public static List <Face3D> ToSAM_Face3Ds(this Mesh mesh)
{
List <Triangle3D> triangle3Ds = ToSAM_Triangle3Ds(mesh);
if (triangle3Ds == null)
{
return(null);
}
List <Face3D> result = new List <Face3D>();
foreach (Triangle3D triangle3D in triangle3Ds)
{
if (triangle3D == null || !triangle3D.IsValid())
{
continue;
}
Face3D face3D = new Face3D(triangle3D);
if (!face3D.IsValid())
{
continue;
}
result.Add(face3D);
}
return(result);
}
public static double HydraulicDiameter(this Face3D face3D, double tolerance = Core.Tolerance.Distance)
{
Plane plane_Face3D = face3D?.GetPlane();
if (plane_Face3D == null)
{
return(double.NaN);
}
Plane plane = Plane.WorldXY;
if (plane.Perpendicular(plane_Face3D, tolerance))
{
return(0);
}
Face3D face3D_Project = plane.Project(face3D);
if (face3D_Project == null || !face3D_Project.IsValid())
{
return(0);
}
Planar.ISegmentable2D segmentable2D = face3D_Project.ExternalEdge2D as Planar.ISegmentable2D;
if (segmentable2D == null)
{
throw new System.NotImplementedException();
}
double area = face3D_Project.GetArea();
if (area <= tolerance)
{
return(0);
}
//return (4 * area) / segmentable2D.GetLength();
return(segmentable2D.GetLength());
}
public static bool UpdateShading(this AnalyticalModel analyticalModel, TBD.Building building, double tolerance = Core.Tolerance.Distance)
{
if (building == null || analyticalModel == null)
{
return(false);
}
List <TBD.zone> zones = building.Zones();
if (zones == null)
{
return(false);
}
List <Tuple <Face3D, BoundingBox3D, TBD.IZoneSurface, int, int> > tuples_ZoneSurfaces = new List <Tuple <Face3D, BoundingBox3D, TBD.IZoneSurface, int, int> >();
int index_Zone = 0;
foreach (TBD.zone zone in zones)
{
List <TBD.IZoneSurface> zoneSurfaces_Zone = zone?.ZoneSurfaces();
if (zoneSurfaces_Zone == null)
{
continue;
}
int index_Surface = 0;
foreach (TBD.IZoneSurface zoneSurface in zoneSurfaces_Zone)
{
List <TBD.IRoomSurface> roomSurfaces = zoneSurface.RoomSurfaces();
if (roomSurfaces == null)
{
continue;
}
foreach (TBD.IRoomSurface roomSurface in roomSurfaces)
{
Face3D face3D = Geometry.Tas.Convert.ToSAM(roomSurface?.GetPerimeter());
if (face3D == null || !face3D.IsValid())
{
continue;
}
tuples_ZoneSurfaces.Add(new Tuple <Face3D, BoundingBox3D, TBD.IZoneSurface, int, int>(face3D, face3D.GetBoundingBox(), zoneSurface, index_Zone, index_Surface));
}
index_Surface++;
}
index_Zone++;
}
if (tuples_ZoneSurfaces == null || tuples_ZoneSurfaces.Count == 0)
{
return(false);
}
List <Panel> panels = analyticalModel.GetPanels();
if (panels == null)
{
return(false);
}
List <Tuple <Face3D, Point3D, BoundingBox3D, Panel> > tuples_Panel = new List <Tuple <Face3D, Point3D, BoundingBox3D, Panel> >();
foreach (Panel panel in panels)
{
Face3D face3D = panel.Face3D;
if (face3D == null || !face3D.IsValid())
{
continue;
}
BoundingBox3D boundingBox3D = face3D.GetBoundingBox();
Point3D point3D = face3D.GetInternalPoint3D(tolerance);
}
throw new NotImplementedException();
}
public static bool UpdateShading(this TBD.Building building, AnalyticalModel analyticalModel, double tolerance = Core.Tolerance.Distance)
{
if (building == null || analyticalModel == null)
{
return(false);
}
List <TBD.zone> zones = building.Zones();
