public static void Draw(SymbolLayout Sym, double x, double y1, double y2, int N, double Scale)
{
double h = y2 - y1;
Sym.DrawFunction(
EdgeType.Black,
(t) => x - Scale * (Math.Abs((t + 0.5) % 2 - 1) * 2 - 1),
(t) => t * h / N + y1,
0, N, N * 2);
}
public static void Draw(SymbolLayout Sym, double x, double y1, double y2, int N, double Scale)
{
double h = y2 - y1;
Sym.DrawFunction(
EdgeType.Black,
(t) => x - Scale * (Math.Abs((t + 0.5) % 2 - 1) * 2 - 1),
(t) => t * h / N + y1,
0, N, N * 2);
}
public static void Draw(SymbolLayout Sym, double x, double y1, double y2, int Turns, double Scale)
{
double t1 = -Math.PI;
double t2 = 2 * (Turns - 1) * Math.PI;
double coil = 1.5;
double min = t1 + coil * Math.Cos(t1);
double max = t2 + coil * Math.Cos(t2);
double length = max - min;
Sym.DrawFunction(
EdgeType.Black,
(t) => x - Scale * Math.Sin(t),
(t) => (t + coil * Math.Cos(t) - min) / length * (y2 - y1) + y1,
t1, t2, Turns * 16);
}
public static void Draw(SymbolLayout Sym, double x, double y1, double y2, int Turns, double Scale)
{
double t1 = -3.141592;
double t2 = 2 * (Turns - 1) * 3.141592;
double coil = 1.5;
double min = t1 + coil * Math.Cos(t1);
double max = t2 + coil * Math.Cos(t2);
double length = max - min;
Sym.DrawFunction(
EdgeType.Black,
(t) => x - Scale * Math.Sin(t),
(t) => (t + coil * Math.Cos(t) - min) / length * (y2 - y1) + y1,
t1, t2, Turns * 16);
}
public override void LayoutSymbol(SymbolLayout Sym)
{
// Get the ports to add to the symbol.
List <Port> ports = Components.OfType <Port>().OrderBy(i => i.Name).ToList();
int number = (Math.Max(ports.Max(i => i.Number, 0), ports.Count()) + 1) & ~1;
int w = 40;
int h = (number / 2) * 10;
Sym.DrawText(() => PartNumber, new Coord(0, h + 2), Alignment.Center, Alignment.Near);
Sym.AddRectangle(EdgeType.Black, new Coord(-w, -h), new Coord(w, h));
Sym.DrawText(() => Name, new Coord(0, -h - 2), Alignment.Center, Alignment.Far);
// Draw a notch at the top of the IC. Port slots are numbered counter-clockwise from here.
int r = 5;
Sym.DrawFunction(EdgeType.Black, t => t, t => h - Math.Sqrt(r * r - t * t), -r, r, 12);
// Remember which port slots are open for the unnumbered terminals.
List <int> open = Enumerable.Range(1, number + 1).ToList();
foreach (Port i in ports.OrderBy(i => i.Number > 0 ? 0 : 1))
{
int n = i.Number > 0 ? i.Number : open.First();
Terminal t = i.External;
Coord x;
if (n <= number / 2)
{
x = new Coord(-w, h - n * 20 + 10);
}
else
{
x = new Coord(w, n * 20 - 3 * h - 10);
}
Sym.AddTerminal(t, x);
Sym.DrawText(() => t.Name, new Coord(x.x - Math.Sign(x.x) * 3, x.y), x.x < 0 ? Alignment.Near : Alignment.Far, Alignment.Center);
open.Remove(n);
}
}
public override void LayoutSymbol(SymbolLayout Sym)
{
base.LayoutSymbol(Sym);
int r = 10;
Sym.AddWire(Anode, new Coord(0, r));
Sym.AddWire(Cathode, new Coord(0, -r));
Sym.AddCircle(EdgeType.Black, new Coord(0, 0), r);
Sym.DrawPositive(EdgeType.Black, new Coord(0, 7));
Sym.DrawNegative(EdgeType.Black, new Coord(0, -7));
if (!((Expression)Voltage is Constant))
{
Sym.DrawFunction(
EdgeType.Black,
(t) => t * r * 0.75,
(t) => Math.Sin(t * 3.1415) * r * 0.5, -1, 1);
}
Sym.DrawText(() => Voltage.ToString(), new Point(r * 0.7, r * 0.7), Alignment.Near, Alignment.Near);
Sym.DrawText(() => Name, new Point(r * 0.7, r * -0.7), Alignment.Near, Alignment.Far);
}
public override void LayoutSymbol(SymbolLayout Sym)
{
// Get the ports to add to the symbol.
List<Port> ports = Components.OfType<Port>().OrderBy(i => i.Name).ToList();
int number = (Math.Max(ports.Max(i => i.Number, 0), ports.Count()) + 1) & ~1;
int w = 40;
int h = (number / 2) * 10;
Sym.DrawText(() => PartNumber, new Coord(0, h + 2), Alignment.Center, Alignment.Near);
Sym.AddRectangle(EdgeType.Black, new Coord(-w, -h), new Coord(w, h));
Sym.DrawText(() => Name, new Coord(0, -h - 2), Alignment.Center, Alignment.Far);
// Draw a notch at the top of the IC. Port slots are numbered counter-clockwise from here.
int r = 5;
Sym.DrawFunction(EdgeType.Black, t => t, t => h - Math.Sqrt(r * r - t * t), -r, r, 12);
// Remember which port slots are open for the unnumbered terminals.
List<int> open = Enumerable.Range(1, number + 1).ToList();
foreach (Port i in ports.OrderBy(i => i.Number > 0 ? 0 : 1))
{
int n = i.Number > 0 ? i.Number : open.First();
Terminal t = i.External;
Coord x;
if (n <= number / 2)
x = new Coord(-w, h - n * 20 + 10);
else
x = new Coord(w, n * 20 - 3 * h - 10);
Sym.AddTerminal(t, x);
Sym.DrawText(() => t.Name, new Coord(x.x - Math.Sign(x.x) * 3, x.y), x.x < 0 ? Alignment.Near : Alignment.Far, Alignment.Center);
open.Remove(n);
}
}
public override void LayoutSymbol(SymbolLayout Sym)
{
base.LayoutSymbol(Sym);
int r = 10;
Sym.AddWire(Anode, new Coord(0, r));
Sym.AddWire(Cathode, new Coord(0, -r));
Sym.AddCircle(EdgeType.Black, new Coord(0, 0), r);
Sym.DrawPositive(EdgeType.Black, new Coord(0, 7));
Sym.DrawNegative(EdgeType.Black, new Coord(0, -7));
if (!((Expression)Voltage is Constant))
Sym.DrawFunction(
EdgeType.Black,
(t) => t * r * 0.75,
(t) => Math.Sin(t * 3.1415) * r * 0.5, -1, 1);
Sym.DrawText(() => Voltage.ToString(), new Point(r * 0.7, r * 0.7), Alignment.Near, Alignment.Near);
Sym.DrawText(() => Name, new Point(r * 0.7, r * -0.7), Alignment.Near, Alignment.Far);
}