public void PolyCurveDomainInPolygon2() { var pline = new PolyLine( new Vector(0, 0), new Vector(0, 10), new Vector(-20, 10), new Vector(-20, 0)); pline.Close(); var polyCrv = pline.ToPolyCurve(); var polygon = new Vertex[] { new Vertex(-10, 0), new Vertex(-0.0001, 0), new Vertex(-0.0001, -10), new Vertex(-10, -10) }; var ints = Intersect.CurveDomainInPolygonXY(polyCrv, polygon); Assert.AreEqual(1, ints.Count); Assert.AreEqual(0.875, ints[0].Start); Assert.AreEqual(0.99999875, ints[0].End); }
void loadXML() { // DestroyObject(go); //if (done || !GetComponent<MapChunkManager>().isReady) // return; PolyLine pl = new PolyLine("TESTINGTRACER"); pl.heigth = 1; pl.width = 3; pl.material = Resources.Load("Materials/blinker") as Material; float offsetPositionX = GetComponent<MapChunkManager>().offsetX; float offsetPositionZ = GetComponent<MapChunkManager>().offsetZ; pl.SetOffset(offsetPositionX, offsetPositionZ); XmlDocument XMLFile = new XmlDocument(); XMLFile.LoadXml(gpsLog.text); XmlNodeList coords = XMLFile.GetElementsByTagName("trkpt"); List<Node> nodes = new List<Node>(); GeoUTMConverter convertor; foreach (XmlNode coord in coords) { // coord.Attributes["lat"].Value // coord.Attributes["lon"].Value Node n = new Node(); n.lat = double.Parse(coord.Attributes["lat"].Value); n.lon = double.Parse(coord.Attributes["lon"].Value); convertor = new GeoUTMConverter(); convertor.ToUTM(n.lat,n.lon); n.northing = convertor.Y; n.easthing = convertor.X; nodes.Add(n); } for (int a = 0; a < nodes.Count -1; a++) { Node n = nodes[a]; Vector3 position = new Vector3((float)(n.easthing - offsetPositionX), 99999, (float)(n.northing - offsetPositionZ)); float baseHeight = 0; RaycastHit hit; if (Physics.Raycast(position, -Vector3.up, out hit, Mathf.Infinity)) { baseHeight = hit.point.y; } n.height = baseHeight + 1f; pl.Add(n); // Debug.Log("Node is " + (float)(n.easthing - offsetPositionX) + "|" + (float)(n.northing - offsetPositionZ) + "|" + n.height); // Color random = new Color(((float)n.easthing % 255) / 255f, ((float)n.northing % 255) / 255f, ((float)n.easthing % 255) / 255f); // Debug.DrawLine(new Vector3((float)nodes[a].easthing - offsetPositionX, 200, (float)nodes[a].northing - offsetPositionZ), new Vector3((float)nodes[a + 1].easthing - offsetPositionX, 200, (float)nodes[a + 1].northing - offsetPositionZ), random,300); } // foreach (Node node in nodes) { // pl.Add (node); // } GameObject go = new GameObject(); go.transform.position = transform.position; pl.Close(go); done = true; }
internal PolyLine GetBoundingPolyLine() { PolyLine Boundary = new PolyLine(State.LastShapeID++); Boundary.Add(BoundingBox.TopLeft.X, BoundingBox.TopLeft.Y); Boundary.Add(BoundingBox.BottomRight.X, BoundingBox.TopLeft.Y); Boundary.Add(BoundingBox.BottomRight.X, BoundingBox.BottomRight.Y); Boundary.Add(BoundingBox.TopLeft.X, BoundingBox.BottomRight.Y); Boundary.Close(); return(Boundary); }