if (zones == null)
{
return(false);
}
List <Tuple <Face3D, BoundingBox3D, TBD.IZoneSurface> > tuples_ZoneSurfaces = new List <Tuple <Face3D, BoundingBox3D, TBD.IZoneSurface> >();
foreach (TBD.zone zone in zones)
{
List <TBD.IZoneSurface> zoneSurfaces_Zone = zone?.ZoneSurfaces();
if (zoneSurfaces_Zone == null)
{
continue;
}
foreach (TBD.IZoneSurface zoneSurface in zoneSurfaces_Zone)
{
List <TBD.IRoomSurface> roomSurfaces = zoneSurface.RoomSurfaces();
if (roomSurfaces == null)
{
continue;
}
foreach (TBD.IRoomSurface roomSurface in roomSurfaces)
{
Face3D face3D = Geometry.Tas.Convert.ToSAM(roomSurface?.GetPerimeter());
if (face3D == null || !face3D.IsValid())
{
continue;
}
tuples_ZoneSurfaces.Add(new Tuple <Face3D, BoundingBox3D, TBD.IZoneSurface>(face3D, face3D.GetBoundingBox(), zoneSurface));
}
}
}
if (tuples_ZoneSurfaces == null || tuples_ZoneSurfaces.Count == 0)
{
return(false);
}
List <Panel> panels = analyticalModel.GetPanels();
if (panels == null)
{
return(false);
}
List <Tuple <Face3D, Point3D, BoundingBox3D, Geometry.SolarCalculator.SolarFaceSimulationResult> > tuples_solarFaceSimulationResult = new List <Tuple <Face3D, Point3D, BoundingBox3D, Geometry.SolarCalculator.SolarFaceSimulationResult> >();
foreach (Panel panel in panels)
{
List <Geometry.SolarCalculator.SolarFaceSimulationResult> solarFaceSimulationResults = analyticalModel.GetResults <Geometry.SolarCalculator.SolarFaceSimulationResult>(panel);
if (solarFaceSimulationResults == null || solarFaceSimulationResults.Count == 0)
{
continue;
}
Face3D face3D = panel.Face3D;
if (face3D == null || !face3D.IsValid())
{
continue;
}
BoundingBox3D boundingBox3D = face3D.GetBoundingBox();
Point3D point3D = face3D.GetInternalPoint3D(tolerance);
foreach (Geometry.SolarCalculator.SolarFaceSimulationResult solarFaceSimulationResult in solarFaceSimulationResults)
{
tuples_solarFaceSimulationResult.Add(new Tuple <Face3D, Point3D, BoundingBox3D, Geometry.SolarCalculator.SolarFaceSimulationResult>(face3D, point3D, boundingBox3D, solarFaceSimulationResult));
}
}
building.ClearShadingData();
List <TBD.DaysShade> daysShades = new List <TBD.DaysShade>();
foreach (Tuple <Face3D, Point3D, BoundingBox3D, Geometry.SolarCalculator.SolarFaceSimulationResult> tuple in tuples_solarFaceSimulationResult)
{
List <Tuple <Face3D, BoundingBox3D, TBD.IZoneSurface> > tuples_Temp = tuples_ZoneSurfaces.FindAll(x => tuple.Item3.InRange(x.Item2, tolerance));
tuples_Temp = tuples_Temp.FindAll(x => x.Item1.On(tuple.Item2, tolerance));
if (tuples_Temp == null || tuples_Temp.Count == 0)
{
continue;
}
foreach (Tuple <Face3D, BoundingBox3D, TBD.IZoneSurface> tuple_ZoneSurface in tuples_Temp)
{
UpdateSurfaceShades(building, daysShades, (TBD.zoneSurface)tuple_ZoneSurface.Item3, analyticalModel, tuple.Item4);
}
}
return(true);
}
public static List <Aperture> ToSAM_Apertures(this FamilyInstance familyInstance, ConvertSettings convertSettings)
{
if (familyInstance == null)
{
return(null);
}
List <Aperture> result = convertSettings?.GetObjects <Aperture>(familyInstance.Id);
if (result != null)
{
return(result);
}
if (Core.Revit.Query.Simplified(familyInstance))
{
result = Core.Revit.Query.IJSAMObjects <Aperture>(familyInstance);
