protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
const ObjectType selFilter = ObjectType.PolysrfFilter | ObjectType.Extrusion;
bool value = false;
double preShrinkValue = ZERO_CM;
OptionToggle shrinkToDimensions = new OptionToggle(value, "Off", "On");
OptionDouble preShrink = new OptionDouble(preShrinkValue, 0.0, 1.0);
ObjRef boxObjRef = null;
GetObject go = new GetObject();
go.SetCommandPrompt("Select the box to net-ify");
go.AddOptionToggle("Constrain", ref shrinkToDimensions);
go.AddOptionDouble("PreShrink", ref preShrink, "Preshrink");
go.GeometryFilter = selFilter;
go.EnableClearObjectsOnEntry(true);
go.EnableUnselectObjectsOnExit(true);
// TODO: clean up this hot mess
for (;;)
{
GetResult getObjResult = go.Get();
if (getObjResult == GetResult.Object)
{
boxObjRef = go.Object(0);
boxObjRef.Object().Select(on: true, syncHighlight: true);
go.EnablePreSelect(false, true);
go.AcceptNothing(true);
continue;
}
else if (getObjResult == GetResult.Cancel)
{
return(Result.Cancel);
}
// Case where user presses enter
else if (getObjResult == GetResult.Nothing)
{
if (boxObjRef != null)
{
preShrinkValue = preShrink.CurrentValue;
if (preShrinkValue != ZERO_CM)
{
boxObjRef = shrinkBoxObj(boxObjRef, preShrinkValue);
}
drawNetFromObjRef(boxObjRef, doc, shrinkToDimensions.CurrentValue);
return(Result.Success);
}
}
}
}
/// <summary>
/// Getter method to load primal/dual from a geometry container from the Rhino Document
/// </summary>
/// <param name="primal">provided primal - need to check if it has data after the method ends</param>
/// <param name="dual">provided primal - just like primal check if it has cells </param>
public static IList <Guid> LoadPrimalDual(out PFoam primal, out PFoam dual, out ContainerType container, bool connect = true)
{
primal = new PFoam();
dual = new PFoam();
container = ContainerType.Edge;
GetObject getObj = new GetObject();
var togGeoUpdate = new OptionToggle(true, "no", "yes");
var togClearConstraints = new OptionToggle(false, "no", "yes");
//var togOptionReplace = new OptionToggle(true, "Keep", "Replace");
getObj.SetCommandPrompt("Pick the geometry container (group of lines, surfaces, polysurfaces or meshes)");
getObj.AddOptionToggle("UpdateGeo", ref togGeoUpdate);
getObj.AddOptionToggle("ClearConstraints", ref togClearConstraints);
//getObj.AddOptionToggle("ReplaceGeo", ref togOptionReplace);
getObj.GroupSelect = true;
getObj.GeometryFilter = Rhino.DocObjects.ObjectType.Brep | Rhino.DocObjects.ObjectType.Curve | Rhino.DocObjects.ObjectType.Mesh;
while (true)
{
var r = getObj.GetMultiple(1, 0);
if (r == GetResult.Cancel)
{
return(new List <Guid>());
}
else if (r == GetResult.Object)
{
break;
}
}
var guids = getObj.Objects().Select(x => x.ObjectId).ToList();
var geoObj = getObj.Objects().Select(x => x.Geometry());
if (geoObj.All(x => x.ObjectType == Rhino.DocObjects.ObjectType.Brep))
{
var brepInput = geoObj.Cast <Brep>().ToList();
if (brepInput.Any(x => x.Faces.Count > 1))
{
container = ContainerType.CellBrep;
}
else
{
container = ContainerType.FaceBrep;
}
primal = LoadData.LoadFromFaces(brepInput, out dual, togGeoUpdate.CurrentValue);
}
else if (geoObj.All(x => x.ObjectType == Rhino.DocObjects.ObjectType.Curve))
{
container = ContainerType.Edge;
var curveGeos = geoObj.Cast <Curve>().ToList();
primal = LoadData.LoadFromEdges(curveGeos, out dual, togGeoUpdate.CurrentValue);
}
else if (geoObj.All(x => x.ObjectType == Rhino.DocObjects.ObjectType.Mesh))
{
var meshGeos = geoObj.Cast <Mesh>().ToList();
if (meshGeos.Any(x => x.Ngons.Count > 1 ||
(x.Ngons.Count == 0 && x.Faces.Count > 1) ||
(x.Ngons.Count == 1 && x.Faces.Count > x.Ngons[0].FaceCount)))
{
container = ContainerType.CellMesh;
}
else
{
container = ContainerType.FaceMesh;
}
primal = LoadData.LoadFromMeshes(meshGeos, out dual, togGeoUpdate.CurrentValue);
}
else
{
Rhino.RhinoApp.WriteLine("Mixed data detected!");
return(new List <Guid>());
}
if (primal.Cells.Count < 1)
{
Rhino.RhinoApp.WriteLine("Error creating primal from provided data!");
return(new List <Guid>());
}
if (connect && dual.Cells.Count > 1 && primal.Dual.Id == dual.Id)
{
Util.ConnectDuals(ref primal, ref dual);
}
if (togClearConstraints.CurrentValue)
{
foreach (var vert in primal.Vertices)
{
vert.RestrictPosition = null;
vert.RestrictSupport = null;
vert.SupportGuid = Guid.Empty;
}
foreach (var edge in primal.Edges)
{
edge.TargetLength = double.NaN;
edge.MaxLength = double.MaxValue;
edge.MinLength = double.Epsilon;
}
foreach (var face in primal.Faces)
{
face.TargetArea = double.NaN;
}
}
Rhino.RhinoDoc.ActiveDoc.Objects.UnselectAll();
Rhino.RhinoDoc.ActiveDoc.Views.Redraw();
return(guids);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
var cs_option = new OptionToggle(m_use_cplane, "World", "CPlane");
var go = new GetObject();
go.SetCommandPrompt("Select objects for bounding box calculation");