private bool InventOutline(ProgressLog log) { double largest = 0; ParsedGerber Largest = null; PolyLine Outline = null; foreach (var a in PLSs) { var P = a.FindLargestPolygon(); if (P != null) { if (P.Item1 > largest) { largest = P.Item1; Largest = a; Outline = P.Item2; } } } if (largest < BoundingBox.Area() / 3.0) { return(false); } bool zerowidth = true; bool precombine = true; log.AddString(String.Format("Note: Using {0} to extract outline file", Path.GetFileName(Largest.Name))); if (Largest.Layer == BoardLayer.Mill) { Largest.OutlineShapes.Remove(Outline); Largest.Shapes.Remove(Outline); } var b = AddBoardToSet(log, Largest.Name, zerowidth, precombine, 1.0); b.Layer = BoardLayer.Outline; b.Side = BoardSide.Both; b.DisplayShapes.Clear(); b.OutlineShapes.Clear(); b.Shapes.Clear(); Outline.Close(); b.Shapes.Add(Outline); b.OutlineShapes.Add(Outline); //b.DisplayShapes.Add(Outline); //b.BuildBoundary(); b.FixPolygonWindings(); b.CalcPathBounds(); return(true); }
public void CurvePlaneTest() { // Test a badly-formed polyline (with duplicate points): var pline = new PolyLine( new Vector(-125, -95, -0.00999999977648258), new Vector(-125, -95, -0.00999999977648258), new Vector(-110, 140, -0.00999999977648258), new Vector(115, 130, -0.00999999977648258), new Vector(85, -90, -0.00999999977648258)); pline.Close(); var plane = pline.Plane(); Assert.AreEqual(-Vector.UnitZ, plane.Z); }
public void AreaCalculationTest2() { // Test a badly-formed polyline (with duplicate points): var pline = new PolyLine( new Vector(0, 0), new Vector(0, 2), new Vector(0, 2), new Vector(2, 0), new Vector(0, 0)); pline.Close(); double area = pline.CalculateEnclosedArea(); Assert.AreEqual(2.0, area); }
public void PolyLineCleanTest() { // Test a badly-formed polyline (with duplicate points): var pline = new PolyLine( new Vector(0, 0), new Vector(0, 2), new Vector(0, 2), new Vector(2, 0), new Vector(0, 0)); pline.Close(); bool removedAny = pline.Clean(); Assert.AreEqual(true, removedAny); Assert.AreEqual(3, pline.VertexCount); }
public void SubdomainByCentreTest3() { var pline = new PolyLine( new Vector(0, 0), new Vector(0, 2), new Vector(0, 2), new Vector(2, 0), new Vector(0, 0)); pline.Close(); var polyCrv = pline.ToPolyCurve(); var domain = polyCrv.SubdomainByCentre(0.1, 20); Curve subCrv = polyCrv.Extract(domain); Assert.AreEqual(pline.Length, subCrv.Length, 0.00001); }
/// <summary> /// Convert a Robot polyline geometry into a Nucleus polyline /// </summary> /// <param name="polyline"></param> /// <returns></returns> public static PolyLine Convert(RobotGeoPolyline polyline) { PolyLine result = new PolyLine(); RobotGeoSegmentCollection segments = polyline.Segments as RobotGeoSegmentCollection; for (int i = 1; i <= segments.Count; i++) { RobotGeoSegment segment = segments.Get(i); Vector pt = Convert(segment.P1); if (i == segments.Count && pt.Equals(result.StartPoint, Tolerance.Distance)) { result.Close(true); } else { result.Add(pt); } } return(result); }
public void WriteAntennaBoard(double width, double height, double mountholediameter, double cornerrounding, double mountholeclearance, double edgeclearance = 1.26, bool WriteCombinedImage = true, bool WriteImages = false) { int polyid = 0; FontSet FS = FontSet.Load("Font.xml"); List <String> FilesGenerated = new List <string>(); double LabelHeight = 1.2; //double PadWidth = 1.8; double DrillWidth = 1.0; string basename = String.Format("Generated_This_is_not_RocketScience_Antenna_{0}x{1}cm", width / 10.0f, height / 10.0f); try { Directory.CreateDirectory(basename); } catch (Exception) { } basename = Path.Combine(basename, String.Format("proto_{0}x{1}cm", width / 10.0f, height / 10.0f)); string