if (result != null)
{
convertSettings?.Add(familyInstance.Id, result);
return(result);
}
}
Point3D point3D_Location = Geometry.Revit.Query.LocationPoint3D(familyInstance);
if (point3D_Location == null)
{
List <Solid> solids = Core.Revit.Query.Solids(familyInstance, new Options());
solids?.RemoveAll(x => x.Volume == 0);
if (solids == null || solids.Count == 0)
{
return(null);
}
if (solids.Count > 1)
{
solids.Sort((x, y) => y.Volume.CompareTo(x.Volume));
}
point3D_Location = solids[0].ComputeCentroid()?.ToSAM();
}
if (point3D_Location == null)
{
return(null);
}
List <Face3D> face3Ds = null;
PanelType panelType_Host = PanelType.Undefined;
BuiltInCategory builtInCategory_Host = BuiltInCategory.INVALID;
HostObject hostObject = null;
if (familyInstance.Host != null)
{
hostObject = familyInstance.Host as HostObject;
if (hostObject != null)
{
builtInCategory_Host = (BuiltInCategory)hostObject.Category.Id.IntegerValue;
}
}
//Method 1 of extracting Geometry
if (face3Ds == null || face3Ds.Count == 0)
{
Vector3D axisX = null;
Vector3D normal = null;
Vector3D axisY = null;
if (builtInCategory_Host == BuiltInCategory.OST_Roofs)
{
axisX = familyInstance.HandOrientation.ToSAM_Vector3D(false);
axisY = familyInstance.FacingOrientation.ToSAM_Vector3D(false);
normal = Geometry.Spatial.Query.AxisY(axisY, axisX);
}
else
{
axisX = familyInstance.HandOrientation.ToSAM_Vector3D(false);
normal = familyInstance.FacingOrientation.ToSAM_Vector3D(false);
axisY = Geometry.Spatial.Query.AxisY(normal, axisX);
}
Geometry.Spatial.Plane plane = Geometry.Spatial.Create.Plane(point3D_Location, axisX, axisY);
if (!plane.Normal.SameHalf(normal))
{
plane.FlipZ(false);
}
List <Shell> shells = Geometry.Revit.Convert.ToSAM_Geometries <Shell>(familyInstance);
if (shells == null || shells.Count == 0)
{
return(null);
}
List <Point2D> point2Ds = new List <Point2D>();
foreach (Shell shell in shells)
{
List <Face3D> face3Ds_Shell = shell?.Face3Ds;
if (face3Ds_Shell == null || face3Ds_Shell.Count == 0)
{
continue;
}
foreach (Face3D face3D_Temp in face3Ds_Shell)
{
ISegmentable3D segmentable3D = face3D_Temp.GetExternalEdge3D() as ISegmentable3D;
if (segmentable3D == null)
{
continue;
}
segmentable3D?.GetPoints()?.ForEach(x => point2Ds.Add(plane.Convert(x)));
}
}
Face3D face3D = new Face3D(plane, Geometry.Planar.Create.Rectangle2D(point2Ds));
if (face3D != null && face3D.IsValid() && face3D.GetArea() > Core.Tolerance.MacroDistance)
{
face3Ds = new List <Face3D>()
{
face3D
};
}
}
//Method 2 of extracting Geometry
if (hostObject != null)
{
builtInCategory_Host = (BuiltInCategory)hostObject.Category.Id.IntegerValue;
Geometry.Spatial.Plane plane_Host = null;
if (hostObject is CurtainSystem && familyInstance is Autodesk.Revit.DB.Panel)
{
Autodesk.Revit.DB.Panel panel = (Autodesk.Revit.DB.Panel)familyInstance;
ElementId uGridLineElementId = null;
ElementId vGridLineElementId = null;
panel.GetRefGridLines(ref uGridLineElementId, ref vGridLineElementId);
CurtainSystem curtainSystem = (CurtainSystem)hostObject;
List <Polygon3D> polygon3Ds = curtainSystem.CurtainCell(uGridLineElementId, vGridLineElementId)?.Polygon3Ds();
if (polygon3Ds != null && polygon3Ds.Count != 0)
{