go.GroupSelect = true;
go.SubObjectSelect = false;
for (;;)
{
go.ClearCommandOptions();
go.AddOptionToggle("CoordinateSystem", ref cs_option);
var res = go.GetMultiple(1, 0);
if (res == GetResult.Option)
{
continue;
}
else if (res != GetResult.Object)
{
return(Result.Cancel);
}
break;
}
var plane = go.View().ActiveViewport.ConstructionPlane();
m_use_cplane = cs_option.CurrentValue;
var world_to_plane = new Transform(1.0);
if (m_use_cplane)
{
world_to_plane = Transform.ChangeBasis(Plane.WorldXY, plane);
}
var bounding_box = new BoundingBox();
for (var i = 0; i < go.ObjectCount; i++)
{
var rhino_obj = go.Object(i).Object();
if (null != rhino_obj)
{
var box = rhino_obj.Geometry.GetBoundingBox(world_to_plane);
if (box.IsValid)
{
if (i == 0)
{
bounding_box = box;
}
else
{
bounding_box.Union(box);
}
}
}
}
if (!bounding_box.IsValid)
{
RhinoApp.WriteLine("BoundingBox failed. Unable to calculate bounding box.");
return(Result.Failure);
}
var box_corners = new Point3d[8];
box_corners[0] = bounding_box.Corner(false, false, false);
box_corners[1] = bounding_box.Corner(true, false, false);
box_corners[2] = bounding_box.Corner(true, true, false);
box_corners[3] = bounding_box.Corner(false, true, false);
box_corners[4] = bounding_box.Corner(false, false, true);
box_corners[5] = bounding_box.Corner(true, false, true);
box_corners[6] = bounding_box.Corner(true, true, true);
box_corners[7] = bounding_box.Corner(false, true, true);
if (m_use_cplane)
{
// Transform corners points from cplane coordinates
// to world coordinates if necessary.
var plane_to_world = Transform.ChangeBasis(plane, Plane.WorldXY);
for (var i = 0; i < 8; i++)
{
box_corners[i].Transform(plane_to_world);
}
}
Point3d[] rect;
var type = ClassifyBoundingBox(box_corners, out rect);
if (type == BoundingBoxClassification.Point)
{
RhinoApp.WriteLine("BoundingBox failed. The bounding box is a point.");
}
else if (type == BoundingBoxClassification.Line)
{
RhinoApp.WriteLine("BoundingBox failed. The bounding box is a line.");
}
else if (type == BoundingBoxClassification.Rectangle)
{
doc.Objects.AddPolyline(rect);
}
else //if (type == BoundingBoxClassification.Box)
{
var brep = Brep.CreateFromBox(box_corners);
doc.Objects.AddBrep(brep);
}
doc.Views.Redraw();
return(Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
// Command variables
var selectedObjects = new List <RhinoObject>();
string selectedSchema = "";
bool automatic = true;
bool directShape = false;
// Construct an objects getter
// This includes an option toggle for "Automatic" (true means automagic schema application, no directshapes)
var getObj = new GetObject();
getObj.SetCommandPrompt("Select geometry");
var toggleAutomatic = new OptionToggle(true, "Off", "On");
getObj.AddOptionToggle("Automatic", ref toggleAutomatic);
getObj.GroupSelect = true;
getObj.SubObjectSelect = false;
getObj.EnableClearObjectsOnEntry(false);
getObj.EnableUnselectObjectsOnExit(false);
getObj.DeselectAllBeforePostSelect = false;
// Get objects
for (; ;)
{
GetResult res = getObj.GetMultiple(1, 0);
if (res == GetResult.Option)
{
getObj.EnablePreSelect(false, true);
continue;
}
else if (res != GetResult.Object)
{
return(Result.Cancel);
}
if (getObj.ObjectsWerePreselected)
{
getObj.EnablePreSelect(false, true);
continue;
}
break;
}
selectedObjects = getObj.Objects().Select(o => o.Object()).ToList();
automatic = toggleAutomatic.CurrentValue;
// Construct an options getter if "Automatic" was set to "off"
if (!automatic)
{
// Construct an options getter for schema options
// This includes an option toggle for "DirectShape" (true will asign selected schema as the family)
// Also includes an option list of supported schemas
var getOpt = new GetOption();
getOpt.SetCommandPrompt("Select schema options. Press Enter when done");
var toggleDirectShape = new OptionToggle(false, "Off", "On");
var directShapeIndex = getOpt.AddOptionToggle("DirectShape", ref toggleDirectShape);
List <string> schemas = Enum.GetNames(typeof(SchemaObjectFilter.SupportedSchema)).ToList();
int schemaListOptionIndex = getOpt.AddOptionList("Schema", schemas, 0);
// Get options
while (getOpt.Get() == GetResult.Option)
{
if (getOpt.OptionIndex() == schemaListOptionIndex)
{
selectedSchema = schemas[getOpt.Option().CurrentListOptionIndex];
}
if (getOpt.OptionIndex() == directShapeIndex)
{
directShape = toggleDirectShape.CurrentValue;
}
}
}
// Apply schemas
if (automatic)
{
ApplySchemas(selectedObjects, doc);
}
else
{
ApplySchema(selectedObjects, selectedSchema, doc, directShape);
}
return(Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
using (var go = new GetObject())
{
go.SetCommandPrompt("Please select closed objects for converting to Honeybee Room");
//Only Brep is accepted, because we need to save meta data to sub-surface as well.