OutlineFile = basename + ".gko"; string SilkFileTop = basename + ".gto"; string SilkFileBottom = basename + ".gbo"; string SolderMaskBottom = basename + ".gbs"; string SolderMaskTop = basename + ".gts"; string CopperBottom = basename + ".gbl"; string CopperTop = basename + ".gtl"; string DrillFile = basename + ".txt"; ExcellonFile EF = new ExcellonFile(); ExcellonTool MountHoleDrill = new ExcellonTool(); MountHoleDrill.Radius = mountholediameter / 2.0; PointD C1 = new PointD(mountholeclearance, mountholeclearance); PointD C2 = new PointD(width - mountholeclearance, mountholeclearance); PointD C3 = new PointD(width - mountholeclearance, height - mountholeclearance); PointD C4 = new PointD(mountholeclearance, height - mountholeclearance); MountHoleDrill.Drills.Add(C1); MountHoleDrill.Drills.Add(C2); MountHoleDrill.Drills.Add(C3); MountHoleDrill.Drills.Add(C4); EF.Tools[10] = MountHoleDrill; ViaDrill.Radius = 0.6 / 2.0; EF.Tools[11] = ViaDrill; ExcellonTool ProtoHoleDrill = new ExcellonTool(); ProtoHoleDrill.Radius = DrillWidth / 2.0; PointD pC1 = new PointD(mountholeclearance, height / 2 - 2.54); PointD pC2 = new PointD(mountholeclearance, height / 2); PointD pC3 = new PointD(mountholeclearance, height / 2 + 2.54); ProtoHoleDrill.Drills.Add(pC1); ProtoHoleDrill.Drills.Add(pC2); ProtoHoleDrill.Drills.Add(pC3); MaskBottom.AddFlash(pC1, 1); MaskBottom.AddFlash(pC2, 1); MaskBottom.AddFlash(pC3, 1); MaskTop.AddFlash(pC1, 1); MaskTop.AddFlash(pC2, 1); MaskTop.AddFlash(pC3, 1); PolyLine PL = new PolyLine(polyid++); PL.Add(cornerrounding, 0); PL.Add(width - cornerrounding, 0); PL.ArcTo(new PointD(width, cornerrounding), new PointD(0, cornerrounding), InterpolationMode.CounterClockwise); PL.Add(width, height - cornerrounding); PL.ArcTo(new PointD(width - cornerrounding, height), new PointD(-cornerrounding, 0), InterpolationMode.CounterClockwise); PL.Add(cornerrounding, height); PL.ArcTo(new PointD(0, height - cornerrounding), new PointD(0, -cornerrounding), InterpolationMode.CounterClockwise); PL.Add(0, cornerrounding); PL.ArcTo(new PointD(cornerrounding, 0), new PointD(cornerrounding, 0), InterpolationMode.CounterClockwise); PL.Close(); GAW.AddPolyLine(PL, 0); GAW.Write(OutlineFile); double AX = C1.X + mountholeclearance; double AY = C1.Y + mountholeclearance; double gap = 5; double W = width - AX * 2; double H = height - AY * 2 - gap; int rounds = 6; antennatracewidth = 0.3 / 2; double spacing = 0.8; for (int i = 0; i < rounds; i++) { double W2 = W - i * spacing * 2; double H2 = H - i * spacing * 2; double W3 = W - (i + 1) * spacing * 2; double H3 = H - (i + 1) * spacing * 2; double AX2 = AX + i * spacing; double AY2 = AY + i * spacing; double AX3 = AX + (i + 1) * spacing; double AY3 = AY + (i + 1) * spacing; PolyLine PL2 = new PolyLine(polyid++); PL2.Add(AX2, AY2 + H2 / 2); PL2.Add(AX2, AY2); PL2.Add(AX2 + W2, AY2); PL2.Add(AX2 + W2, AY2 + H2 / 2); AddAntennaTop(PL2); PolyLine PL3 = new PolyLine(polyid++); PL3.Add(AX2, AY2 + gap + H2 - (H2 / 2)); PL3.Add(AX2, AY2 + gap + H2); PL3.Add(AX2 + W2, AY2 + gap + H2); PL3.Add(AX2 + W2, AY2 + gap + H2 - (H2 / 2)); AddAntennaTop(PL3); double gs = 2; if (i % 2 == 1) { if (i < rounds - 1) { PolyLine PL4 = new PolyLine(polyid++); PL4.Add(AX2, AY2 + gap + H2 - (H2 / 2)); PL4.Add(AX2, AY2 + gap - gs + H2 - (H2 / 2)); PL4.Add(AX3, AY3 + gs + (H3 / 2)); PL4.Add(AX3, AY3 + (H3 / 2)); AddAntennaTop(PL4); PolyLine PL5 = new PolyLine(polyid++); PL5.Add(AX3, AY3 + gap + H3 - (H3 / 2)); PL5.Add(AX2, AY2 + (H2 / 2)); AddAntennaBottom(PL5); AddAntennaVia(AX3, AY3 + gap + H3 - (H3 / 2)); AddAntennaVia(AX2, AY2 + (H2 / 2)); } else { PolyLine PL4 = new PolyLine(polyid++); PL4.Add(AX2, AY2 + gap + H2 - (H2 / 2)); PL4.Add(AX2, AY2 + (H2 / 2)); AddAntennaTop(PL4); AddAntennaVia(AX2, AY2 + H2 / 2 + gap / 2); PolyLine PL5 = new PolyLine(polyid++); PL5.Add(AX2, AY2 + H2 / 2 + gap / 2); PL5.Add(AX2, AY2 + H2 / 2 - gs); PL5.Add(AX - spacing, AY2 + H2 / 2 - gs); PL5.Add(AX - spacing, AY2 + H2 / 2 + gap / 2); AddAntennaVia(AX - spacing, AY2 + H2 / 2 + gap / 2); AddAntennaBottom(PL5); } } else { PolyLine PL4 = new PolyLine(polyid++); PL4.Add(AX2 + W2, AY2 + gap + H2 - (H2 / 2)); PL4.Add(AX2 + W2, AY2 + gap - gs + H2 - (H2 / 2)); PL4.Add(AX3 + W3, AY3 + gs + (H3 / 2)); PL4.Add(AX3 + W3, AY3 + (H3 / 2)); AddAntennaTop(PL4); PolyLine PL5 = new PolyLine(polyid++); PL5.Add(AX3 + W3, AY3 + gap + H3 - (H3 / 2)); PL5.Add(AX2 + W2, AY2 + (H2 / 2)); AddAntennaBottom(PL5); PolyLine PL6 = new PolyLine(polyid++); PL6.Add(AX, AY + H / 2); PL6.Add(pC1.X, pC1.Y); AddAntennaTop(PL6); PolyLine PL7 = new PolyLine(polyid++); PL7.Add(AX, AY + H / 2 + gap); PL7.Add(pC3.X, pC3.Y); AddAntennaTop(PL7); PolyLine PL8 = new PolyLine(polyid++); PL8.Add(AX - spacing, AY2 + H2 / 2 + gap / 2); PL8.Add(pC2.X, pC2.Y); AddAntennaTop(PL8); AddAntennaVia(AX3 + W3, AY3 + gap + H3 - (H3 / 2)); AddAntennaVia(AX2 + W2, AY2 + (H2 / 2)); } } string R = "NFC antenna: " + AntennaLen.ToString("N2") + " mm"; // MaskTop.DrawString(new PointD(width / 2, 5), FS, R, LabelHeight, 0.05, StringAlign.CenterCenter); // MaskBottom.DrawString(new PointD(width / 2, 5), FS, R, LabelHeight, 0.05, StringAlign.CenterCenter, true); SilkTop.DrawString(new PointD(width / 2, 5), FS, R, LabelHeight, 0.05, StringAlign.CenterCenter); SilkBottom.DrawString(new PointD(width / 2, 5), FS, R, LabelHeight, 0.05, StringAlign.CenterCenter, true); GAWTop.Write(CopperTop); GAWBottom.Write(CopperBottom); SilkBottom.Write(SilkFileBottom); SilkTop.Write(SilkFileTop); MaskTop.Write(SolderMaskTop); MaskBottom.Write(SolderMaskBottom); EF.Tools[12] = ProtoHoleDrill; EF.Write(DrillFile, 0, 0, 0, 0); FilesGenerated.Add(CopperBottom); FilesGenerated.Add(CopperTop); FilesGenerated.Add(OutlineFile); FilesGenerated.Add(DrillFile); FilesGenerated.Add(SilkFileBottom); FilesGenerated.Add(SilkFileTop); FilesGenerated.Add(SolderMaskBottom); FilesGenerated.Add(SolderMaskTop); if (WriteCombinedImage) { GerberImageCreator GIC = new GerberImageCreator(); GIC.AddBoardsToSet(FilesGenerated); GIC.WriteImageFiles(basename + "_render", 200, false); } if (WriteImages) { Gerber.SaveGerberFileToImage(OutlineFile, OutlineFile + "_render.png", 1000, Color.Black, Color.White); Gerber.SaveGerberFileToImage(CopperBottom, CopperBottom + "_render.png", 1000, Color.Black, Color.White); Gerber.SaveGerberFileToImage(CopperTop, CopperTop + "_render.png", 1000, Color.Black, Color.White); Gerber.SaveGerberFileToImage(DrillFile, DrillFile + "_render.png", 1000, Color.Black, Color.White); Gerber.SaveGerberFileToImage(SilkFileTop, SilkFileTop + "_render.png", 1000, Color.Black, Color.White); Gerber.SaveGerberFileToImage(SilkFileBottom, SilkFileBottom + "_render.png", 1000, Color.Black, Color.White); } }
