/// <summary>
/// Determine the size of the union of the bounds of the positioned and rotated child elements.
/// </summary>
/// <param name="availableSize"></param>
/// <returns></returns>
protected override Size MeasureOverride(Size availableSize)
{
Part part = Diagram.FindAncestor <Part>(this);
if (part == null)
{
return(new Size());
}
if (!part.IsMeasuringArranging)
{
return(new Size());
}
Link link = part as Link;
if (link == null)
{
Adornment ad = part as Adornment;
if (ad != null)
{
link = ad.AdornedPart as Link;
}
if (link == null)
{
return(new Size());
}
}
//Diagram.Debug(" LinkPanelM- " + (link.Data != null ? link.Data.ToString() : ""));
Shape stroke = this.Path; // may be null
link.Path = stroke; // the Link caches what the Path really is
Route route = link.Route;
Rect routeBounds = route.RouteBounds; // in model coordinates
Rect linkBounds = routeBounds; // includes all labels
childrenBounds = new List <Rect>(); // in local coordinates
if (stroke != null)
{
stroke.Measure(Geo.Unlimited);
Size sz = stroke.DesiredSize;
linkBounds.Width = Math.Max(linkBounds.Width, sz.Width);
linkBounds.Height = Math.Max(linkBounds.Height, sz.Height);
childrenBounds.Add(new Rect(0, 0, linkBounds.Width, linkBounds.Height));
}
IList <Point> pts = (List <Point>)route.Points;
int nPoints = pts.Count;
foreach (UIElement e in this.Children)
{
if (e == stroke)
{
continue; // already measured the stroke, above
}
e.Measure(Geo.Unlimited);
//if (e.GetType().Name.Contains("Expander")) Diagram.Debug(e.ToString() + " measured: " + Diagram.Str(e.DesiredSize));
if (nPoints < 2)
{
continue;
}
Size sz = e.DesiredSize;
int index = GetIndex(e);
double frac = ComputeFraction(GetFraction(e));
Spot align = GetAlignment(e);
if (align.IsNoSpot)
{
align = Spot.Center;
}
LabelOrientation orient = GetOrientation(e);
Point eltpt; // local coordinates
if (index < -nPoints || index >= nPoints) // beyond range? assume at the MidPoint, with the MidAngle
{
Point mid = route.MidPoint;
if (this.Implementation == LinkPanelImplementation.Stretch)
{
Point p0 = pts[0];
Point pn = pts[nPoints - 1];
sz.Width = Math.Sqrt(Geo.DistanceSquared(pn, p0));
}
double segangle = route.MidAngle;
// maybe rotate the label
double labelangle = 0;
if (orient != LabelOrientation.None)
{
labelangle = ComputeAngle(e, orient, segangle);
link.SetAngle(e, labelangle, align);
}
// maybe the alignment point is away from the line
eltpt = new Point(mid.X - routeBounds.X, mid.Y - routeBounds.Y); // local coordinates
Point offset = ComputeOffset(e, index, segangle, sz, labelangle);
eltpt = Geo.Add(eltpt, offset);
}
else // on a particular segment, given by Index, at a point given by Fraction
// negative index means start from last point, going "backwards"
{
Point a, b;
if (index >= 0)
{
a = pts[index];
b = (index < nPoints - 1) ? pts[index + 1] : a;
}
else
{
int i = nPoints + index; // remember that index is negative here
a = pts[i];
b = (i > 0) ? pts[i - 1] : a;
}
// compute the fractional point along the line, in local coordinates
eltpt = new Point(a.X + (b.X - a.X) * frac - routeBounds.X, a.Y + (b.Y - a.Y) * frac - routeBounds.Y);
double segangle = (index >= 0 ? Geo.GetAngle(a, b) : Geo.GetAngle(b, a));
// maybe rotate the label
double labelangle = 0;
if (orient != LabelOrientation.None)
{
labelangle = ComputeAngle(e, orient, segangle);
link.SetAngle(e, labelangle, align);
}
// maybe the alignment point is away from the line
Point offset = ComputeOffset(e, index, segangle, sz, labelangle);
eltpt = Geo.Add(eltpt, offset);
}
Rect cb = align.RectForPoint(eltpt, sz);
childrenBounds.Add(cb); // local coordinates
linkBounds.Union(new Rect(cb.X + routeBounds.X, cb.Y + routeBounds.Y, cb.Width, cb.Height)); // model coordinates
}
// if this panel is the "whole" link, update the link's Bounds
if (link.VisualElement == this)
{
//Diagram.Debug(" LinkPanelM+ " + (link.Data != null ? link.Data.ToString() : "") + " " + Diagram.Str(routeBounds) + Diagram.Str(linkBounds));
link.Bounds = new Rect(routeBounds.X, routeBounds.Y, linkBounds.Width, linkBounds.Height);
}
return(new Size(routeBounds.Width, routeBounds.Height));
}
/// <summary>
/// Arrange the child elements of this panel and of any label nodes.
/// </summary>
/// <param name="finalSize"></param>
/// <returns></returns>
/// <remarks>
/// This positions each child element based on the attached property values of
/// <see cref="GetIndex"/>, <see cref="GetFraction"/>, <see cref="GetAlignment"/>,
/// and <see cref="GetOrientation"/>.
/// This also positions any <see cref="Link.LabelNode"/>,
/// using the <see cref="LinkPanel"/> attached properties on the node's <see cref="Part.VisualElement"/>,
/// even though such a node is not within the visual tree of this panel.
/// If the label node is a <see cref="Group"/>, this will instead position all of the
/// group's <see cref="Group.MemberNodes"/>.
/// </remarks>
protected override Size ArrangeOverride(Size finalSize)
{
Part part = Diagram.FindAncestor <Part>(this);
if (part == null)
{
return(new Size());
}
Link link = part as Link;
if (link == null)
{
Adornment node = part as Adornment;
if (node != null)
{
link = node.AdornedPart as Link;
}
}
if (link != null)
{
//Diagram.Debug(" LinkPanelA- " + (link.Data != null ? link.Data.ToString() : ""));
Shape stroke = this.Path; // may be null
Route route = link.Route;
Rect routeBounds = route.RouteBounds;
IList <Point> pts = (List <Point>)route.Points;
int nPoints = pts.Count;
int childidx = 0;
if (stroke != null)
{
if (childidx < childrenBounds.Count)
{
stroke.Arrange(childrenBounds[childidx++]);
}
}
foreach (UIElement e in this.Children)
{
if (e == stroke)
{
continue;
}
if (childidx < childrenBounds.Count)
{
//if (e.GetType().Name.Contains("Expander")) Diagram.Debug(e.ToString() + " arranged: " + Diagram.Str(childrenBounds[childidx]));
e.Arrange(childrenBounds[childidx++]);
}
}
//Diagram.Debug(" LinkPanelA+ " + (link.Data != null ? link.Data.ToString() : ""));
Node label = link.LabelNode;
if (label != null)
{
Group labelgroup = label as Group;
foreach (Node m in (labelgroup != null ? labelgroup.MemberNodes : new Node[1] {
label
}))
{
if (nPoints < 2)
{
continue;
}
UIElement e = m.VisualElement;
Size sz = new Size(m.Bounds.Width, m.Bounds.Height);
int index = GetIndex(e);
double frac = ComputeFraction(GetFraction(e));
Spot align = GetAlignment(e);
if (align.IsNoSpot)
{
align = Spot.Center;
}
LabelOrientation orient = GetOrientation(e);
Point nodept; // model coordinates
if (index < -nPoints || index >= nPoints) // beyond range? assume at the MidPoint, with the MidAngle
{
Point mid = route.MidPoint;
double segangle = route.MidAngle;
// maybe rotate the label
double labelangle = 0;
if (orient != LabelOrientation.None)
{
labelangle = ComputeAngle(e, orient, segangle);
m.SetAngle(e, labelangle, align);
}
// maybe the alignment point is away from the line
nodept = mid; // model coordinates
Point offset = ComputeOffset(e, index, segangle, sz, labelangle);
nodept = Geo.Add(nodept, offset);
}
else // on a particular segment, given by Index, at a point given by Fraction
// negative index means start from last point, going "backwards"
{
Point a, b;
if (index >= 0)
{
a = pts[index];
b = (index < nPoints - 1) ? pts[index + 1] : a;
}
else
{
int i = nPoints + index; // remember that index is negative here
a = pts[i];
b = (i > 0) ? pts[i - 1] : a;
}
// compute the fractional point along the line, in model coordinates
nodept = new Point(a.X + (b.X - a.X) * frac, a.Y + (b.Y - a.Y) * frac);
double segangle = (index >= 0 ? Geo.GetAngle(a, b) : Geo.GetAngle(b, a));
// maybe rotate the label
double labelangle = 0;
if (orient != LabelOrientation.None)
{
labelangle = ComputeAngle(e, orient, segangle);
m.SetAngle(e, labelangle, align);
}
// maybe the alignment point is away from the line
Point offset = ComputeOffset(e, index, segangle, sz, labelangle);
nodept = Geo.Add(nodept, offset);
}
Rect hb = align.RectForPoint(nodept, sz);
m.Position = new Point(hb.X, hb.Y);
}
}
}
return(finalSize);
}
//??? doesn't always check/limit values for Parameter1/Parameter2
internal Geometry GetGeometry(Size size) {
double w = size.Width;
if (Double.IsNaN(w) || Double.IsPositiveInfinity(w) || w < 0.5) w = 100;
double h = size.Height;
if (Double.IsNaN(h) || Double.IsPositiveInfinity(h) || h < 0.5) h = 100;
Geometry geo = null;
switch (this.Figure) { // most common cases first
case NodeFigure.None: // none a rectangle too, to make sure we don't return null
case NodeFigure.Square:
//?? s.Reshapable = false; // maintain aspect ratio
case NodeFigure.Rectangle: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), true, true);
context.LineTo(new Point(1 * w, 0), true, false);
context.LineTo(new Point(1 * w, 1 * h), true, false);
context.LineTo(new Point(0, 1 * h), true, false);
context.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Circle:
//?? s.Reshapable = false; // maintain aspect ratio
case NodeFigure.Ellipse:
case NodeFigure.Connector: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0.156, 0.156);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(0.844, 0.844);
geo = new EllipseGeometry() { Center = new Point(.5 * w, .5 * h), RadiusX = .5 * w, RadiusY = .5 * h };
break;
}
case NodeFigure.TriangleRight:
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.5, .75);
return new PathGeometry() {
Figures = new PathFigureCollection() {
new PathFigure() {
StartPoint = new Point(0, 0),
Segments = new PathSegmentCollection() {
new LineSegment() { Point = new Point(w, 0.5*h) },
new LineSegment() { Point = new Point(0, h) }
},
IsClosed = true
}
}
};
case NodeFigure.TriangleDown:
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.25, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75, .5);
return new PathGeometry() {
Figures = new PathFigureCollection() {
new PathFigure() {
StartPoint = new Point(0, 0),
Segments = new PathSegmentCollection() {
new LineSegment() { Point = new Point(w, 0) },
new LineSegment() { Point = new Point(0.5*w, h) }
},
IsClosed = true
}
}
};
case NodeFigure.TriangleLeft:
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.5, .25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1, .75);
return new PathGeometry() {
Figures = new PathFigureCollection() {
new PathFigure() {
StartPoint = new Point(w, h),
Segments = new PathSegmentCollection() {
new LineSegment() { Point = new Point(0, 0.5*h) },
new LineSegment() { Point = new Point(w, 0) }
},
IsClosed = true
}
}
};
case NodeFigure.TriangleUp:
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.25, .50);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75, 1);
return new PathGeometry() {
Figures = new PathFigureCollection() {
new PathFigure() {
StartPoint = new Point(w, h),
Segments = new PathSegmentCollection() {
new LineSegment() { Point = new Point(0, h) },
new LineSegment() { Point = new Point(0.5*w, 0) }
},
IsClosed = true
}
}
};
// Lines
case NodeFigure.Line1:
geo = new LineGeometry() { StartPoint = new Point(0, 0), EndPoint = new Point(w, h) };
break;
case NodeFigure.Line2:
geo = new LineGeometry() { StartPoint = new Point(w, 0), EndPoint = new Point(0, h) };
break;
// Curves
case NodeFigure.Curve1: {
double factor = Geo.MagicBezierFactor;
GeoStream sg1 = new GeoStream();
using (StreamGeometryContext context = sg1.Open()) {
context.BeginFigure(new Point(0, 0), false, false);
context.BezierTo(new Point(factor * w, 0), new Point(1 * w, (1 - factor) * h), new Point(w, h), true, true);
}
geo = sg1.Geometry;
break;
}
case NodeFigure.Curve2: {
double factor = Geo.MagicBezierFactor;
GeoStream sg2 = new GeoStream();
using (StreamGeometryContext context = sg2.Open()) {
context.BeginFigure(new Point(0, 0), false, false);
context.BezierTo(new Point(0, factor * h), new Point((1 - factor) * w, h), new Point(w, h), true, true);
}
geo = sg2.Geometry;
break;
}
case NodeFigure.Curve3: {
double factor = Geo.MagicBezierFactor;
GeoStream sg3 = new GeoStream();
using (StreamGeometryContext context = sg3.Open()) {
context.BeginFigure(new Point(1 * w, 0), false, false);
context.BezierTo(new Point(1 * w, factor * h), new Point(factor * w, 1 * h), new Point(0, 1 * h), true, true);
}
geo = sg3.Geometry;
break;
}
case NodeFigure.Curve4: {
double factor = Geo.MagicBezierFactor;
GeoStream sg4 = new GeoStream();
using (StreamGeometryContext context = sg4.Open()) {
context.BeginFigure(new Point(1 * w, 0), false, false);
context.BezierTo(new Point((1 - factor) * w, 0), new Point(0, (1 - factor) * h), new Point(0, 1 * h), true, true);
}
geo = sg4.Geometry;
break;
}
// Polygons
case NodeFigure.Triangle:
case NodeFigure.Alternative:
case NodeFigure.Merge:
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.25, .5);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75, 1);
GeoStream sg5 = new GeoStream();
using (StreamGeometryContext context = sg5.Open()) {
context.BeginFigure(new Point(.5 * w, 0 * h), true, true);
context.LineTo(new Point(0 * w, 1 * h), true, false);
context.LineTo(new Point(1 * w, 1 * h), true, false);
}
geo = sg5.Geometry;
break;
case NodeFigure.Diamond:
case NodeFigure.Decision:
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.25, .25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75, .75);
GeoStream sg6 = new GeoStream();
using (StreamGeometryContext context = sg6.Open()) {
context.BeginFigure(new Point(.5 * w, 0), true, true);
context.LineTo(new Point(0, .5 * h), true, false);
context.LineTo(new Point(.5 * w, 1 * h), true, false);
context.LineTo(new Point(1 * w, .5 * h), true, false);
}
geo = sg6.Geometry;
break;
case NodeFigure.Pentagon: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.2, .22);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.8, .9);
Point[] points = CreatePolygon(5);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(points[0].X * w, points[0].Y * h), true, true);
for (int i = 1; i < 5; i++)
context.LineTo(new Point(points[i].X * w, points[i].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Hexagon:
case NodeFigure.DataTransmission: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.07, .25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.93, .75);
Point[] points = CreatePolygon(6);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(points[0].X * w, points[0].Y * h), true, true);
for (int i = 1; i < 6; i++)
context.LineTo(new Point(points[i].X * w, points[i].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Heptagon: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.2, .15);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.8, .85);
Point[] points = CreatePolygon(7);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(points[0].X * w, points[0].Y * h), true, true);
for (int i = 1; i < 7; i++)
context.LineTo(new Point(points[i].X * w, points[i].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Octagon: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.15, .15);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.85, .85);
Point[] points = CreatePolygon(8);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(points[0].X * w, points[0].Y * h), true, true);
for (int i = 1; i < 8; i++)
context.LineTo(new Point(points[i].X * w, points[i].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Nonagon: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.17, .13);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.82, .82);
Point[] points = CreatePolygon(9);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(points[0].X * w, points[0].Y * h), true, true);
for (int i = 1; i < 9; i++)
context.LineTo(new Point(points[i].X * w, points[i].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Decagon: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.16, .16);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.84, .84);
Point[] points = CreatePolygon(10);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(points[0].X * w, points[0].Y * h), true, true);
for (int i = 1; i < 10; i++)
context.LineTo(new Point(points[i].X * w, points[i].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Dodecagon: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.16, .16);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.84, .84);
Point[] points = CreatePolygon(12);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(points[0].X * w, points[0].Y * h), true, true);
for (int i = 1; i < 12; i++)
context.LineTo(new Point(points[i].X * w, points[i].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
// Stars
case NodeFigure.FivePointedStar: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.312, .383);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.693, .765);
Point[] points = CreateStar(5);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(points[0].X * w, points[0].Y * h), true, true);
for (int i = 1; i < 10; i++)
context.LineTo(new Point(points[i].X * w, points[i].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.SixPointedStar: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.170, .251);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.833, .755);
Point[] starPoints = CreateStar(6);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(starPoints[0].X * w, starPoints[0].Y * h), true, true);
for (int i = 1; i < 12; i++)
context.LineTo(new Point(starPoints[i].X * w, starPoints[i].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.SevenPointedStar: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.363, .361);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.641, .709);
Point[] starPoints = CreateStar(7);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(starPoints[0].X * w, starPoints[0].Y * h), true, true);
for (int i = 1; i < 14; i++)
context.LineTo(new Point(starPoints[i].X * w, starPoints[i].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.EightPointedStar: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.252, .255);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75, .75);
Point[] starPoints = CreateStar(8);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(starPoints[0].X * w, starPoints[0].Y * h), true, true);
for (int i = 1; i < 16; i++)
context.LineTo(new Point(starPoints[i].X * w, starPoints[i].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.NinePointedStar: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.355, .361);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.645, .651);
Point[] starPoints = CreateStar(9);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(starPoints[0].X * w, starPoints[0].Y * h), true, true);
for (int i = 1; i < 18; i++)
context.LineTo(new Point(starPoints[i].X * w, starPoints[i].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.TenPointedStar: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.281, .261);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.723, .748);
Point[] starPoints = CreateStar(10);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(starPoints[0].X * w, starPoints[0].Y * h), true, true);
for (int i = 1; i < 20; i++)
context.LineTo(new Point(starPoints[i].X * w, starPoints[i].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
// Bursts
case NodeFigure.FivePointedBurst: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.312, .383);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.693, .765);
Point[] burstPoints = CreateBurst(5);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(burstPoints[0].X * w, burstPoints[0].Y * h), true, true);
for (int i = 1; i < burstPoints.Length; i += 3)
context.BezierTo(new Point(burstPoints[i].X * w, burstPoints[i].Y * h), new Point(burstPoints[i + 1].X * w, burstPoints[i + 1].Y * h), new Point(burstPoints[i + 2].X * w, burstPoints[i + 2].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.SixPointedBurst: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.170, .251);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.833, .755);
Point[] burstPoints = CreateBurst(6);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(burstPoints[0].X * w, burstPoints[0].Y * h), true, true);
for (int i = 1; i < burstPoints.Length; i += 3)
context.BezierTo(new Point(burstPoints[i].X * w, burstPoints[i].Y * h), new Point(burstPoints[i + 1].X * w, burstPoints[i + 1].Y * h), new Point(burstPoints[i + 2].X * w, burstPoints[i + 2].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.SevenPointedBurst: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.363, .361);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.641, .709);
Point[] burstPoints = CreateBurst(7);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(burstPoints[0].X * w, burstPoints[0].Y * h), true, true);
for (int i = 1; i < burstPoints.Length; i += 3)
context.BezierTo(new Point(burstPoints[i].X * w, burstPoints[i].Y * h), new Point(burstPoints[i + 1].X * w, burstPoints[i + 1].Y * h), new Point(burstPoints[i + 2].X * w, burstPoints[i + 2].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.EightPointedBurst: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.252, .255);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75, .75);
