public string BuildGerber(GerberNumberFormat GNF, double rotation, bool isrotationparam, bool isscaled)
{
double getval = value;
if (isscaled)
{
getval = GNF._ScaleMMToFile(scaledvalue);
}
if (boundparam > -1)
{
if (rotation != 0 && isrotationparam)
{
return(String.Format("{1}+${0}", boundparam + 1, Gerber.ToFloatingPointString(rotation).Replace(',', '.')));
}
else
{
return(String.Format("${0}", boundparam + 1));
}
}
else
{
if (isrotationparam)
{
return(Gerber.ToFloatingPointString((getval + rotation)).Replace(',', '.'));
}
else
{
return(Gerber.ToFloatingPointString(getval).Replace(',', '.'));
}
}
}
public string BuildGerber(GerberNumberFormat GNF, double rotationdegrees)
{
string res = "";
switch (Type)
{
case ApertureMacroTypes.Equation:
res += String.Format("{0}={1}", EquationTarget, EquationSource);
break;
case ApertureMacroTypes.Line:
case ApertureMacroTypes.Line_2:
{
var Rot = RotateParams(Params[3], Params[4], rotationdegrees);
res += String.Format("20,1,{0},{1},{2},{3},{4},{5}",
//Params[1].BuildGerber(rotationdegrees, false),
Params[2].BuildGerber(GNF, rotationdegrees, false, true),
Params[3].BuildGerber(GNF, rotationdegrees, false, true),
Params[4].BuildGerber(GNF, rotationdegrees, false, true),
Params[5].BuildGerber(GNF, rotationdegrees, false, true),
Params[6].BuildGerber(GNF, rotationdegrees, false, true),
Params[7].BuildGerber(GNF, rotationdegrees, true, false)
);
break;
}
default:
Console.WriteLine("Sorry - I cant make gerber for macro parts of type {0} yet", Type);
break;
case ApertureMacroTypes.Outline:
res += String.Format("4,1,{0}," + Gerber.LineEnding, OutlineVertices.Count - 1);
if (rotationdegrees != 0)
{
PolyLine P = new PolyLine(PolyLine.PolyIDs.Aperture);
for (int i = 0; i < OutlineVertices.Count; i++)
{
PointD B = OutlineVertices[i].Get(Params);
P.Add(B.X, B.Y);
}
P.RotateDegrees(rotationdegrees);
for (int i = 0; i < P.Vertices.Count(); i++)
{
res += String.Format("{0},{1}," + Gerber.LineEnding, Gerber.ToFloatingPointString(GNF._ScaleMMToFile(P.Vertices[i].X)).Replace(',', '.'), Gerber.ToFloatingPointString(GNF._ScaleMMToFile(P.Vertices[i].Y)).Replace(',', '.'));
}
}
else
{
for (int i = 0; i < OutlineVertices.Count; i++)
{
PointD B = OutlineVertices[i].Get(Params);
res += String.Format("{0},{1}," + Gerber.LineEnding, Gerber.ToFloatingPointString(GNF._ScaleMMToFile(B.X)).Replace(',', '.'), Gerber.ToFloatingPointString(GNF._ScaleMMToFile(B.Y)).Replace(',', '.'));
}
}
res += "0";
break;
case ApertureMacroTypes.Polygon:
{
var Rot = RotateParams(Params[3], Params[4], rotationdegrees);
res += String.Format("5,1,{0},{1},{2},{3},{4}",
//Params[1].BuildGerber(rotationdegrees, false),
Params[2].BuildGerberInt(GNF, rotationdegrees, false),
Rot[0].BuildGerber(GNF, rotationdegrees, false, true),
Rot[1].BuildGerber(GNF, rotationdegrees, false, true),
Params[5].BuildGerber(GNF, rotationdegrees, false, false),
Params[6].BuildGerber(GNF, rotationdegrees, true, false)
);
break;
}
case ApertureMacroTypes.Thermal:
{
var Rot = RotateParams(Params[1], Params[2], rotationdegrees);
res += String.Format("7,1,{0},{1},{2},{3},{4},{5}",
Rot[0].BuildGerber(GNF, rotationdegrees, false, true),