public static List <String> WriteProtoBoardFlowerStyle(double width, double height, double mountholediameter, double cornerrounding, double mountholeclearance, double edgeclearance = 1.26, bool WriteCombinedImage = true, bool WriteImages = false) { FontSet FS = FontSet.Load("Font.xml"); int polyid = 0; List <String> FilesGenerated = new List <string>(); double LabelHeight = 1.2; double PadWidth = 1.8; double DrillWidth = 1.0; string basename = String.Format("Generated_This_is_not_RocketScience_Flower_prototoboard_{0}x{1}cm", width / 10.0f, height / 10.0f); try { Directory.CreateDirectory(basename); } catch (Exception) { } basename = Path.Combine(basename, String.Format("proto_{0}x{1}cm", width / 10.0f, height / 10.0f)); string OutlineFile = basename + ".gko"; string SilkFileTop = basename + ".gto"; string SilkFileBottom = basename + ".gbo"; string SolderMaskBottom = basename + ".gbs"; string SolderMaskTop = basename + ".gts"; string CopperBottom = basename + ".gbl"; string CopperTop = basename + ".gtl"; string DrillFile = basename + ".txt"; int XE = (int)Math.Floor((width - Math.Max(edgeclearance, LabelHeight) * 2) / 2.54); int YE = (int)Math.Floor((height - Math.Max(edgeclearance, LabelHeight) * 2) / 2.54); PrepareGridSpace(XE, YE, true, true, 3, 2); string[][] Grid = new string[XE + 1][]; for (int x = 0; x <= XE; x++) { Grid[x] = new string[YE + 1]; for (int y = 0; y <= YE; y++) { Grid[x][y] = GridSpaceType(x, y); if (y == YE) { Grid[x][y] = "None"; } if (x == XE) { Grid[x][y] = "None"; } } } double XO = (width / 2) - (XE / 2.0) * 2.54; double YO = (height / 2) - (YE / 2.0) * 2.54; Console.WriteLine("{0} rows and {1} columns", YE, XE); ExcellonFile EF = new ExcellonFile(); PointD C1 = new PointD(0, 0); PointD C2 = new PointD(width, 0); PointD C3 = new PointD(width, height); PointD C4 = new PointD(0, height); if (mountholediameter > 0) { ExcellonTool MountHoleDrill = new ExcellonTool(); MountHoleDrill.Radius = mountholediameter / 2.0; C1 = new PointD(mountholeclearance, mountholeclearance); C2 = new PointD(width - mountholeclearance, mountholeclearance); C3 = new PointD(width - mountholeclearance, height - mountholeclearance); C4 = new PointD(mountholeclearance, height - mountholeclearance); MountHoleDrill.Drills.Add(C1); MountHoleDrill.Drills.Add(C2); MountHoleDrill.Drills.Add(C3); MountHoleDrill.Drills.Add(C4); EF.Tools[10] = MountHoleDrill; } ExcellonTool ProtoHoleDrill = new ExcellonTool(); ProtoHoleDrill.Radius = DrillWidth / 2.0; PolyLine PL = new PolyLine(polyid++); PL.Add(cornerrounding, 0); PL.Add(width - cornerrounding, 0); PL.ArcTo(new PointD(width, cornerrounding), new PointD(0, cornerrounding), InterpolationMode.CounterClockwise); PL.Add(width, height - cornerrounding); PL.ArcTo(new PointD(width - cornerrounding, height), new PointD(-cornerrounding, 0), InterpolationMode.CounterClockwise); PL.Add(cornerrounding, height); PL.ArcTo(new PointD(0, height - cornerrounding), new PointD(0, -cornerrounding), InterpolationMode.CounterClockwise); PL.Add(0, cornerrounding); PL.ArcTo(new PointD(cornerrounding, 0), new PointD(cornerrounding, 0), InterpolationMode.CounterClockwise); PL.Close(); GerberArtWriter