Point[] burstPoints = CreateBurst(8);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(burstPoints[0].X * w, burstPoints[0].Y * h), true, true);
for (int i = 1; i < burstPoints.Length; i += 3)
context.BezierTo(new Point(burstPoints[i].X * w, burstPoints[i].Y * h), new Point(burstPoints[i + 1].X * w, burstPoints[i + 1].Y * h), new Point(burstPoints[i + 2].X * w, burstPoints[i + 2].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.NinePointedBurst: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.355, .361);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.645, .651);
Point[] burstPoints = CreateBurst(9);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(burstPoints[0].X * w, burstPoints[0].Y * h), true, true);
for (int i = 1; i < burstPoints.Length; i += 3)
context.BezierTo(new Point(burstPoints[i].X * w, burstPoints[i].Y * h), new Point(burstPoints[i + 1].X * w, burstPoints[i + 1].Y * h), new Point(burstPoints[i + 2].X * w, burstPoints[i + 2].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.TenPointedBurst: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.281, .261);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.723, .748);
Point[] burstPoints = CreateBurst(10);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(burstPoints[0].X * w, burstPoints[0].Y * h), true, true);
for (int i = 1; i < burstPoints.Length; i += 3)
context.BezierTo(new Point(burstPoints[i].X * w, burstPoints[i].Y * h), new Point(burstPoints[i + 1].X * w, burstPoints[i + 1].Y * h), new Point(burstPoints[i + 2].X * w, burstPoints[i + 2].Y * h), true, false);
}
geo = sg.Geometry;
break;
}
// Basic Shapes
case NodeFigure.Cloud:
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.1, .1);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.9, .9);
GeoStream sg26 = new GeoStream();
using (StreamGeometryContext context = sg26.Open()) {
context.BeginFigure(new Point(.08034461 * w, .1944299 * h), true, true);
context.BezierTo(new Point(-.09239631 * w, .07836421 * h), new Point(.1406031 * w, -.0542823 * h), new Point(.2008615 * w, .05349299 * h), true, false);
context.BezierTo(new Point(.2450511 * w, -.01697547 * h), new Point(.3776197 * w, -.02112067 * h), new Point(.4338609 * w, .074219 * h), true, false);
context.BezierTo(new Point(.4539471 * w, 0), new Point(.6066018 * w, -.02526587 * h), new Point(.6558228 * w, .07004196 * h), true, false);
context.BezierTo(new Point(.6914277 * w, -.02904177 * h), new Point(.8921095 * w, -.02220843 * h), new Point(.8921095 * w, .08370865 * h), true, false);
context.BezierTo(new Point(1.036446 * w, .04105738 * h), new Point(1.020377 * w, .3022052 * h), new Point(.9147671 * w, .3194596 * h), true, false);
context.BezierTo(new Point(1.04448 * w, .360238 * h), new Point(.992256 * w, .5219009 * h), new Point(.9082935 * w, .562044 * h), true, false);
context.BezierTo(new Point(1.042337 * w, .5771781 * h), new Point(1.028411 * w, .8120651 * h), new Point(.9212406 * w, .8217117 * h), true, false);
context.BezierTo(new Point(1.028411 * w, .9571472 * h), new Point(.8556702 * w, 1.052487 * h), new Point(.7592566 * w, .9156953 * h), true, false);
context.BezierTo(new Point(.7431877 * w, 1.019325 * h), new Point(.5624123 * w, 1.031761 * h), new Point(.5101666 * w, .9310455 * h), true, false);
context.BezierTo(new Point(.4820677 * w, 1.031761 * h), new Point(.3030112 * w, 1.002796 * h), new Point(.2609328 * w, .9344623 * h), true, false);
context.BezierTo(new Point(.2329994 * w, 1.01518 * h), new Point(.03213784 * w, 1.01518 * h), new Point(.08034461 * w, .870098 * h), true, false);
context.BezierTo(new Point(-.02812061 * w, .9032597 * h), new Point(-.01205169 * w, .6835638 * h), new Point(.06829292 * w, .6545475 * h), true, false);
context.BezierTo(new Point(-.02812061 * w, .6089503 * h), new Point(-.01606892 * w, .4555777 * h), new Point(.06427569 * w, .4265613 * h), true, false);
context.BezierTo(new Point(-.01606892 * w, .3892545 * h), new Point(-.01205169 * w, .1944299 * h), new Point(.08034461 * w, .1944299 * h), true, false);
}
geo = sg26.Geometry;
break;
case NodeFigure.Crescent:
case NodeFigure.Gate: { // Flowchart
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.511, .19);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.776, .76);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), true, true);
context.BezierTo(new Point(1 * w, 0), new Point(1 * w, 1 * h), new Point(0, 1 * h), true, false);
context.BezierTo(new Point(.5 * w, .75 * h), new Point(.5 * w, .25 * h), new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.FramedRectangle: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
double param1 = this.FigureParameter1;
double param2 = this.FigureParameter2;
// Set defaults for parameters if they aren't set already
if (param1 == 0) param1 = .1; // Distance between left and inner rect
if (param2 == 0) param2 = .1; // Distance between top and inner rect
// Set valid text area
if (this.Spot1.IsDefault) this.Spot1 = new Spot(param1, param2);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1 - param1, 1 - param2);
// Outside rectangle
context.BeginFigure(new Point(0, 0), true, true);
context.LineTo(new Point(1 * w, 0), true, false);
context.LineTo(new Point(1 * w, 1 * h), true, false);
context.LineTo(new Point(0, 1 * h), true, false);
context.LineTo(new Point(0, 0), true, false);
// Inside Rectangle
context.BeginFigure(new Point(param1 * w, param2 * h), false, true);
context.LineTo(new Point((1 - param1) * w, param2 * h), true, false);
context.LineTo(new Point((1 - param1) * w, (1 - param2) * h), true, false);
context.LineTo(new Point(param1 * w, (1 - param2) * h), true, false);
context.LineTo(new Point(param1 * w, param2 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.HalfEllipse:
case NodeFigure.Delay: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .20);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75, .80);
double factor = Geo.MagicBezierFactor;
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), true, true);
context.BezierTo(new Point(factor * w, 0), new Point(1 * w, (.5 - factor / 2) * h), new Point(1 * w, .5 * h), true, false);
context.BezierTo(new Point(1 * w, (.5 + factor / 2) * h), new Point(factor * w, 1 * h), new Point(0, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Heart: {
// Set default params
double param1 = this.FigureParameter1;
if (param1 == 0) param1 = .25; // y value of the middle
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.15, .29);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.86, .68);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(.5 * w, 1 * h), true, true);
context.BezierTo(new Point(.1 * w,.8 * h), new Point(0, .5 * h), new Point(0 * w, .3 * h), true, false);
context.BezierTo(new Point(0 * w, 0), new Point(.45 * w, 0), new Point(.5 * w, .3 * h), true, false);
context.BezierTo(new Point(.55 * w, 0), new Point(1 * w, 0), new Point(1 * w, .3 * h), true, false);
context.BezierTo(new Point(w, .5 * h), new Point(.9 * w, .8 * h), new Point(.5 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Spade: {
// Set default params
double param1 = this.FigureParameter1;
if (param1 == 0) param1 = .7; // y value of the center
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.19, .26);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.80, .68);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
// Begin at the top middle
context.BeginFigure(new Point(.5 * w, 0), true, true);
context.LineTo(new Point(.51 * w, .01 * h), true, false);
context.BezierTo(new Point(.6 * w, .2 * h), new Point(w, .25 * h), new Point(w, .5 * h), true, false);
context.BezierTo(new Point(w, .8 * h), new Point(.6 * w, .8 * h), new Point(.55 * w, .7 * h), true, false);
// start the base
context.BezierTo(new Point(.5 * w, .75 * h), new Point(.55 * w, .95 * h), new Point(.75 * w, h), true, false);
context.LineTo(new Point(.25 * w, h), true, false);
context.BezierTo(new Point(.45 * w, .95 * h), new Point(.5 * w, .75 * h), new Point(.45 * w, .7 * h), true, false);
// Finish the other side of the top
context.BezierTo(new Point(.4 * w, .8 * h), new Point(0, .8 * h), new Point(0, .5 * h), true, false);
context.BezierTo(new Point(0, .25 * h), new Point(.4 * w, .2 * h), new Point(.49 * w, .01 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Club: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.06, .39);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.93, .58);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
// start the base
context.BeginFigure(new Point(.4 * w, .6 * h), true, true);
context.BezierTo(new Point(.5 * w, .75 * h), new Point(.45 * w, .95 * h), new Point(.15 * w, 1 * h), true, false);
context.LineTo(new Point(.85 * w, h), true, false);
context.BezierTo(new Point(.55 * w, .95 * h), new Point(.5 * w, .75 * h), new Point(.6 * w, .6 * h), true, false);
// First circle:
float r = .2f; // radius
float cx = .3f; // offset from Center x
float cy = 0; // offset from Center y
float d = r * (float)(4 * (Math.Sqrt(2) - 1) / 3);
context.BezierTo(new Point((.5 - r + cx) * w, (.5 + d + cy) * h), new Point((.5 - d + cx) * w, (.5 + r + cy) * h), new Point((.5 + cx) * w, (.5 + r + cy) * h), true, false);
context.BezierTo(new Point((.5 + d + cx) * w, (.5 + r + cy) * h), new Point((.5 + r + cx) * w, (.5 + d + cy) * h), new Point((1 - .5 + r + cx) * w, (.5 + cy) * h), true, false);
context.BezierTo(new Point((1 - .5 + r + cx) * w, (.5 - d + cy) * h), new Point((.5 + d + cx) * w, (.5 - r + cy) * h), new Point((.5 + cx) * w, (.5 - r + cy) * h), true, false);
context.BezierTo(new Point((.5 - d + cx) * w, (.5 - r + cy) * h), new Point((.5 - r + cx + .05) * w, (.5 - d + cy - .02) * h), new Point((.65) * w, (0.36771243) * h), true, false);
r = .2f; // radius
cx = 0; // offset from Center x
cy = -.3f; // offset from Center y
d = r * (float)(4 * (Math.Sqrt(2) - 1) / 3);
context.BezierTo(new Point((.5 + d + cx) * w, (.5 + r + cy) * h), new Point((.5 + r + cx) * w, (.5 + d + cy) * h), new Point((1 - .5 + r + cx) * w, (.5 + cy) * h), true, false);
context.BezierTo(new Point((1 - .5 + r + cx) * w, (.5 - d + cy) * h), new Point((.5 + d + cx) * w, (.5 - r + cy) * h), new Point((.5 + cx) * w, (.5 - r + cy) * h), true, false);
context.BezierTo(new Point((.5 - d + cx) * w, (.5 - r + cy) * h), new Point((.5 - r + cx) * w, (.5 - d + cy) * h), new Point((.5 - r + cx) * w, (.5 + cy) * h), true, false);
context.BezierTo(new Point((.5 - r + cx) * w, (.5 + d + cy) * h), new Point((.5 - d + cx) * w, (.5 + r + cy) * h), new Point((.35) * w, (0.36771243) * h), true, false);
r = .2f; // radius
cx = -.3f; // offset from Center x
cy = 0; // offset from Center y
d = r * (float)(4 * (Math.Sqrt(2) - 1) / 3);
context.BezierTo(new Point((1 - .5 + r + cx - .05) * w, (.5 - d + cy - .02) * h), new Point((.5 + d + cx) * w, (.5 - r + cy) * h), new Point((.5 + cx) * w, (.5 - r + cy) * h), true, false);
context.BezierTo(new Point((.5 - d + cx) * w, (.5 - r + cy) * h), new Point((.5 - r + cx) * w, (.5 - d + cy) * h), new Point((.5 - r + cx) * w, (.5 + cy) * h), true, false);
context.BezierTo(new Point((.5 - r + cx) * w, (.5 + d + cy) * h), new Point((.5 - d + cx) * w, (.5 + r + cy) * h), new Point((.5 + cx) * w, (.5 + r + cy) * h), true, false);
context.BezierTo(new Point((.5 + d + cx) * w, (.5 + r + cy) * h), new Point((.5 + r + cx) * w, (.5 + d + cy) * h), new Point(.4 * w, .6 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.YinYang: {
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .5;
double radius = .5;
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
// Right side
context.BeginFigure(new Point(radius * w, 0), true, true);
context.BezierTo(new Point((radius + cpOffset) * w, 0), new Point(1 * w, (radius - cpOffset) * h), new Point(1 * w, radius * h), true, false);
context.BezierTo(new Point(1 * w, (radius + cpOffset) * h), new Point((radius + cpOffset) * w, 1 * h), new Point(radius * w, 1 * h), true, false);
context.BezierTo(new Point(1 * w, radius * h), new Point(0, radius * h), new Point(radius * w, 0), true, false);
// left side
context.BeginFigure(new Point(radius * w, 1 * h), false, false);
context.BezierTo(new Point((radius - cpOffset) * w, 1 * h), new Point(0, (radius + cpOffset) * h), new Point(0, radius * h), true, false);
context.BezierTo(new Point(0, (radius - cpOffset) * h), new Point((radius - cpOffset) * w, 0), new Point(radius * w, 0), true, false);
Point center = new Point(.5, .75);
radius = .1;
cpOffset = factor * .1;
// bottom circle
context.BeginFigure(new Point(center.X * w, (center.Y - radius) * h), true, true);
context.BezierTo(new Point((center.X - cpOffset) * w, (center.Y - radius) * h), new Point((center.X - radius) * w, (center.Y - cpOffset) * h), new Point((center.X - radius) * w, center.Y * h), true, false); //UL TL
context.BezierTo(new Point((center.X - radius) * w, (center.Y + cpOffset) * h), new Point((center.X - cpOffset) * w, (center.Y + radius) * h), new Point(center.X * w, (center.Y + radius) * h), true, false); //BL TB
context.BezierTo(new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point((center.X + radius) * w, (center.Y + cpOffset) * h), new Point((center.X + radius) * w, center.Y * h), true, false); //BR TR
context.BezierTo(new Point((center.X + radius) * w, (center.Y - cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y - radius) * h), new Point(center.X * w, (center.Y - radius) * h), true, false); //UR TT
center = new Point(.5, .25);
// top circle
context.BeginFigure(new Point(center.X * w, (center.Y - radius) * h), true, true);
context.BezierTo(new Point((center.X - cpOffset) * w, (center.Y - radius) * h), new Point((center.X - radius) * w, (center.Y - cpOffset) * h), new Point((center.X - radius) * w, center.Y * h), true, false); //UL TL
context.BezierTo(new Point((center.X - radius) * w, (center.Y + cpOffset) * h), new Point((center.X - cpOffset) * w, (center.Y + radius) * h), new Point(center.X * w, (center.Y + radius) * h), true, false); //BL TB
context.BezierTo(new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point((center.X + radius) * w, (center.Y + cpOffset) * h), new Point((center.X + radius) * w, center.Y * h), true, false); //BR TR
context.BezierTo(new Point((center.X + radius) * w, (center.Y - cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y - radius) * h), new Point(center.X * w, (center.Y - radius) * h), true, false); //UR TT
context.LineTo(new Point(center.X * w, (center.Y - radius) * h), false, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Peace: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.146, .146);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.853, .853);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
float d1 = .5f * (float)(4 * (Math.Sqrt(2) - 1) / 3);
// First circle:
context.BeginFigure(new Point(w, .5 * h), true, true);
context.BezierTo(new Point(w, (.5 - d1) * h), new Point((.5 + d1) * w, 0), new Point(.5 * w, 0), true, false);
context.BezierTo(new Point((.5 - d1) * w, 0), new Point(0, (.5 - d1) * h), new Point(0, .5 * h), true, false);
context.BezierTo(new Point(0, (.5 + d1) * h), new Point((.5 - d1) * w, h), new Point(.5 * w, h), true, false);
context.BezierTo(new Point((.5 + d1) * w, h), new Point(w, (.5 + d1) * h), new Point(w, .5 * h), true, false);
// Second Circle
float d2 = .4f * (float)(4 * (Math.Sqrt(2) - 1) / 3);
context.BeginFigure(new Point(.9 * w, .5 * h), true, true);
context.BezierTo(new Point(.9 * w, (.5 - d2) * h), new Point((.5 + d2) * w, .1 * h), new Point(.5 * w, .1 * h), true, false);
context.BezierTo(new Point((.5 - d2) * w, .1 * h), new Point(.1 * w, (.5 - d2) * h), new Point(.1 * w, .5 * h), true, false);
context.BezierTo(new Point(.1 * w, (.5 + d2) * h), new Point((.5 - d2) * w, .9 * h), new Point(.5 * w, .9 * h), true, false);
context.BezierTo(new Point((.5 + d2) * w, .9 * h), new Point(.9 * w, (.5 + d2) * h), new Point(.9 * w, .5 * h), true, false);
// Inner Circles
{ // #1
float r = .07f; // radius
float cx = 0; // offset from Center x
float cy = -.707f * .11f; // offset from Center y
float d = r * (float)(4 * (Math.Sqrt(2) - 1) / 3);
context.BeginFigure(new Point((1 - .5 + r + cx) * w, (.5 + cy) * h), true, true);
context.BezierTo(new Point((1 - .5 + r + cx) * w, (.5 - d + cy) * h), new Point((.5 + d + cx) * w, (.5 - r + cy) * h), new Point((.5 + cx) * w, (.5 - r + cy) * h), true, false);
context.BezierTo(new Point((.5 - d + cx) * w, (.5 - r + cy) * h), new Point((.5 - r + cx) * w, (.5 - d + cy) * h), new Point((.5 - r + cx) * w, (.5 + cy) * h), true, false);
context.BezierTo(new Point((.5 - r + cx) * w, (.5 + d + cy) * h), new Point((.5 - d + cx) * w, (.5 + r + cy) * h), new Point((.5 + cx) * w, (.5 + r + cy) * h), true, false);
context.BezierTo(new Point((.5 + d + cx) * w, (.5 + r + cy) * h), new Point((.5 + r + cx) * w, (.5 + d + cy) * h), new Point((1 - .5 + r + cx) * w, (.5 + cy) * h), true, false);
}
{ // #2
float r = .07f; // radius
float cx = -0.707f * .11f; // offset from Center x
float cy = 0.707f * .11f; // offset from Center y
float d = r * (float)(4 * (Math.Sqrt(2) - 1) / 3);
context.BeginFigure(new Point((1 - .5 + r + cx) * w, (.5 + cy) * h), true, true);
context.BezierTo(new Point((1 - .5 + r + cx) * w, (.5 - d + cy) * h), new Point((.5 + d + cx) * w, (.5 - r + cy) * h), new Point((.5 + cx) * w, (.5 - r + cy) * h), true, false);
context.BezierTo(new Point((.5 - d + cx) * w, (.5 - r + cy) * h), new Point((.5 - r + cx) * w, (.5 - d + cy) * h), new Point((.5 - r + cx) * w, (.5 + cy) * h), true, false);
context.BezierTo(new Point((.5 - r + cx) * w, (.5 + d + cy) * h), new Point((.5 - d + cx) * w, (.5 + r + cy) * h), new Point((.5 + cx) * w, (.5 + r + cy) * h), true, false);
context.BezierTo(new Point((.5 + d + cx) * w, (.5 + r + cy) * h), new Point((.5 + r + cx) * w, (.5 + d + cy) * h), new Point((1 - .5 + r + cx) * w, (.5 + cy) * h), true, false);
}
{ // #3
float r = .07f; // radius
float cx = 0.707f * .11f; // offset from Center x
float cy = 0.707f * .11f; // offset from Center y
float d = r * (float)(4 * (Math.Sqrt(2) - 1) / 3);
context.BeginFigure(new Point((1 - .5 + r + cx) * w, (.5 + cy) * h), true, true);
context.BezierTo(new Point((1 - .5 + r + cx) * w, (.5 - d + cy) * h), new Point((.5 + d + cx) * w, (.5 - r + cy) * h), new Point((.5 + cx) * w, (.5 - r + cy) * h), true, false);
context.BezierTo(new Point((.5 - d + cx) * w, (.5 - r + cy) * h), new Point((.5 - r + cx) * w, (.5 - d + cy) * h), new Point((.5 - r + cx) * w, (.5 + cy) * h), true, false);
context.BezierTo(new Point((.5 - r + cx) * w, (.5 + d + cy) * h), new Point((.5 - d + cx) * w, (.5 + r + cy) * h), new Point((.5 + cx) * w, (.5 + r + cy) * h), true, false);
context.BezierTo(new Point((.5 + d + cx) * w, (.5 + r + cy) * h), new Point((.5 + r + cx) * w, (.5 + d + cy) * h), new Point((1 - .5 + r + cx) * w, (.5 + cy) * h), true, false);
}
}
geo = sg.Geometry;
break;
}
case NodeFigure.NotAllowed: {
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .5;
double radius = .5;
Point center = new Point(.5, .5);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// Outer circle
s.BeginFigure(new Point(center.X * w, (center.Y - radius) * h), true, true);
s.BezierTo(new Point((center.X - cpOffset) * w, (center.Y - radius) * h), new Point((center.X - radius) * w, (center.Y - cpOffset) * h), new Point((center.X - radius) * w, center.Y * h), true, false); //UL TL
s.BezierTo(new Point((center.X - radius) * w, (center.Y + cpOffset) * h), new Point((center.X - cpOffset) * w, (center.Y + radius) * h), new Point(center.X * w, (center.Y + radius) * h), true, false); //BL TB
s.BezierTo(new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point((center.X + radius) * w, (center.Y + cpOffset) * h), new Point((center.X + radius) * w, center.Y * h), true, false); //BR TR
s.BezierTo(new Point((center.X + radius) * w, (center.Y - cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y - radius) * h), new Point(center.X * w, (center.Y - radius) * h), true, false); //UR TT
// Inner circle, composed of two parts, separated by
// a beam across going from top-right to bottom-left.
radius = .40;
cpOffset = factor * .40;
// First we cut up the top right 90 degree curve into two smaller curves.
// Since its clockwise, StartOfArrow is the first of the two points on the circle. EndOfArrow is the other one.
Point startOfArrowc1;
Point startOfArrowc2;
Point startOfArrow;
Point unused;
BreakUpBezier(new Point(center.X, center.Y - radius), new Point(center.X + cpOffset, center.Y - radius),
new Point(center.X + radius, center.Y - cpOffset), new Point(center.X + radius, center.Y), .42, out startOfArrowc1,
out startOfArrowc2, out startOfArrow, out unused, out unused);
Point endOfArrowc1;
Point endOfArrowc2;
Point endOfArrow;
BreakUpBezier(new Point(center.X, center.Y - radius), new Point(center.X + cpOffset, center.Y - radius),
new Point(center.X + radius, center.Y - cpOffset), new Point(center.X + radius, center.Y), .58, out unused,
out unused, out endOfArrow, out endOfArrowc1, out endOfArrowc2);
// Cut up the bottom left 90 degree curve into two smaller curves.