Rot[1].BuildGerber(GNF, rotationdegrees, false, true),
Params[3].BuildGerber(GNF, rotationdegrees, false, false),
Params[4].BuildGerber(GNF, rotationdegrees, false, false),
Params[5].BuildGerber(GNF, rotationdegrees, false, false),
Params[6].BuildGerber(GNF, rotationdegrees, true, false)
);
break;
}
case ApertureMacroTypes.CenterLine:
{
var Rot = RotateParams(Params[4], Params[5], rotationdegrees);
res += String.Format("21,1,{0},{1},{2},{3},{4}",
//Params[1].BuildGerber(rotationdegrees, false),
Params[2].BuildGerber(GNF, rotationdegrees, false, true),
Params[3].BuildGerber(GNF, rotationdegrees, false, true),
Rot[0].BuildGerber(GNF, rotationdegrees, false, true),
Rot[1].BuildGerber(GNF, rotationdegrees, false, true),
Params[6].BuildGerber(GNF, rotationdegrees, true, false)
);
}
break;
case ApertureMacroTypes.LowerLeftLine:
{
var Rot = RotateParams(Params[4], Params[5], rotationdegrees);
res += String.Format("21,1,{0},{1},{2},{3},{4}",
//Params[1].BuildGerber(rotationdegrees, false),
Params[2].BuildGerber(GNF, rotationdegrees, false, true),
Params[3].BuildGerber(GNF, rotationdegrees, false, true),
Rot[0].BuildGerber(GNF, rotationdegrees, false, true),
Rot[1].BuildGerber(GNF, rotationdegrees, false, true),
Params[6].BuildGerber(GNF, rotationdegrees, true, false)
);
}
break;
case ApertureMacroTypes.Circle:
//res += "circ";
{
var Rot = RotateParams(Params[3], Params[4], rotationdegrees);
res += String.Format("1,1,{0},{1},{2}",
//Params[1].BuildGerber(rotationdegrees, false),
Params[2].BuildGerber(GNF, rotationdegrees, false, true),
Rot[0].BuildGerber(GNF, rotationdegrees, false, true),
Rot[1].BuildGerber(GNF, rotationdegrees, false, true)
);
}
break;
}
foreach (var a in Params)
{
}
res += "*" + Gerber.LineEnding;
return(res);
}
public string BuildGerber(GerberNumberFormat format, string MacroNameSuffix = "", double RotationAngle = 0)
{
string res = String.Format("%ADD{0}", ID.ToString("D2"));
int parmcount = 0;
switch (ShapeType)
{
case GerberApertureShape.Macro:
res += MacroName + MacroNameSuffix;
if (MacroParamList.Count > 0)
{
res += ",";
}
foreach (var a in MacroParamList)
{
parmcount++;
if (parmcount >= 2)
{
res += "X";
}
res += Gerber.ToFloatingPointString(format._ScaleMMToFile(a)).Replace(',', '.');
}
break;
case GerberApertureShape.Circle:
{
if (CircleRadius > 3)
{
//Console.WriteLine("test");
}
res += "C," + Gerber.ToFloatingPointString(format._ScaleMMToFile(CircleRadius * 2)).Replace(',', '.');
}
break;
case GerberApertureShape.Rectangle:
if (RotationAngle == 0 || (int)RotationAngle == 180)
{
res += "R," + Gerber.ToFloatingPointString(format._ScaleMMToFile(RectWidth)).Replace(',', '.') + "X" + Gerber.ToFloatingPointString(format._ScaleMMToFile(RectHeight)).Replace(',', '.');
}
else
{
if ((int)RotationAngle == 90 || (int)RotationAngle == (-90) || (int)RotationAngle == (270))
{
res += "R," + Gerber.ToFloatingPointString(format._ScaleMMToFile(RectHeight)).Replace(',', '.') + "X" + Gerber.ToFloatingPointString(format._ScaleMMToFile(RectWidth)).Replace(',', '.');
}
else
{
string macroname = "REC" + (MacroPostFix++).ToString();
PolyLine Rect = new PolyLine(PolyLine.PolyIDs.Temp);