GAW = new GerberArtWriter(); GAW.AddPolyLine(PL, 0); GAW.Write(OutlineFile); GerberArtWriter GAWTop = new GerberArtWriter(); GerberArtWriter GAWBottom = new GerberArtWriter(); GerberArtWriter MaskTop = new GerberArtWriter(); GerberArtWriter MaskBottom = new GerberArtWriter(); GerberArtWriter SilkTop = new GerberArtWriter(); GerberArtWriter SilkBottom = new GerberArtWriter(); for (int x = 0; x < XE; x++) { double xc = XO + x * 2.54 + 2.54 / 2; for (int y = 0; y < YE; y++) { double yc = YO + y * 2.54 + 2.54 / 2; PointD P = new PointD(xc, yc); if ((P - C1).Length() < edgeclearance + mountholediameter / 2 + 1.27) { Grid[x][y] = "None"; } if ((P - C2).Length() < edgeclearance + mountholediameter / 2 + 1.27) { Grid[x][y] = "None"; } if ((P - C3).Length() < edgeclearance + mountholediameter / 2 + 1.27) { Grid[x][y] = "None"; } if ((P - C4).Length() < edgeclearance + mountholediameter / 2 + 1.27) { Grid[x][y] = "None"; } if (Grid[x][y] != "None") { GAWTop.AddFlash(new PointD(xc, yc), DrillWidth * 1.3 / 2.0); GAWBottom.AddFlash(new PointD(xc, yc), DrillWidth * 1.3 / 2.0); MaskTop.AddFlash(new PointD(xc, yc), DrillWidth * 1.3 / 2.0); MaskBottom.AddFlash(new PointD(xc, yc), DrillWidth * 1.3 / 2.0); ProtoHoleDrill.Drills.Add(new PointD(xc, yc)); } } } // SilkTop.DrawString(new PointD(5, 0), FS, "O0O", 5, 0.05, StringAlign.BottomCenter); // SilkTop.DrawString(new PointD(20, 0), FS, "O0O", 5, 0.05, StringAlign.CenterCenter); // SilkTop.DrawString(new PointD(40, 0), FS, "OMO", 5, 0.05, StringAlign.TopCenter); for (int x = 0; x < XE; x++) { double xc = XO + x * 2.54 + 2.54 / 2; double yc = YO + (0) * 2.54; double yc1 = YO + (YE) * 2.54 + 2.54; char T = (char)('A' + (char)((x) % 26)); if (Grid[x][0] != "None") { SilkTop.DrawString(new PointD(xc, yc), FS, T.ToString(), LabelHeight, 0.05, StringAlign.CenterCenter); SilkBottom.DrawString(new PointD(xc, yc), FS, T.ToString(), LabelHeight, 0.05, StringAlign.CenterCenter, true); } if (Grid[x][YE - 1] != "None") { SilkTop.DrawString(new PointD(xc, yc1), FS, T.ToString(), LabelHeight, 0.05, StringAlign.CenterCenter); SilkBottom.DrawString(new PointD(xc, yc1), FS, T.ToString(), LabelHeight, 0.05, StringAlign.CenterCenter, true); } } for (int y = 0; y < YE; y++) { double xc = XO + (0) * 2.54 - 2.54 / 2; double xc1 = XO + (XE + 1) * 2.54 - 2.54 / 2; double yc = YO + (y) * 2.54 + 2.54; if (Grid[0][y] != "None") { SilkTop.DrawString(new PointD(xc, yc), FS, (YE - y).ToString(), LabelHeight, 0.05, StringAlign.CenterCenter); SilkBottom.DrawString(new PointD(xc, yc), FS, (YE - y).ToString(), LabelHeight, 0.05, StringAlign.CenterCenter, true); } if (Grid[XE - 1][y] != "None") { SilkTop.DrawString(new PointD(xc1, yc), FS, (YE - y).ToString(), LabelHeight, 0.05, StringAlign.CenterCenter); SilkBottom.DrawString(new PointD(xc1, yc), FS, (YE - y).ToString(), LabelHeight, 0.05, StringAlign.CenterCenter, true); } } PolyLine PL2 = new PolyLine(polyid++); double rad = 0.6; for (int i = 0; i < 20; i++) { double P = i * Math.PI / 19.0; PL2.Add(Math.Sin(P) * rad, Math.Cos(P) * rad); } PL2.Close(); PL2.Translate(-1.1, 0); for (int x = -1; x < XE + 1; x++) { for (int y = -1; y < YE + 1; y++) { string s1 = "None"; if (y >= 0 && y < YE && x < XE) { s1 = Grid[x + 1][y]; } string s2 = "None"; if (x >= 0 && x < XE && y < YE) { s2 = Grid[x][y + 1]; } string s3 = "None"; if (x >= 0 && x < XE && y >= 0 && y < YE) { s3 = Grid[x][y]; } double xc = XO + x * 2.54 + 2.54 / 2; double yc = YO + y * 2.54 + 2.54 / 2; double xc1 = XO + (x + 1) * 2.54 + 2.54 / 2; double yc1 = YO + (y + 1) * 2.54 + 2.54 / 2; if (s1 != "None" && s3 != "None") { PolyLine PLA = PL2.Copy(); PLA.Translate(xc1, yc); PolyLine PLC = PL2.Copy(); PLC.RotateDegrees(180); PLC.Translate(xc, yc); GAWTop.AddPolygon(PLA); MaskTop.AddPolygon(PLA); GAWTop.AddPolygon(PLC); MaskTop.AddPolygon(PLC); GAWBottom.AddPolygon(PLA); MaskBottom.AddPolygon(PLA); GAWBottom.AddPolygon(PLC); MaskBottom.AddPolygon(PLC); } if (s3 != "None" && s2 != "None") { PolyLine PLB = PL2.Copy(); PLB.RotateDegrees(90); PLB.Translate(xc, yc1); PolyLine PLD = PL2.Copy(); PLD.RotateDegrees(270); PLD.Translate(xc, yc); GAWTop.AddPolygon(PLB); MaskTop.AddPolygon(PLB); GAWTop.AddPolygon(PLD); MaskTop.AddPolygon(PLD); GAWBottom.AddPolygon(PLB); MaskBottom.AddPolygon(PLB); GAWBottom.AddPolygon(PLD); MaskBottom.AddPolygon(PLD); // GAWTop.AddPolygon(PLD); // MaskTop.AddPolygon(PLD); } } } GAWTop.Write(CopperTop); GAWBottom.Write(CopperBottom); SilkBottom.Write(SilkFileBottom); SilkTop.Write(SilkFileTop); MaskTop.Write(SolderMaskTop); MaskBottom.Write(SolderMaskBottom); EF.Tools[11] = ProtoHoleDrill; EF.Write(DrillFile, 0, 0, 0, 0); FilesGenerated.Add(CopperBottom); FilesGenerated.Add(CopperTop); FilesGenerated.Add(OutlineFile); FilesGenerated.Add(DrillFile); FilesGenerated.Add(SilkFileBottom); FilesGenerated.Add(SilkFileTop); FilesGenerated.Add(SolderMaskBottom); FilesGenerated.Add(SolderMaskTop); if (WriteCombinedImage) { GerberImageCreator GIC = new GerberImageCreator(); GIC.AddBoardsToSet(FilesGenerated); GIC.WriteImageFiles(basename + "_render", 200, false); } if (WriteImages) { Gerber.SaveGerberFileToImage(OutlineFile, OutlineFile + "_render.png", 1000, Color.Black, Color.White); Gerber.SaveGerberFileToImage(CopperBottom, CopperBottom + "_render.png", 1000, Color.Black, Color.White); Gerber.SaveGerberFileToImage(CopperTop, CopperTop + "_render.png", 1000, Color.Black, Color.White); Gerber.SaveGerberFileToImage(DrillFile, DrillFile + "_render.png", 1000, Color.Black, Color.White); Gerber.SaveGerberFileToImage(SilkFileTop, SilkFileTop + "_render.png", 1000, Color.Black, Color.White); Gerber.SaveGerberFileToImage(SilkFileBottom, SilkFileBottom + "_render.png", 1000, Color.Black, Color.White); } return(FilesGenerated); }
private void CreateRoad(Way w) { //GameObject go = new GameObject(); //go.name = "Road"; PolyLine pl = new PolyLine(w.id.ToString()); pl.SetOffset(offsetPositionX, offsetPositionZ); pl.heigth = w.height; if (w.type == WayType.Footway) { pl.material = Resources.Load("Materials/Footway Material") as Material; pl.width = 1; } if (w.type == WayType.Motorway) { pl.material = Resources.Load("Materials/Road Material") as Material; pl.width = 4; pl.lanes = 2; } if (w.type == WayType.Residential) { pl.material = Resources.Load("Materials/Road Material") as Material; pl.width = 2; } if (w.type == WayType.River) { pl.material = Resources.Load("Materials/River Material") as Material; pl.width = 8; } //Road road = go.AddComponent<Road>(); //road.groundOffset = 0.01f; //road.points.Clear(); //road.roadWidth = 