Point startOfArrow2c1;
Point startOfArrow2c2;
Point startOfArrow2;
BreakUpBezier(new Point(center.X, center.Y + radius), new Point(center.X - cpOffset, center.Y + radius),
new Point(center.X - radius, center.Y + cpOffset), new Point(center.X - radius, center.Y), .42, out startOfArrow2c1,
out startOfArrow2c2, out startOfArrow2, out unused, out unused);
Point endOfArrow2c1;
Point endOfArrow2c2;
Point endOfArrow2;
BreakUpBezier(new Point(center.X, center.Y + radius), new Point(center.X - cpOffset, center.Y + radius),
new Point(center.X - radius, center.Y + cpOffset), new Point(center.X - radius, center.Y), .58, out unused,
out unused, out endOfArrow2, out endOfArrow2c1, out endOfArrow2c2);
// Take all the parts made and make the two separate inner circle parts.
s.BeginFigure(new Point(endOfArrow2.X * w, endOfArrow2.Y * h), true, true);
s.BezierTo(new Point(endOfArrow2c1.X * w, endOfArrow2c1.Y * h), new Point(endOfArrow2c2.X * w, endOfArrow2c2.Y * h), new Point((center.X - radius) * w, center.Y * h), true, false);
s.BezierTo(new Point((center.X - radius) * w, (center.Y - cpOffset) * h), new Point((center.X - cpOffset) * w, (center.Y - radius) * h), new Point(center.X * w, (center.Y - radius) * h), true, false);
s.BezierTo(new Point(startOfArrowc1.X * w, startOfArrowc1.Y * h), new Point(startOfArrowc2.X * w, startOfArrowc2.Y * h), new Point(startOfArrow.X * w, startOfArrow.Y * h), true, false);
s.LineTo(new Point(endOfArrow2.X * w, endOfArrow2.Y * h), true, false);
s.BeginFigure(new Point(startOfArrow2.X * w, startOfArrow2.Y * h), true, true);
s.LineTo(new Point(endOfArrow.X * w, endOfArrow.Y * h), true, false);
s.BezierTo(new Point(endOfArrowc1.X * w, endOfArrowc1.Y * h), new Point(endOfArrowc2.X * w, endOfArrowc2.Y * h), new Point((center.X + radius) * w, center.Y * h), true, false);
s.BezierTo(new Point((center.X + radius) * w, (center.Y + cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point(center.X * w, (center.Y + radius) * h), true, false);
s.BezierTo(new Point(startOfArrow2c1.X * w, startOfArrow2c1.Y * h), new Point(startOfArrow2c2.X * w, startOfArrow2c2.Y * h), new Point(startOfArrow2.X * w, startOfArrow2.Y * h), true, false);
sg.FillRule = FillRule.EvenOdd;
}
geo = sg.Geometry;
break;
}
case NodeFigure.Fragile: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.25, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75, .4);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
//Top and crack
context.BeginFigure(new Point(0, 0), true, true);
context.LineTo(new Point(.25 * w, 0), true, false);
context.LineTo(new Point(.2 * w, .15 * h), true, false);
context.LineTo(new Point(.3 * w, .25 * h), true, false);
context.LineTo(new Point(.29 * w, .33 * h), true, false);
context.LineTo(new Point(.35 * w, .25 * h), true, false);
context.LineTo(new Point(.3 * w, .15 * h), true, false);
context.LineTo(new Point(.4 * w, 0), true, false);
context.LineTo(new Point(1 * w, 0), true, false);
// Left side
context.BezierTo(new Point(1 * w, .25 * h), new Point(.75 * w, .5 * h), new Point(.55 * w, .5 * h), true, false);
context.LineTo(new Point(.55 * w, .9 * h), true, false);
// The base
context.LineTo(new Point(.7 * w, .9 * h), true, false);
context.LineTo(new Point(.7 * w, 1 * h), true, false);
context.LineTo(new Point(.3 * w, 1 * h), true, false);
context.LineTo(new Point(.3 * w, .9 * h), true, false);
// Right side
context.LineTo(new Point(.45 * w, .9 * h), true, false);
context.LineTo(new Point(.45 * w, .5 * h), true, false);
context.BezierTo(new Point(.25 * w, .5 * h), new Point(0, .25 * h), new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.HourGlass: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(.65 * w, .5 * h), true, true);
context.LineTo(new Point(1 * w, 1 * h), true, false);
context.LineTo(new Point(0, 1 * h), true, false);
context.LineTo(new Point(.35 * w, .5 * h), true, false);
context.LineTo(new Point(0, 0), true, false);
context.LineTo(new Point(1 * w, 0), true, false);
context.LineTo(new Point(.65 * w, .5 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Lightning: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0 * w, .55 * h), true, true);
context.LineTo(new Point(.38 * w, 0), true, false);
context.LineTo(new Point(.75 * w, 0), true, false);
context.LineTo(new Point(.25 * w, .45 * h), true, false);
context.LineTo(new Point(.9 * w, .48 * h), true, false);
context.LineTo(new Point(.4 * w, 1 * h), true, false);
context.LineTo(new Point(.65 * w, .55 * h), true, false);
context.LineTo(new Point(0, .55 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Parallelogram1: {
double param1 = this.FigureParameter1;
if (param1 == 0) param1 = .1; // Topleft corner's x distance from leftmost point
if (this.Spot1.IsDefault) this.Spot1 = new Spot(param1, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1 - param1, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(param1 * w, 0), true, true);
context.LineTo(new Point(1 * w, 0), true, false);
context.LineTo(new Point((1 - param1) * w, 1 * h), true, false);
context.LineTo(new Point(0, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Input: // Flowchart
case NodeFigure.Output: {
GeoStream sg = new GeoStream();
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.1, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.9, 1);
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 1 * h), true, true);
context.LineTo(new Point(.1 * w, 0), true, false);
context.LineTo(new Point(1 * w, 0), true, false);
context.LineTo(new Point(.9 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Parallelogram2: {
double param1 = this.FigureParameter1;
if (param1 == 0) param1 = .25; // Topleft corner's x distance from leftmost point
if (this.Spot1.IsDefault) this.Spot1 = new Spot(param1, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1 - param1, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(param1 * w, 0), true, true);
context.LineTo(new Point(1 * w, 0), true, false);
context.LineTo(new Point((1 - param1) * w, 1 * h), true, false);
context.LineTo(new Point(0, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.ThickCross: {
double param1 = this.FigureParameter1;
if (param1 == 0) param1 = .25; // Thickness of the cross
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.5 - param1 / 2, .5 - param1 / 2);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.5 + param1 / 2, .5 + param1 / 2);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point((.5 - param1 / 2) * w, 0), true, true);
context.LineTo(new Point((.5 + param1 / 2) * w, 0), true, false);
context.LineTo(new Point((.5 + param1 / 2) * w, (.5 - param1 / 2) * h), true, false);
context.LineTo(new Point(1 * w, (.5 - param1 / 2) * h), true, false);
context.LineTo(new Point(1 * w, (.5 + param1 / 2) * h), true, false);
context.LineTo(new Point((.5 + param1 / 2) * w, (.5 + param1 / 2) * h), true, false);
context.LineTo(new Point((.5 + param1 / 2) * w, 1 * h), true, false);
context.LineTo(new Point((.5 - param1 / 2) * w, 1 * h), true, false);
context.LineTo(new Point((.5 - param1 / 2) * w, (.5 + param1 / 2) * h), true, false);
context.LineTo(new Point(0, (.5 + param1 / 2) * h), true, false);
context.LineTo(new Point(0, (.5 - param1 / 2) * h), true, false);
context.LineTo(new Point((.5 - param1 / 2) * w, (.5 - param1 / 2) * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.ThickX: {
double spotPlace = .25 / Math.Sqrt(2);
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.5 - spotPlace, .5 - spotPlace);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.5 + spotPlace, .5 + spotPlace);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(.3 * w, 0), true, true);
s.LineTo(new Point(.5 * w, .2 * h), true, false);
s.LineTo(new Point(.7 * w, 0), true, false);
s.LineTo(new Point(1 * w, .3 * h), true, false);
s.LineTo(new Point(.8 * w, .5 * h), true, false);
s.LineTo(new Point(1 * w, .7 * h), true, false);
s.LineTo(new Point(.7 * w, 1 * h), true, false);
s.LineTo(new Point(.5 * w, .8 * h), true, false);
s.LineTo(new Point(.3 * w, 1 * h), true, false);
s.LineTo(new Point(0, .7 * h), true, false);
s.LineTo(new Point(.2 * w, .5 * h), true, false);
s.LineTo(new Point(0, .3 * h), true, false);
s.LineTo(new Point(.3 * w, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.ThinCross: {
double param1 = this.FigureParameter1;
if (param1 == 0) param1 = .1; // Thickness of the cross
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point((.5 - param1 / 2) * w, 0), true, true);
context.LineTo(new Point((.5 + param1 / 2) * w, 0), true, false);
context.LineTo(new Point((.5 + param1 / 2) * w, (.5 - param1 / 2) * h), true, false);
context.LineTo(new Point(1 * w, (.5 - param1 / 2) * h), true, false);
context.LineTo(new Point(1 * w, (.5 + param1 / 2) * h), true, false);
context.LineTo(new Point((.5 + param1 / 2) * w, (.5 + param1 / 2) * h), true, false);
context.LineTo(new Point((.5 + param1 / 2) * w, 1 * h), true, false);
context.LineTo(new Point((.5 - param1 / 2) * w, 1 * h), true, false);
context.LineTo(new Point((.5 - param1 / 2) * w, (.5 + param1 / 2) * h), true, false);
context.LineTo(new Point(0, (.5 + param1 / 2) * h), true, false);
context.LineTo(new Point(0, (.5 - param1 / 2) * h), true, false);
context.LineTo(new Point((.5 - param1 / 2) * w, (.5 - param1 / 2) * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.ThinX: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(.1 * w, 0), true, true);
s.LineTo(new Point(.5 * w, .4 * h), true, false);
s.LineTo(new Point(.9 * w, 0), true, false);
s.LineTo(new Point(1 * w, .1 * h), true, false);
s.LineTo(new Point(.6 * w, .5 * h), true, false);
s.LineTo(new Point(1 * w, .9 * h), true, false);
s.LineTo(new Point(.9 * w, 1 * h), true, false);
s.LineTo(new Point(.5 * w, .6 * h), true, false);
s.LineTo(new Point(.1 * w, 1 * h), true, false);
s.LineTo(new Point(0, .9 * h), true, false);
s.LineTo(new Point(.4 * w, .5 * h), true, false);
s.LineTo(new Point(0, .1 * h), true, false);
s.LineTo(new Point(.1 * w, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.RightTriangle: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .5);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.5, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), true, true);
context.LineTo(new Point(1 * w, 1 * h), true, false);
context.LineTo(new Point(0, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.RoundedIBeam: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), true, true);
context.LineTo(new Point(1 * w, 0), true, false);
context.BezierTo(new Point(.5 * w, .25 * h), new Point(.5 * w, .75 * h), new Point(1 * w, 1 * h), true, false);
context.LineTo(new Point(0, 1 * h), true, false);
context.BezierTo(new Point(.5 * w, .75 * h), new Point(.5 * w, .25 * h), new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.RoundedRectangle: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.1, .1);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.9, .9);
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .3;
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(.3 * w, 0), true, true);
context.LineTo(new Point(.7 * w, 0), true, false);
context.BezierTo(new Point((.7 + cpOffset) * w, 0), new Point(1 * w, (.3 - cpOffset) * h), new Point(1 * w, .3 * h), true, false);
context.LineTo(new Point(1 * w, .7 * h), true, false);
context.BezierTo(new Point(1 * w, (.7 + cpOffset) * h), new Point((.7 + cpOffset) * w, 1 * h), new Point(.7 * w, 1 * h), true, false);
context.LineTo(new Point(.3 * w, 1 * h), true, false);
context.BezierTo(new Point((.3 - cpOffset) * w, 1 * h), new Point(0, (.7 + cpOffset) * h), new Point(0, .7 * h), true, false);
context.LineTo(new Point(0, .3 * h), true, false);
context.BezierTo(new Point(0, (.3 - cpOffset) * h), new Point((.3 - cpOffset) * w, 0), new Point(.3 * w, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.SquareIBeam: {
double param1 = this.FigureParameter1;
if (param1 == 0) param1 = .2; // Width of the ibeam in % of the total width
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), true, true);
context.LineTo(new Point(1 * w, 0), true, false);
context.LineTo(new Point(1 * w, param1 * h), true, false);
context.LineTo(new Point((.5 + param1 / 2) * w, param1 * h), true, false);
context.LineTo(new Point((.5 + param1 / 2) * w, (1 - param1) * h), true, false);
context.LineTo(new Point(1 * w, (1 - param1) * h), true, false);
context.LineTo(new Point(1 * w, 1 * h), true, false);
context.LineTo(new Point(0, 1 * h), true, false);
context.LineTo(new Point(0, (1 - param1) * h), true, false);
context.LineTo(new Point((.5 - param1 / 2) * w, (1 - param1) * h), true, false);
context.LineTo(new Point((.5 - param1 / 2) * w, param1 * h), true, false);
context.LineTo(new Point(0, param1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Trapezoid: {
double param1 = this.FigureParameter1;
if (param1 == 0) param1 = .2; // Distance from topleft of bounding rectangle, in % of the total width, of the topleft corner
if (this.Spot1.IsDefault) this.Spot1 = new Spot(param1, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1 - param1, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(param1 * w, 0), true, true);
context.LineTo(new Point((1 - param1) * w, 0), true, false);
context.LineTo(new Point(1 * w, 1 * h), true, false);
context.LineTo(new Point(0, 1 * h), true, false);
context.LineTo(new Point(param1 * w, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.ManualLoop:
case NodeFigure.ManualOperation: {
double param1 = this.FigureParameter1;
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.1, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.9, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(param1, 0), true, true);
context.LineTo(new Point(0, 0), true, false);
context.LineTo(new Point(1 * w, 0), true, false);
context.LineTo(new Point(.9 * w, 1 * h), true, false);
context.LineTo(new Point(.1 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.GenderMale: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.202, .257);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.692, .839);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .4;
double radius = .4;
Point center = new Point(.5, .5);
Point unused;
Point mid;
Point c1;
Point c2;
// Outer circle
s.BeginFigure(new Point((center.X - radius) * w, center.Y * h), true, true);
s.BezierTo(new Point((center.X - radius) * w, (center.Y - cpOffset) * h), new Point((center.X - cpOffset) * w, (center.Y - radius) * h), new Point(center.X * w, (center.Y - radius) * h), true, false);
BreakUpBezier(new Point(center.X, center.Y - radius), new Point(center.X + cpOffset, center.Y - radius),
new Point(center.X + radius, center.Y - cpOffset), new Point(center.X + radius, center.Y), .44, out c1,
out c2, out mid, out unused, out unused);
s.BezierTo(new Point(c1.X * w, c1.Y * h), new Point(c2.X * w, c2.Y * h), new Point(mid.X * w, mid.Y * h), true, false);
Point startOfArrow = new Point(mid.X, mid.Y);
BreakUpBezier(new Point(center.X, center.Y - radius), new Point(center.X + cpOffset, center.Y - radius),
new Point(center.X + radius, center.Y - cpOffset), new Point(center.X + radius, center.Y), .56, out unused,
out unused, out mid, out c1, out c2);
Point endOfArrow = new Point(mid.X, mid.Y);
s.LineTo(new Point((startOfArrow.X * .1 + .95 * .9) * w, (startOfArrow.Y * .1) * h), true, false);
s.LineTo(new Point(.85 * w, (startOfArrow.Y * .1) * h), true, false);
s.LineTo(new Point(.85 * w, 0), true, false);
s.LineTo(new Point(1 * w, 0), true, false);
s.LineTo(new Point(1 * w, .15 * h), true, false);
s.LineTo(new Point((endOfArrow.X * .1 + .9) * w, .15 * h), true, false);
s.LineTo(new Point((endOfArrow.X * .1 + .9) * w, (endOfArrow.Y * .1 + .05 * .9) * h), true, false);
s.LineTo(new Point(endOfArrow.X * w, endOfArrow.Y * h), true, false);
s.BezierTo(new Point(c1.X * w, c1.Y * h), new Point(c2.X * w, c2.Y * h), new Point((center.X + radius) * w, center.Y * h), true, false);
s.BezierTo(new Point((center.X + radius) * w, (center.Y + cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point(center.X * w, (center.Y + radius) * h), true, false);
s.BezierTo(new Point((center.X - cpOffset) * w, (center.Y + radius) * h), new Point((center.X - radius) * w, (center.Y + cpOffset) * h), new Point((center.X - radius) * w, center.Y * h), true, false);
// Inner circle
radius = .35;
cpOffset = factor * .35;
s.BeginFigure(new Point(center.X * w, (center.Y - radius) * h), true, true);
s.BezierTo(new Point((center.X - cpOffset) * w, (center.Y - radius) * h), new Point((center.X - radius) * w, (center.Y - cpOffset) * h), new Point((center.X - radius) * w, center.Y * h), true, false); //UL TL
s.BezierTo(new Point((center.X - radius) * w, (center.Y + cpOffset) * h), new Point((center.X - cpOffset) * w, (center.Y + radius) * h), new Point(center.X * w, (center.Y + radius) * h), true, false); //BL TB
s.BezierTo(new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point((center.X + radius) * w, (center.Y + cpOffset) * h), new Point((center.X + radius) * w, center.Y * h), true, false); //BR TR
s.BezierTo(new Point((center.X + radius) * w, (center.Y - cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y - radius) * h), new Point(center.X * w, (center.Y - radius) * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.GenderFemale: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.232, .136);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.782, .611);
// First, the circle:
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
// Head:
// Outer Circle
float r = .375f; // radius
float cx = 0; // offset from Center x
float cy = -.125f; // offset from Center y
float d = r * (float)(4 * (Math.Sqrt(2) - 1) / 3);
context.BeginFigure(new Point((.525 + cx) * w, (.5 + r + cy) * h), true, true);
context.BezierTo(new Point((.5 + d + cx) * w, (.5 + r + cy) * h), new Point((.5 + r + cx) * w, (.5 + d + cy) * h), new Point((1 - .5 + r + cx) * w, (.5 + cy) * h), true, false);
context.BezierTo(new Point((1 - .5 + r + cx) * w, (.5 - d + cy) * h), new Point((.5 + d + cx) * w, (.5 - r + cy) * h), new Point((.5 + cx) * w, (.5 - r + cy) * h), true, false);
context.BezierTo(new Point((.5 - d + cx) * w, (.5 - r + cy) * h), new Point((.5 - r + cx) * w, (.5 - d + cy) * h), new Point((.5 - r + cx) * w, (.5 + cy) * h), true, false);
context.BezierTo(new Point((.5 - r + cx) * w, (.5 + d + cy) * h), new Point((.5 - d + cx) * w, (.5 + r + cy) * h), new Point((.475 + cx) * w, (.5 + r + cy) * h), true, false);
// Legs
context.LineTo(new Point(.475 * w, .85 * h), true, false);
context.LineTo(new Point(.425 * w, .85 * h), true, false);
context.LineTo(new Point(.425 * w, .9 * h), true, false);
context.LineTo(new Point(.475 * w, .9 * h), true, false);
context.LineTo(new Point(.475 * w, 1 * h), true, false);
context.LineTo(new Point(.525 * w, 1 * h), true, false);
context.LineTo(new Point(.525 * w, .9 * h), true, false);
context.LineTo(new Point(.575 * w, .9 * h), true, false);
context.LineTo(new Point(.575 * w, .85 * h), true, false);
context.LineTo(new Point(.525 * w, .85 * h), true, false);
// Inner circle
r = .325f; // radius
cx = 0; // offset from Center x
cy = -.125f; // offset from Center y
d = r * (float)(4 * (Math.Sqrt(2) - 1) / 3);
context.BeginFigure(new Point((1 - .5 + r + cx) * w, (.5 + cy) * h), true, true);
context.BezierTo(new Point((1 - .5 + r + cx) * w, (.5 - d + cy) * h), new Point((.5 + d + cx) * w, (.5 - r + cy) * h), new Point((.5 + cx) * w, (.5 - r + cy) * h), true, false);
context.BezierTo(new Point((.5 - d + cx) * w, (.5 - r + cy) * h), new Point((.5 - r + cx) * w, (.5 - d + cy) * h), new Point((.5 - r + cx) * w, (.5 + cy) * h), true, false);
context.BezierTo(new Point((.5 - r + cx) * w, (.5 + d + cy) * h), new Point((.5 - d + cx) * w, (.5 + r + cy) * h), new Point((.5 + cx) * w, (.5 + r + cy) * h), true, false);
context.BezierTo(new Point((.5 + d + cx) * w, (.5 + r + cy) * h), new Point((.5 + r + cx) * w, (.5 + d + cy) * h), new Point((1 - .5 + r + cx) * w, (.5 + cy) * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.PlusLine: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, .5 * h), false, false);
context.LineTo(new Point(1 * w, .5 * h), true, false);
context.BeginFigure(new Point(.5 * w, 0), false, false);
context.LineTo(new Point(.5 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.XLine: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 1 * h), false, false);
context.LineTo(new Point(1 * w, 0), true, false);
context.BeginFigure(new Point(0, 0), false, false);
context.LineTo(new Point(1 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.AsteriskLine: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
double offset = .2 / Math.Sqrt(2);
context.BeginFigure(new Point(offset * w, (1 - offset) * h), false, false);
context.LineTo(new Point((1 - offset) * w, offset * h), true, false);
context.BeginFigure(new Point(offset * w, offset * h), false, false);
context.LineTo(new Point((1 - offset) * w, (1 - offset) * h), true, false);
context.BeginFigure(new Point(0 * w, .5 * h), false, false);
context.LineTo(new Point(1 * w, .5 * h), true, false);
context.BeginFigure(new Point(.5 * w, 0 * h), false, false);
context.LineTo(new Point(.5 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.CircleLine: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.146, .146);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.853, .853);
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .5;
double radius = .5;
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(1 * w, radius * h), false, false);
context.BezierTo(new Point(1 * w, (radius + cpOffset) * h), new Point((radius + cpOffset) * w, 1 * h), new Point(radius * w, 1 * h), true, false);
context.BezierTo(new Point((radius - cpOffset) * w, 1 * h), new Point(0, (radius + cpOffset) * h), new Point(0, radius * h), true, false);
context.BezierTo(new Point(0, (radius - cpOffset) * h), new Point((radius - cpOffset) * w, 0), new Point(radius * w, 0), true, false);
context.BezierTo(new Point((radius + cpOffset) * w, 0), new Point(1 * w, (radius - cpOffset) * h), new Point(1 * w, radius * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Pie: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
float r = .5f;
float cx = 0; // offset from Center x