Rect.MakeRectangle(RectWidth, RectHeight);
Rect.RotateDegrees(RotationAngle);
res = Gerber.BuildOutlineApertureMacro(macroname, Rect.Vertices, format) + res;
res += macroname;
if (Gerber.ShowProgress)
{
Console.WriteLine("generated rotated rect: ");
}
if (Gerber.ShowProgress)
{
Console.WriteLine(res);
}
}
}
break;
case GerberApertureShape.Polygon:
if (RotationAngle == 0)
{
res += "P," + Gerber.ToFloatingPointString(format._ScaleMMToFile(NGonRadius * 2)).Replace(',', '.') + "X" + NGonSides.ToString() + "X" + Gerber.ToFloatingPointString(NGonRotation).Replace(',', '.');
}
else
{
double newangle = NGonRotation + RotationAngle;
while (newangle < 0)
{
newangle += 360;
}
while (newangle > 360)
{
newangle -= 360;
}
res += "P," + Gerber.ToFloatingPointString(format._ScaleMMToFile(NGonRadius * 2)).Replace(',', '.') + "X" + NGonSides.ToString() + "X" + Gerber.ToFloatingPointString(newangle).Replace(',', '.');
if (Gerber.ShowProgress)
{
Console.WriteLine("generated rotated NGon: ");
}
if (Gerber.ShowProgress)
{
Console.WriteLine(res);
}
}
break;
case GerberApertureShape.OBround:
if (RotationAngle == 0 || Math.Abs(Math.Abs(RotationAngle) - 180) < 0.01)
{
res += "O," + Gerber.ToFloatingPointString(format._ScaleMMToFile(RectWidth)).Replace(',', '.') + "X" + Gerber.ToFloatingPointString(format._ScaleMMToFile(RectHeight)).Replace(',', '.');
}
else
{
if (Math.Abs(Math.Abs(RotationAngle) - 90) < 0.01)
{
res += "O," + Gerber.ToFloatingPointString(format._ScaleMMToFile(RectHeight)).Replace(',', '.') + "X" + Gerber.ToFloatingPointString(format._ScaleMMToFile(RectWidth)).Replace(',', '.');
}
else
{
string macroname = "OBR" + (MacroPostFix++).ToString();
PolyLine Obround = new PolyLine(PolyLine.PolyIDs.Temp);
Obround.SetObround(RectWidth, RectHeight);
Obround.RotateDegrees(RotationAngle);
res = Gerber.BuildOutlineApertureMacro(macroname, Obround.Vertices, format) + res;
res += macroname;
if (Gerber.ShowProgress)
{
Console.WriteLine("generated rotated obround: ");
}
if (Gerber.ShowProgress)
{
Console.WriteLine(res);
}
}
}
break;
case GerberApertureShape.Compound:
{
string macroname = "COMP" + (MacroPostFix++).ToString() + MacroNameSuffix;
string macrores = Gerber.WriteMacroStart(macroname);
foreach (var P in Parts)
{
PolyLine Comp = new PolyLine(PolyLine.PolyIDs.Temp);
foreach (var a in P.Shape.Vertices)
{
Comp.Add(a.X, a.Y);
}
Comp.Close();
Comp.RotateDegrees(RotationAngle);
macrores += Gerber.WriteMacroPartVertices(Comp.Vertices, format);
}
macrores += Gerber.WriteMacroEnd();
res = macrores + res;
res += macroname;
if (Parts.Count > 1)
{
Console.WriteLine("Number of parts: {0} but only 1 written", Parts.Count);
Console.WriteLine(res);
}
// res += MacroName;
if (MacroParamList.Count > 0)
{
res += ",";
}
foreach (var a in MacroParamList)
{
parmcount++;
if (parmcount >= 2)
{
res += "X";
}
res += Gerber.ToFloatingPointString(a).Replace(',', '.');
}
if (Gerber.ShowProgress)
{
Console.WriteLine("generated rotated compound macro shape: ");
}
if (Gerber.ShowProgress)
{
Console.WriteLine(res);
}
}
break;
default:
Console.WriteLine("I don't know how to generate the source for this aperture yet.");
break;
}
res += "*%";
return(res);
}