpenTK.Matrix3 DiffFrame = OpenTK.Matrix3.Transpose(OldFrame) * NewFrame;
PsiDiff = (float)Math.Atan2(DiffFrame.Column0.Y, DiffFrame.Column0.X);
}
if (sender.PreviewGroup.Points.Count == 1)
sender.PreviewGroup.Points.RemoveAt(0);
else if (sender.PreviewGroup.Points.Count > 1)
throw new Exception("Preview group has more than 1 point, but it really should not.");
float Offset = (float)sender.SurfaceOffset * Options.PixelScale.X;
Vector3 TriangleGlobal = Position - PickedTriangle.Normal * Offset;
Vector3 TriangleLocal = PickedTriangle.ToBarycentric(TriangleGlobal);
sender.PreviewGroup.Points.Add(new SurfacePoint(PointPosition, PickedTriangle, TriangleLocal, Offset, PsiDiff));
RedrawNeeded = true;
}
}
else if (!KeyboardHelper.CtrlDown() || IsPointForemost) // Hide surface point preview
{
if (Options.Membrane.PreviewGroup.Points.Count == 1)
{
Options.Membrane.PreviewGroup.Points.RemoveAt(0);
RedrawNeeded = true;
}
else if (Options.Membrane.PreviewGroup.Points.Count > 1)
throw new Exception("Preview group has more than 1 point, but it really should not.");
}
if (KeyboardHelper.CtrlDown() && DraggingPoint != null && TriangleIntersections.Any())
{
Vector3 PointPosition = Position;
if (DraggingPoint.Group.Depiction == PointDepiction.LocalSurface && sender.TomogramTexture != null)
{
Vector3 TomoOffset = sender.TomogramTexture.Offset;
float Scale = Options.PixelScale.X;
PointPosition.X = (float)Math.Round((Position.X - TomoOffset.X) / Scale) * Scale + TomoOffset.X;
PointPosition.Y = (float)Math.Round((Position.Y - TomoOffset.Y) / Scale) * Scale + TomoOffset.Y;
PointPosition.Z = (float)Math.Round((Position.Z - TomoOffset.Z) / Scale) * Scale + TomoOffset.Z;
}
float PsiDiff = 0;
OpenTK.Matrix3 OldFrame = DraggingPoint.TransformedMatrix;
OpenTK.Matrix3 NewFrame = PickedTriangle.GetPlaneMatrix3();
OpenTK.Matrix3 DiffFrame = OpenTK.Matrix3.Transpose(OldFrame) * NewFrame;
PsiDiff = (float)Math.Atan2(DiffFrame.Column0.Y, DiffFrame.Column0.X);
float Offset = (float)sender.SurfaceOffset * Options.PixelScale.X;
Vector3 TriangleGlobal = Position - PickedTriangle.Normal * Offset;
Vector3 TriangleLocal = PickedTriangle.ToBarycentric(TriangleGlobal);
DraggingPoint.OriginalMatrix = NewFrame;
DraggingPoint.Position = PointPosition;
DraggingPoint.SurfaceOffset = Offset;
DraggingPoint.Psi = PsiDiff;
DraggingPoint.Face = PickedTriangle;
DraggingPoint.BarycentricCoords = TriangleLocal;
DraggingPoint.Group.PointCloud.UpdateBuffers();
if (DraggingPoint.Group.Depiction == PointDepiction.LocalSurface) // Only local surface has to be updated when position changes
DraggingPoint.Group.UpdateDepiction();
RedrawNeeded = true;
}
}
Options.Viewport.AreUpdatesDisabled = false;
if (RedrawNeeded)
Options.Viewport.Redraw();
}
void Membrane_MouseLeave(Membrane sender, System.Windows.Forms.MouseEventArgs arg2)
{
TextCursorPosition.Text = "";
DraggingPoint = null;
if (Options.Membrane.PreviewGroup.Points.Count == 1)
{
Options.Membrane.PreviewGroup.Points.RemoveAt(0);
Options.Viewport.Redraw();
}
else if (Options.Membrane.PreviewGroup.Points.Count > 1)
throw new Exception("Preview group has more than 1 point, but it really should not.");
}
void Membrane_MouseEnter(Membrane sender, List<Intersection> arg1, System.Windows.Forms.MouseEventArgs arg2)
{
}
void Membrane_MouseDown(Membrane sender, List<Intersection> intersections, System.Windows.Forms.MouseEventArgs e)
{
IEnumerable<Intersection> TriangleIntersections = intersections.Where(i => i.Target.GetType() == typeof(Triangle));
IEnumerable<Intersection> PointIntersections = intersections.Where(i => i.Target.GetType() == typeof(SurfacePoint));
bool IsPointForemost = PointIntersections.Count() > 0 ? PointIntersections.First() == intersections.First() : false;
if (IsPointForemost && KeyboardHelper.CtrlDown())
DraggingPoint = (SurfacePoint)PointIntersections.First().Target;
}
void Membrane_MouseClick(Membrane sender, List<Intersection> intersections, System.Windows.Forms.MouseEventArgs e)
{
IEnumerable<Intersection> TriangleIntersections = intersections.Where(i => i.Target.GetType() == typeof(Triangle));
IEnumerable<Intersection> PointIntersections = intersections.Where(i => i.Target.GetType() == typeof(SurfacePoint));
bool IsPointForemost = PointIntersections.Count() > 0 ? PointIntersections.First() == intersections.First() : false;
if (KeyboardHelper.ShiftDown() || KeyboardHelper.AltDown() || KeyboardHelper.CtrlDown())
{
if (TriangleIntersections.Count() > 0 && !IsPointForemost)
{
Triangle ClickedTriangle = (Triangle)TriangleIntersections.First().Target;
if (KeyboardHelper.ShiftDown() && !KeyboardHelper.AltDown() && !KeyboardHelper.CtrlDown()) // Select triangles
{
sender.SelectTriangles(new[] { ClickedTriangle });
}
else if (KeyboardHelper.AltDown() && !KeyboardHelper.ShiftDown() && !KeyboardHelper.CtrlDown()) // Deselect triangles
{
sender.DeselectTriangles(new[] { ClickedTriangle });
}
else if (KeyboardHelper.CtrlDown() && !KeyboardHelper.ShiftDown() && !KeyboardHelper.AltDown()) // Create a surface point
{
if (sender.PreviewGroup.Points.Count == 1) // If there is already a preview point, keep it for its possibly non-default Psi
{
SurfacePoint PreviewPoint = sender.PreviewGroup.Points[0];
sender.PreviewGroup.Points.RemoveAt(0);
sender.ActiveGroup.Points.Add(PreviewPoint);
}
else // If no preview points, create one from scratch with Psi = 0
{
Vector3 Position = TriangleIntersections.First().Position;
float Offset = (float)sender.SurfaceOffset * Options.PixelScale.X;
Vector3 TriangleGlobal = Position - ClickedTriangle.Normal * Offset;
Vector3 TriangleLocal = ClickedTriangle.ToBarycentric(TriangleGlobal);
sender.ActiveGroup.Points.Add(new SurfacePoint(Position, ClickedTriangle, TriangleLocal, Offset, 0));
}
Options.Viewport.Redraw();
}
}
}
}