//Extrusion doesn't have sub-surface.
//all extrusion will be converted to Brep.
go.GeometryFilter = ObjectType.Brep | ObjectType.Extrusion;
go.EnableClearObjectsOnEntry(false);
go.EnableUnselectObjectsOnExit(false);
go.DeselectAllBeforePostSelect = false;
//check if any brep has been converted to Room
var optionSkipExistingRoom_toggle = new OptionToggle(true, "No_RecreateAllRooms", "Yes");
while (true)
{
go.ClearCommandOptions();
go.AddOptionToggle("SkipExistingRoom", ref optionSkipExistingRoom_toggle);
var rc = go.GetMultiple(1, 0);
if (rc == GetResult.Option)
{
go.EnablePreSelect(false, true);
continue;
}
else if (rc != GetResult.Object)
{
return(Result.Cancel);
}
if (go.ObjectsWerePreselected)
{
go.EnablePreSelect(false, true);
continue;
}
break;
}
if (go.CommandResult() != Result.Success)
{
return(Result.Failure);
}
if (go.ObjectCount == 0)
{
return(Result.Nothing);
}
var ifSkip = optionSkipExistingRoom_toggle.CurrentValue;
//Getting objects
var solidBreps = go.Objects().Where(_ => _.Brep() != null).Where(_ => _.Brep().IsSolid);
var objectToConvert = solidBreps;
if (ifSkip)
{
objectToConvert = solidBreps.Where(_ => !_.IsRoom()).ToList();
}
ConvertToRoom(doc, objectToConvert);
doc.Views.Redraw();
var count = objectToConvert.Count();
var msg = count > 1 ? $"{count} Honeybee rooms were created successfully!" : $"{count} Honeybee room was created successfully!";
RhinoApp.WriteLine(msg);
return(Result.Success);
}
}
public IList <PFVertex> PickVertex()
{
var innerVerts = Vertices.Where(x => !x.External);
var pickedVerts = new List <PFVertex>();
var doc = Rhino.RhinoDoc.ActiveDoc;
var vertexConduit = new DrawPFVertexConduit(innerVerts)
{
Enabled = true
};
doc.Views.Redraw();
var gVert = new GetPFVertex(innerVerts);
//var permOption = new OptionToggle(false, "temp", "perm");
gVert.AddSnapPoints(innerVerts.Select(x => x.Point).ToArray());
while (true)
{
gVert.SetCommandPrompt("select Vertex points. (<ESC> to exit");
//gVert.AddOptionToggle("Remember", ref permOption);
gVert.AcceptNothing(true);
gVert.AcceptString(true);
//gVert.SetCursor() // this we can change after switching to Rhino 6 - api
gVert.SetDefaultString($"({pickedVerts.Count}) vertices selected press <Enter> to accept");
gVert.Get(true);
doc.Views.Redraw();
var result = gVert.CommandResult();
var strResult = gVert.StringResult();
pickedVerts = new List <PFVertex>();
if (gVert.CommandResult() == Rhino.Commands.Result.Cancel)
{
break;
}
foreach (var vrt in innerVerts)
{
if (vrt.Picked)
{
pickedVerts.Add(vrt);
}
}
if (gVert.GotDefault())
{
// here use a pick mechanism to get the geometry
if (pickedVerts.Count > 0)
{
var outside = new OptionToggle(true, "true", "false");
var fixPoint = new OptionToggle(false, "constrain", "fix");
var getRefGeo = new GetObject();
getRefGeo.SetCommandPrompt("Pick the constrain object for the selected vertices");
getRefGeo.AddOptionToggle("Outside", ref outside);
getRefGeo.AddOptionToggle("Fixed", ref fixPoint);
getRefGeo.AcceptNothing(true);
getRefGeo.DisablePreSelect();
if (getRefGeo.Get() == Rhino.Input.GetResult.Object)
{
var geoGet = getRefGeo.Object(0);
var idGet = getRefGeo.Object(0).ObjectId;
SetVertexConstraints(pickedVerts, geoGet.Object(), 1, outside.CurrentValue);
}
else if (getRefGeo.Result() == Rhino.Input.GetResult.Nothing)
{
foreach (var vert in pickedVerts)
{
vert.RestrictPosition = null;
vert.RestrictSupport = null;
vert.SupportGuid = Guid.Empty;
}
}
else if (getRefGeo.Result() == Rhino.Input.GetResult.Option && fixPoint.CurrentValue == true)
{
foreach (var vert in pickedVerts)
{
vert.RestrictPosition = vert.ConstrainPoint;
vert.RestrictSupport = new Rhino.Geometry.Point(vert.Point); // this is what keeps the vertex in place
vert.InfluenceCoef = 100; // this is what makes it relatively immovable
vert.SupportGuid = Guid.Empty;
vert.Fixed = true; // this is just for serilization refference
}
}
doc.Objects.UnselectAll();
pickedVerts.ForEach(x => x.Picked = false);
doc.Views.Redraw();
}
else
{
break;
}
}
}
vertexConduit.Enabled = false;
doc.Views.Redraw();
return(pickedVerts);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
//look at this for a summary of all the GET commands.