float cy = 0; // offset from Center y
float d = r * (float)(4 * (Math.Sqrt(2) - 1) / 3);
double x1 = (.5 * Math.Sqrt(2) / 2 + .5);
double y1 = (.5 - .5 * Math.Sqrt(2) / 2);
double x4 = .5;
double y4 = 0;
double x2 = .7;
double y2 = 0;
double x3 = .5;
double y3 = 0;
context.BeginFigure(new Point(x1 * w, (y1) * h), true, true);
context.BezierTo(new Point(x2 * w, y2 * h), new Point(x3 * w, y3 * h), new Point(x4 * w, y4 * h), true, false);
context.BezierTo(new Point((.5 - d + cx) * w, (.5 - r + cy) * h), new Point((.5 - r + cx) * w, (.5 - d + cy) * h), new Point((.5 - r + cx) * w, (.5 + cy) * h), true, false);
context.BezierTo(new Point((.5 - r + cx) * w, (.5 + d + cy) * h), new Point((.5 - d + cx) * w, (.5 + r + cy) * h), new Point((.5 + cx) * w, (.5 + r + cy) * h), true, false);
context.BezierTo(new Point((.5 + d + cx) * w, (.5 + r + cy) * h), new Point((.5 + r + cx) * w, (.5 + d + cy) * h), new Point((1 - .5 + r + cx) * w, (.5 + cy) * h), true, false);
context.LineTo(new Point(.5 * w, .5 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.PiePiece: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(w, h), true, true);
s.BezierTo(new Point(.99 * w, .75 * h), new Point(.94 * w, .25 * h), new Point(w * (.5 + Math.Sqrt(2) / 4), 0), true, false);
s.LineTo(new Point(0, h), true, false);
s.LineTo(new Point(w, h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.StopSign: {
double part = 1 / (Math.Sqrt(2) + 2);
if (this.Spot1.IsDefault) this.Spot1 = new Spot(part / 2, part / 2);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1 - part / 2, 1 - part / 2);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(part * w, 0), true, true);
context.LineTo(new Point((1 - part) * w, 0), true, false);
context.LineTo(new Point(1 * w, part * h), true, false);
context.LineTo(new Point(1 * w, (1 - part) * h), true, false);
context.LineTo(new Point((1 - part) * w, 1 * h), true, false);
context.LineTo(new Point(part * w, 1 * h), true, false);
context.LineTo(new Point(0, (1 - part) * h), true, false);
context.LineTo(new Point(0, part * h), true, false);
context.LineTo(new Point(part * w, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.LogicImplies: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0,0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.8,.5);
double param1 = this.FigureParameter1;
if (param1 == 0) param1 = .2; // Distance the arrow folds from the right
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point((1 - param1) * w, 0 * h), false, false);
context.LineTo(new Point(1 * w, .5 * h), true, false);
context.LineTo(new Point((1 - param1) * w, h), true, false);
context.BeginFigure(new Point(0, .5 * h), false, false);
context.LineTo(new Point(w, .5 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.LogicIff: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.2, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.8, .5);
double param1 = this.FigureParameter1;
if (param1 == 0) param1 = .2; // Distance the arrow folds from the right
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point((1 - param1) * w, 0 * h), false, false);
context.LineTo(new Point(1 * w, .5 * h), true, false);
context.LineTo(new Point((1 - param1) * w, h), true, false);
context.BeginFigure(new Point(0, .5 * h), false, false);
context.LineTo(new Point(w, .5 * h), true, false);
context.BeginFigure(new Point(param1 * w, 0), false, false);
context.LineTo(new Point(0, .5 * h), true, false);
context.LineTo(new Point(param1 * w, h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.LogicNot: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), false, false);
context.LineTo(new Point(1 * w, 0), true, false);
context.LineTo(new Point(1 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.LogicAnd: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.25,.5);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75,1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 1 * h), false, false);
context.LineTo(new Point(.5 * w, 0), true, false);
context.LineTo(new Point(1 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.LogicOr: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.219, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.78, .409);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), false, false);
context.LineTo(new Point(.5 * w, 1 * h), true, false);
context.LineTo(new Point(1 * w, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.LogicXor: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(.5 * w, 0), false, false);
context.LineTo(new Point(.5 * w, 1 * h), true, false);
context.BeginFigure(new Point(0, .5 * h), false, false);
context.LineTo(new Point(1 * w, .5 * h), true, false);
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .5;
double radius = .5;
context.BezierTo(new Point(1 * w, (radius + cpOffset) * h), new Point((radius + cpOffset) * w, 1 * h), new Point(radius * w, 1 * h), true, false);
context.BezierTo(new Point((radius - cpOffset) * w, 1 * h), new Point(0, (radius + cpOffset) * h), new Point(0, radius * h), true, false);
context.BezierTo(new Point(0, (radius - cpOffset) * h), new Point((radius - cpOffset) * w, 0), new Point(radius * w, 0), true, false);
context.BezierTo(new Point((radius + cpOffset) * w, 0), new Point(1 * w, (radius - cpOffset) * h), new Point(1 * w, radius * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.LogicTruth: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), false, false);
context.LineTo(new Point(1 * w, 0), true, false);
context.BeginFigure(new Point(.5 * w, 0), false, false);
context.LineTo(new Point(.5 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.LogicFalsity: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 1 * h), false, false);
context.LineTo(new Point(1 * w, 1 * h), true, false);
context.BeginFigure(new Point(.5 * w, 1 * h), false, false);
context.LineTo(new Point(.5 * w, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.LogicThereExists: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), false, false);
context.LineTo(new Point(1 * w, 0), true, false);
context.LineTo(new Point(1 * w, .5 * h), true, false);
context.LineTo(new Point(0, .5 * h), true, false);
context.BeginFigure(new Point(1 * w, .5 * h), false, false);
context.LineTo(new Point(1 * w, 1 * h), true, false);
context.LineTo(new Point(0, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.LogicForAll: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.25, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75, .5);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), false, false);
context.LineTo(new Point(.5 * w, 1 * h), true, false);
context.LineTo(new Point(1 * w, 0), true, false);
context.BeginFigure(new Point(.25 * w, .5 * h), false, false);
context.LineTo(new Point(.75 * w, .5 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.LogicIsDefinedAs: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.01, .01);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.99, .49);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), false, false);
context.LineTo(new Point(w, 0), true, false);
context.BeginFigure(new Point(0, .5 * h), false, false);
context.LineTo(new Point(w, .5 * h), true, false);
context.BeginFigure(new Point(0, h), false, false);
context.LineTo(new Point(w, h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.LogicIntersect: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0,.5);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1,1);
// upside down U
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .5;
double radius = .5;
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 1 * h), false, false);
context.LineTo(new Point(0, radius * h), true, false);
context.BezierTo(new Point(0, (radius - cpOffset) * h), new Point((radius - cpOffset) * w, 0), new Point(radius * w, 0), true, false);
context.BezierTo(new Point((radius + cpOffset) * w, 0), new Point(1 * w, (radius - cpOffset) * h), new Point(1 * w, radius * h), true, false);
context.LineTo(new Point(1 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.LogicUnion: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0,0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1,.5);
// upside down U
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .5;
double radius = .5;
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(1 * w, 0), false, false);
context.LineTo(new Point(1 * w, radius * h), true, false);
context.BezierTo(new Point(1 * w, (radius + cpOffset) * h), new Point((radius + cpOffset) * w, 1 * h), new Point(radius * w, 1 * h), true, false);
context.BezierTo(new Point((radius - cpOffset) * w, 1 * h), new Point(0, (radius + cpOffset) * h), new Point(0, radius * h), true, false);
context.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Arrow: {
double param1 = this.FigureParameter1;
double param2 = this.FigureParameter2;
if (param1 == 0) param1 = .3; // % from the edge the ends of the arrow are
if (param2 == 0) param2 = .3; // Arrow width
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .5 - param2 / 2);
Point temp = GetIntersection(new Point(0, .5 + param2 / 2), new Point(1, .5 + param2 / 2), new Point(1 - param1, 1), new Point(1, .5));
if (this.Spot2.IsDefault) this.Spot2 = new Spot(temp.X, temp.Y);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, (.5 - param2 / 2) * h), true, true);
context.LineTo(new Point((1 - param1) * w, (.5 - param2 / 2) * h), true, false);
context.LineTo(new Point((1 - param1) * w, 0), true, false);
context.LineTo(new Point(1 * w, .5 * h), true, false);
context.LineTo(new Point((1 - param1) * w, 1 * h), true, false);
context.LineTo(new Point((1 - param1) * w, (.5 + param2 / 2) * h), true, false);
context.LineTo(new Point(0, (.5 + param2 / 2) * h), true, false);
context.LineTo(new Point(0, (.5 - param2 / 2) * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Chevron:
case NodeFigure.ISOProcess: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), true, true);
context.LineTo(new Point(.5 * w, 0), true, false);
context.LineTo(new Point(1 * w, .5 * h), true, false);
context.LineTo(new Point(.5 * w, 1 * h), true, false);
context.LineTo(new Point(0, 1 * h), true, false);
context.LineTo(new Point(.5 * w, .5 * h), true, false);
context.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.DoubleArrow: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), true, true);
context.LineTo(new Point(.3 * w, 0.214 * h), true, false);
context.LineTo(new Point(.3 * w, 0), true, false);
context.LineTo(new Point(1.0 * w, .5 * h), true, false);
context.LineTo(new Point(.3 * w, 1.0 * h), true, false);
context.LineTo(new Point(.3 * w, 0.786 * h), true, false);
context.LineTo(new Point(0, 1.0 * h), true, false);
context.BeginFigure(new Point(.3 * w, .214 * h), false, false);
context.LineTo(new Point(.3 * w, .786 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.DoubleEndArrow: {
Point temp1 = GetIntersection(new Point(0, .5), new Point(.3, 0), new Point(0, .3), new Point(.3, .3));
if (this.Spot1.IsDefault) this.Spot1 = new Spot(temp1.X, temp1.Y);
Point temp2 = GetIntersection(new Point(.7, 1), new Point(1, .5), new Point(.7, .7), new Point(1, .7));
if (this.Spot2.IsDefault) this.Spot2 = new Spot(temp2.X, temp2.Y);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(1 * w, .5 * h), true, true);
context.LineTo(new Point(.7 * w, 1 * h), true, false);
context.LineTo(new Point(.7 * w, .7 * h), true, false);
context.LineTo(new Point(.3 * w, .7 * h), true, false);
context.LineTo(new Point(.3 * w, 1 * h), true, false);
context.LineTo(new Point(0, .5 * h), true, false);
context.LineTo(new Point(.3 * w, 0), true, false);
context.LineTo(new Point(.3 * w, .3 * h), true, false);
context.LineTo(new Point(.7 * w, .3 * h), true, false);
context.LineTo(new Point(.7 * w, 0), true, false);
context.LineTo(new Point(1 * w, .5 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.IBeamArrow: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .3);
Point temp = GetIntersection(new Point(.7, 1), new Point(1, .5), new Point(.7, .7), new Point(1, .7));
if (this.Spot2.IsDefault) this.Spot2 = new Spot(temp.X, temp.Y);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(1 * w, .5 * h), true, true);
context.LineTo(new Point(.7 * w, 1 * h), true, false);
context.LineTo(new Point(.7 * w, .7 * h), true, false);
context.LineTo(new Point(.2 * w, .7 * h), true, false);
context.LineTo(new Point(.2 * w, 1 * h), true, false);
context.LineTo(new Point(0, 1 * h), true, false);
context.LineTo(new Point(0, 0), true, false);
context.LineTo(new Point(.2 * w, 0), true, false);
context.LineTo(new Point(.2 * w, .3 * h), true, false);
context.LineTo(new Point(.7 * w, .3 * h), true, false);
context.LineTo(new Point(.7 * w, 0), true, false);
context.LineTo(new Point(1 * w, .5 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Pointer: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.2, .35);
Point temp = GetIntersection(new Point(.2, .65), new Point(1, .65), new Point(0, 1), new Point(1, .5));
if (this.Spot2.IsDefault) this.Spot2 = new Spot(temp.X, temp.Y);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(1 * w, .5 * h), true, true);
context.LineTo(new Point(0, 1 * h), true, false);
context.LineTo(new Point(.2 * w, .5 * h), true, false);
context.LineTo(new Point(0, 0), true, false);
context.LineTo(new Point(1 * w, .5 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.RoundedPointer: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.4, .35);
Point temp = GetIntersection(new Point(.2, .65), new Point(1, .65), new Point(0, 1), new Point(1, .5));
if (this.Spot2.IsDefault) this.Spot2 = new Spot(temp.X, temp.Y);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(1 * w, .5 * h), true, true);
context.LineTo(new Point(0, 1 * h), true, false);
context.BezierTo(new Point(.5 * w, .75 * h), new Point(.5 * w, .25 * h), new Point(0, 0), true, false);
context.LineTo(new Point(1 * w, .5 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.SplitEndArrow: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.2, .3);
Point temp = GetIntersection(new Point(.7, 1), new Point(1, .5), new Point(.7, .7), new Point(1, .7));
if (this.Spot2.IsDefault) this.Spot2 = new Spot(temp.X, temp.Y);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(1 * w, .5 * h), true, true);
context.LineTo(new Point(.7 * w, 1 * h), true, false);
context.LineTo(new Point(.7 * w, .7 * h), true, false);
context.LineTo(new Point(0, .7 * h), true, false);
context.LineTo(new Point(.2 * w, .5 * h), true, false);
context.LineTo(new Point(0, .3 * h), true, false);
context.LineTo(new Point(.7 * w, .3 * h), true, false);
context.LineTo(new Point(.7 * w, 0), true, false);
context.LineTo(new Point(1 * w, .5 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.SquareArrow:
case NodeFigure.MessageToUser: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.7, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(1 * w, .5 * h), true, true);
context.LineTo(new Point(.7 * w, 1 * h), true, false);
context.LineTo(new Point(0, 1 * h), true, false);
context.LineTo(new Point(0, 0), true, false);
context.LineTo(new Point(.7 * w, 0), true, false);
context.LineTo(new Point(1 * w, .5 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Cone1: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.25, .5);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75, .97);
double factor = Geo.MagicBezierFactor;
double cpxOffset = factor * .5;
double cpyOffset = factor * .1;
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, .9 * h), true, true);
context.LineTo(new Point(.5 * w, 0), true, false);
context.LineTo(new Point(1 * w, .9 * h), true, false);
context.BezierTo(new Point(1 * w, (.9 + cpyOffset) * h), new Point((.5 + cpxOffset) * w, 1 * h), new Point(.5 * w, 1 * h), true, false);
context.BezierTo(new Point((.5 - cpxOffset) * w, 1 * h), new Point(0, (.9 + cpyOffset) * h), new Point(0, .9 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Cone2: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.25, .5);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75, .82);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, .9 * h), true, true);
context.BezierTo(new Point((1 - .85 / .9) * w, 1 * h), new Point((.85 / .9) * w, 1 * h), new Point(1 * w, .9 * h), true, false);
context.LineTo(new Point(.5 * w, 0), true, false);
context.LineTo(new Point(0, .9 * h), true, false);
context.BeginFigure(new Point(0, .9 * h), false, false);
context.BezierTo(new Point((1 - .85 / .9) * w, .8 * h), new Point((.85 / .9) * w, .8 * h), new Point(1 * w, .9 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Cube1: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0,.3);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.5,.85);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(.5 * w, 1 * h), true, true);
context.LineTo(new Point(1 * w, .85 * h), true, false);
context.LineTo(new Point(1 * w, .15 * h), true, false);
context.LineTo(new Point(.5 * w, 0 * h), true, false);
context.LineTo(new Point(0 * w, .15 * h), true, false);
context.LineTo(new Point(0 * w, .85 * h), true, false);
context.BeginFigure(new Point(.5 * w, 1 * h), false, false);
context.LineTo(new Point(.5 * w, .3 * h), true, false);
context.LineTo(new Point(0, .15 * h), true, false);
context.BeginFigure(new Point(.5 * w, .3 * h), false, false);
context.LineTo(new Point(1 * w, .15 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Cube2: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0,.3);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.7,1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, .3 * h), true, true);
context.LineTo(new Point(0 * w, 1 * h), true, false);
context.LineTo(new Point(.7 * w, h), true, false);
context.LineTo(new Point(1 * w, .7 * h), true, false);
context.LineTo(new Point(1 * w, 0 * h), true, false);
context.LineTo(new Point(.3 * w, 0 * h), true, false);
context.BeginFigure(new Point(0, .3 * h), false, false);
context.LineTo(new Point(.7 * w, .3 * h), true, false);
context.LineTo(new Point(1 * w, 0 * h), true, false);
context.BeginFigure(new Point(.7 * w, .3 * h), false, false);
context.LineTo(new Point(.7 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Cylinder1:
case NodeFigure.MagneticData: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0,.2);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1,.9);
double factor = Geo.MagicBezierFactor;
double cpxOffset = factor * .5;
double cpyOffset = factor * .1;
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
// The base (top)
context.BeginFigure(new Point(0, .1 * h), true, true);
context.BezierTo(new Point(0, (.1 - cpyOffset) * h), new Point((.5 - cpxOffset) * w, 0), new Point(.5 * w, 0), true, true);
context.BezierTo(new Point((.5 + cpxOffset) * w, 0), new Point(1.0 * w, (.1 - cpyOffset) * h), new Point(1.0 * w, .1 * h), true, true);
context.LineTo(new Point(w, .9 * h), true, false);
//// Bottom curve
context.BezierTo(new Point(1.0 * w, (.9 + cpyOffset) * h), new Point((.5 + cpxOffset) * w, 1.0 * h), new Point(.5 * w, 1.0 * h), true, true);
context.BezierTo(new Point((.5 - cpxOffset) * w, 1.0 * h), new Point(0, (.9 + cpyOffset) * h), new Point(0, .9 * h), true, true);
context.LineTo(new Point(0, .1 * h), true, false);
context.BeginFigure(new Point(0, .1 * h), false, false);
context.BezierTo(new Point(0, (.1 + cpyOffset) * h), new Point((.5 - cpxOffset) * w, .2 * h), new Point(.5 * w, .2 * h), true, true);
context.BezierTo(new Point((.5 + cpxOffset) * w, .2 * h), new Point(1.0 * w, (.1 + cpyOffset) * h), new Point(1.0 * w, .1 * h), true, true);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Cylinder2: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0,.1);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1,.8);
double factor = Geo.MagicBezierFactor;
double cpxOffset = factor * .5;
double cpyOffset = factor * .1;
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// The base (bottom)
s.BeginFigure(new Point(0, .9 * h), false, false);
s.BezierTo(new Point(0, (.9 - cpyOffset) * h), new Point((.5 - cpxOffset) * w, .8 * h), new Point(.5 * w, .8 * h), true, false);
s.BezierTo(new Point((.5 + cpxOffset) * w, .8 * h), new Point(1 * w, (.9 - cpyOffset) * h), new Point(1 * w, .9 * h), true, false);
// The body, starting and ending bottom left
s.BeginFigure(new Point(0, .9 * h), true, true);
s.LineTo(new Point(0, .1 * h), true, false);
s.BezierTo(new Point(0, (.1 - cpyOffset) * h), new Point((.5 - cpxOffset) * w, 0), new Point(.5 * w, 0), true, false);
s.BezierTo(new Point((.5 + cpxOffset) * w, 0), new Point(1 * w, (.1 - cpyOffset) * h), new Point(1 * w, .1 * h), true, false);
s.LineTo(new Point(1 * w, .9 * h), true, false);
s.BezierTo(new Point(1 * w, (.9 + cpyOffset) * h), new Point((.5 + cpxOffset) * w, 1 * h), new Point(.5 * w, 1 * h), true, false);
s.BezierTo(new Point((.5 - cpxOffset) * w, 1 * h), new Point(0, (.9 + cpyOffset) * h), new Point(0, .9 * h), true, false);
sg.FillRule = FillRule.Nonzero;
}
geo = sg.Geometry;
break;
}
case NodeFigure.Cylinder3: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.2,0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.9,1);
double factor = Geo.MagicBezierFactor;
double cpxOffset = factor * .1;
double cpyOffset = factor * .5;
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
//cylinder line (left)
s.BeginFigure(new Point(.1 * w, 0), false, false);
s.BezierTo(new Point((.1 + cpxOffset) * w, 0), new Point(.2 * w, (.5 - cpyOffset) * h), new Point(.2 * w, .5 * h), true, false);
s.BezierTo(new Point(.2 * w, (.5 + cpyOffset) * h), new Point((.1 + cpxOffset) * w, 1 * h), new Point(.1 * w, 1 * h), true, false);
// The body, starting and ending top left
s.BeginFigure(new Point(.1 * w, 0), true, true);
s.LineTo(new Point(.9 * w, 0), true, false);
s.BezierTo(new Point((.9 + cpxOffset) * w, 0), new Point(1 * w, (.5 - cpyOffset) * h), new Point(1 * w, .5 * h), true, false);
s.BezierTo(new Point(1 * w, (.5 + cpyOffset) * h), new Point((.9 + cpxOffset) * w, 1 * h), new Point(.9 * w, 1 * h), true, false); //other side down
s.LineTo(new Point(.1 * w, 1 * h), true, false);
s.BezierTo(new Point((.1 - cpxOffset) * w, 1 * h), new Point(0, (.5 + cpyOffset) * h), new Point(0, .5 * h), true, false);
