public bool Write(string foamRootPathName, IMonitor monitor) { var f = new FoamDictionaryFile(FoamConst.GetConstantChildPathName(foamRootPathName, "tracerProperties"), monitor); f.Read(); var d = f.Dictionary; d.SetChild("Sc", "Sc [0 0 0 0 0 0 0] " + Sc.ToString()); d.SetChild("tracerPhaseName", "steel"); f.Write(); f = new FoamDictionaryFile(FoamConst.GetFvSolutionFileName(foamRootPathName), monitor); f.Read(); d = f.Dictionary.Child("PIMPLE"); d.SetChild("solveTracer", SolveTracer ? "yes" : "no"); f.Write(); foreach (var inj in Injects) { inj.Write(foamRootPathName, monitor); } return(true); }
public bool Write(string foamRootPathName, IMonitor monitor) { FoamDictionaryFile f = new FoamDictionaryFile(FoamConst.GetFvOptionsPath(foamRootPathName), monitor); f.Read(); var d = f.Dictionary.GetByUrl("options").AddChild(Name); d.SetChild("type", "scalarSemiImplicitSource"); d.SetChild("timeStart", StartTime); d.SetChild("duration", Duration); d.SetChild("selectionMode", "points"); FoamDictionary points = new FoamDictionary(true, monitor); points.SetChild("0", Location.ToString()); d.SetChild("points", points); d.SetChild("volumeMode", "absolute"); FoamDictionary injectionRateSuSp = new FoamDictionary(monitor); injectionRateSuSp.SetChild("tracer", "(1 0)"); d.SetChild("injectionRateSuSp", injectionRateSuSp); f.Write(); return(true); }
public override bool Write(string foamRootPathName, IMonitor monitor) { base.Write(foamRootPathName, monitor); FoamDictionaryFile controlFile = new FoamDictionaryFile(FoamConst.GetControlDictFileName(foamRootPathName), monitor); controlFile.Read(); FoamDictionary dfun = controlFile.Dictionary.GetByUrl("functions"); FoamDictionary m = new FoamDictionary(monitor); m.SetChild("type", "probes"); m.SetChild("functionObjectLibs", "(\"libsampling.dll\")"); m.SetChild("probeLocations", string.Format("({0})", Location.ToString())); FoamDictionary fields = new FoamDictionary(true, monitor); foreach (var f in Fields) { fields.SetChild(f, f); } m.SetChild("fields", fields); dfun.SetChild(Name, m); controlFile.Write(); return(true); }
public bool Write(string foamRootPathName, IMonitor monitor = null) { try { string dictFileName = FoamConst.GetCfMeshDictFileName(foamRootPathName); FoamDictionaryFile f = new FoamDictionaryFile(dictFileName, monitor); f.Read(); f.Dictionary.SetChild("surfaceFile", "\"surface.stl\""); f.Dictionary.SetChild("maxCellSize", MaxCellSize); f.Dictionary.SetChild("minCellSize", MinCellSize); f.Dictionary.SetChild("boundaryCellSize", BoundaryCellSize); f.Dictionary.SetChild("enforceGeometryConstraints", EnforceGeometryConstraints ? "1" : "0"); FoamDictionary dLocalRefine = f.Dictionary.GetByUrl("localRefinement"); dLocalRefine.Clear(); foreach (LocalRefinementSubDict l in LocalRefine) { l.ToFoamDictionary(dLocalRefine); } FoamDictionary dObjectRefine = f.Dictionary.GetByUrl("objectRefinements"); dObjectRefine.Clear(); foreach (ObjectRefinementSubDict o in ObjectRefine) { o.ToFoamDictionary(dObjectRefine); } FoamDictionary dSurfaceRefine = f.Dictionary.GetByUrl("surfaceMeshRefinement"); dSurfaceRefine.Clear(); foreach (SurfaceRefinementSubDict s in SurfaceRefine) { s.ToFoamDictionary(dSurfaceRefine); } FoamDictionary dPatchName = f.Dictionary.GetByUrl("renameBoundary"); dPatchName.Clear(); dPatchName.SetChild("defaultName", "walls"); dPatchName.SetChild("defaultType", "wall"); FoamDictionary dNewPatchNames = dPatchName.GetByUrl("newPatchNames"); dNewPatchNames.Clear(); foreach (PatchConfigSubDict p in PatchConfig) { p.ToFoamDictionary(dNewPatchNames); } FoamDictionary dBoundaryLayers = f.Dictionary.GetByUrl("boundaryLayers"); dBoundaryLayers.Clear(); if (GlobalBoundaryLayerParameters.NLayers != 0) { GlobalBoundaryLayerParameters.ToFoamDictionary(dBoundaryLayers); } FoamDictionary dPatchBoundaryLayers = dBoundaryLayers.GetByUrl("patchBoundaryLayers"); dPatchBoundaryLayers.Clear(); foreach (PatchBoundaryLayerSubDict p in PatchBoundaryLayerParameters) { p.ToFoamDictionary(dPatchBoundaryLayers); } f.Write(dictFileName); return(true); } catch (Exception e) { if (monitor != null) { monitor.ErrorLine(e.Message); } return(false); } }
public bool Write(string foamRootPathName, IMonitor monitor) { bool res = true; try { Dictionary <string, FoamDictionary> boundaryFieldDict = new Dictionary <string, FoamDictionary>(); Dictionary <string, FoamDictionaryFile> fieldFoamFile = new Dictionary <string, FoamDictionaryFile>(); boundaryFieldDict.Clear(); fieldFoamFile.Clear(); foreach (string field in GlobalModelObject.fieldNames) { FoamDictionaryFile f = new FoamDictionaryFile(FoamConst.GetZeroFieldFileName(foamRootPathName, field), monitor); f.Read(); fieldFoamFile.Add(field, f); boundaryFieldDict.Add(field, f.Dictionary.GetByUrl("boundaryField")); } foreach (BoundaryBase b in Boundarys) { PolyMesh mesh = new PolyMesh(FoamConst.GetVxtFilePath(foamRootPathName)); if (b is Inlet || b is Outlet) { mesh.SetBoundaryType(b.PatchName, PolyMesh.BoundaryType.patch); } else if (b is Tplc.Model.Boundary.Wall) { mesh.SetBoundaryType(b.PatchName, PolyMesh.BoundaryType.wall); } res = b.Update(boundaryFieldDict); if (!res) { if (monitor != null) { monitor.ErrorLine("Write boundary to foam error, boundary: " + b.PatchName); } return(false); } } foreach (FoamDictionaryFile f in fieldFoamFile.Values) { f.Write(); } res = MaterialProperty.Write(foamRootPathName, monitor); if (!res) { if (monitor != null) { monitor.ErrorLine("Write gas proprety to foam error !"); } return(false); } res = InitlizeValue.Write(foamRootPathName, monitor); if (!res) { if (monitor != null) { monitor.ErrorLine("Write initlize value to foam error !"); } return(false); } res = ResidualContorl.Write(foamRootPathName, monitor); if (!res) { if (monitor != null) { monitor.ErrorLine("Write residual control to foam error !"); } return(false); } res = SolveContorl.Write(foamRootPathName, monitor); if (!res) { if (monitor != null) { monitor.ErrorLine("Write solve control to foam error !"); } return(false); } res = RelaxationFactors.Write(foamRootPathName, monitor); if (!res) { if (monitor != null) { monitor.ErrorLine("Write Relaxation factors to foam error !"); } return(false); } } catch (Exception e) { if (monitor != null) { monitor.ErrorLine("Update case error : " + e.Message); } return(false); } return(true); }