// https://developer.rhino3d.com/api/RhinoCommon/html/T_Rhino_Input_Custom_GetBaseClass.htm.
/*System.Object
* Rhino.Input.Custom.GetBaseClass
* Rhino.Input.Custom.GetInteger
* Rhino.Input.Custom.GetNumber
* Rhino.Input.Custom.GetObject
* Rhino.Input.Custom.GetOption
* Rhino.Input.Custom.GetPoint
* Rhino.Input.Custom.GetString
*
* */
var gc = new GetObject();
gc.SetCommandPrompt("Select objects");
gc.GeometryFilter = ObjectType.AnyObject;
OptionInteger intOption = new OptionInteger(1, 1, 99);
OptionDouble dblOption = new OptionDouble(2.2, 0, 99);
OptionToggle boolOption = new OptionToggle(true, "off", "on");
gc.AddOptionInteger("Integer", ref intOption);
gc.AddOptionDouble("Double", ref dblOption);
gc.AddOptionToggle("Boolean", ref boolOption);
int listIndex = 0;
string[] listValues = new string[] { "Bran", "Bob", "Arya", "Sansa", "Rickon" };
int optList = gc.AddOptionList("List", listValues, listIndex);
while (true)
{
GetResult res = gc.GetMultiple(1, 0);
//we can check if the user selected something
if (gc.CommandResult() != Result.Success)
{
return(gc.CommandResult());
}
if (res == Rhino.Input.GetResult.Object)
{
RhinoApp.WriteLine("Command line option values are");
RhinoApp.WriteLine("Integer = {0}", intOption.CurrentValue);
RhinoApp.WriteLine("Double = {0}", dblOption.CurrentValue);
RhinoApp.WriteLine("Boolean = {0}", boolOption.CurrentValue);
RhinoApp.WriteLine("List = {0}", listValues[listIndex]);
}
else if (res == Rhino.Input.GetResult.Option)
{
if (gc.OptionIndex() == optList)
{
listIndex = gc.Option().CurrentListOptionIndex; //this updates the list option to whatever index the user has picked
}
continue;
}
break;
}
return(Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
//pick surface to orient to or block instance to relocate
GetObject gs = new Rhino.Input.Custom.GetObject();
gs.SetCommandPrompt("Surface to orient new object on or BlockInstance to move");
gs.GeometryFilter = Rhino.DocObjects.ObjectType.Surface | Rhino.DocObjects.ObjectType.InstanceReference;
gs.SubObjectSelect = true;
gs.DeselectAllBeforePostSelect = false;
gs.OneByOnePostSelect = true;
gs.Get();
if (gs.CommandResult() != Result.Success)
{
return(gs.CommandResult());
}
Rhino.DocObjects.ObjRef objref = gs.Object(0);
Rhino.DocObjects.RhinoObject obj = objref.Object();
if (obj == null)
{
return(Result.Failure);
}
surface = objref.Surface();
//relocate block instance
if (surface == null)
{
Rhino.DocObjects.InstanceObject instance1 = objref.Object() as Rhino.DocObjects.InstanceObject;
instancePoint = instance1.InsertionPoint;
double g, h;
surface2.ClosestPoint(instancePoint, out g, out h);
var instanceDirection = surface2.NormalAt(g, h);
instancePlane = new Plane(instancePoint, instanceDirection);
Rhino.Input.Custom.GetPoint gpss = new Rhino.Input.Custom.GetPoint();
gpss.SetCommandPrompt("Point on surface to orient to");
gpss.Constrain(surface2, false);
gpss.DynamicDraw += RefObjDraw;
gpss.Tag = instance1;
gpss.Get();
if (gpss.CommandResult() != Rhino.Commands.Result.Success)
{
return(gpss.CommandResult());
}
Point3d ptss = gpss.Point();
surface2.ClosestPoint(ptss, out g, out h);
var direction1 = surface2.NormalAt(g, h);
Plane pl11 = new Plane(ptss, direction1);
Transform iform = Rhino.Geometry.Transform.PlaneToPlane(instancePlane, pl11);
doc.Objects.Transform(instance1, iform, true);
return(Result.Success);
}
obj.Select(false);
//pick objekt to orient
var copy = new Rhino.Input.Custom.OptionToggle(false, "No", "Yes");
GetObject go = new GetObject();
go.SetCommandPrompt("Select object to orient.");