s.BezierTo(new Point(0, (.5 - cpyOffset) * h), new Point((.1 - cpxOffset) * w, 0), new Point(.1 * w, 0), true, false);
sg.FillRule = FillRule.Nonzero;
}
geo = sg.Geometry;
break;
}
case NodeFigure.Cylinder4:
case NodeFigure.DirectData: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.1,0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.8,1);
double factor = Geo.MagicBezierFactor;
double cpxOffset = factor * .1;
double cpyOffset = factor * .5;
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// Cylinder line (right)
s.BeginFigure(new Point(.9 * w, 0), false, false);
s.BezierTo(new Point((.9 - cpxOffset) * w, 0), new Point(.8 * w, (.5 - cpyOffset) * h), new Point(.8 * w, .5 * h), true, false);
s.BezierTo(new Point(.8 * w, (.5 + cpyOffset) * h), new Point((.9 - cpxOffset) * w, 1 * h), new Point(.9 * w, 1 * h), true, false);
// The body, starting and ending top right
s.BeginFigure(new Point(.9 * w, 0), true, false);
s.BezierTo(new Point((.9 + cpxOffset) * w, 0), new Point(1 * w, (.5 - cpyOffset) * h), new Point(1 * w, .5 * h), true, false);
s.BezierTo(new Point(1 * w, (.5 + cpyOffset) * h), new Point((.9 + cpxOffset) * w, 1 * h), new Point(.9 * w, 1 * h), true, false);
s.LineTo(new Point(.1 * w, 1 * h), true, false);
s.BezierTo(new Point((.1 - cpxOffset) * w, 1 * h), new Point(0, (.5 + cpyOffset) * h), new Point(0, .5 * h), true, false);
s.BezierTo(new Point(0, (.5 - cpyOffset) * h), new Point((.1 - cpxOffset) * w, 0), new Point(.1 * w, 0), true, false);
s.LineTo(new Point(.9 * w, 0), true, false);
sg.FillRule = FillRule.Nonzero;
}
geo = sg.Geometry;
break;
}
case NodeFigure.Prism1: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.408,.172);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.833,.662);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(.25 * w, .25 * h), true, true);
context.LineTo(new Point(.75 * w, 0), true, false);
context.LineTo(new Point(w, .5 * h), true, false);
context.LineTo(new Point(.5 * w, h), true, false);
context.LineTo(new Point(0, h), true, false);
context.BeginFigure(new Point(.25 * w, .25 * h), false, false);
context.LineTo(new Point(.5 * w, h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Prism2: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.25,.5);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75,.75);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, .25 * h), true, true);
context.LineTo(new Point(.75 * w, 0), true, false);
context.LineTo(new Point(1 * w, .25 * h), true, false);
context.LineTo(new Point(.75 * w, .75 * h), true, false);
context.LineTo(new Point(0, 1 * h), true, false);
context.BeginFigure(new Point(0, h), false, false);
context.LineTo(new Point(.25 * w, .5 * h), true, false);
context.LineTo(new Point(w, .25 * h), true, false);
context.BeginFigure(new Point(0, .25 * h), false, false);
context.LineTo(new Point(.25 * w, .5 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Pyramid1: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.25,.367);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75,.875);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(.5 * w, 0), true, true);
context.LineTo(new Point(w, .75 * h), true, false);
context.LineTo(new Point(.5 * w, 1 * h), true, false);
context.LineTo(new Point(0, .75 * h), true, false);
context.BeginFigure(new Point(.5 * w, 0), false, false);
context.LineTo(new Point(.5 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Pyramid2: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.25, .367);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75, .875);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(.5 * w, 0), true, true);
context.LineTo(new Point(w, .85 * h), true, false);
context.LineTo(new Point(.5 * w, 1 * h), true, false);
context.LineTo(new Point(0, .85 * h), true, false);
context.BeginFigure(new Point(.5 * w, 0), false, false);
context.LineTo(new Point(.5 * w, .7 * h), true, false);
context.LineTo(new Point(0, .85 * h), true, false);
context.BeginFigure(new Point(.5 * w, .7 * h), false, false);
context.LineTo(new Point(1 * w, .85 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Actor: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.2, .2);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.8, .65);
double factor = Geo.MagicBezierFactor;
Size radius = new Size(.2, .1);
Size offset = new Size(factor * radius.Width, factor * radius.Height);
Point center = new Point(.5, .1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// Head
s.BeginFigure(new Point(center.X * w, (center.Y + radius.Height) * h), true, true);
s.BezierTo(new Point((center.X - offset.Width) * w, (center.Y + radius.Height) * h),
new Point((center.X - radius.Width) * w, (center.Y + offset.Height) * h), new Point((center.X - radius.Width) * w, center.Y * h), true, false);
s.BezierTo(new Point((center.X - radius.Width) * w, (center.Y - offset.Height) * h),
new Point((center.X - offset.Width) * w, (center.Y - radius.Height) * h), new Point(center.X * w, (center.Y - radius.Height) * h), true, false);
s.BezierTo(new Point((center.X + offset.Width) * w, (center.Y - radius.Height) * h),
new Point((center.X + radius.Width) * w, (center.Y - offset.Height) * h), new Point((center.X + radius.Width) * w, center.Y * h), true, false);
s.BezierTo(new Point((center.X + radius.Width) * w, (center.Y + offset.Height) * h),
new Point((center.X + offset.Width) * w, (center.Y + radius.Height) * h), new Point(center.X * w, (center.Y + radius.Height) * h), true, false);
// Body
double r = .05;
double cpOffset = factor * r;
center = new Point(.05, .25);
s.BeginFigure(new Point(.5 * w, .2 * h), true, false);
s.LineTo(new Point(.95 * w, .2 * h), true, false);
center = new Point(.95, .25);
// Right shoulder
s.BezierTo(new Point((center.X + cpOffset) * w, (center.Y - r) * h), new Point((center.X + r) * w, (center.Y - cpOffset) * h), new Point((center.X + r) * w, center.Y * h), true, false);
// Right arm
s.LineTo(new Point(1 * w, .6 * h), true, false);
s.LineTo(new Point(.85 * w, .6 * h), true, false);
s.LineTo(new Point(.85 * w, .35 * h), true, false);
// Under right arm
r = .025;
cpOffset = factor * r;
center = new Point(.825, .35);
s.BezierTo(new Point((center.X + r) * w, (center.Y - cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y - r) * h), new Point(center.X * w, (center.Y - r) * h), true, false);
s.BezierTo(new Point((center.X - cpOffset) * w, (center.Y - r) * h), new Point((center.X - r) * w, (center.Y - cpOffset) * h), new Point((center.X - r) * w, center.Y * h), true, false);
// Right side/leg
s.LineTo(new Point(.8 * w, 1 * h), true, false);
s.LineTo(new Point(.55 * w, 1 * h), true, false);
s.LineTo(new Point(.55 * w, .7 * h), true, false);
// Right in between
r = .05;
cpOffset = factor * r;
center = new Point(.5, .7);
s.BezierTo(new Point((center.X + r) * w, (center.Y - cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y - r) * h), new Point(center.X * w, (center.Y - r) * h), true, false);
s.BezierTo(new Point((center.X - cpOffset) * w, (center.Y - r) * h), new Point((center.X - r) * w, (center.Y - cpOffset) * h), new Point((center.X - r) * w, center.Y * h), true, false);
// Left side/leg
s.LineTo(new Point(.45 * w, 1 * h), true, false);
s.LineTo(new Point(.2 * w, 1 * h), true, false);
s.LineTo(new Point(.2 * w, .35 * h), true, false);
// Left under arm
r = .025;
cpOffset = factor * r;
center = new Point(.175, .35);
s.BezierTo(new Point((center.X + r) * w, (center.Y - cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y - r) * h), new Point(center.X * w, (center.Y - r) * h), true, false);
s.BezierTo(new Point((center.X - cpOffset) * w, (center.Y - r) * h), new Point((center.X - r) * w, (center.Y - cpOffset) * h), new Point((center.X - r) * w, center.Y * h), true, false);
// Left arm
s.LineTo(new Point(.15 * w, .6 * h), true, false);
s.LineTo(new Point(0 * w, .6 * h), true, false);
s.LineTo(new Point(0 * w, .25 * h), true, false);
r = .05;
cpOffset = factor * r;
center = new Point(.05, .25);
// Left shoulder
s.BezierTo(new Point((center.X - r) * w, (center.Y - cpOffset) * h), new Point((center.X - cpOffset) * w, (center.Y - r) * h), new Point(center.X * w, (center.Y - r) * h), true, false);
s.LineTo(new Point(.5 * w, .2 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Card: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .2);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(1 * w, 0 * h), true, true);
context.LineTo(new Point(1 * w, 1 * h), true, false);
context.LineTo(new Point(0 * w, 1 * h), true, false);
context.LineTo(new Point(0 * w, .2 * h), true, false);
context.LineTo(new Point(.2 * w, 0 * h), true, false);
context.LineTo(new Point(1 * w, 0 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Collate: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.25,0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75,.25);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(.5 * w, .5 * h), true, true);
context.LineTo(new Point(0, 0), true, false);
context.LineTo(new Point(1 * w, 0), true, false);
context.LineTo(new Point(.5 * w, .5 * h), true, false);
context.BeginFigure(new Point(.5 * w, .5 * h), true, true);
context.LineTo(new Point(1 * w, 1 * h), true, false);
context.LineTo(new Point(0, 1 * h), true, false);
context.LineTo(new Point(.5 * w, .5 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.CreateRequest: {
double param1 = this.FigureParameter1;
if (param1 == 0) param1 = .1;
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, param1);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1, 1 - param1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
// Inside lines
context.BeginFigure(new Point(0, param1 * h), false, false);
context.LineTo(new Point(1 * w, param1 * h), true, false);
context.BeginFigure(new Point(0, (1 - param1) * h), false, false);
context.LineTo(new Point(1 * w, (1 - param1) * h), true, false);
// Body
context.BeginFigure(new Point(0, 0), true, true);
context.LineTo(new Point(1 * w, 0), true, false);
context.LineTo(new Point(1 * w, 1 * h), true, false);
context.LineTo(new Point(0, 1 * h), true, false);
context.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Database: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .4);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1, .9);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
double factor = Geo.MagicBezierFactor;
double cpxOffset = factor * .5;
double cpyOffset = factor * .1;
// Rings
s.BeginFigure(new Point(1 * w, .1 * h), false, false);
s.BezierTo(new Point(1 * w, (.1 + cpyOffset) * h), new Point((.5 + cpxOffset) * w, .2 * h), new Point(.5 * w, .2 * h), true, false);
s.BezierTo(new Point((.5 - cpxOffset) * w, .2 * h), new Point(0, (.1 + cpyOffset) * h), new Point(0, .1 * h), true, false);
s.BeginFigure(new Point(1 * w, .2 * h), false, false);
s.BezierTo(new Point(1 * w, (.2 + cpyOffset) * h), new Point((.5 + cpxOffset) * w, .3 * h), new Point(.5 * w, .3 * h), true, false);
s.BezierTo(new Point((.5 - cpxOffset) * w, .3 * h), new Point(0, (.2 + cpyOffset) * h), new Point(0, .2 * h), true, false);
s.BeginFigure(new Point(1 * w, .3 * h), false, false);
s.BezierTo(new Point(1 * w, (.3 + cpyOffset) * h), new Point((.5 + cpxOffset) * w, .4 * h), new Point(.5 * w, .4 * h), true, false);
s.BezierTo(new Point((.5 - cpxOffset) * w, .4 * h), new Point(0, (.3 + cpyOffset) * h), new Point(0, .3 * h), true, false);
// Body
s.BeginFigure(new Point(1 * w, .1 * h), true, false);
s.LineTo(new Point(1 * w, .9 * h), true, false);
s.BezierTo(new Point(1 * w, (.9 + cpyOffset) * h), new Point((.5 + cpxOffset) * w, 1 * h), new Point(.5 * w, 1 * h), true, false);
s.BezierTo(new Point((.5 - cpxOffset) * w, 1 * h), new Point(0, (.9 + cpyOffset) * h), new Point(0, .9 * h), true, false);
s.LineTo(new Point(0, .1 * h), true, false);
s.BezierTo(new Point(0, (.1 - cpyOffset) * h), new Point((.5 - cpxOffset) * w, 0), new Point(.5 * w, 0), true, false);
s.BezierTo(new Point((.5 + cpxOffset) * w, 0), new Point(1 * w, (.1 - cpyOffset) * h), new Point(1 * w, .1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.DataStorage: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.226, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.81, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point(.75 * w, 0), true, false);
s.BezierTo(new Point(1 * w, 0), new Point(1 * w, 1 * h), new Point(.75 * w, 1 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.BezierTo(new Point(.25 * w, .9 * h), new Point(.25 * w, .1 * h), new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.DiskStorage: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .3);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1, .9);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
double factor = Geo.MagicBezierFactor;
double cpxOffset = factor * .5;
double cpyOffset = factor * .1;
// Rings
s.BeginFigure(new Point(1 * w, .1 * h), false, false);
s.BezierTo(new Point(1 * w, (.1 + cpyOffset) * h), new Point((.5 + cpxOffset) * w, .2 * h), new Point(.5 * w, .2 * h), true, false);
s.BezierTo(new Point((.5 - cpxOffset) * w, .2 * h), new Point(0, (.1 + cpyOffset) * h), new Point(0, .1 * h), true, false);
s.BeginFigure(new Point(1 * w, .2 * h), false, false);
s.BezierTo(new Point(1 * w, (.2 + cpyOffset) * h), new Point((.5 + cpxOffset) * w, .3 * h), new Point(.5 * w, .3 * h), true, false);
s.BezierTo(new Point((.5 - cpxOffset) * w, .3 * h), new Point(0, (.2 + cpyOffset) * h), new Point(0, .2 * h), true, false);
// Body
s.BeginFigure(new Point(1 * w, .1 * h), true, false);
s.LineTo(new Point(1 * w, .9 * h), true, false);
s.BezierTo(new Point(1 * w, (.9 + cpyOffset) * h), new Point((.5 + cpxOffset) * w, 1 * h), new Point(.5 * w, 1 * h), true, false);
s.BezierTo(new Point((.5 - cpxOffset) * w, 1 * h), new Point(0, (.9 + cpyOffset) * h), new Point(0, .9 * h), true, false);
s.LineTo(new Point(0, .1 * h), true, false);
s.BezierTo(new Point(0, (.1 - cpyOffset) * h), new Point((.5 - cpxOffset) * w, 0), new Point(.5 * w, 0), true, false);
s.BezierTo(new Point((.5 + cpxOffset) * w, 0), new Point(1 * w, (.1 - cpyOffset) * h), new Point(1 * w, .1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Display: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.25, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(.25 * w, 0), true, true);
s.LineTo(new Point(.75 * w, 0), true, false);
s.BezierTo(new Point(1 * w, 0), new Point(1 * w, 1 * h), new Point(.75 * w, 1 * h), true, false);
s.LineTo(new Point(.25 * w, 1 * h), true, false);
s.LineTo(new Point(0, .5 * h), true, false);
s.LineTo(new Point(.25 * w, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.DividedEvent: {
double param1 = this.FigureParameter1;
if (param1 == 0) param1 = .2;
else if (param1 < .15) param1 = .15; // Minimum
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, param1);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1, 1 - param1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .2;
s.BeginFigure(new Point(0, param1 * h), false, false);
s.LineTo(new Point(1 * w, param1 * h), true, false);
s.BeginFigure(new Point(0, .2 * h), true, true);
s.BezierTo(new Point(0, (.2 - cpOffset) * h), new Point((.2 - cpOffset) * w, 0), new Point(.2 * w, 0), true, false);
s.LineTo(new Point(.8 * w, 0), true, false);
s.BezierTo(new Point((.8 + cpOffset) * w, 0), new Point(1 * w, (.2 - cpOffset) * h), new Point(1 * w, .2 * h), true, false);
s.LineTo(new Point(1 * w, .8 * h), true, false);
s.BezierTo(new Point(1 * w, (.8 + cpOffset) * h), new Point((.8 + cpOffset) * w, 1 * h), new Point(.8 * w, 1 * h), true, false);
s.LineTo(new Point(.2 * w, 1 * h), true, false);
s.BezierTo(new Point((.2 - cpOffset) * w, 1 * h), new Point(0, (.8 + cpOffset) * h), new Point(0, .8 * h), true, false);
s.LineTo(new Point(0, .2 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.DividedProcess: {
double param1 = this.FigureParameter1;
if (param1 < .1) param1 = .1; // Minimum
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, param1);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(0, param1 * h), false, false);
s.LineTo(new Point(1 * w, param1 * h), true, false);
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point(1 * w, 0), true, false);
s.LineTo(new Point(1 * w, 1 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Document: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1, .6);
h = h / .8;
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(0, .7 * h), true, true);
s.LineTo(new Point(0, 0), true, false);
s.LineTo(new Point(1 * w, 0), true, false);
s.LineTo(new Point(1 * w, .7 * h), true, false);
s.BezierTo(new Point(.5 * w, .4 * h), new Point(.5 * w, 1 * h), new Point(0, .7 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.ExternalOrganization: {
double param1 = this.FigureParameter1;
if (param1 < .2) param1 = .2; // Minimum
if (this.Spot1.IsDefault) this.Spot1 = new Spot(param1 / 2, param1 / 2);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1 - param1 / 2, 1 - param1 / 2);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// Top left triangle
s.BeginFigure(new Point(param1 * w, 0), false, false);
s.LineTo(new Point(0, param1 * h), true, false);
// Top right triangle
s.BeginFigure(new Point(1 * w, param1 * h), false, false);
s.LineTo(new Point((1 - param1) * w, 0), true, false);
// Bottom left triangle
s.BeginFigure(new Point(0, (1 - param1) * h), false, false);
s.LineTo(new Point(param1 * w, 1 * h), true, false);
// Bottom Right triangle
s.BeginFigure(new Point((1 - param1) * w, 1 * h), false, false);
s.LineTo(new Point(1 * w, (1 - param1) * h), true, false);
// Body
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point(1 * w, 0), true, false);
s.LineTo(new Point(1 * w, 1 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.ExternalProcess: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.25, .25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75, .75);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// Top left triangle
s.BeginFigure(new Point(.1 * w, .4 * h), false, false);
s.LineTo(new Point(.1 * w, .6 * h), true, false);
// Top right triangle
s.BeginFigure(new Point(.9 * w, .6 * h), false, false);
s.LineTo(new Point(.9 * w, .4 * h), true, false);
// Bottom left triangle
s.BeginFigure(new Point(.6 * w, .1 * h), false, false);
s.LineTo(new Point(.4 * w, .1 * h), true, false);
// Bottom Right triangle
s.BeginFigure(new Point(.4 * w, .9 * h), false, false);
s.LineTo(new Point(.6 * w, .9 * h), true, false);
// Body
s.BeginFigure(new Point(.5 * w, 0), true, true);
s.LineTo(new Point(1 * w, .5 * h), true, false);
s.LineTo(new Point(.5 * w, 1 * h), true, false);
s.LineTo(new Point(0, .5 * h), true, false);
s.LineTo(new Point(.5 * w, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.File: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// The fold
s.BeginFigure(new Point(.75 * w, 0), false, false);
s.LineTo(new Point(.75 * w, .25 * h), true, false);
s.LineTo(new Point(1 * w, .25 * h), true, false);
// Body
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point(.75 * w, 0), true, false);
s.LineTo(new Point(1 * w, .25 * h), true, false);
s.LineTo(new Point(1 * w, 1 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Interupt: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.5, .75);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(1 * w, .5 * h), false, false);
s.LineTo(new Point(1 * w, 1 * h), true, false);
s.BeginFigure(new Point(1 * w, .5 * h), false, false);
s.LineTo(new Point(1 * w, 0), true, false);
s.BeginFigure(new Point(1 * w, .5 * h), true, true);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
s.LineTo(new Point(1 * w, .5 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.InternalStorage: {
double param1 = this.FigureParameter1;
double param2 = this.FigureParameter2;
if (param1 == 0) param1 = .1; // Distance from left
if (param2 == 0) param2 = .1; // Distance from top
if (this.Spot1.IsDefault) this.Spot1 = new Spot(param1, param2);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// Two lines
s.BeginFigure(new Point(param1 * w, 0), false, false);
s.LineTo(new Point(param1 * w, 1 * h), true, false);
s.BeginFigure(new Point(0, param2 * h), false, false);
s.LineTo(new Point(1 * w, param2 * h), true, false);
// The main body
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point(1 * w, 0), true, false);
s.LineTo(new Point(1 * w, 1 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Junction: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// X in circle
double factor = Geo.MagicBezierFactor;
double dist = (double)(1 / Math.Sqrt(2));
double small = (double)((1 - 1 / Math.Sqrt(2)) / 2);
double cpOffset = factor * .5;
double radius = .5;
// X
s.BeginFigure(new Point((small + dist) * w, (small + dist) * h), false, false);
s.LineTo(new Point(small * w, small * h), true, false);
s.BeginFigure(new Point(small * w, (small + dist) * h), false, false);
s.LineTo(new Point((small + dist) * w, small * h), true, false);
// Circle
s.BeginFigure(new Point(1 * w, radius * h), true, true);
s.BezierTo(new Point(1 * w, (radius + cpOffset) * h), new Point((radius + cpOffset) * w, 1 * h), new Point(radius * w, 1 * h), true, false);
s.BezierTo(new Point((radius - cpOffset) * w, 1 * h), new Point(0, (radius + cpOffset) * h), new Point(0, radius * h), true, false);
s.BezierTo(new Point(0, (radius - cpOffset) * h), new Point((radius - cpOffset) * w, 0), new Point(radius * w, 0), true, false);
s.BezierTo(new Point((radius + cpOffset) * w, 0), new Point(1 * w, (radius - cpOffset) * h), new Point(1 * w, radius * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.LinedDocument: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.1, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1, .6);
h = h / .8;
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(.1 * w, 0), false, false);
s.LineTo(new Point(.1 * w, .75 * h), true, false);
s.BeginFigure(new Point(0, .7 * h), true, true);
s.LineTo(new Point(0, 0), true, false);
s.LineTo(new Point(1 * w, 0), true, false);
s.LineTo(new Point(1 * w, .7 * h), true, false);
s.BezierTo(new Point(.5 * w, .4 * h), new Point(.5 * w, 1 * h), new Point(0, .7 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.LoopLimit: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(0, 1 * h), true, true);
