public static Rhino.Commands.Result CommandLineOptions(Rhino.RhinoDoc doc) { // For this example we will use a GetPoint class, but all of the custom // "Get" classes support command line options. Rhino.Input.Custom.GetPoint gp = new Rhino.Input.Custom.GetPoint(); gp.SetCommandPrompt("GetPoint with options"); // set up the options Rhino.Input.Custom.OptionInteger intOption = new Rhino.Input.Custom.OptionInteger(1, 1, 99); Rhino.Input.Custom.OptionDouble dblOption = new Rhino.Input.Custom.OptionDouble(2.2, 0, 99.9); Rhino.Input.Custom.OptionToggle boolOption = new Rhino.Input.Custom.OptionToggle(true, "Off", "On"); string[] listValues = new string[] { "Item0", "Item1", "Item2", "Item3", "Item4" }; gp.AddOptionInteger("Integer", ref intOption); gp.AddOptionDouble("Double", ref dblOption); gp.AddOptionToggle("Boolean", ref boolOption); int listIndex = 3; int opList = gp.AddOptionList("List", listValues, listIndex); while (true) { // perform the get operation. This will prompt the user to input a point, but also // allow for command line options defined above Rhino.Input.GetResult get_rc = gp.Get(); if (gp.CommandResult() != Rhino.Commands.Result.Success) { return(gp.CommandResult()); } if (get_rc == Rhino.Input.GetResult.Point) { doc.Objects.AddPoint(gp.Point()); doc.Views.Redraw(); Rhino.RhinoApp.WriteLine("Command line option values are"); Rhino.RhinoApp.WriteLine(" Integer = {0}", intOption.CurrentValue); Rhino.RhinoApp.WriteLine(" Double = {0}", dblOption.CurrentValue); Rhino.RhinoApp.WriteLine(" Boolean = {0}", boolOption.CurrentValue); Rhino.RhinoApp.WriteLine(" List = {0}", listValues[listIndex]); } else if (get_rc == Rhino.Input.GetResult.Option) { if (gp.OptionIndex() == opList) { listIndex = gp.Option().CurrentListOptionIndex; } continue; } break; } return(Rhino.Commands.Result.Success); }
public static Rhino.Commands.Result CommandLineOptions(Rhino.RhinoDoc doc) { // For this example we will use a GetPoint class, but all of the custom // "Get" classes support command line options. Rhino.Input.Custom.GetPoint gp = new Rhino.Input.Custom.GetPoint(); gp.SetCommandPrompt("GetPoint with options"); // set up the options Rhino.Input.Custom.OptionInteger intOption = new Rhino.Input.Custom.OptionInteger(1, 1, 99); Rhino.Input.Custom.OptionDouble dblOption = new Rhino.Input.Custom.OptionDouble(2.2, 0, 99.9); Rhino.Input.Custom.OptionToggle boolOption = new Rhino.Input.Custom.OptionToggle(true, "Off", "On"); string[] listValues = new string[] { "Item0", "Item1", "Item2", "Item3", "Item4" }; gp.AddOptionInteger("Integer", ref intOption); gp.AddOptionDouble("Double", ref dblOption); gp.AddOptionToggle("Boolean", ref boolOption); int listIndex = 3; int opList = gp.AddOptionList("List", listValues, listIndex); while (true) { // perform the get operation. This will prompt the user to input a point, but also // allow for command line options defined above Rhino.Input.GetResult get_rc = gp.Get(); if (gp.CommandResult() != Rhino.Commands.Result.Success) return gp.CommandResult(); if (get_rc == Rhino.Input.GetResult.Point) { doc.Objects.AddPoint(gp.Point()); doc.Views.Redraw(); Rhino.RhinoApp.WriteLine("Command line option values are"); Rhino.RhinoApp.WriteLine(" Integer = {0}", intOption.CurrentValue); Rhino.RhinoApp.WriteLine(" Double = {0}", dblOption.CurrentValue); Rhino.RhinoApp.WriteLine(" Boolean = {0}", boolOption.CurrentValue); Rhino.RhinoApp.WriteLine(" List = {0}", listValues[listIndex]); } else if (get_rc == Rhino.Input.GetResult.Option) { if (gp.OptionIndex() == opList) listIndex = gp.Option().CurrentListOptionIndex; continue; } break; } return Rhino.Commands.Result.Success; }
