Ejemplo n.º 1
0
        //----------------------------------------------------------------------------------------------------
        //Here Come the Methods
        private MassObject BrepToMassObject(Brep brep)
        {
            MassObject  mass_object = new MassObject(brep);
            BoundingBox bbox        = brep.GetBoundingBox(true);

            mass_object.CenterPoint = bbox.Center;
            mass_object.XComp       = bbox.Center.X;
            mass_object.YComp       = bbox.Center.Y;
            mass_object.ZComp       = bbox.Center.Z;
            mass_object.Height      = bbox.Diagonal.Z;
            mass_object.Area        = ComputeFloorSurfaces(brep).Item2.GetArea();
            return(mass_object);
        }
Ejemplo n.º 2
0
        // looping through all givien breps and converting all to MassObjects adn giving each of them IDs
        private void ConvertBrepListToMassObjects(List <Brep> breps)
        {
            List <MassObject> massObjects = new List <MassObject>();

            for (int i = 0; i < breps.Count; i++)
            {
                Brep       brep    = breps[i];
                MassObject mObject = BrepToMassObject(brep);
                // Giving all massObjects an id with the iterator
                mObject.MassId = i;
                massObjects.Add(mObject);
            }

            Globals.MassObjects = massObjects;
        }
Ejemplo n.º 3
0
        /// <summary>
        /// This is the method that actually does the work.
        /// </summary>
        /// <param name="DA">The DA object can be used to retrieve data from input parameters and
        /// to store data in output parameters.</param>
        ///

        protected override void SolveInstance(IGH_DataAccess DA)
        {
            // First, we need to retrieve all data from the input parameters.
            // We'll start by declaring variables and assigning them starting values.
            List <Brep> breps = new List <Brep>();

            double PanelWidth = 0.0;
            int    massId     = 0;

            List <Point3d> pnts = new List <Point3d>();

            // Then we need to access the input parameters individually.
            // When data cannot be extracted from a parameter, we should abort this method.
            if (!DA.GetDataList(0, breps))
            {
                return;
            }
            if (!DA.GetData(1, ref PanelWidth))
            {
                return;
            }
            if (!DA.GetData(2, ref massId))
            {
                return;
            }


            // We should now validate the data and warn the user if invalid data is supplied.
            if (breps.Count < 1)
            {
                AddRuntimeMessage(GH_RuntimeMessageLevel.Error, "Number of breps need to exceed 1");
                return;
            }
            if (PanelWidth < 0.5)
            {
                AddRuntimeMessage(GH_RuntimeMessageLevel.Error, "Panel Width Should be larger than 0.5");
                return;
            }

            // We're set to create the Mesh Facade now. To keep the size of the SolveInstance() method small,
            // The actual functionality will be in a different method:

            //Step 1 Sort breps
            //Brep[] sBreps = SortBrepByFloor(breps);
            //Step 2 Compute Sorted Floor Heights
            //double[] sHeights = ComputeFloorHeights(breps);
            //Step 3 Compute Order of House Ids
            //ComputeHouseIds(breps);


            ConvertBrepListToMassObjects(breps);
            ClusterMassesIntoBuildings();
            MassObject massobject        = Globals.MassObjects[massId];
            int        MyBuildingId      = massobject.BuildingNumber;
            int        MyMassId          = massobject.MassId;
            double     MyMassHeight      = massobject.Height;
            int        MyMassHouseNumber = massobject.HouseNumber;



            //Step 3 Make mesh
            //Mesh mesh = MakeMeshFaces(breps, PanelWidth, out pnts);
            //Step 4 Display BottomFaces
            //List<Brep> bottomFaces = DisplayAllBottomSurfaces(breps);
            //Step 5 Save data onto each face

            // for now we will just test this by sending teh data for the floor level,
            // later we will instead send over the window object as a whole
            // then create another compnenet that reads that data and does something with it.

            /*
             * WindowElement WindowInstance = new WindowElement();
             * WindowElement window10 = WindowInstance.InitiateWindow(WindowId);
             * int floorNumber = window10.FloorNumber;
             * int windowNumber = window10.WindowId;
             * int EdgeNumber = window10.EdgeNumber;
             * int HouseNumber = window10.HouseNumber;
             */


            // Finally assign the spiral to the output parameter.
            //DA.SetData(0, mesh);
            //DA.SetDataList(1, bottomFaces);
            //DA.SetDataList(2, pnts);
            DA.SetData(0, MyBuildingId);
            DA.SetData(1, MyMassId);
            DA.SetData(2, MyMassHeight);
            DA.SetData(3, MyMassHouseNumber);
        }