go.AddOptionToggle("Copy", ref copy);
go.SubObjectSelect = true;
go.DeselectAllBeforePostSelect = false;
go.GroupSelect = true;
for (; ;)
{
var res = go.GetMultiple(1, -1);
if (gs.CommandResult() != Result.Success)
{
return(gs.CommandResult());
}
if (res == GetResult.Option)
{
copyBol = copy.CurrentValue;
continue;
}
if (gs.CommandResult() != Result.Success)
{
return(gs.CommandResult());
}
break;
}
int obCount = go.ObjectCount;
string instDefCount = DateTime.Now.ToString("ddMMyyyyHHmmss");
//create block instance and plane for instance
Rhino.Input.Custom.GetPoint gp = new Rhino.Input.Custom.GetPoint();
gp.SetCommandPrompt("Point to orient from");
gp.Get();
if (gp.CommandResult() != Rhino.Commands.Result.Success)
{
return(gp.CommandResult());
}
Vector3d vt1 = new Vector3d(0, 0, 1);
Point3d pt1 = gp.Point();
sourcePlane = new Plane(pt1, vt1);
Plane originPlane = new Plane(Point3d.Origin, vt1);
Transform bform = Rhino.Geometry.Transform.PlaneToPlane(sourcePlane, originPlane);
//block instance
GeometryBase[] obj1List = new GeometryBase[obCount];
List <Brep> opList = new List <Brep>();
for (int igo = 0; igo < obCount; igo++)
{
Rhino.DocObjects.ObjRef objref1 = go.Object(igo);
Rhino.DocObjects.RhinoObject obj1 = objref1.Object();
if (obj == null)
{
return(Result.Failure);
}
obj.Select(false);
Rhino.Geometry.Brep opItem = objref1.Brep();
opList.Add(opItem);
GeometryBase obj1Base = obj1.Geometry;
obj1Base.Transform(bform);
obj1List[igo] = obj1Base;
}
var orientBlock = doc.InstanceDefinitions.Add("Block" + instDefCount, "OrientBlock", Point3d.Origin, obj1List);
//get all go.Objects to .Tag
Brep[] op = new Brep[obCount];
op = Brep.CreateBooleanUnion(opList, 0.01);
Brep od = new Brep();
od = op[0];
var odGuid = doc.Objects.AddBrep(od);
Rhino.DocObjects.ObjRef objref2 = new Rhino.DocObjects.ObjRef(odGuid);
Rhino.DocObjects.RhinoObject objDrw = objref2.Object();
//orient plane to surface
if (copyBol)
{
while (true)
{
Rhino.Input.Custom.GetPoint gps = new Rhino.Input.Custom.GetPoint();
gps.SetCommandPrompt("Point on surface to orient to. Press enter when done.");
gps.Constrain(surface, false);
gps.AcceptNothing(true);
gps.DynamicDraw += RefObjDraw;
gps.Tag = objDrw;
var res = gps.Get();
if (res == GetResult.Nothing)
{
break;
}
//else if (gps.CommandResult() != Rhino.Commands.Result.Success)
// return gps.CommandResult();
Point3d pts = gps.Point();
double u, v;
surface.ClosestPoint(pts, out u, out v);
Vector3d direction = surface.NormalAt(u, v);
Plane pl1 = new Plane(pts, direction);
Rhino.Geometry.Transform xform = Rhino.Geometry.Transform.PlaneToPlane(originPlane, pl1);
doc.Objects.AddInstanceObject(orientBlock, xform);
doc.Objects.Delete(objDrw);
}
copyBol = false;
}
else
{
Rhino.Input.Custom.GetPoint gps = new Rhino.Input.Custom.GetPoint();
gps.SetCommandPrompt("Point on surface to orient to");
gps.Constrain(surface, false);
gps.DynamicDraw += RefObjDraw;
gps.Tag = objDrw;
gps.Get();
if (gps.CommandResult() != Rhino.Commands.Result.Success)
{
return(gps.CommandResult());
}
Point3d pts = gps.Point();
double u, v;
surface.ClosestPoint(pts, out u, out v);
Vector3d direction = surface.NormalAt(u, v);
Plane pl1 = new Plane(pts, direction);
Rhino.Geometry.Transform xform = Rhino.Geometry.Transform.PlaneToPlane(originPlane, pl1);
doc.Objects.AddInstanceObject(orientBlock, xform);
doc.Objects.Delete(objDrw);
}
surface2 = surface;
return(Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
// TODO: start here modifying the behaviour of your command.
