int IExportStep.Export(ExportStep export, bool topLevel) { // #63=LINE('',#60,#62) ; int p1 = (startPoint as IExportStep).Export(export, false); // unfortunately we don't know about vertices here, so we cannot use them int dir = ((EndPoint - StartPoint) as IExportStep).Export(export, false); int vec = export.WriteDefinition("VECTOR('',#" + dir.ToString() + ",1.)"); int ln = export.WriteDefinition("LINE('',#" + p1.ToString() + ",#" + vec.ToString() + ")"); if (topLevel) { // export as a geometric curve set of a single trimmed curve // #37 = GEOMETRIC_CURVE_SET('',(#38)); // #38 = TRIMMED_CURVE('',#39,(#43,PARAMETER_VALUE(0.E+000)),(#44,PARAMETER_VALUE(62.52263230373)),.T.,.PARAMETER.); int sp = (startPoint as IExportStep).Export(export, false); int ep = (endPoint as IExportStep).Export(export, false); int tc = export.WriteDefinition("TRIMMED_CURVE('',#" + ln.ToString() + ",(#" + sp.ToString() + ",PARAMETER_VALUE(0.0)),(#" + ep.ToString() + ",PARAMETER_VALUE(" + export.ToString(Length) + ")),.T.,.CARTESIAN.)"); int gcs = export.WriteDefinition("GEOMETRIC_CURVE_SET('',(#" + tc.ToString() + "))"); // is a Representation_Item ColorDef cd = ColorDef; if (cd == null) { cd = new ColorDef("Black", Color.Black); } cd.MakeStepStyle(gcs, export); int product = export.WriteDefinition("PRODUCT( '','','',(#2))"); int pdf = export.WriteDefinition("PRODUCT_DEFINITION_FORMATION_WITH_SPECIFIED_SOURCE( ' ', 'NONE', #" + product.ToString() + ", .NOT_KNOWN. )"); int pd = export.WriteDefinition("PRODUCT_DEFINITION( 'NONE', 'NONE', #" + pdf.ToString() + ", #3 )"); int pds = export.WriteDefinition("PRODUCT_DEFINITION_SHAPE( 'NONE', 'NONE', #" + pd.ToString() + " )"); int sr = export.WriteDefinition("SHAPE_REPRESENTATION('', ( #" + gcs.ToString() + "), #4 )"); export.WriteDefinition("SHAPE_DEFINITION_REPRESENTATION( #" + pds.ToString() + ", #" + sr.ToString() + ")"); return(sr); } else { return(ln); } }
internal void MakeStepStyle(int msb, ExportStep export) { //#23=COLOUR_RGB('Colour',0.,0.501960784314,1.) ; //#24=FILL_AREA_STYLE_COLOUR(' ',#23) ; //#25=FILL_AREA_STYLE(' ',(#24)) ; //#26=SURFACE_STYLE_FILL_AREA(#25) ; //#27=SURFACE_SIDE_STYLE(' ',(#26)) ; //#28=SURFACE_STYLE_USAGE(.BOTH.,#27) ; //#29=PRESENTATION_STYLE_ASSIGNMENT((#28)) ; //#30=STYLED_ITEM(' ',(#29),#22) ; //#60 = DRAUGHTING_PRE_DEFINED_COLOUR('red'); //#61 = CURVE_STYLE('',#62,POSITIVE_LENGTH_MEASURE(0.1),#60); //#62 = DRAUGHTING_PRE_DEFINED_CURVE_FONT('continuous'); //#63 = MECHANICAL_DESIGN_GEOMETRIC_PRESENTATION_REPRESENTATION('',(#64), if (!export.StyledItems.TryGetValue(this, out int psa)) { int clr = export.WriteDefinition("COLOUR_RGB('" + Name + "'," + export.ToString(color.R / 255.0) + "," + export.ToString(color.G / 255.0) + "," + export.ToString(color.B / 255.0) + ")"); int cnt = export.WriteDefinition("DRAUGHTING_PRE_DEFINED_CURVE_FONT('continuous')"); int cs = export.WriteDefinition("CURVE_STYLE(' ',#" + cnt.ToString() + ",POSITIVE_LENGTH_MEASURE(0.1),#" + clr.ToString() + ")"); int fac = export.WriteDefinition("FILL_AREA_STYLE_COLOUR(' ',#" + clr.ToString() + ")"); int