s.LineTo(new Point(0, .25 * h), true, false);
s.LineTo(new Point(.25 * w, 0), true, false);
s.LineTo(new Point(.75 * w, 0), true, false);
s.LineTo(new Point(1 * w, .25 * h), true, false);
s.LineTo(new Point(1 * w, 1 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.MagneticTape:
case NodeFigure.SequentialData: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.15, .15);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.85, .8);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .5;
double radius = .5;
s.BeginFigure(new Point(.5 * w, 1 * h), true, true);
s.BezierTo(new Point((radius - cpOffset) * w, 1 * h), new Point(0, (radius + cpOffset) * h), new Point(0, radius * h), true, false);
s.BezierTo(new Point(0, (radius - cpOffset) * h), new Point((radius - cpOffset) * w, 0), new Point(radius * w, 0), true, false);
s.BezierTo(new Point((radius + cpOffset) * w, 0), new Point(1 * w, (radius - cpOffset) * h), new Point(1 * w, radius * h), true, false);
s.BezierTo(new Point(1 * w, (radius + cpOffset) * h), new Point((radius + cpOffset) * w, .9 * h), new Point((radius + .1) * w, .9 * h), true, false);
s.LineTo(new Point(1 * w, .9 * h), true, false);
s.LineTo(new Point(1 * w, 1 * h), true, false);
s.LineTo(new Point(.5 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.ManualInput: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(1 * w, 0), true, true);
s.LineTo(new Point(1 * w, 1 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, .25 * h), true, false);
s.LineTo(new Point(1 * w, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.MessageFromUser: {
double param1 = this.FigureParameter1;
if (param1 == 0) param1 = .7; // How far from the right the point is
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(param1, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point(1 * w, 0), true, false);
s.LineTo(new Point(param1 * w, .5 * h), true, false);
s.LineTo(new Point(1 * w, 1 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.MicroformProcessing: {
double param1 = this.FigureParameter1;
if (param1 == 0) param1 = .25; // How far from the top/bottom the points are
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, param1);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1, 1 - param1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point(.5 * w, param1 * h), true, false);
s.LineTo(new Point(1 * w, 0), true, false);
s.LineTo(new Point(1 * w, 1 * h), true, false);
s.LineTo(new Point(.5 * w, (1 - param1) * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.MicroformRecording: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1, .75);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point(.75 * w, .25 * h), true, false);
s.LineTo(new Point(1 * w, .15 * h), true, false);
s.LineTo(new Point(1 * w, .85 * h), true, false);
s.LineTo(new Point(.75 * w, .75 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.MultiDocument: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.8, .77);
h = h / .8;
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// Outline
s.BeginFigure(new Point(w, 0), true, true);
s.LineTo(new Point(w, .5 * h), true, false);
s.BezierTo(new Point(.96 * w, .47 * h), new Point(.93 * w, .45 * h), new Point(.9 * w, .44 * h), true, false);
s.LineTo(new Point(.9 * w, .6 * h), true, false);
s.BezierTo(new Point(.86 * w, .57 * h), new Point(.83 * w, .55 * h), new Point(.8 * w, .54 * h), true, false);
s.LineTo(new Point(.8 * w, .7 * h), true, false);
s.BezierTo(new Point(.4 * w, .4 * h), new Point(.4 * w, 1 * h), new Point(0, .7 * h), true, false);
s.LineTo(new Point(0, .2 * h), true, false);
s.LineTo(new Point(.1 * w, .2 * h), true, false);
s.LineTo(new Point(.1 * w, .1 * h), true, false);
s.LineTo(new Point(.2 * w, .1 * h), true, false);
s.LineTo(new Point(.2 * w, 0), true, false);
s.LineTo(new Point(w, .0), true, false);
// Inside lines
s.BeginFigure(new Point(.1 * w, .2 * h), false, false);
s.LineTo(new Point(.8 * w, .2 * h), true, false);
s.LineTo(new Point(.8 * w, .54 * h), true, false);
s.BeginFigure(new Point(.2 * w, .1 * h), false, false);
s.LineTo(new Point(.9 * w, .1 * h), true, false);
s.LineTo(new Point(.9 * w, .44 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.MultiProcess: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .2);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.8, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(.2 * w, .1 * h), false, false);
s.LineTo(new Point(.9 * w, .1 * h), true, false);
s.LineTo(new Point(.9 * w, .8 * h), true, false);
s.BeginFigure(new Point(.1 * w, .2 * h), false, false);
s.LineTo(new Point(.8 * w, .2 * h), true, false);
s.LineTo(new Point(.8 * w, .9 * h), true, false);
s.BeginFigure(new Point(.1 * w, .1 * h), true, true);
s.LineTo(new Point(.2 * w, .1 * h), true, false);
s.LineTo(new Point(.2 * w, 0), true, false);
s.LineTo(new Point(1 * w, 0), true, false);
s.LineTo(new Point(1 * w, .8 * h), true, false);
s.LineTo(new Point(.9 * w, .8 * h), true, false);
s.LineTo(new Point(.9 * w, .9 * h), true, false);
s.LineTo(new Point(.8 * w, .9 * h), true, false);
s.LineTo(new Point(.8 * w, 1 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, .2 * h), true, false);
s.LineTo(new Point(.1 * w, .2 * h), true, false);
s.LineTo(new Point(.1 * w, .1 * h), true, false);
sg.FillRule = FillRule.Nonzero;
}
geo = sg.Geometry;
break;
}
case NodeFigure.OfflineStorage: {
if (FigureParameter1 == 0) FigureParameter1 = .1; // Distance between 2 top lines
double l = 1 - FigureParameter1; // Length of the top line
if (this.Spot1.IsDefault) this.Spot1 = new Spot(l / 4 + .5 * FigureParameter1, FigureParameter1);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(3 * l / 4 + .5 * FigureParameter1, FigureParameter1 + .5 * l);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(.5 * FigureParameter1 * w, FigureParameter1 * h), false, false);
s.LineTo(new Point((1 - .5 * FigureParameter1) * w, FigureParameter1 * h), true, false);
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point(1 * w, 0), true, false);
s.LineTo(new Point(.5 * w, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.OffPageConnector: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point(.75 * w, 0), true, false);
s.LineTo(new Point(1 * w, .5 * h), true, false);
s.LineTo(new Point(.75 * w, 1 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Or: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// + in circle
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .5;
double radius = .5;
// +
s.BeginFigure(new Point(1 * w, .5 * h), false, false);
s.LineTo(new Point(0, .5 * h), true, false);
s.BeginFigure(new Point(.5 * w, 1 * h), false, false);
s.LineTo(new Point(.5 * w, 0), true, false);
// Circle
s.BeginFigure(new Point(1 * w, radius * h), true, true);
s.BezierTo(new Point(1 * w, (radius + cpOffset) * h), new Point((radius + cpOffset) * w, 1 * h), new Point(radius * w, 1 * h), true, false);
s.BezierTo(new Point((radius - cpOffset) * w, 1 * h), new Point(0, (radius + cpOffset) * h), new Point(0, radius * h), true, false);
s.BezierTo(new Point(0, (radius - cpOffset) * h), new Point((radius - cpOffset) * w, 0), new Point(radius * w, 0), true, false);
s.BezierTo(new Point((radius + cpOffset) * w, 0), new Point(1 * w, (radius - cpOffset) * h), new Point(1 * w, radius * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.PaperTape: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .49);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1, .75);
h = h / .8;
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(0, .7 * h), true, true);
s.LineTo(new Point(0, .3 * h), true, false);
s.BezierTo(new Point(.5 * w, .6 * h), new Point(.5 * w, 0), new Point(1 * w, .3), true, false);
s.LineTo(new Point(1 * w, .7 * h), true, false);
s.BezierTo(new Point(.5 * w, .4 * h), new Point(.5 * w, 1 * h), new Point(0, .7 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.PrimitiveFromCall: {
double param1 = this.FigureParameter1;
double param2 = this.FigureParameter2;
if (param1 == 0) param1 = .1; // Distance of left line from left
if (param2 == 0) param2 = .3; // Distance of point from right
if (this.Spot1.IsDefault) this.Spot1 = new Spot(param1, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1 - param2, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// Left Rectangle
s.BeginFigure(new Point(param1 * w, 0), false, false);
s.LineTo(new Point(param1 * w, 1 * h), true, false);
// Body
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point(1 * w, 0), true, false);
s.LineTo(new Point((1 - param2) * w, .5 * h), true, false);
s.LineTo(new Point(1 * w, 1 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.PrimitiveToCall: {
double param1 = this.FigureParameter1;
double param2 = this.FigureParameter2;
if (param1 == 0) param1 = .1; // Distance of left line from left
if (param2 == 0) param2 = .3; // Distance of top and bottom right corners from right
if (this.Spot1.IsDefault) this.Spot1 = new Spot(param1, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1 - param2, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// Left Rectangle
s.BeginFigure(new Point(param1 * w, 0), false, false);
s.LineTo(new Point(param1 * w, 1 * h), true, false);
// Body
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point((1 - param2) * w, 0), true, false);
s.LineTo(new Point(1 * w, .5 * h), true, false);
s.LineTo(new Point((1 - param2) * w, 1 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Procedure:
case NodeFigure.Subroutine: {
double param1 = this.FigureParameter1;
if (param1 == 0) param1 = .1; // Distance of left and right lines from edge
if (this.Spot1.IsDefault) this.Spot1 = new Spot(param1, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1 - param1, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point((1 - param1) * w, 0), false, false);
s.LineTo(new Point((1 - param1) * w, 1 * h), true, false);
s.BeginFigure(new Point(param1 * w, 0), false, false);
s.LineTo(new Point(param1 * w, 1 * h), true, false);
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point(1 * w, 0), true, false);
s.LineTo(new Point(1 * w, 1 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Process: {
double param1 = this.FigureParameter1;
if (param1 == 0) param1 = .1; // Distance of left line from left edge
if (this.Spot1.IsDefault) this.Spot1 = new Spot(param1, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(param1 * w, 0), false, false);
s.LineTo(new Point(param1 * w, 1 * h), true, false);
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point(1 * w, 0), true, false);
s.LineTo(new Point(1 * w, 1 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Sort: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.25,.25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75,.5);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(0, .5 * h), false, false);
s.LineTo(new Point(1 * w, .5 * h), true, false);
s.BeginFigure(new Point(.5 * w, 0), true, true);
s.LineTo(new Point(1 * w, .5 * h), true, false);
s.LineTo(new Point(.5 * w, 1 * h), true, false);
s.LineTo(new Point(0, .5 * h), true, false);
s.LineTo(new Point(.5 * w, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Start: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.25, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(.25 * w, 0), false, false);
s.LineTo(new Point(.25 * w, 1 * h), true, false);
s.BeginFigure(new Point(.75 * w, 0), false, false);
s.LineTo(new Point(.75 * w, 1 * h), true, false);
s.BeginFigure(new Point(.25 * w, 0), true, true);
s.LineTo(new Point(.75 * w, 0), true, false);
s.BezierTo(new Point(1 * w, 0), new Point(1 * w, 1 * h), new Point(.75 * w, 1 * h), true, false);
s.LineTo(new Point(.25 * w, 1 * h), true, false);
s.BezierTo(new Point(0, 1 * h), new Point(0, 0), new Point(.25 * w, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.StoredData: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.226, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.81, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point(.75 * w, 0), true, false);
s.BezierTo(new Point(1 * w, 0), new Point(1 * w, 1 * h), new Point(.75 * w, 1 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.BezierTo(new Point(.25 * w, .9 * h), new Point(.25 * w, .1 * h), new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Terminator: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.23, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.77, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(.25 * w, 0), true, false);
s.LineTo(new Point(.75 * w, 0), true, false);
s.BezierTo(new Point(1 * w, 0), new Point(1 * w, 1 * h), new Point(.75 * w, 1 * h), true, false);
s.LineTo(new Point(.25 * w, 1 * h), true, false);
s.BezierTo(new Point(0, 1 * h), new Point(0, 0), new Point(.25 * w, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.TransmittalTape: {
double param1 = this.FigureParameter1;
if (param1 == 0) param1 = .1; // Bottom line's distance from the point on the triangle
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(1, 1 - param1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point(1 * w, 0), true, false);
s.LineTo(new Point(1 * w, 1 * h), true, false);
s.LineTo(new Point(.75 * w, (1 - param1) * h), true, false);
s.LineTo(new Point(0, (1 - param1) * h), true, false);
s.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
// Digital Circuits
case NodeFigure.AndGate: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, 0);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.55, 1);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .5;
// The gate body
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point(.5 * w, 0), true, false);
s.BezierTo(new Point((.5 + cpOffset) * w, 0), new Point(1 * w, (.5 - cpOffset) * h), new Point(1 * w, .5 * h), true, false);
s.BezierTo(new Point(1 * w, (.5 + cpOffset) * h), new Point((.5 + cpOffset) * w, 1 * h), new Point(.5 * w, 1 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Buffer: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.5, .75);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point(1 * w, .5 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Clock: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .5;
double radius = .5;
// Inside clock
// This first line solves a GDI+ graphical error with
// more complex gradient brushes.
s.BeginFigure(new Point(1 * w, radius * h), false, false);
s.LineTo(new Point(1 * w, radius * h), true, false);
s.BeginFigure(new Point(.8 * w, .75 * h), false, false);
s.LineTo(new Point(.8 * w, .25 * h), true, false);
s.LineTo(new Point(.6 * w, .25 * h), true, false);
s.LineTo(new Point(.6 * w, .75 * h), true, false);
s.LineTo(new Point(.4 * w, .75 * h), true, false);
s.LineTo(new Point(.4 * w, .25 * h), true, false);
s.LineTo(new Point(.2 * w, .25 * h), true, false);
s.LineTo(new Point(.2 * w, .75 * h), true, false);
// Ellipse
s.BeginFigure(new Point(1 * w, radius * h), true, true);
s.BezierTo(new Point(1 * w, (radius + cpOffset) * h), new Point((radius + cpOffset) * w, 1 * h), new Point(radius * w, 1 * h), true, false);
s.BezierTo(new Point((radius - cpOffset) * w, 1 * h), new Point(0, (radius + cpOffset) * h), new Point(0, radius * h), true, false);
s.BezierTo(new Point(0, (radius - cpOffset) * h), new Point((radius - cpOffset) * w, 0), new Point(radius * w, 0), true, false);
s.BezierTo(new Point((radius + cpOffset) * w, 0), new Point(1 * w, (radius - cpOffset) * h), new Point(1 * w, radius * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Ground: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(.5 * w, 0), false, false);
s.LineTo(new Point(.5 * w, .4 * h), true, false);
s.BeginFigure(new Point(.2 * w, .6 * h), false, false);
s.LineTo(new Point(.8 * w, .6 * h), true, false);
s.BeginFigure(new Point(.3 * w, .8 * h), false, false);
s.LineTo(new Point(.7 * w, .8 * h), true, false);
s.BeginFigure(new Point(.4 * w, 1 * h), false, false);
s.LineTo(new Point(.6 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Inverter: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.4, .75);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// Inversion
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .1;
double radius = .1;
Point center = new Point(.9, .5);
s.BeginFigure(new Point((center.X + radius) * w, center.Y * h), true, true);
s.BezierTo(new Point((center.X + radius) * w, (center.Y + cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point(center.X * w, (center.Y + radius) * h), true, false);
s.BezierTo(new Point((center.X - cpOffset) * w, (center.Y + radius) * h), new Point((center.X - radius) * w, (center.Y + cpOffset) * h), new Point((center.X - radius) * w, center.Y * h), true, false);
s.BezierTo(new Point((center.X - radius) * w, (center.Y - cpOffset) * h), new Point((center.X - cpOffset) * w, (center.Y - radius) * h), new Point(center.X * w, (center.Y - radius) * h), true, false);
s.BezierTo(new Point((center.X + cpOffset) * w, (center.Y - radius) * h), new Point((center.X + radius) * w, (center.Y - cpOffset) * h), new Point((center.X + radius) * w, center.Y * h), true, false);
// Triangle
s.BeginFigure(new Point(.8 * w, .5 * h), true, true);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
s.LineTo(new Point(.8 * w, .5 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.NandGate: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .05);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.55, .95);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
double factor = Geo.MagicBezierFactor;
double cpxOffset = factor * .5;
double cpyOffset = factor * .4;
// Inversion
double cpOffset = factor * .1;
double radius = .1;
Point center = new Point(.9, .5);
s.BeginFigure(new Point((center.X + radius) * w, center.Y * h), true, true);
s.BezierTo(new Point((center.X + radius) * w, (center.Y + cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point(center.X * w, (center.Y + radius) * h), true, false);
s.BezierTo(new Point((center.X - cpOffset) * w, (center.Y + radius) * h), new Point((center.X - radius) * w, (center.Y + cpOffset) * h), new Point((center.X - radius) * w, center.Y * h), true, false);
s.BezierTo(new Point((center.X - radius) * w, (center.Y - cpOffset) * h), new Point((center.X - cpOffset) * w, (center.Y - radius) * h), new Point(center.X * w, (center.Y - radius) * h), true, false);
s.BezierTo(new Point((center.X + cpOffset) * w, (center.Y - radius) * h), new Point((center.X + radius) * w, (center.Y - cpOffset) * h), new Point((center.X + radius) * w, (center.Y) * h), true, false);
// The gate body
s.BeginFigure(new Point(.8 * w, .5 * h), true, true);
s.BezierTo(new Point(.8 * w, (.5 + cpyOffset) * h), new Point((.4 + cpxOffset) * w, 1 * h), new Point(.4 * w, 1 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
s.LineTo(new Point(.4 * w, 0), true, false);
s.BezierTo(new Point((.4 + cpxOffset) * w, 0), new Point(.8 * w, (.5 - cpyOffset) * h), new Point(.8 * w, .5 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.NorGate: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.2, .25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.6, .75);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
double factor = Geo.MagicBezierFactor;
// Inversion
double cpOffset = factor * .1;
double radius = .1;
Point center = new Point(.9, .5);
s.BeginFigure(new Point((center.X - radius) * w, center.Y * h), true, true);
s.BezierTo(new Point((center.X - radius) * w, (center.Y - cpOffset) * h), new Point((center.X - cpOffset) * w, (center.Y - radius) * h), new Point(center.X * w, (center.Y - radius) * h), true, false);
s.BezierTo(new Point((center.X + cpOffset) * w, (center.Y - radius) * h), new Point((center.X + radius) * w, (center.Y - cpOffset) * h), new Point((center.X + radius) * w, center.Y * h), true, false);
s.BezierTo(new Point((center.X + radius) * w, (center.Y + cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point(center.X * w, (center.Y + radius) * h), true, false);
s.BezierTo(new Point((center.X - cpOffset) * w, (center.Y + radius) * h), new Point((center.X - radius) * w, (center.Y + cpOffset) * h), new Point((center.X - radius) * w, center.Y * h), true, false);
// Normal
radius = .5;
cpOffset = factor * radius;
center = new Point(0, .5);
s.BeginFigure(new Point(.8 * w, .5 * h), true, true);
s.BezierTo(new Point(.7 * w, (center.Y + cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point(0, 1 * h), true, false);
s.BezierTo(new Point(.25 * w, .75 * h), new Point(.25 * w, .25 * h), new Point(0, 0), true, false);
s.BezierTo(new Point((center.X + cpOffset) * w, (center.Y - radius) * h), new Point(.7 * w, (center.Y - cpOffset) * h), new Point(.8 * w, .5 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.OrGate: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.2, .25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75, .75);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
double factor = Geo.MagicBezierFactor;
double radius = .5;
double cpOffset = factor * radius;
Point center = new Point(0, .5);
s.BeginFigure(new Point(0, 0), true, true);
s.BezierTo(new Point((center.X + cpOffset + cpOffset) * w, (center.Y - radius) * h), new Point(.8 * w, (center.Y - cpOffset) * h), new Point(1 * w, .5 * h), true, false);
s.BezierTo(new Point(.8 * w, (center.Y + cpOffset) * h), new Point((center.X + cpOffset + cpOffset) * w, (center.Y + radius) * h), new Point(0, 1 * h), true, false);
s.BezierTo(new Point(.25 * w, .75 * h), new Point(.25 * w, .25 * h), new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.XnorGate: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.4, .25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.65, .75);
double factor = Geo.MagicBezierFactor;
// Inversion
double cpOffset = factor * .1;
double radius = .1;
Point center = new Point(.9, .5);
s.BeginFigure(new Point((center.X - radius) * w, center.Y * h), true, true);
s.BezierTo(new Point((center.X - radius) * w, (center.Y - cpOffset) * h), new Point((center.X - cpOffset) * w, (center.Y - radius) * h), new Point(center.X * w, (center.Y - radius) * h), true, false);
s.BezierTo(new Point((center.X + cpOffset) * w, (center.Y - radius) * h), new Point((center.X + radius) * w, (center.Y - cpOffset) * h), new Point((center.X + radius) * w, center.Y * h), true, false);