// ---
//RhinoApp.WriteLine("The {0} command will add a line right now.", EnglishName);
GetObject getBreps = new GetObject();
getBreps.SetCommandPrompt("Pick the breps to create a PolyhedralFrame");
getBreps.GeometryFilter = Rhino.DocObjects.ObjectType.Brep;
// set up options
OptionDouble dblOptionCollapse = new Rhino.Input.Custom.OptionDouble(0.1, true, 0.0);
OptionDouble dblOptionPlanar = new Rhino.Input.Custom.OptionDouble(0.1, true, 0.0);
OptionToggle togOptionReplace = new OptionToggle(true, "Keep", "Replace");
getBreps.AddOptionDouble("PointCollapseLimit", ref dblOptionCollapse);
getBreps.AddOptionDouble("PlanarityMaxDeviation", ref dblOptionPlanar);
getBreps.AddOptionToggle("ReplaceGeo", ref togOptionReplace);
getBreps.AcceptNothing(false);
while (true)
{
var r = getBreps.GetMultiple(1, 0);
if (r == GetResult.Cancel)
{
return(getBreps.CommandResult());
}
else if (r == GetResult.Object)
{
break;
}
}
List <Guid> ids = new List <Guid>();
for (int i = 0; i < getBreps.ObjectCount; i++)
{
ids.Add(getBreps.Object(i).ObjectId);
}
var foam = new PFoam();
var deleteOriginal = false;
try
{
foam.ProcessBFaces(Util.DecomposeG(ids), dblOptionCollapse.CurrentValue, dblOptionPlanar.CurrentValue);
doc.Objects.UnselectAll();
if (foam.Faces.Count > 2)
{
foam.MakeCells();
Point3d newCentroid = foam.Centroid;
if (!togOptionReplace.CurrentValue)
{
Rhino.Input.RhinoGet.GetPoint("Place the PolyFrame", true, out newCentroid);
}
else
{
deleteOriginal = true;
}
//Rhino.RhinoDoc.ActiveDoc.Objects.Delete(ids, true);
foam.Offset(newCentroid - foam.Centroid);
foam.Show(true, true, false);
foam.ShowCells();
if (!foam.SaveToDocument())
{
foam.Hide();
return(Result.Cancel);
}
foam.Hide();
if (deleteOriginal)
{
Rhino.RhinoDoc.ActiveDoc.Objects.Delete(ids, true);
}
doc.Views.Redraw();
Rhino.RhinoApp.WriteLine($"Constructed a PolyFrame object with {foam.Cells.Count} cells, {foam.Faces.Count} half-faces, {foam.Edges.Count} half-edges and {foam.Vertices.Count} vertices.");
return(Result.Success);
}
else
{
Rhino.RhinoApp.WriteLine("Not enough faces!");
return(Result.Failure);
}
}
catch (Exception pfE)
{
RhinoApp.WriteLine(pfE.Message + " Press <Esc> to continue.");
foam.Hide();
return(Result.Failure);
}
}
protected override Result RunCommand(Rhino.RhinoDoc doc, RunMode mode)
{
GetObject go = new GetObject();
// List of Object Types to filter
List <ObjectType> enumList = new List <ObjectType> {
ObjectType.Point,
ObjectType.Curve,
ObjectType.Extrusion,
ObjectType.Surface,
ObjectType.Brep,
ObjectType.Mesh,
ObjectType.InstanceReference,
ObjectType.Light,
ObjectType.ClipPlane,
ObjectType.Hatch,
ObjectType.Annotation,
ObjectType.ClipPlane,
};
string[] enumNames = Enum.GetNames(typeof(ObjectType));
var enumValues = Enum.GetValues(typeof(ObjectType)).OfType <ObjectType>().ToList();
List <OptionToggle> options = new List <OptionToggle>();
List <ObjectType> types = new List <ObjectType>();
for (int i = 0; i < enumList.Count; i++)
{
var value = (ObjectType)enumList[i];
var index = enumValues.IndexOf(value);
if (index > -1)
{
var toggle = new OptionToggle(false, "Off", "On");
options.Add(toggle);
types.Add(value);
go.AddOptionToggle(enumNames[index], ref toggle);
}
}
go.SetCommandPrompt("Select filter geometry types");
go.GroupSelect = true;
go.SubObjectSelect = false;
go.EnableClearObjectsOnEntry(false);
go.EnableUnselectObjectsOnExit(false);
go.DeselectAllBeforePostSelect = false;
var selectedObjectTypes = new List <ObjectType>();
while (true)
{
GetResult res = go.GetMultiple(1, 0);
// If the action is change in filter, update the filter list.