polygon3Ds.Sort((x, y) => y.GetArea().CompareTo(x.GetArea()));
plane_Host = polygon3Ds[0].GetPlane();
}
}
else
{
List <Face3D> face3Ds_Temp = hostObject.Profiles();
if (face3Ds_Temp != null && face3Ds_Temp.Count != 0)
{
plane_Host = face3Ds_Temp.Closest(point3D_Location)?.GetPlane();
}
}
if (plane_Host != null)
{
face3Ds = face3Ds?.ConvertAll(x => plane_Host.Project(x));
point3D_Location = plane_Host.Project(point3D_Location);
}
HostObjAttributes hostObjAttributes = familyInstance.Document.GetElement(hostObject.GetTypeId()) as HostObjAttributes;
if (hostObjAttributes != null)
{
panelType_Host = hostObjAttributes.PanelType();
}
if (panelType_Host == PanelType.Undefined)
{
panelType_Host = hostObject.PanelType();
}
List <Face3D> face3Ds_Profiles = hostObject.Profiles(familyInstance.Id);
face3Ds_Profiles?.RemoveAll(x => x == null || !x.IsValid());
if (face3Ds_Profiles != null && face3Ds_Profiles.Count > 0)
{
if (face3Ds == null || (face3Ds != null && face3Ds_Profiles.ConvertAll(x => x.GetArea()).Sum() <= face3Ds.ConvertAll(x => x.GetArea()).Sum()))
{
face3Ds = face3Ds_Profiles;
}
}
}
ApertureConstruction apertureConstruction = ToSAM_ApertureConstruction(familyInstance, convertSettings);
if (apertureConstruction == null && panelType_Host != PanelType.Undefined)
{
apertureConstruction = Analytical.Query.DefaultApertureConstruction(panelType_Host, familyInstance.ApertureType()); //Default Aperture Construction
}
if (face3Ds == null || face3Ds.Count == 0)
{
return(result);
}
//TODO: Working on SAM Families (requested by Michal)
string parameterName_Height = Core.Revit.Query.Name(ActiveSetting.Setting, typeof(Aperture), typeof(FamilyInstance), "GetHeight");
string parameterName_Width = Core.Revit.Query.Name(ActiveSetting.Setting, typeof(Aperture), typeof(FamilyInstance), "GetWidth");
if (!string.IsNullOrWhiteSpace(parameterName_Height) && !string.IsNullOrWhiteSpace(parameterName_Width))
{
Parameter parameter_Height = familyInstance.LookupParameter(parameterName_Height);
Parameter parameter_Width = familyInstance.LookupParameter(parameterName_Width);
if (parameter_Height != null && parameter_Width != null && parameter_Height.HasValue && parameter_Width.HasValue && parameter_Height.StorageType == StorageType.Double && parameter_Width.StorageType == StorageType.Double)
{
#if Revit2017 || Revit2018 || Revit2019 || Revit2020
double height = UnitUtils.ConvertFromInternalUnits(parameter_Height.AsDouble(), DisplayUnitType.DUT_METERS);
double width = UnitUtils.ConvertFromInternalUnits(parameter_Width.AsDouble(), DisplayUnitType.DUT_METERS);
#else
double height = UnitUtils.ConvertFromInternalUnits(parameter_Height.AsDouble(), UnitTypeId.Meters);
double width = UnitUtils.ConvertFromInternalUnits(parameter_Width.AsDouble(), UnitTypeId.Meters);
#endif
}
}
result = new List <Aperture>();
foreach (Face3D face3D_Temp in face3Ds)
{
Aperture aperture = Analytical.Create.Aperture(apertureConstruction, face3D_Temp);
if (aperture == null)
{
continue;
}
aperture.UpdateParameterSets(familyInstance, ActiveSetting.Setting.GetValue <Core.TypeMap>(Core.Revit.ActiveSetting.Name.ParameterMap));
result.Add(aperture);
}
convertSettings?.Add(familyInstance.Id, result);
return(result);
}