fas = export.WriteDefinition("FILL_AREA_STYLE(' ',(#" + fac.ToString() + "))"); int ssf = export.WriteDefinition("SURFACE_STYLE_FILL_AREA(#" + fas.ToString() + ")"); int sss = export.WriteDefinition("SURFACE_SIDE_STYLE(' ',(#" + ssf.ToString() + "))"); int ssu = export.WriteDefinition("SURFACE_STYLE_USAGE(.BOTH.,#" + sss.ToString() + ")"); psa = export.WriteDefinition("PRESENTATION_STYLE_ASSIGNMENT((#" + ssu.ToString() + "))"); export.StyledItems[this] = psa; } export.WriteDefinition("STYLED_ITEM(' ',(#" + psa.ToString() + "),#" + msb.ToString() + ")"); }
int IExportStep.Export(ExportStep export, bool topLevel) { /* #248 = ADVANCED_BREP_SHAPE_REPRESENTATION( 'Assem1', ( #717, #718, #719, #720, #721, #722, #723, #724, #725, #726, #727 ), #26 ); #727 = AXIS2_PLACEMENT_3D( '', #1437, #1438, #1439 ); #717 = MAPPED_ITEM( '', #1417, #1418 ); #1417 = REPRESENTATION_MAP( #727, #251 ); #1418 = AXIS2_PLACEMENT_3D( '', #2213, #2214, #2215 ); #251 = ADVANCED_BREP_SHAPE_REPRESENTATION( 'A0501_SASIL_plus_00_50_185_3_polig', ( #730 ), #26 ); */ List <int> representationItems = new List <int>(); int mainAxis = export.WriteAxis2Placement3d(GeoPoint.Origin, GeoVector.ZAxis, GeoVector.XAxis); for (int i = 0; i < containedObjects.Count; i++) { if (containedObjects[i] is IExportStep) { int toMap = (containedObjects[i] as IExportStep).Export(export, true); // true is correct here, because it is part of a map int axis = export.WriteAxis2Placement3d(GeoPoint.Origin, GeoVector.ZAxis, GeoVector.XAxis); int repMap = export.WriteDefinition("REPRESENTATION_MAP(#" + mainAxis.ToString() + ",#" + toMap.ToString() + ")"); int mappedItem = export.WriteDefinition("MAPPED_ITEM( '', #" + repMap.ToString() + ",#" + axis.ToString() + ")"); representationItems.Add(mappedItem); } } representationItems.Add(mainAxis); int sr = export.WriteDefinition("SHAPE_REPRESENTATION('" + Name + "',(" + export.ToString(representationItems.ToArray(), true) + "),#4)"); int product = export.WriteDefinition("PRODUCT( '" + Name + "','" + Name + "','',(#2))"); int pdf = export.WriteDefinition("PRODUCT_DEFINITION_FORMATION_WITH_SPECIFIED_SOURCE( ' ', 'NONE', #" + product.ToString() + ", .NOT_KNOWN. )"); int pd = export.WriteDefinition("PRODUCT_DEFINITION( 'NONE', 'NONE', #" + pdf.ToString() + ", #3 )"); int pds = export.WriteDefinition("PRODUCT_DEFINITION_SHAPE( 'NONE', 'NONE', #" + pd.ToString() + " )"); export.WriteDefinition("SHAPE_DEFINITION_REPRESENTATION( #" + pds.ToString() + ", #" + sr.ToString() + ")"); return(sr); }
int IExportStep.Export(ExportStep export, bool topLevel) { // #171=AXIS2_PLACEMENT_3D('Plane Axis2P3D',#168,#169,#170) ; int ax = export.WriteAxis2Placement3d(Location, Normal, DirectionX); // #172=PLANE('',#171) ; return(export.WriteDefinition("PLANE('',#" + ax.ToString() + ")")); }
int IExportStep.Export(ExportStep export, bool topLevel) { int n = (baseSurface as IExportStep).Export(export, false); return(export.WriteDefinition("OFFSET_SURFACE('',#" + n.ToString() + "," + export.ToString(offset) + ",.F.)")); }