if (res == GetResult.Option)
{
selectedObjectTypes.Clear();
go.EnablePreSelect(false, true);
ObjectType objectTypes = 0;
for (var i = 0; i < options.Count; i++)
{
var type = types[i];
if (options[i].CurrentValue)
{
selectedObjectTypes.Add(type);
if (objectTypes == ObjectType.None)
{
objectTypes = type;
}
else
{
objectTypes |= type;
}
}
}
go.GeometryFilter = objectTypes;
continue;
}
else if (res != GetResult.Object)
{
return(Result.Cancel);
}
if (go.ObjectsWerePreselected)
{
go.EnablePreSelect(false, true);
continue;
}
break;
}
// Select objects that meets the filter criteria
for (int i = 0; i < go.ObjectCount; i++)
{
RhinoObject rhinoObject = go.Object(i).Object();
if (null != rhinoObject)
{
if (selectedObjectTypes.Contains(rhinoObject.ObjectType))
{
rhinoObject.Select(true);
}
else
{
rhinoObject.Select(false);
}
}
}
doc.Views.Redraw();
return(Result.Success);
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
GetObject go = new GetObject();
go.SetCommandPrompt("Select meshes to Voronoi");
go.GeometryFilter = Rhino.DocObjects.ObjectType.Mesh;
go.AddOptionToggle("OutputMesh", ref outputMeshToggle);
go.AddOptionToggle("OutputLines", ref outputLinesToggle);
go.AddOptionToggle("OutputPolylines", ref outputPolylinesToggle);
go.AddOptionToggle("OutputNGon", ref outputNGon);
for (;;)
{
GetResult res = go.GetMultiple(1, 0);
if (res == GetResult.Option)
{
continue;
}
if (go.CommandResult() != Result.Success)
{
return(go.CommandResult());
}
break;
}
if (go.ObjectCount < 1)
{
return(Result.Failure);
}
foreach (var obj in go.Objects())
{
var rhinoMesh = obj.Mesh();
if (rhinoMesh == null || !rhinoMesh.IsValid)
{
continue;
}
var mesh = GopherUtil.ConvertToD3Mesh(obj.Mesh());
g3.DMesh3 outputMesh;
List <g3.Line3d> listLines;
List <g3.PolyLine3d> listPolylines;
GopherUtil.VoronoiMesh(mesh, out outputMesh, out listLines, out listPolylines);
var rhinoOutputMesh = GopherUtil.ConvertToRhinoMesh(outputMesh);
if (outputPolylinesToggle.CurrentValue)
{
foreach (var p in listPolylines)
{
var rp = Gopher.GopherUtil.ConvertToRhinoPolyline(p);
doc.Objects.AddPolyline(rp);
}
}
if (outputLinesToggle.CurrentValue)
{
foreach (var l in listLines)
{
var rl = GopherUtil.ConvertToRhinoLine(l);
doc.Objects.AddLine(rl);
}
}
if (outputMeshToggle.CurrentValue)
{
if (outputNGon.CurrentValue)
{
// rhinoOutputMesh.Ngons.AddPlanarNgons(doc.ModelAbsoluteTolerance);
doc.Objects.AddMesh(Gopher.GopherUtil.ConvertToRhinoMesh(listPolylines));
}
else
{
doc.Objects.AddMesh(rhinoOutputMesh);
}
}
}
return(Result.Success);
}
// loads or makes a polyframe and planarizes the faces
// load a set of geometries
// if lines => must have PolyFrame date attached
// if breps and data exists => reload topology data and update from geometry
// if no data exists => make topology without cells
// planarize and dump to the file
// add topology data if cells are present.
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
GetObject getObjects = new GetObject();
getObjects.SetCommandPrompt("Pick the breps or PolyFrame container to planarize ");
getObjects.GeometryFilter =
Rhino.DocObjects.ObjectType.Brep |
Rhino.DocObjects.ObjectType.Curve |
Rhino.DocObjects.ObjectType.Mesh;
// set up options
getObjects.GroupSelect = true;
OptionDouble dblOptionCollapse = new OptionDouble(0.1, true, 0.0);
OptionToggle togOptionReplace = new OptionToggle(true, "Keep", "Replace");
getObjects.AddOptionDouble("PointCollapseLimit", ref dblOptionCollapse);
getObjects.AddOptionToggle("ReplaceGeo", ref togOptionReplace);
getObjects.AcceptNothing(false);
var primal = new PFoam();
var dual = new PFoam();
while (true)
{
var r = getObjects.GetMultiple(1, 0);
if (r == GetResult.Cancel)
{
return(getObjects.CommandResult());
}
else if (r == GetResult.Object)
{
break;
}
}
List <Guid> ids = new List <Guid>();
for (int i = 0; i < getObjects.ObjectCount; i++)
{
ids.Add(getObjects.Object(i).ObjectId);
}
try
{
ContainerType container = ContainerType.Edge;
bool usePFTopo = false;
var selGeo = getObjects.Objects().Select(x => x.Geometry());
if (selGeo.All(x => x.ObjectType == Rhino.DocObjects.ObjectType.Brep))
{
if (selGeo.Any(y => y.UserDictionary.TryGetString("Primal", out string primalJson)))
{
Rhino.Input.RhinoGet.GetBool("PolyFrame data detected. Use topology data from there?", false, "no", "yes", ref usePFTopo);
}
if (usePFTopo)
{
//guids = LoadData.LoadPrimalDual(out primal, out dual);
var brepGeo = selGeo.Cast <Brep>().ToList();
if (brepGeo.Any(x => x.Faces.Count > 1))
{
container = ContainerType.CellBrep;
}
else
{
container = ContainerType.FaceBrep;
}
primal = LoadData.LoadFromFaces(brepGeo, out dual, true);
}
else
{
primal.ProcessBFaces(Util.DecomposeG(ids), dblOptionCollapse.CurrentValue, double.MaxValue);
primal.SortPartsInFaces();
}
}