protected override Rhino.Commands.Result RunCommand(RhinoDoc doc, Rhino.Commands.RunMode mode) { // Select objects to scale var list = new Rhino.Collections.TransformObjectList(); var rc = SelectObjects("Select objects to scale", list); if (rc != Rhino.Commands.Result.Success) { return(rc); } Point3d anchor; Point3d _ref; Plane plane; // Origin point var gp = new Rhino.Input.Custom.GetPoint(); gp.SetCommandPrompt("Origin point"); var copy = new Rhino.Input.Custom.OptionToggle(m_copy, "No", "Yes"); gp.AddOptionToggle("Copy", ref copy); for (; ;) { var res = gp.Get(); if (res == Rhino.Input.GetResult.Point) { var view = gp.View(); if (view == null) { return(Rhino.Commands.Result.Failure); } plane = view.ActiveViewport.ConstructionPlane(); anchor = gp.Point(); break; } if (res == Rhino.Input.GetResult.Option) { continue; } return(Rhino.Commands.Result.Cancel); } bool bAcceptDefault = true; // Scale factor or first reference point gp.SetCommandPrompt("Scale factor or first reference point"); gp.SetBasePoint(anchor, true); gp.DrawLineFromPoint(anchor, true); gp.ConstrainToConstructionPlane(true); for (; ;) { if (bAcceptDefault) { gp.AcceptNumber(true, false); gp.SetDefaultNumber(m_scale); } else { gp.AcceptNothing(true); gp.ClearDefault(); } var res = gp.Get(); if (res == Rhino.Input.GetResult.Point) { _ref = gp.Point(); break; } if (res == Rhino.Input.GetResult.Number) { double scale = Math.Abs(gp.Number()); const double EPS_DIVIDE = 0.000001; if (scale < EPS_DIVIDE) { continue; } m_scale = scale; plane.Origin = anchor; var xform = Transform.Scale(plane, m_scale, m_scale, m_scale); TransformObjects(list, xform, copy.CurrentValue, copy.CurrentValue); m_copy = copy.CurrentValue; if (m_copy) { bAcceptDefault = false; continue; } doc.Views.Redraw(); return(Rhino.Commands.Result.Success); } if (res == Rhino.Input.GetResult.Nothing) { if (bAcceptDefault == false) { return(Rhino.Commands.Result.Success); } plane.Origin = anchor; var xform = Transform.Scale(plane, m_scale, m_scale, m_scale); TransformObjects(list, xform, copy.CurrentValue, copy.CurrentValue); m_copy = copy.CurrentValue; if (m_copy) { bAcceptDefault = false; continue; } doc.Views.Redraw(); return(Rhino.Commands.Result.Success); } if (res == Rhino.Input.GetResult.Option) { continue; } return(Rhino.Commands.Result.Cancel); } // Second reference point var gx = new GetScaleXform(); gx.SetCommandPrompt("Second reference point"); gx.AddOptionToggle("copy", ref copy); gx.AddTransformObjects(list); gx.SetBasePoint(anchor, true); gx.DrawLineFromPoint(anchor, true); gx.ConstrainToConstructionPlane(true); gx.Plane = plane; gx.RefPoint = _ref; gx.AcceptNothing(true); gx.AcceptNumber(true, false); rc = Rhino.Commands.Result.Cancel; for (; ;) { var res = gx.GetXform(); if (res == Rhino.Input.GetResult.Point) { var view = gx.View(); if (view == null) { rc = Rhino.Commands.Result.Failure; break; } var xform = gx.CalculateTransform(view.ActiveViewport, gx.Point()); if (xform.IsValid && xform != Transform.Identity) { TransformObjects(list, xform, copy.CurrentValue, copy.CurrentValue); rc = Rhino.Commands.Result.Success; m_scale = gx.Scale; } m_copy = copy.CurrentValue; if (m_copy) { continue; } break; } if (res == Rhino.Input.GetResult.Number) { var view = gx.View(); if (view == null) { rc = Rhino.Commands.Result.Failure; break; } var xform = gx.CalculateTransform(view.ActiveViewport, gx.Number()); if (xform.IsValid && xform != Transform.Identity) { TransformObjects(list, xform, copy.CurrentValue, copy.CurrentValue); rc = Rhino.Commands.Result.Success; m_scale = gx.Scale; } m_copy = copy.CurrentValue; if (m_copy) { continue; } break; } if (res == Rhino.Input.GetResult.Option) { continue; } break; } doc.Views.Redraw(); return(rc); }
protected override Rhino.Commands.Result RunCommand(RhinoDoc doc, Rhino.Commands.RunMode mode) { Rhino.DocObjects.ObjRef objref; var rc = Rhino.Input.RhinoGet.GetOneObject("Select object", true, Rhino.DocObjects.ObjectType.AnyObject, out objref); if (rc != Rhino.Commands.Result.Success) { return(rc); } rc = Rhino.Input.RhinoGet.GetPoint("Start point", false, out m_point_start); if (rc != Rhino.Commands.Result.Success) { return(rc); } var obj = objref.Object(); if (obj == null) { return(Rhino.Commands.Result.Failure); } // create an instance of a GetPoint class and add a delegate // for the DynamicDraw event var gp = new Rhino.Input.Custom.GetPoint(); gp.DrawLineFromPoint(m_point_start, true); var optdouble = new Rhino.Input.Custom.OptionDouble(m_distance); bool constrain = false; var optconstrain = new Rhino.Input.Custom.OptionToggle(constrain, "Off", "On"); gp.AddOptionDouble("Distance", ref optdouble); gp.AddOptionToggle("Constrain", ref optconstrain); gp.DynamicDraw += ArrayByDistanceDraw; gp.Tag = obj; while (gp.Get() == Rhino.Input.GetResult.Option) { m_distance = optdouble.CurrentValue; if (constrain != optconstrain.CurrentValue) { constrain = optconstrain.CurrentValue; if (constrain) { var gp2 = new Rhino.Input.Custom.GetPoint(); gp2.DrawLineFromPoint(m_point_start, true); gp2.SetCommandPrompt("Second point on constraint line"); if (gp2.Get() == Rhino.Input.GetResult.Point) { gp.Constrain(m_point_start, gp2.Point()); } else { gp.ClearCommandOptions(); optconstrain.CurrentValue = false; constrain = false; gp.AddOptionDouble("Distance", ref optdouble); gp.AddOptionToggle("Constrain", ref optconstrain); } } else { gp.ClearConstraints(); } } } if (gp.CommandResult() == Rhino.Commands.Result.Success) { m_distance = optdouble.CurrentValue; var pt = gp.Point(); var vec = pt - m_point_start; double length = vec.Length; vec.Unitize(); int count = (int)(length / m_distance); for (int i = 1; i < count; i++) { var translate = vec * (i * m_distance); var xf = Rhino.Geometry.Transform.Translation(translate); doc.Objects.Transform(obj, xf, false); } doc.Views.Redraw(); } return(gp.CommandResult()); }
