/// <summary> /// /// </summary> /// <param name="sourcefile"></param> /// <param name="destfile"></param> /// <param name="DX">MM</param> /// <param name="DY">MM</param> /// <param name="Angle">Degrees</param> public static void Transform(string sourcefile, string destfile, double DX, double DY, double DXp, double DYp, double AngleInDeg = 0) { List <String> lines = new List <string>(); List <String> outlines = new List <string>(); bool WriteMove = false; int moveswritten = 0; double Angle = AngleInDeg * (Math.PI * 2.0) / 360.0; double CA = Math.Cos(Angle); double SA = Math.Sin(Angle); using (StreamReader sr = new StreamReader(sourcefile)) { while (sr.EndOfStream == false) { String line = sr.ReadLine(); if (line.Length > 0) { lines.Add(line); } } } lines = PolyLineSet.SanitizeInputLines(lines); if (Gerber.WriteSanitized) { Gerber.WriteAllLines(sourcefile + ".sanitized.txt", lines); } // PolyLineSet Parsed = new PolyLineSet("parsed gerber"); ParsedGerber Parsed = PolyLineSet.ParseGerber274x(lines, true, false, new GerberParserState() { GenerateGeometry = false }); if (Gerber.ShowProgress) { Console.WriteLine("found apertures: "); foreach (var a in Parsed.State.Apertures) { Console.WriteLine(a.Value.ToString()); } } GerberNumberFormat CoordinateFormat = new GerberNumberFormat(); CoordinateFormat.SetImperialMode(); // CoordinateFormat = Parsed.State.CoordinateFormat; int cur = 0; bool formatparsed = false; while (cur < lines.Count && formatparsed == false) { if (lines[cur].Length >= 2 && lines[cur].Substring(0, 2) == "%F") { CoordinateFormat.Parse(lines[cur]); formatparsed = true; } cur++; } // double coordmultiplier = 1.0; double LastX = 0; double LastY = 0; for (int i = 0; i < lines.Count; i++) { GerberSplitter GS = new GerberSplitter(); string FinalLine = lines[i].Replace("%", "").Replace("*", "").Trim(); bool DumpToOutput = false; bool metaopen = false; if (lines[i][0] == '%') { DumpToOutput = true; metaopen = true; } else { GS.Split(lines[i], CoordinateFormat); } switch (FinalLine) { case "G71": CoordinateFormat.SetMetricMode(); break; case "G70": CoordinateFormat.SetImperialMode(); break; case "MOIN": { CoordinateFormat.SetImperialMode(); //CoordinateFormat.Multiplier = 25.4f; } break; case "MOMM": { CoordinateFormat.SetMetricMode(); //CoordinateFormat.Multiplier = 1.0f; } break; } if (lines[i].Length > 3 && lines[i].Substring(0, 3) == "%AM") { string name = lines[i].Substring(3).Split('*')[0]; var M = Parsed.State.ApertureMacros[name]; M.Written = true; var gerb = M.BuildGerber(CoordinateFormat, AngleInDeg).Split('\n'); foreach (var l in gerb) { if (l.Trim().Length > 0) { outlines.Add(l.Trim()); } } // outlines.Add(lines[i]); // if (lines[i][lines[i].Length - 1] != '%') /// { // i++; while (lines[i][lines[i].Length - 1] != '%') { // outlines.Add(lines[i]); i++; } // outlines.Add(lines[i]); // } } else if (lines[i].Length > 3 && lines[i].Substring(0, 3) == "%AD") { GCodeCommand GCC = new GCodeCommand(); GCC.Decode(lines[i], CoordinateFormat); if (GCC.numbercommands.Count < 1) { Console.WriteLine("Skipping bad aperture definition: {0}", lines[i]); } else { int ATID = (int)GCC.numbercommands[0]; var Aperture = Parsed.State.Apertures[ATID]; if (Gerber.ShowProgress) { Console.WriteLine("found " + Aperture.ToString()); } string gerb = Aperture.BuildGerber(CoordinateFormat, AngleInDeg); if ((Aperture.ShapeType == GerberApertureShape.Compound || Aperture.ShapeType == GerberApertureShape.Macro) && Parsed.State.ApertureMacros[Aperture.MacroName].Written == false) { Console.WriteLine("Macro type defined - skipping"); } else { outlines.Add(gerb); } // outlines.Add(lines[i]); if (lines[i][lines[i].Length - 1] != '%') { i++; while (lines[i] != "%") { // outlines.Add(lines[i]); i++; } // outlines.Add(lines[i]); } } } else { bool PureD = false; if (GS.Has("G")) { int GCode = (int)GS.Get("G"); switch (GCode) { case 4: DumpToOutput = true; break; case 90: CoordinateFormat.Relativemode = false; break; case 91: CoordinateFormat.Relativemode = true; break; case 71: CoordinateFormat.Multiplier = 1.0d; break; case 70: CoordinateFormat.Multiplier = 25.4d; break; } } if (DumpToOutput) { outlines.Add(lines[i]); if (lines[i].Contains("LNData")) { Console.WriteLine(" heh"); } if (lines[i][0] == '%') { int starti = i; if (lines[i].Length == 1) { i++; } while (lines[i][lines[i].Length - 1] != '%') { if (i > starti) { outlines.Add(lines[i]); } i++; } if (i > starti) { outlines.Add(lines[i]); } } } else { bool translate = true; if (CoordinateFormat.Relativemode) { translate = false; } if (GS.Has("X") == false && GS.Has("Y") == false && (GS.Has("D") && GS.Get("D") < 10)) { PureD = true; int Dcode = (int)GS.Get("D"); if (Dcode == 1 || Dcode == 3) { if (moveswritten == 0) { WriteMove = true; } } moveswritten++; Console.WriteLine(" Pure D Code: {0}", lines[i]); } else if (GS.Has("X") || GS.Has("Y") || (GS.Has("D") && GS.Get("D") < 10)) { int Dcode = (int)GS.Get("D"); if (Dcode == 1 || Dcode == 3) { if (moveswritten == 0) { WriteMove = true; } } moveswritten++; double X = LastX; if (GS.Has("X")) { X = GS.Get("X"); } double Y = LastY; if (GS.Has("Y")) { Y = GS.Get("Y"); } LastX = X; LastY = Y; GetTransformedCoord(DX, DY, DXp, DYp, Angle, CA, SA, CoordinateFormat, translate, ref X, ref Y); if ((GS.Has("I") || GS.Has("J")) && Angle != 0) { // int g = (int)GS.Get("G"); // if (g == 2 || g == 3) { double I = 0; double J = 0; bool arc = false; if (GS.Has("I")) { I = GS.Get("I"); arc = true; } ; if (GS.Has("J")) { J = GS.Get("J"); arc = true; } ; if (arc) { double nJ = J * CA + I * SA; double nI = -J * SA + I * CA; I = nI; J = nJ; // GS.Set("I", Math.Abs(I)); // GS.Set("J", Math.Abs(J)); GS.Set("I", I); GS.Set("J", J); } } } GS.Set("X", X); GS.Set("Y", Y); } if (WriteMove) { GerberSplitter GS2 = new GerberSplitter(); GS2.Set("D", 2); double X0 = 0; double Y0 = 0; GetTransformedCoord(DX, DY, DXp, DYp, Angle, CA, SA, CoordinateFormat, translate, ref X0, ref Y0); GS2.Set("X", X0); GS2.Set("Y", Y0); WriteMove = false; outlines.Add(GS2.Rebuild(CoordinateFormat)); } outlines.Add(GS.Rebuild(CoordinateFormat)); if (PureD) { Console.WriteLine("pureD"); } } } } try { List <String> PostProcLines = new List <string>(); foreach (var a in outlines) { if (a == "%") { PostProcLines[PostProcLines.Count - 1] += "%"; } else { PostProcLines.Add(a); } } Gerber.WriteAllLines(destfile, PolyLineSet.SanitizeInputLines(PostProcLines)); } catch (Exception E) { Console.WriteLine(E.Message); } }
private static Dictionary <string, Tuple <GerberApertureType, List <PointD> > > FillOverlapList(ProgressLog log, Dictionary <string, Tuple <GerberApertureType, List <PointD> > > overlapList, ParsedGerber subtr, string subtractfile) { log.PushActivity("Filling overlap list coords"); List <String> lines = new List <string>(); List <String> outlines = new List <string>(); int CurrentAperture = 10; bool WriteMove = false; int moveswritten = 0; using (StreamReader sr = new StreamReader(subtractfile)) { while (sr.EndOfStream == false) { String line = sr.ReadLine(); if (line.Length > 0) { lines.Add(line); } } } lines = PolyLineSet.SanitizeInputLines(lines); //ParsedGerber Parsed = PolyLineSet.ParseGerber274x(log, lines, true, false, new GerberParserState() { GenerateGeometry = false }); GerberNumberFormat CoordinateFormat = new GerberNumberFormat(); CoordinateFormat.SetImperialMode(); // CoordinateFormat = Parsed.State.CoordinateFormat; int cur = 0; bool formatparsed = false; while (cur < lines.Count && formatparsed == false) { if (lines[cur].Length >= 2 && lines[cur].Substring(0, 2) == "%F") { CoordinateFormat.Parse(lines[cur]); formatparsed = true; } cur++; } // double coordmultiplier = 1.0; double LastX = 0; double LastY = 0; for (int i = 0; i < lines.Count; i++) { GerberSplitter GS = new GerberSplitter(); string FinalLine = lines[i].Replace("%", "").Replace("*", "").Trim(); bool DumpToOutput = false; bool metaopen = false; if (lines[i][0] == '%') { DumpToOutput = true; metaopen = true; } else { GS.Split(lines[i], CoordinateFormat); } switch (FinalLine) { case "G71": CoordinateFormat.SetMetricMode(); break; case "G70": CoordinateFormat.SetImperialMode(); break; case "MOIN": { CoordinateFormat.SetImperialMode(); //CoordinateFormat.Multiplier = 25.4f; } break; case "MOMM": { CoordinateFormat.SetMetricMode(); //CoordinateFormat.Multiplier = 1.0f; } break; } if (lines[i].Length > 3 && lines[i].Substring(0, 3) == "%AM") { string name = lines[i].Substring(3).Split('*')[0]; var M = subtr.State.ApertureMacros[name]; M.Written = true; var gerb = M.BuildGerber(CoordinateFormat, 0, "").Split('\n'); foreach (var l in gerb) { if (l.Trim().Length > 0) { outlines.Add(l.Trim()); } } // outlines.Add(lines[i]); // if (lines[i][lines[i].Length - 1] != '%') /// { // i++; while (lines[i][lines[i].Length - 1] != '%') { // outlines.Add(lines[i]); i++; } // outlines.Add(lines[i]); // } } else if (lines[i].Length > 3 && lines[i].Substring(0, 3) == "%AD") { GCodeCommand GCC = new GCodeCommand(); GCC.Decode(lines[i], CoordinateFormat); if (GCC.numbercommands.Count < 1) { log.AddString(String.Format("Skipping bad aperture definition: {0}", lines[i])); } else { int ATID = (int)GCC.numbercommands[0]; var Aperture = subtr.State.Apertures[ATID]; if (Gerber.ShowProgress) { log.AddString(String.Format("found " + Aperture.ToString())); } string gerb = Aperture.BuildGerber(CoordinateFormat, "", 0); if ((Aperture.ShapeType == GerberApertureShape.Compound || Aperture.ShapeType == GerberApertureShape.Macro) && subtr.State.ApertureMacros[Aperture.MacroName].Written == false) { log.AddString(String.Format("Macro type defined - skipping")); } else { outlines.Add(gerb); } // outlines.Add(lines[i]); if (lines[i][lines[i].Length - 1] != '%') { i++; while (lines[i] != "%") { // outlines.Add(lines[i]); i++; } // outlines.Add(lines[i]); } } } else { bool PureD = false; if (GS.Has("G")) { int GCode = (int)GS.Get("G"); switch (GCode) { case 4: DumpToOutput = true; break; case 90: CoordinateFormat.Relativemode = false; break; case 91: CoordinateFormat.Relativemode = true; break; case 71: CoordinateFormat.Multiplier = 1.0d; break; case 70: CoordinateFormat.Multiplier = 25.4d; break; } } if (DumpToOutput) { outlines.Add(lines[i]); if (lines[i].Contains("LNData")) { log.AddString(String.Format(" heh")); } if (lines[i][0] == '%') { int starti = i; if (lines[i].Length == 1) { i++; } while (lines[i][lines[i].Length - 1] != '%') { if (i > starti) { outlines.Add(lines[i]); } i++; } if (i > starti) { outlines.Add(lines[i]); } } } else { bool translate = true; if (CoordinateFormat.Relativemode) { translate = false; } if (GS.Has("X") == false && GS.Has("Y") == false && (GS.Has("D") && GS.Get("D") < 10)) { PureD = true; int Dcode = (int)GS.Get("D"); if (Dcode == 1 || Dcode == 3) { if (moveswritten == 0) { WriteMove = true; } } moveswritten++; //log.AddString(String.Format("Pure D Code: {0}", lines[i])); } else if (GS.Has("X") || GS.Has("Y") || (GS.Has("D") && GS.Get("D") < 10)) { int Dcode = (int)GS.Get("D"); if (Dcode == 1 || Dcode == 3) { if (moveswritten == 0) { WriteMove = true; } } moveswritten++; double X = LastX; if (GS.Has("X")) { X = GS.Get("X"); } double Y = LastY; if (GS.Has("Y")) { Y = GS.Get("Y"); } LastX = X; LastY = Y; GS.Set("X", X); GS.Set("Y", Y); } if (GS.Get("D") >= 10) { CurrentAperture = (int)GS.Get("D"); // Select Aperture; } string hash = subtr.State.Apertures[CurrentAperture].GetApertureHash(); if (overlapList.ContainsKey(hash)) { overlapList[hash].Item2.Add(new PointD(LastX, LastY)); } if (WriteMove) { GerberSplitter GS2 = new GerberSplitter(); GS2.Set("D", 2); double X0 = 0; double Y0 = 0; if (overlapList.ContainsKey(hash)) { overlapList[hash].Item2.Add(new PointD(0, 0)); } //GetTransformedCoord(DX, DY, DXp, DYp, Angle, CA, SA, CoordinateFormat, translate, ref X0, ref Y0); GS2.Set("X", X0); GS2.Set("Y", Y0); WriteMove = false; // outlines.Add(GS2.Rebuild(CoordinateFormat)); } // outlines.Add(GS.Rebuild(CoordinateFormat)); if (PureD) { //log.AddString(String.Format("pureD")); } } } } try { // List<String> PostProcLines = new List<string>(); // foreach (var a in outlines) // { // if (a == "%") // { // PostProcLines[PostProcLines.Count - 1] += "%"; // } // else // { // PostProcLines.Add(a); // } // } // Gerber.WriteAllLines(outputfile, PolyLineSet.SanitizeInputLines(PostProcLines)); } catch (Exception E) { log.AddString(String.Format(E.Message)); } log.PopActivity(); return(overlapList); }