else if (selGeo.All(x => x.ObjectType == Rhino.DocObjects.ObjectType.Curve))
{
if (selGeo.Any(y => y.UserDictionary.TryGetString("Primal", out string primalJson)))
{
primal = LoadData.LoadFromEdges(selGeo.Cast <Curve>().ToList(), out dual, true);
//guids = LoadData.LoadPrimalDual(out primal, out dual);
container = ContainerType.Edge;
}
else
{
RhinoApp.WriteLine("No PolyFrame data detected. Planarization of raw line/curve data is not supported ");
return(Result.Failure);
}
}
else if (selGeo.All(x => x.ObjectType == Rhino.DocObjects.ObjectType.Mesh))
{
if (selGeo.Any(y => y.UserDictionary.TryGetString("Primal", out string primalJson)))
{
var meshGeos = selGeo.Cast <Mesh>().ToList();
if (meshGeos.Any(x => x.Ngons.Count > 1 ||
(x.Ngons.Count == 0 && x.Faces.Count > 1) ||
(x.Ngons.Count == 1 && x.Faces.Count > x.Ngons[0].FaceCount)))
{
container = ContainerType.CellMesh;
}
else
{
container = ContainerType.FaceMesh;
}
primal = LoadData.LoadFromMeshes(meshGeos, out dual, true);
}
else
{
RhinoApp.WriteLine("No PolyFrame data detected. Planarization of raw mesh data is not supported ");
return(Result.Failure);
}
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
try
{
using (var go = new GetObject())
{
var wwr = 0.6;
wwr = Settings.GetDouble(nameof(wwr), 0.6);
var optionWWR = new OptionDouble(wwr, 0.01, 0.98);
var optionSkipFaceExistingWindow = new OptionToggle(true, "No_CreateForAllFaces", "Yes");
go.SetCommandPrompt("Please select honeybee rooms for adding windows to");
go.GeometryFilter = ObjectType.Brep;
go.GroupSelect = false;
go.SubObjectSelect = false;
go.EnableClearObjectsOnEntry(false);
go.EnableUnselectObjectsOnExit(false);
go.DeselectAllBeforePostSelect = false;
while (true)
{
go.ClearCommandOptions();
go.AddOptionDouble("WindowWallRatio", ref optionWWR);
go.AddOptionToggle("SkipFacesWithWindows", ref optionSkipFaceExistingWindow);
var res = go.GetMultiple(1, 0);
if (res == Rhino.Input.GetResult.Option)
{
go.EnablePreSelect(false, true);
continue;
}
else if (res != Rhino.Input.GetResult.Object)
{
return(Result.Cancel);
}
if (go.ObjectsWerePreselected)
{
go.EnablePreSelect(false, true);
continue;
}
break;
}
if (go.CommandResult() != Result.Success)
{
throw new ArgumentException("Failed to execute command!");
}
if (go.ObjectCount == 0)
{
throw new ArgumentException("No object is selected!");
}
//get option values
Settings.SetDouble(nameof(wwr), optionWWR.CurrentValue);
var ifSkipFaceWithWindow = optionSkipFaceExistingWindow.CurrentValue;
//all selected room geometries
var solidBreps = go.Objects().Where(_ => _.Brep() != null).Where(_ => _.Brep().IsSolid);
var rooms = solidBreps.Where(_ => _.IsRoom()).ToList();
if (solidBreps.Count() != rooms.Count())
{
doc.Objects.UnselectAll();
var nonRooms = solidBreps.Where(_ => !_.Brep().IsRoom());
foreach (var item in nonRooms)
{
doc.Objects.Select(item, true, true);
}
doc.Views.Redraw();
Rhino.UI.Dialogs.ShowMessage("These are not Honeybee rooms, please use MassToRoom to convert them first!", "Honeybee Rhino Plugin");
return(Result.Failure);
}
//Add Windows
AddApertureByWWR(doc, rooms, optionWWR.CurrentValue, ifSkipFaceWithWindow);
doc.Views.Redraw();
return(Result.Success);
}
}
catch (Exception e)
{
RhinoApp.WriteLine($"ERROR: {e.Message}");
return(Result.Failure);
}
}
protected override Result RunCommand(RhinoDoc doc, RunMode mode)
{
ActiveDoc = doc;
const ObjectType geometryFilter = ObjectType.Curve | ObjectType.Surface;
OptionToggle toggle = new OptionToggle(true, "Remove", "Apply");
GetObject go = new GetObject();
go.SetCommandPrompt("Select curves or surfaces");
go.GeometryFilter = geometryFilter;
go.AddOptionToggle("BuiltElements", ref toggle);
go.GroupSelect = true;
go.SubObjectSelect = false;
go.EnableClearObjectsOnEntry(false);
go.EnableUnselectObjectsOnExit(false);
go.DeselectAllBeforePostSelect = false;
bool hasPreselected = false;
for (; ;)
{
GetResult res = go.GetMultiple(1, 0);
if (res == GetResult.Option)
{
go.EnablePreSelect(false, true);
continue;
}
else if (res != GetResult.Object)
{
return(Result.Cancel);
}
if (go.ObjectsWerePreselected)
{
hasPreselected = true;
go.EnablePreSelect(false, true);
continue;
}
break;
}
if (hasPreselected)
{
// Normally, pre-selected objects will remain selected, when a
// command finishes, and post-selected objects will be unselected.
// Currently, leave everything selected post command.
for (int i = 0; i < go.ObjectCount; i++)
{
RhinoObject rhinoObject = go.Object(i).Object();
if (null != rhinoObject)
{
rhinoObject.Select(true);
}
}
doc.Views.Redraw();
}
List <RhinoObject> commandObjs = go.Objects().Select(o => o.Object()).ToList();
if (toggle.CurrentValue == true)
{
ApplySchemas(commandObjs);
}
else
{
DeleteSchemas(commandObjs);
}
return(Result.Success);
}