0.1f;// (float)(road.roadWidth/precision); //road.mat = (Material)Resources.LoadAssetAtPath("Assets/RoadTool/Example/Texture/Materials/Road.mat", typeof(Material)); for (int a = 0; a < w.nodes.Count; a++) { Node n = w.nodes[a]; Vector3 position = new Vector3((float)(n.easthing - offsetPositionX), 5000, (float)(n.northing - offsetPositionZ)); float baseHeight = 0; RaycastHit hit; if (Physics.Raycast(position, -Vector3.up, out hit, Mathf.Infinity, layerMask)) { baseHeight = hit.point.y; } n.height = baseHeight; //Vector3 v = newn. Vector3((float)(((float)n.easthing-offsetPositionX)/precision),(float)0.0,(float)(((float)n.northing-offsetPositionZ)/precision)); //road.points.Insert(0, v); pl.Add(n); } pl.Close(transform); //go.isStatic = true; //road.Refresh(); //go.transform.parent = transform; }
public override IEnumerator Build(Way w, MapChunkLoader mcl) { //GameObject go = new GameObject(); //go.name = "Road"; GameObject road = new GameObject(); road.name = "Road - " + w.id.ToString(); road.isStatic = true; road.transform.parent = mcl.transform; string roadPath = Application.persistentDataPath + "Assets/Resources/Objs/" + road.name + ".obj"; if (!File.Exists(roadPath)) // If the file isn't cached we calculate everything and then we cache it { Debug.Log("STARTED CREATING ROAD"); PolyLine pl = new PolyLine(w.id.ToString()); pl.SetOffset(mcl.offsetPositionX, mcl.offsetPositionZ); pl.heigth = w.height; if (w.type == WayType.Footway) { pl.material = Resources.Load("Materials/Footway Material") as Material; pl.width = 1; } if (w.type == WayType.Motorway) { pl.material = Resources.Load("Materials/Road Material") as Material; pl.width = 4; pl.lanes = 2; } if (w.type == WayType.Residential) { pl.material = Resources.Load("Materials/Road Material") as Material; pl.width = 2; } if (w.type == WayType.River) { pl.material = Resources.Load("Materials/River Material") as Material; pl.width = 8; } for (int a = 0; a < w.nodes.Count; a++) { Node n = w.nodes[a]; Vector3 position = new Vector3((float)(n.easthing - mcl.offsetPositionX), 5000, (float)(n.northing - mcl.offsetPositionZ)); float baseHeight = 0; RaycastHit hit; if (Physics.Raycast(position, -Vector3.up, out hit, Mathf.Infinity, mcl.layerMask)) { baseHeight = hit.point.y; } n.height = baseHeight; pl.Add(n); } //Closed road; mcl.StartCoroutine(pl.Close(road)); if (mcl.exportObjs) { while (road.GetComponent<MeshFilter>() == null) { yield return null; } MeshFilter mf = road.GetComponent<MeshFilter>(); ObjExporter oe = new ObjExporter(); oe.MeshToFile(mf, roadPath); } } else { ObjImporter oi = new ObjImporter(); mcl.StartCoroutine(oi.FileToMesh("file://" + roadPath)); while (oi._myMesh == null) { yield return null; } MeshFilter mf = road.AddComponent<MeshFilter>(); MeshRenderer mr = road.AddComponent<MeshRenderer>(); mf.sharedMesh = oi._myMesh; Debug.LogWarning("Loaded Road from cache " + roadPath); if (w.type == WayType.Footway) { mr.material = Resources.Load("Materials/Footway Material") as Material; } if (w.type == WayType.Motorway) { mr.material = Resources.Load("Materials/Road Material") as Material; } if (w.type == WayType.Residential) { mr.material = Resources.Load("Materials/Road Material") as Material; } if (w.type == WayType.River) { mr.material = Resources.Load("Materials/River Material") as Material; } } }