s.BezierTo(new Point((center.X + radius) * w, (center.Y + cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point(center.X * w, (center.Y + radius) * h), true, false);
s.BezierTo(new Point((center.X - cpOffset) * w, (center.Y + radius) * h), new Point((center.X - radius) * w, (center.Y + cpOffset) * h), new Point((center.X - radius) * w, center.Y * h), true, false);
// Normal
radius = .5;
cpOffset = factor * radius;
center = new Point(.2, .5);
s.BeginFigure(new Point(.1 * w, 0), false, false);
s.BezierTo(new Point(.35 * w, .25 * h), new Point(.35 * w, .75 * h), new Point(.1 * w, 1 * h), true, false);
s.BeginFigure(new Point(.8 * w, .5 * h), true, true);
s.BezierTo(new Point(.7 * w, (center.Y + cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point(.2 * w, 1 * h), true, false);
s.BezierTo(new Point(.45 * w, .75 * h), new Point(.45 * w, .25 * h), new Point(.2 * w, 0), true, false);
s.BezierTo(new Point((center.X + cpOffset) * w, (center.Y - radius) * h), new Point(.7 * w, (center.Y - cpOffset) * h), new Point(.8 * w, .5 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.XorGate: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.4, .25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.8, .75);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
double factor = Geo.MagicBezierFactor;
double radius = .5;
double cpOffset = factor * radius;
Point center = new Point(.2, .5);
s.BeginFigure(new Point(.1 * w, 0), false, false);
s.BezierTo(new Point(.35 * w, .25 * h), new Point(.35 * w, .75 * h), new Point(.1 * w, 1 * h), true, false);
s.BeginFigure(new Point(.2 * w, 0), true, true);
s.BezierTo(new Point((center.X + cpOffset) * w, (center.Y - radius) * h), new Point(.9 * w, (center.Y - cpOffset) * h), new Point(1 * w, .5 * h), true, false);
s.BezierTo(new Point(.9 * w, (center.Y + cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point(.2 * w, 1 * h), true, false);
s.BezierTo(new Point(.45 * w, .75 * h), new Point(.45 * w, .25 * h), new Point(.2 * w, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Capacitor: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// Two vertical Lines
s.BeginFigure(new Point(0, 0), false, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.BeginFigure(new Point(1 * w, 0), false, false);
s.LineTo(new Point(1 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Resistor: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(0, .5 * h), false, false);
s.LineTo(new Point(.1 * w, 0), true, false);
s.LineTo(new Point(.2 * w, 1 * h), true, false);
s.LineTo(new Point(.3 * w, 0), true, false);
s.LineTo(new Point(.4 * w, 1 * h), true, false);
s.LineTo(new Point(.5 * w, 0), true, false);
s.LineTo(new Point(.6 * w, 1 * h), true, false);
s.LineTo(new Point(.7 * w, .5 * h), true, false); // I only go from 0 to .7f, letting bounds resize it accordingly
}
geo = sg.Geometry;
break;
}
case NodeFigure.Inductor: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// 3 loops and two ends
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .1;
double radius = .1;
Point center = new Point(.1, .5);
s.BeginFigure(new Point((center.X - cpOffset * .5) * w, (center.Y + radius) * h), false, false);
s.BezierTo(new Point((center.X - cpOffset) * w, (center.Y + radius) * h), new Point((center.X - radius) * w, (center.Y + cpOffset) * h), new Point((center.X + radius) * w, (center.Y + cpOffset) * h), true, false);
center = new Point(.3, .5);
s.BezierTo(new Point((center.X + radius) * w, (center.Y + cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point(center.X * w, (center.Y + radius) * h), true, false);
s.BezierTo(new Point((center.X - cpOffset) * w, (center.Y + radius) * h), new Point((center.X - radius) * w, (center.Y + cpOffset) * h), new Point((center.X + radius) * w, (center.Y + cpOffset) * h), true, false);
center = new Point(.5, .5);
s.BezierTo(new Point((center.X + radius) * w, (center.Y + cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point(center.X * w, (center.Y + radius) * h), true, false);
s.BezierTo(new Point((center.X - cpOffset) * w, (center.Y + radius) * h), new Point((center.X - radius) * w, (center.Y + cpOffset) * h), new Point((center.X + radius) * w, (center.Y + cpOffset) * h), true, false);
center = new Point(.7, .5);
s.BezierTo(new Point((center.X + radius) * w, (center.Y + cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point(center.X * w, (center.Y + radius) * h), true, false);
s.BezierTo(new Point((center.X - cpOffset) * w, (center.Y + radius) * h), new Point((center.X - radius) * w, (center.Y + cpOffset) * h), new Point((center.X + radius) * w, (center.Y + cpOffset) * h), true, false);
center = new Point(.9, .5);
s.BezierTo(new Point((center.X + radius) * w, (center.Y + cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point((center.X + cpOffset * .5) * w, (center.Y + radius) * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.ACvoltageSource: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// Circle with curve in middle
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .5;
double radius = .5;
Point center = new Point(.5, .5);
s.BeginFigure(new Point((center.X - radius) * w, center.Y * h), false, true);
s.BezierTo(new Point((center.X - radius) * w, (center.Y - cpOffset) * h), new Point((center.X - cpOffset) * w, (center.Y - radius) * h), new Point(center.X * w, (center.Y - radius) * h), true, false);
s.BezierTo(new Point((center.X + cpOffset) * w, (center.Y - radius) * h), new Point((center.X + radius) * w, (center.Y - cpOffset) * h), new Point((center.X + radius) * w, center.Y * h), true, false);
s.BezierTo(new Point((center.X + radius) * w, (center.Y + cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point(center.X * w, (center.Y + radius) * h), true, false);
s.BezierTo(new Point((center.X - cpOffset) * w, (center.Y + radius) * h), new Point((center.X - radius) * w, (center.Y + cpOffset) * h), new Point((center.X - radius) * w, center.Y * h), true, false);
s.BeginFigure(new Point((center.X - radius + .1) * w, center.Y * h), false, false);
s.BezierTo(new Point(center.X * w, (center.Y - radius) * h), new Point(center.X * w, (center.Y + radius) * h), new Point((center.X + radius - .1) * w, center.Y * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.DCvoltageSource: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// Small vertical line and large vertical line
s.BeginFigure(new Point(0, .75 * h), false, false);
s.LineTo(new Point(0, .25 * h), true, false);
s.BeginFigure(new Point(1 * w, 0), false, false);
s.LineTo(new Point(1 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Diode: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(0, .25);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.5,.75);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
// Small vertical line and large vertical line
s.BeginFigure(new Point(0, 0), false, true);
s.LineTo(new Point(1 * w, .5 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
s.BeginFigure(new Point(1 * w, 0), false, false);
s.LineTo(new Point(1 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
// Computer Shapes
case NodeFigure.Wifi: {
double origw = w;
double origh = h;
w = w * .38;
h = h * .6;
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .2;
double radius = .2;
Point center = new Point(.5, .5);
double xOffset = (origw - w) / 2;
double yOffset = (origh - h) / 2;
s.BeginFigure(new Point((center.X - radius) * w /*xoffset*/+ xOffset, center.Y * h /*yoffset*/+ yOffset), true, true);
s.BezierTo(new Point((center.X - radius) * w /*xoffset*/+ xOffset, (center.Y - cpOffset) * h /*yoffset*/+ yOffset), new Point((center.X - cpOffset) * w /*xoffset*/+ xOffset, (center.Y - radius) * h /*yoffset*/+ yOffset), new Point(center.X * w /*xoffset*/+ xOffset, (center.Y - radius) * h /*yoffset*/+ yOffset), true, false);
s.BezierTo(new Point((center.X + cpOffset) * w /*xoffset*/+ xOffset, (center.Y - radius) * h /*yoffset*/+ yOffset), new Point((center.X + radius) * w /*xoffset*/+ xOffset, (center.Y - cpOffset) * h /*yoffset*/+ yOffset), new Point((center.X + radius) * w /*xoffset*/+ xOffset, center.Y * h /*yoffset*/+ yOffset), true, false);
s.BezierTo(new Point((center.X + radius) * w /*xoffset*/+ xOffset, (center.Y + cpOffset) * h /*yoffset*/+ yOffset), new Point((center.X + cpOffset) * w /*xoffset*/+ xOffset, (center.Y + radius) * h /*yoffset*/+ yOffset), new Point(center.X * w /*xoffset*/+ xOffset, (center.Y + radius) * h /*yoffset*/+ yOffset), true, false);
s.BezierTo(new Point((center.X - cpOffset) * w /*xoffset*/+ xOffset, (center.Y + radius) * h /*yoffset*/+ yOffset), new Point((center.X - radius) * w /*xoffset*/+ xOffset, (center.Y + cpOffset) * h /*yoffset*/+ yOffset), new Point((center.X - radius) * w /*xoffset*/+ xOffset, center.Y * h /*yoffset*/+ yOffset), true, false);
//Right curves
cpOffset = factor * .4;
radius = .4;
center = new Point(.8, .5);
s.BeginFigure(new Point(center.X * w /*xoffset*/+ xOffset, (center.Y - radius) * h /*yoffset*/+ yOffset), true, true);
s.BezierTo(new Point((center.X + cpOffset) * w /*xoffset*/+ xOffset, (center.Y - radius) * h /*yoffset*/+ yOffset), new Point((center.X + radius) * w /*xoffset*/+ xOffset, (center.Y - cpOffset) * h /*yoffset*/+ yOffset), new Point((center.X + radius) * w /*xoffset*/+ xOffset, center.Y * h /*yoffset*/+ yOffset), true, false);
s.BezierTo(new Point((center.X + radius) * w /*xoffset*/+ xOffset, (center.Y + cpOffset) * h /*yoffset*/+ yOffset), new Point((center.X + cpOffset) * w /*xoffset*/+ xOffset, (center.Y + radius) * h /*yoffset*/+ yOffset), new Point(center.X * w /*xoffset*/+ xOffset, (center.Y + radius) * h /*yoffset*/+ yOffset), true, false);
s.BezierTo(new Point(center.X * w /*xoffset*/+ xOffset, (center.Y + radius) * h /*yoffset*/+ yOffset), new Point((center.X + radius - cpOffset * .5) * w /*xoffset*/+ xOffset, (center.Y + cpOffset) * h /*yoffset*/+ yOffset), new Point((center.X + radius - cpOffset * .5) * w /*xoffset*/+ xOffset, center.Y * h /*yoffset*/+ yOffset), true, false);
s.BezierTo(new Point((center.X + radius - cpOffset * .5) * w /*xoffset*/+ xOffset, (center.Y - cpOffset) * h /*yoffset*/+ yOffset), new Point(center.X * w /*xoffset*/+ xOffset, (center.Y - radius) * h /*yoffset*/+ yOffset), new Point(center.X * w /*xoffset*/+ xOffset, (center.Y - radius) * h /*yoffset*/+ yOffset), true, false);
cpOffset = factor * .8;
radius = .8;
center = new Point(1, .5);
s.BeginFigure(new Point(center.X * w /*xoffset*/+ xOffset, (center.Y - radius) * h /*yoffset*/+ yOffset), true, true);
s.BezierTo(new Point((center.X + cpOffset) * w /*xoffset*/+ xOffset, (center.Y - radius) * h /*yoffset*/+ yOffset), new Point((center.X + radius) * w /*xoffset*/+ xOffset, (center.Y - cpOffset) * h /*yoffset*/+ yOffset), new Point((center.X + radius) * w /*xoffset*/+ xOffset, center.Y * h /*yoffset*/+ yOffset), true, false);
s.BezierTo(new Point((center.X + radius) * w /*xoffset*/+ xOffset, (center.Y + cpOffset) * h /*yoffset*/+ yOffset), new Point((center.X + cpOffset) * w /*xoffset*/+ xOffset, (center.Y + radius) * h /*yoffset*/+ yOffset), new Point(center.X * w /*xoffset*/+ xOffset, (center.Y + radius) * h /*yoffset*/+ yOffset), true, false);
s.BezierTo(new Point(center.X * w /*xoffset*/+ xOffset, (center.Y + radius) * h /*yoffset*/+ yOffset), new Point((center.X + radius - cpOffset * .5) * w /*xoffset*/+ xOffset, (center.Y + cpOffset) * h /*yoffset*/+ yOffset), new Point((center.X + radius - cpOffset * .5) * w /*xoffset*/+ xOffset, center.Y * h /*yoffset*/+ yOffset), true, false);
s.BezierTo(new Point((center.X + radius - cpOffset * .5) * w /*xoffset*/+ xOffset, (center.Y - cpOffset) * h /*yoffset*/+ yOffset), new Point(center.X * w /*xoffset*/+ xOffset, (center.Y - radius) * h /*yoffset*/+ yOffset), new Point(center.X * w /*xoffset*/+ xOffset, (center.Y - radius) * h /*yoffset*/+ yOffset), true, false);
//Left curves
cpOffset = factor * .4;
radius = .4;
center = new Point(.2, .5);
s.BeginFigure(new Point(center.X * w /*xoffset*/+ xOffset, (center.Y + radius) * h /*yoffset*/+ yOffset), true, true);
s.BezierTo(new Point((center.X - cpOffset) * w /*xoffset*/+ xOffset, (center.Y + radius) * h /*yoffset*/+ yOffset), new Point((center.X - radius) * w /*xoffset*/+ xOffset, (center.Y + cpOffset) * h /*yoffset*/+ yOffset), new Point((center.X - radius) * w /*xoffset*/+ xOffset, center.Y * h /*yoffset*/+ yOffset), true, false);
s.BezierTo(new Point((center.X - radius) * w /*xoffset*/+ xOffset, (center.Y - cpOffset) * h /*yoffset*/+ yOffset), new Point((center.X - cpOffset) * w /*xoffset*/+ xOffset, (center.Y - radius) * h /*yoffset*/+ yOffset), new Point(center.X * w /*xoffset*/+ xOffset, (center.Y - radius) * h /*yoffset*/+ yOffset), true, false);
s.BezierTo(new Point(center.X * w /*xoffset*/+ xOffset, (center.Y - radius) * h /*yoffset*/+ yOffset), new Point((center.X - radius + cpOffset * .5) * w /*xoffset*/+ xOffset, (center.Y - cpOffset) * h /*yoffset*/+ yOffset), new Point((center.X - radius + cpOffset * .5) * w /*xoffset*/+ xOffset, center.Y * h /*yoffset*/+ yOffset), true, false);
s.BezierTo(new Point((center.X - radius + cpOffset * .5) * w /*xoffset*/+ xOffset, (center.Y + cpOffset) * h /*yoffset*/+ yOffset), new Point(center.X * w /*xoffset*/+ xOffset, (center.Y + radius) * h /*yoffset*/+ yOffset), new Point(center.X * w /*xoffset*/+ xOffset, (center.Y + radius) * h /*yoffset*/+ yOffset), true, false);
cpOffset = factor * .8;
radius = .8;
center = new Point(0, .5);
s.BeginFigure(new Point(center.X * w /*xoffset*/+ xOffset, (center.Y + radius) * h /*yoffset*/+ yOffset), true, true);
s.BezierTo(new Point((center.X - cpOffset) * w /*xoffset*/+ xOffset, (center.Y + radius) * h /*yoffset*/+ yOffset), new Point((center.X - radius) * w /*xoffset*/+ xOffset, (center.Y + cpOffset) * h /*yoffset*/+ yOffset), new Point((center.X - radius) * w /*xoffset*/+ xOffset, center.Y * h /*yoffset*/+ yOffset), true, false);
s.BezierTo(new Point((center.X - radius) * w /*xoffset*/+ xOffset, (center.Y - cpOffset) * h /*yoffset*/+ yOffset), new Point((center.X - cpOffset) * w /*xoffset*/+ xOffset, (center.Y - radius) * h /*yoffset*/+ yOffset), new Point(center.X * w /*xoffset*/+ xOffset, (center.Y - radius) * h /*yoffset*/+ yOffset), true, false);
s.BezierTo(new Point(center.X * w /*xoffset*/+ xOffset, (center.Y - radius) * h /*yoffset*/+ yOffset), new Point((center.X - radius + cpOffset * .5) * w /*xoffset*/+ xOffset, (center.Y - cpOffset) * h /*yoffset*/+ yOffset), new Point((center.X - radius + cpOffset * .5) * w /*xoffset*/+ xOffset, center.Y * h /*yoffset*/+ yOffset), true, false);
s.BezierTo(new Point((center.X - radius + cpOffset * .5) * w /*xoffset*/+ xOffset, (center.Y + cpOffset) * h /*yoffset*/+ yOffset), new Point(center.X * w /*xoffset*/+ xOffset, (center.Y + radius) * h /*yoffset*/+ yOffset), new Point(center.X * w /*xoffset*/+ xOffset, (center.Y + radius) * h /*yoffset*/+ yOffset), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Email: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(0, 0), false, true);
s.LineTo(new Point(.5 * w, .6 * h), true, false);
s.LineTo(new Point(w, 0), true, false);
s.BeginFigure(new Point(1 * w, 0), false, false);
s.LineTo(new Point(.5 * w, .6 * h), true, false);
s.BeginFigure(new Point(0, 1 * h), false, false);
s.LineTo(new Point(.45 * w, .54 * h), true, false);
s.BeginFigure(new Point(1 * w, 1 * h), false, false);
s.LineTo(new Point(.55 * w, .54 * h), true, false);
s.BeginFigure(new Point(0, 0), true, true);
s.LineTo(new Point(1 * w, 0), true, false);
s.LineTo(new Point(1 * w, 1 * h), true, false);
s.LineTo(new Point(0, 1 * h), true, false);
s.LineTo(new Point(0, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Ethernet: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(0, .5 * h), false, false);
s.LineTo(new Point(1 * w, .5 * h), true, false);
s.BeginFigure(new Point(.5 * w, .5 * h), false, false);
s.LineTo(new Point(.5 * w, .4 * h), true, false);
s.BeginFigure(new Point(.75 * w, .5 * h), false, false);
s.LineTo(new Point(.75 * w, .6 * h), true, false);
s.BeginFigure(new Point(.25 * w, .5 * h), false, false);
s.LineTo(new Point(.25 * w, .6 * h), true, false);
// Boxes at the end of the wires
s.BeginFigure(new Point(.35 * w, 0), true, true);
s.LineTo(new Point(.65 * w, 0), true, false);
s.LineTo(new Point(.65 * w, .4 * h), true, false);
s.LineTo(new Point(.35 * w, .4 * h), true, false);
s.LineTo(new Point(.35 * w, 0), true, false);
s.BeginFigure(new Point(.10 * w, 1 * h), true, true);
s.LineTo(new Point(.40 * w, 1 * h), true, false);
s.LineTo(new Point(.40 * w, .6 * h), true, false);
s.LineTo(new Point(.10 * w, .6 * h), true, false);
s.LineTo(new Point(.10 * w, 1 * h), true, false);
s.BeginFigure(new Point(.60 * w, 1 * h), true, true);
s.LineTo(new Point(.90 * w, 1 * h), true, false);
s.LineTo(new Point(.90 * w, .6 * h), true, false);
s.LineTo(new Point(.60 * w, .6 * h), true, false);
s.LineTo(new Point(.60 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Power: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.25,.55);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.75,.8);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .4;
double radius = .4;
Point center = new Point(.5, .5);
Point unused;
Point mid;
Point c1;
Point c2;
Point start;
// Find the 45 degree midpoint for the first bezier
BreakUpBezier(new Point(center.X, center.Y - radius), new Point(center.X + cpOffset, center.Y - radius),
new Point(center.X + radius, center.Y - cpOffset), new Point(center.X + radius, center.Y), .5, out unused,
out unused, out mid, out c1, out c2);
start = new Point(mid.X, mid.Y);
s.BeginFigure(new Point(mid.X * w, mid.Y * h), true, true);
s.BezierTo(new Point(c1.X * w, c1.Y * h), new Point(c2.X * w, c2.Y * h), new Point((center.X + radius) * w, center.Y * h), true, false);
s.BezierTo(new Point((center.X + radius) * w, (center.Y + cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point(center.X * w, (center.Y + radius) * h), true, false);
s.BezierTo(new Point((center.X - cpOffset) * w, (center.Y + radius) * h), new Point((center.X - radius) * w, (center.Y + cpOffset) * h), new Point((center.X - radius) * w, center.Y * h), true, false);
// Find the 45 degree midpoint of for the fourth bezier
BreakUpBezier(new Point(center.X - radius, center.Y), new Point(center.X - radius, center.Y - cpOffset),
new Point(center.X - cpOffset, center.Y - radius), new Point(center.X, center.Y - radius), .5, out c1,
out c2, out mid, out unused, out unused);
s.BezierTo(new Point(c1.X * w, c1.Y * h), new Point(c2.X * w, c2.Y * h), new Point(mid.X * w, mid.Y * h), true, false);
//now make a smaller circle
cpOffset = factor * .3;
radius = .3;
// Find the 45 degree midpoint for the first bezier
BreakUpBezier(new Point(center.X - radius, center.Y), new Point(center.X - radius, center.Y - cpOffset),
new Point(center.X - cpOffset, center.Y - radius), new Point(center.X, center.Y - radius), .5, out c1,
out c2, out mid, out unused, out unused);
s.LineTo(new Point(mid.X * w, mid.Y * h), true, false);
s.BezierTo(new Point(c2.X * w, c2.Y * h), new Point(c1.X * w, c1.Y * h), new Point((center.X - radius) * w, center.Y * h), true, false);
s.BezierTo(new Point((center.X - radius) * w, (center.Y + cpOffset) * h), new Point((center.X - cpOffset) * w, (center.Y + radius) * h), new Point(center.X * w, (center.Y + radius) * h), true, false);
s.BezierTo(new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point((center.X + radius) * w, (center.Y + cpOffset) * h), new Point((center.X + radius) * w, center.Y * h), true, false);
// Find the 45 degree midpoint for the fourth bezier
BreakUpBezier(new Point(center.X, center.Y - radius), new Point(center.X + cpOffset, center.Y - radius),
new Point(center.X + radius, center.Y - cpOffset), new Point(center.X + radius, center.Y), .5, out unused,
out unused, out mid, out c1, out c2);
s.BezierTo(new Point(c2.X * w, c2.Y * h), new Point(c1.X * w, c1.Y * h), new Point(mid.X * w, mid.Y * h), true, false);
s.LineTo(new Point(start.X * w, start.Y * h), true, false);
// The line
s.BeginFigure(new Point(.45 * w, 0), true, true);
s.LineTo(new Point(.45 * w, .5 * h), true, false);
s.LineTo(new Point(.55 * w, .5 * h), true, false);
s.LineTo(new Point(.55 * w, 0), true, false);
s.LineTo(new Point(.45 * w, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.Fallout: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .5;
double radius = .5;
Point center = new Point(.5, .5);
//Containing circle
s.BeginFigure(new Point((center.X - radius) * w, center.Y * h), true, true);
s.BezierTo(new Point((center.X - radius) * w, (center.Y - cpOffset) * h), new Point((center.X - cpOffset) * w, (center.Y - radius) * h), new Point(center.X * w, (center.Y - radius) * h), true, false);
s.BezierTo(new Point((center.X + cpOffset) * w, (center.Y - radius) * h), new Point((center.X + radius) * w, (center.Y - cpOffset) * h), new Point((center.X + radius) * w, center.Y * h), true, false);
s.BezierTo(new Point((center.X + radius) * w, (center.Y + cpOffset) * h), new Point((center.X + cpOffset) * w, (center.Y + radius) * h), new Point(center.X * w, (center.Y + radius) * h), true, false);
s.BezierTo(new Point((center.X - cpOffset) * w, (center.Y + radius) * h), new Point((center.X - radius) * w, (center.Y + cpOffset) * h), new Point((center.X - radius) * w, center.Y * h), true, false);
double offsetx = 0;
double offsety = 0;
//Triangles
s.BeginFigure(new Point((.3 + offsetx) * w, (.8 + offsety) * h), true, true);
s.LineTo(new Point((.5 + offsetx) * w, (.5 + offsety) * h), true, false);
s.LineTo(new Point((.1 + offsetx) * w, (.5 + offsety) * h), true, false);
s.LineTo(new Point((.3 + offsetx) * w, (.8 + offsety) * h), true, false);
offsetx = .4;
offsety = 0;
//Triangles
s.BeginFigure(new Point((.3 + offsetx) * w, (.8 + offsety) * h), true, true);
s.LineTo(new Point((.5 + offsetx) * w, (.5 + offsety) * h), true, false);
s.LineTo(new Point((.1 + offsetx) * w, (.5 + offsety) * h), true, false);
s.LineTo(new Point((.3 + offsetx) * w, (.8 + offsety) * h), true, false);
offsetx = .2;
offsety = -.3;
//Triangles
s.BeginFigure(new Point((.3 + offsetx) * w, (.8 + offsety) * h), true, true);
s.LineTo(new Point((.5 + offsetx) * w, (.5 + offsety) * h), true, false);