protected override Rhino.Commands.Result RunCommand(RhinoDoc doc, Rhino.Commands.RunMode mode) { // Select objects to scale var list = new Rhino.Collections.TransformObjectList(); var rc = SelectObjects("Select objects to scale", list); if (rc != Rhino.Commands.Result.Success) return rc; var anchor = new Point3d(); var _ref = new Point3d(); Plane plane = new Plane(); // Origin point var gp = new Rhino.Input.Custom.GetPoint(); gp.SetCommandPrompt("Origin point"); var copy = new Rhino.Input.Custom.OptionToggle(m_copy,"No", "Yes"); gp.AddOptionToggle("Copy", ref copy); for (; ; ) { var res = gp.Get(); if (res == Rhino.Input.GetResult.Point) { var view = gp.View(); if (view == null) return Rhino.Commands.Result.Failure; plane = view.ActiveViewport.ConstructionPlane(); anchor = gp.Point(); break; } if (res == Rhino.Input.GetResult.Option) continue; return Rhino.Commands.Result.Cancel; } bool bAcceptDefault = true; // Scale factor or first reference point gp.SetCommandPrompt("Scale factor or first reference point"); gp.SetBasePoint(anchor, true); gp.DrawLineFromPoint(anchor, true); gp.ConstrainToConstructionPlane(true); for (; ; ) { if (bAcceptDefault) { gp.AcceptNumber(true, false); gp.SetDefaultNumber(m_scale); } else { gp.AcceptNothing(true); gp.ClearDefault(); } var res = gp.Get(); if (res == Rhino.Input.GetResult.Point) { _ref = gp.Point(); break; } if (res == Rhino.Input.GetResult.Number) { double scale = Math.Abs(gp.Number()); const double EPS_DIVIDE = 0.000001; if (scale < EPS_DIVIDE) continue; m_scale = scale; plane.Origin = anchor; var xform = Transform.Scale(plane, m_scale, m_scale, m_scale); TransformObjects(list, xform, copy.CurrentValue, copy.CurrentValue); m_copy = copy.CurrentValue; if (m_copy) { bAcceptDefault = false; continue; } doc.Views.Redraw(); return Rhino.Commands.Result.Success; } if (res == Rhino.Input.GetResult.Nothing) { if (bAcceptDefault == false) return Rhino.Commands.Result.Success; plane.Origin = anchor; var xform = Transform.Scale(plane, m_scale, m_scale, m_scale); TransformObjects(list, xform, copy.CurrentValue, copy.CurrentValue); m_copy = copy.CurrentValue; if (m_copy) { bAcceptDefault = false; continue; } doc.Views.Redraw(); return Rhino.Commands.Result.Success; } if (res == Rhino.Input.GetResult.Option) continue; return Rhino.Commands.Result.Cancel; } // Second reference point var gx = new GetScaleXform(); gx.SetCommandPrompt("Second reference point"); gx.AddOptionToggle("copy", ref copy); gx.AddTransformObjects(list); gx.SetBasePoint(anchor, true); gx.DrawLineFromPoint(anchor, true); gx.ConstrainToConstructionPlane(true); gx.Plane = plane; gx.RefPoint = _ref; gx.AcceptNothing(true); gx.AcceptNumber(true, false); rc = Rhino.Commands.Result.Cancel; for (; ; ) { var res = gx.GetXform(); if (res == Rhino.Input.GetResult.Point) { var view = gx.View(); if (view == null) { rc = Rhino.Commands.Result.Failure; break; } var xform = gx.CalculateTransform(view.ActiveViewport, gx.Point()); if (xform.IsValid && xform != Transform.Identity) { TransformObjects(list, xform, copy.CurrentValue, copy.CurrentValue); rc = Rhino.Commands.Result.Success; m_scale = gx.Scale; } m_copy = copy.CurrentValue; if (m_copy) continue; break; } if (res == Rhino.Input.GetResult.Number) { var view = gx.View(); if (view == null) { rc = Rhino.Commands.Result.Failure; break; } var xform = gx.CalculateTransform(view.ActiveViewport, gx.Number()); if (xform.IsValid && xform != Transform.Identity) { TransformObjects(list, xform, copy.CurrentValue, copy.CurrentValue); rc = Rhino.Commands.Result.Success; m_scale = gx.Scale; } m_copy = copy.CurrentValue; if (m_copy) continue; break; } if (res == Rhino.Input.GetResult.Option) continue; if (res == Rhino.Input.GetResult.Nothing) break; break; } doc.Views.Redraw(); return rc; }