s.LineTo(new Point((.1 + offsetx) * w, (.5 + offsety) * h), true, false);
s.LineTo(new Point((.3 + offsetx) * w, (.8 + offsety) * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.IrritationHazard: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.3,.3);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.7,.7);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(.2 * w, 0 * h), true, true);
s.LineTo(new Point(.5 * w, .3 * h), true, false);
s.LineTo(new Point(.8 * w, 0 * h), true, false);
s.LineTo(new Point(1 * w, .2 * h), true, false);
s.LineTo(new Point(.7 * w, .5 * h), true, false);
s.LineTo(new Point(1 * w, .8 * h), true, false);
s.LineTo(new Point(.8 * w, 1 * h), true, false);
s.LineTo(new Point(.5 * w, .7 * h), true, false);
s.LineTo(new Point(.2 * w, 1 * h), true, false);
s.LineTo(new Point(0 * w, .8 * h), true, false);
s.LineTo(new Point(.3 * w, .5 * h), true, false);
s.LineTo(new Point(0 * w, .2 * h), true, false);
s.LineTo(new Point(.2 * w, 0 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.ElectricalHazard: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(.37, 0 * h), true, true);
s.LineTo(new Point(.5 * w, .11 * h), true, false);
s.LineTo(new Point(.77 * w, .04 * h), true, false);
s.LineTo(new Point(.33 * w, .49 * h), true, false);
s.LineTo(new Point(1 * w, .37 * h), true, false);
s.LineTo(new Point(.63 * w, .86 * h), true, false);
s.LineTo(new Point(.77 * w, .91 * h), true, false);
s.LineTo(new Point(.34 * w, 1 * h), true, false);
s.LineTo(new Point(.34 * w, .78 * h), true, false);
s.LineTo(new Point(.44 * w, .8 * h), true, false);
s.LineTo(new Point(.65 * w, .56 * h), true, false);
s.LineTo(new Point(0 * w, .68 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.FireHazard: {
if (this.Spot1.IsDefault) this.Spot1 = new Spot(.05, .645);
if (this.Spot2.IsDefault) this.Spot2 = new Spot(.884, .908);
GeoStream sg = new GeoStream();
using (StreamGeometryContext s = sg.Open()) {
s.BeginFigure(new Point(.1 * w, 1 * h), true, true);
s.BezierTo(new Point(-.26 * w, .63 * h), new Point(.45 * w, .44 * h), new Point(.29 * w, 0 * h), true, false);
s.BezierTo(new Point(.48 * w, .17 * h), new Point(.54 * w, .35 * h), new Point(.51 * w, .42 * h), true, false);
s.BezierTo(new Point(.59 * w, .29 * h), new Point(.58 * w, .28 * h), new Point(.59 * w, .18 * h), true, false);
s.BezierTo(new Point(.8 * w, .34 * h), new Point(.88 * w, .43 * h), new Point(.75 * w, .6 * h), true, false);
s.BezierTo(new Point(.87 * w, .48 * h), new Point(.88 * w, .43 * h), new Point(.88 * w, .31 * h), true, false);
s.BezierTo(new Point(1.18 * w, .76 * h), new Point(.82 * w, .8 * h), new Point(.9 * w, 1 * h), true, false);
s.LineTo(new Point(.1 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.BpmnActivityLoop: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
float r = .5f;
float cx = 0; // offset from Center x
float cy = 0; // offset from Center y
float d = r * (float)(4 * (Math.Sqrt(2) - 1) / 3);
double mx1 = (.5 * Math.Sqrt(2) / 2 + .5);
double my1 = (.5 - .5 * Math.Sqrt(2) / 2);
double x1 = 1;
double y1 = .5;
double x2 = .5;
double y2 = 0;
context.BeginFigure(new Point(mx1 * w, (1 - my1) * h), false, false);
context.BezierTo(new Point(x1 * w, .7 * h), new Point(x1 * w, y1 * h), new Point(x1 * w, y1 * h), true, false);
context.BezierTo(new Point((.5 + r + cx) * w, (.5 - d + cx) * h), new Point((.5 + d + cx) * w, (.5 - r + cx) * h), new Point((x2 + cx) * w, (y2 + cx) * h), true, false);
context.BezierTo(new Point((.5 - d + cx) * w, (.5 - r + cy) * h), new Point((.5 - r + cx) * w, (.5 - d + cy) * h), new Point((.5 - r + cx) * w, (.5 + cy) * h), true, false); // ccw, topmiddle to middleleft
context.BezierTo(new Point((.5 - r + cx) * w, (.5 + d + cy) * h), new Point((.5 - d + cx) * w, (.5 + r + cy) * h), new Point((.35 + cx) * w, (.5 + r -.02 + cy) * h), true, false);
// draw arrowhead
context.BeginFigure(new Point((.35 + cx) * w, (.5 + r + cy) * h), false, false);
context.LineTo(new Point((.35 + cx) * w, (.5 + r - .2 + cy) * h), true, false);
context.BeginFigure(new Point((.35 + cx) * w, (.5 + r + cy) * h), false, false);
context.LineTo(new Point((.15 + cx) * w, (.5 + r + cy) * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.BpmnActivityParallel: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), false, false);
context.LineTo(new Point(0, 1 * h), true, false);
context.BeginFigure(new Point(.5 * w, 0), false, false);
context.LineTo(new Point(.5 * w, 1 * h), true, false);
context.BeginFigure(new Point(1 * w, 0), false, false);
context.LineTo(new Point(1 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.BpmnActivitySequential: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), false, false);
context.LineTo(new Point(1 * w, 0), true, false);
context.BeginFigure(new Point(0, .5 * h), false, false);
context.LineTo(new Point(1 * w, .5 * h), true, false);
context.BeginFigure(new Point(0, 1 * h), false, false);
context.LineTo(new Point(1 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.BpmnActivityAdHoc: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), false, false);
context.BeginFigure(new Point(1 * w, 1 * h), false, false);
context.BeginFigure(new Point(0, .5 * h), false, false);
context.BezierTo(new Point(.2 * w, .35 * h), new Point(.3 * w, .35 * h), new Point(.5 * w, .5 * h), true, false);
context.BezierTo(new Point(.7 * w, .65 * h), new Point(.8 * w, .65 * h), new Point(1 * w, .5 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.BpmnActivityCompensation: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, .5 * h), true, true);
context.LineTo(new Point(.5 * w, 0), true, true);
context.LineTo(new Point(.5 * w, 1 * h), true, true);
context.LineTo(new Point(0, .5 * h), true, true);
context.BeginFigure(new Point(.5 * w, .5 * h), true, true);
context.LineTo(new Point(1 * w, 0), true, true);
context.LineTo(new Point(1 * w, 1 * h), true, true);
context.LineTo(new Point(.5 * w, .5 * h), true, true);
}
geo = sg.Geometry;
break;
}
case NodeFigure.BpmnTaskMessage: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), false, false);
context.BeginFigure(new Point(1 * w, 1 * h), false, false);
context.BeginFigure(new Point(0, .2 * h), false, false);
context.LineTo(new Point(.5 * w, .5 * h), true, false);
context.LineTo(new Point(1 * w, .2 * h), true, true);
context.BeginFigure(new Point(0, .2 * h), true, true);
context.LineTo(new Point(1 * w, .2 * h), true, false);
context.LineTo(new Point(1 * w, .8 * h), true, false);
context.LineTo(new Point(0, .8 * h), true, false);
context.LineTo(new Point(0, .8 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.BpmnTaskScript: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(.7 * w, 1 * h), true, true);
context.LineTo(new Point(.3 * w, 1 * h), true, false);
context.BezierTo(new Point(.6 * w, .5 * h), new Point(0, .5 * h), new Point(0.3 * w, 0), true, false);
context.LineTo(new Point(.7 * w, 0), true, false);
context.BezierTo(new Point(.4 * w, .5 * h), new Point(1 * w, .5 * h), new Point(.7 * w, 1 * h), true, false);
context.BeginFigure(new Point(.45 * w, .73 * h), false, false);
context.LineTo(new Point(.7 * w, .73 * h), true, false);
context.BeginFigure(new Point(.38 * w, .5 * h), false, false);
context.LineTo(new Point(.63 * w, .5 * h), true, false);
context.BeginFigure(new Point(.31 * w, .27 * h), false, false);
context.LineTo(new Point(.56 * w, .27 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.BpmnTaskUser: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), false, false);
//shirt
context.BeginFigure(new Point(.335 * w, (1 - .555) * h), true, true);
context.LineTo(new Point(.335 * w, (1 - .405) * h), true, true);
context.LineTo(new Point((1 - .335) * w, (1 - .405) * h), true, true);
context.LineTo(new Point((1 - .335) * w, (1 - .555) * h), true, true);
context.BezierTo(new Point((1 - .12) * w, .46 * h), new Point((1 - .02) * w, .54 * h), new Point(1 * w, .68 * h), true, true);
context.LineTo(new Point(1 * w, 1 * h), true, true);
context.LineTo(new Point(0, 1 * h), true, true);
context.LineTo(new Point(0, .68 * h), true, true);
context.BezierTo(new Point(.02 * w, .54 * h), new Point(.12 * w, .46 * h), new Point(.335 * w, (1 - .555) * h), true, true);
//start of neck
context.LineTo(new Point(.365 * w, (1 - .595) * h), true, true);
double radiushead = .5 - .285;
Point center = new Point(.5, radiushead);
double alpha2 = Math.PI / 4;
double factor = (float)((4 * (1 - Math.Cos(alpha2))) / (3 * Math.Sin(alpha2)));
double cpOffset = factor * .5f;
Size radius = new Size(radiushead, radiushead);
Size offset = new Size(factor * radius.Width, factor * radius.Height);
// Circle (head)
context.BezierTo(new Point((center.X - ((offset.Width + radius.Width) / 2)) * w, (center.Y + ((radius.Height + offset.Height) / 2)) * h), new Point((center.X - radius.Width) * w, (center.Y + offset.Height) * h), new Point((center.X - radius.Width) * w, center.Y * h), true, true);
context.BezierTo(new Point((center.X - radius.Width) * w, (center.Y - offset.Height) * h), new Point((center.X - offset.Width) * w, (center.Y - radius.Height) * h), new Point(center.X * w, (center.Y - radius.Height) * h), true, true);
context.BezierTo(new Point((center.X + offset.Width) * w, (center.Y - radius.Height) * h), new Point((center.X + radius.Width) * w, (center.Y - offset.Height) * h), new Point((center.X + radius.Width) * w, center.Y * h), true, true);
context.BezierTo(new Point((center.X + radius.Width) * w, (center.Y + offset.Height) * h), new Point((center.X + ((offset.Width + radius.Width) / 2)) * w, (center.Y + ((radius.Height + offset.Height) / 2)) * h), new Point((1 - .365f) * w, (1 - .595f) * h), true, true);
context.LineTo(new Point((1 - .365) * w, (1 - .595) * h), true, true);
//neckline
context.LineTo(new Point((1 - .335) * w, (1 - .555) * h), true, true);
context.LineTo(new Point((1 - .335) * w, (1 - .405) * h), true, true);
context.LineTo(new Point(.335 * w, (1 - .405) * h), true, true);
//arm lines
context.BeginFigure(new Point(.2 * w, 1 * h), false, false);
context.LineTo(new Point(.2 * w, .8 * h), true, true);
context.BeginFigure(new Point(.8 * w, 1 * h), false, false);
context.LineTo(new Point(.8 * w, .8 * h), true, true);
}
geo = sg.Geometry;
break;
}
case NodeFigure.BpmnEventConditional: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
// Inside lines
context.BeginFigure(new Point(0, 0), false, false);
context.BeginFigure(new Point(1, 1), false, false);
context.BeginFigure(new Point(.2 * w, .2f * h), false, false);
context.LineTo(new Point(.8 * w, .2f * h), true, false);
context.BeginFigure(new Point(.2 * w, .4f * h), false, false);
context.LineTo(new Point(.8 * w, .4f * h), true, false);
context.BeginFigure(new Point(.2 * w, .6f * h), false, false);
context.LineTo(new Point(.8 * w, .6f * h), true, false);
context.BeginFigure(new Point(.2 * w, .8f * h), false, false);
context.LineTo(new Point(.8 * w, .8f * h), true, false);
// Body
context.BeginFigure(new Point(.1 * w, 0), true, true);
context.LineTo(new Point(.9 * w, 0), true, false);
context.LineTo(new Point(.9 * w, 1 * h), true, false);
context.LineTo(new Point(.1 * w, 1 * h), true, false);
context.LineTo(new Point(.1 * w, 0), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.BpmnEventError: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 1 * h), true, true);
context.LineTo(new Point(.33 * w, 0), true, false);
context.LineTo(new Point(.66 * w, .50 * h), true, false);
context.LineTo(new Point(1 * w, 0), true, false);
context.LineTo(new Point(.66 * w, 1 * h), true, false);
context.LineTo(new Point(.33 * w, .50 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.BpmnEventEscalation: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
context.BeginFigure(new Point(0, 0), false, false);
context.BeginFigure(new Point(1 * w, 1 * h), false, false); // set dimensions
context.BeginFigure(new Point(.1 * w, 1 * h), true, true);
context.LineTo(new Point(.5 * w, 0), true, false);
context.LineTo(new Point(.9 * w, 1 * h), true, false);
context.LineTo(new Point(.5 * w, .5 * h), true, false);
context.LineTo(new Point(.1 * w, 1 * h), true, false);
}
geo = sg.Geometry;
break;
}
case NodeFigure.BpmnEventTimer: {
GeoStream sg = new GeoStream();
using (StreamGeometryContext context = sg.Open()) {
double radius = .5;
// now, draw the hour lines
context.BeginFigure(new Point(radius * w, 0), false, false);
context.LineTo(new Point(radius * w, .15 * h), true, false);
context.BeginFigure(new Point(radius * w, 1 * h), false, false);
context.LineTo(new Point(radius * w, .85 * h), true, false);
context.BeginFigure(new Point(0, radius * h), false, false);
context.LineTo(new Point(.15 * w, radius * h), true, false);
context.BeginFigure(new Point(1 * w, radius * h), false, false);
context.LineTo(new Point(.85 * w, radius * h), true, false);
// now draw the hands
context.BeginFigure(new Point(radius * w, radius * h), false, false);
context.LineTo(new Point(.58 * w, 0.1 * h), true, false);
context.BeginFigure(new Point(radius * w, radius * h), false, false);
context.LineTo(new Point(.78 * w, .54 * h), true, false);
double factor = Geo.MagicBezierFactor;
double cpOffset = factor * .5;
context.BeginFigure(new Point(1 * w, radius * h), true, true);
context.BezierTo(new Point(1 * w, (radius + cpOffset) * h), new Point((radius + cpOffset) * w, 1 * h), new Point(radius * w, 1 * h), true, false);
context.BezierTo(new Point((radius - cpOffset) * w, 1 * h), new Point(0, (radius + cpOffset) * h), new Point(0, radius * h), true, false);
context.BezierTo(new Point(0, (radius - cpOffset) * h), new Point((radius - cpOffset) * w, 0), new Point(radius * w, 0), true, false);
context.BezierTo(new Point((radius + cpOffset) * w, 0), new Point(1 * w, (radius - cpOffset) * h), new Point(1 * w, radius * h), true, false);
}
geo = sg.Geometry;
break;
}
} // End switch
return geo;
}
/// <summary>
/// Sets an element's alignment spot, which controls the point of the element that
/// is positioned at a distance of the way along a particular segment of the route.
/// </summary>
/// <param name="d">a child element of a <see cref="LinkPanel"/></param>
/// <param name="v"></param>
public static void SetAlignment(DependencyObject d, Spot v)
{
d.SetValue(AlignmentProperty, v);
}
/// <summary>
/// Two spots are equal if all four property values are the same
/// (<see cref="X"/>, <see cref="Y"/>, <see cref="OffsetX"/>, <see cref="OffsetY"/>).
/// </summary>
/// <param name="value">a <see cref="Spot"/></param>
/// <returns>true if the two spots are equal</returns>
/// <remarks>
/// If one spot's <see cref="X"/> or <see cref="Y"/> is <c>NaN</c>,
/// the other spot's corresponding property must also be <c>NaN</c>.
/// </remarks>
public bool Equals(Spot value)
{
return(Equals(this, value));
}
/// <summary>
/// Sets the <see cref="Spot"/> at which the element should be positioned.
/// </summary>
/// <param name="d">a <c>UIElement</c></param>
/// <param name="v">
/// a <see cref="Spot"/> for which <see cref="Spot.IsSpot"/> is true;
/// the panel assumes <see cref="Spot.Center"/> otherwise
/// </param>
public static void SetSpot(DependencyObject d, Spot v)
{
d.SetValue(SpotProperty, v);
}
/// <summary>
/// This predicate is true if this <see cref="Spot"/> is a side that
/// includes the side(s) given by <paramref name="side"/>.
/// </summary>
/// <param name="side">a <see cref="Spot"/> that <see cref="IsSide"/></param>
/// <returns></returns>
public bool IncludesSide(Spot side) {
if (!this.IsSide) return false;
if (!side.IsSide) return false;
int sides = (int)_OffsetY;
int s = (int)side._OffsetY;
return ((sides & s) == s);
}
/// <summary>
/// Sets an element's alignment spot, which controls the point of the element that
/// is positioned at a distance of the way along a particular segment of the route.
/// </summary>
/// <param name="d">a child element of a <see cref="LinkPanel"/></param>
/// <param name="v"></param>
public static void SetAlignment(DependencyObject d, Spot v) { d.SetValue(AlignmentProperty, v); }
/// <summary>
/// Two spots are equal if all four property values are the same
/// (<see cref="X"/>, <see cref="Y"/>, <see cref="OffsetX"/>, <see cref="OffsetY"/>).
/// </summary>
/// <param name="value">a <see cref="Spot"/></param>
/// <returns>true if the two spots are equal</returns>
/// <remarks>
/// If one spot's <see cref="X"/> or <see cref="Y"/> is <c>NaN</c>,
/// the other spot's corresponding property must also be <c>NaN</c>.
/// </remarks>
public bool Equals(Spot value) {
return Equals(this, value);
}
/// <summary>
/// Two spots are equal if all four property values are the same
/// (<see cref="X"/>, <see cref="Y"/>, <see cref="OffsetX"/>, <see cref="OffsetY"/>).
/// </summary>
/// <param name="spot1"></param>
/// <param name="spot2"></param>
/// <returns>true if the two spots are equal</returns>
/// <remarks>
/// If one spot's <see cref="X"/> or <see cref="Y"/> is <c>NaN</c>,
/// the other spot's corresponding property must also be <c>NaN</c>.
/// </remarks>
public static bool Equals(Spot spot1, Spot spot2) {
return
(spot1.X == spot2.X || (Double.IsNaN(spot1.X) && Double.IsNaN(spot2.X))) &&
(spot1.Y == spot2.Y || (Double.IsNaN(spot1.Y) && Double.IsNaN(spot2.Y))) &&
spot1.OffsetX == spot2.OffsetX &&
spot1.OffsetY == spot2.OffsetY;
}
/// <summary>
/// Measures the children according to the rules defined by NodePanelSizing.Fixed.
/// </summary>
/// <param name="finalSize"></param>
/// <returns></returns>
private Size ArrangeFixed(Size finalSize)
{
bool first = true;
Rect outer = new Rect(0, 0, finalSize.Width, finalSize.Height);
Rect inner = outer;
foreach (UIElement child in this.Children)
{
Part.ClearCachedValues(child);
if (finalSize == new Size(0, 0))
{
child.Arrange(outer); continue;
} //???
if (first)
{
first = false;
Spot spot1 = ComputeSpot1(child);
Spot spot2 = ComputeSpot2(child);
inner = new Rect(spot1.PointInRect(outer), spot2.PointInRect(outer));
child.Arrange(outer);
}
else // Alignments are auto-accounted for, so just arrange in whatever rect is given
{
Rect r = inner;
// adjust R according to each child's HorizontalAlignment and VerticalAlignment
FrameworkElement elt = child as FrameworkElement;
if (elt != null)
{
Size sz = EffectiveDesiredSize(child);
if (sz.Width < inner.Width)
{
switch (elt.HorizontalAlignment)
{
case HorizontalAlignment.Left:
r.Width = sz.Width;
r.X = inner.X;
break;
case HorizontalAlignment.Center:
r.Width = sz.Width;
r.X = inner.X + inner.Width / 2 - sz.Width / 2;
break;
case HorizontalAlignment.Right:
r.Width = sz.Width;
r.X = inner.X + inner.Width - sz.Width;
break;
default: // Stretch means use full inner.Width
break;
}
}
if (sz.Height < inner.Height)
{
switch (elt.VerticalAlignment)
{
case VerticalAlignment.Top:
r.Height = sz.Height;
r.Y = inner.Y;
break;
case VerticalAlignment.Center:
r.Height = sz.Height;
r.Y = inner.Y + inner.Height / 2 - sz.Height / 2;
break;
case VerticalAlignment.Bottom:
r.Height = sz.Height;
r.Y = inner.Y + inner.Height - sz.Height;
break;
default: // Stretch means use full inner.Height
break;
}
}
}
child.Arrange(r);
}
}
return(finalSize);
}
/// <summary>
/// Measures the children according to the rules defined by NodePanelSizing.Auto.
/// Resizes to fit its children and wraps text appropriately if requested.
/// </summary>
/// <param name="availableSize"></param>
/// <returns></returns>
private Size MeasureAuto(Size availableSize)
{
UIElementCollection children = this.Children;
if (children.Count == 0)
{
return(new Size(0, 0));
}
if (children.Count == 1)
{
UIElement onlychild = children[0];
RenderNodeShape(onlychild, availableSize); // specify Path.Data according to NodeFigure
onlychild.Measure(availableSize);
actualSize = EffectiveDesiredSize(onlychild);
return(actualSize);
}
// when more than one child, measure the rest of them first
Size totalsize = new Size();
for (int i = 0; i < children.Count; i++)
{
RenderNodeShape(children[i], availableSize); // specify Path.Data according to NodeFigure
if (i == 0)
{
continue;
}
TextBlock tb = children[i] as TextBlock;
// First check if the child is text
if (tb != null && tb.TextWrapping != TextWrapping.NoWrap)
{
Size maxsize = new Size(Math.Min(availableSize.Width, tb.MaxWidth), Math.Min(availableSize.Height, tb.MaxHeight));
double length = MeasureWrappedTextWidth(tb, maxsize);
tb.Measure(new Size(length, maxsize.Height));
Size newSize = EffectiveDesiredSize(tb);
//Diagram.Debug("NodePanel: " + tb.Text + " " + Diagram.Str(tb.DesiredSize) + Diagram.Str(newSize) + "len: " + Diagram.Str(length));
totalsize = new Size(Math.Max(newSize.Width, totalsize.Width), Math.Max(newSize.Height, totalsize.Height));
}
else // if it's not text, or if it's NoWrap, just measure normally
{
UIElement child = children[i];
child.Measure(availableSize);
Size ds = EffectiveDesiredSize(child);
// Keep track of the size we need to display all children
totalsize = new Size(Math.Max(ds.Width, totalsize.Width), Math.Max(ds.Height, totalsize.Height));
}
}
// Measure first child after since now we know what size to be
UIElement first = children[0];
Spot spot1 = ComputeSpot1(first);
Spot spot2 = ComputeSpot2(first);
if (Math.Abs(spot2.X - spot1.X) > 0 && Math.Abs(spot2.Y - spot1.Y) > 0)
{
actualSize = new Size(totalsize.Width / Math.Abs(spot2.X - spot1.X), totalsize.Height / Math.Abs(spot2.Y - spot1.Y));
}
else
{
actualSize = new Size();
}
actualSize.Width += Math.Abs(spot1.OffsetX) + Math.Abs(spot2.OffsetX);
actualSize.Height += Math.Abs(spot1.OffsetY) + Math.Abs(spot2.OffsetY);
// Respect minimum width's and height's
actualSize.Width = Math.Max(this.MinWidth, Math.Min(actualSize.Width, this.MaxWidth));
actualSize.Height = Math.Max(this.MinHeight, Math.Min(actualSize.Height, this.MaxHeight));
RenderNodeShape(first, actualSize); // specify Path.Data according to NodeFigure
first.Measure(actualSize);
//Diagram.Debug("NodePanel main: " + Diagram.Str(availableSize) + Diagram.Str(totalsize) + Diagram.Str(actualSize));
return(actualSize);
}
/// <summary>
/// Sets the value of the <c>Spot2</c> attached property.
/// </summary>
/// <param name="d">a <c>UIElement</c></param>
/// <param name="v"></param>
public static void SetSpot2(DependencyObject d, Spot v) { d.SetValue(Spot2Property, v); }
