public void SliceLineCommand()
{
Editor editor = Autodesk.AutoCAD.ApplicationServices.Application.DocumentManager.MdiActiveDocument.Editor;
Database arg_15_0 = HostApplicationServices.WorkingDatabase;
try
{
//LicenseManager.CheckValid("FULL");
ObjectId[] objectId_ = CommandLineQuerries.SelectLines(false);
ngeometry.VectorGeometry.Plane planeNormalized = CommandLineQuerries.Specify3PSystem().GetPlaneNormalized();
int num = 0;
while (num == 0)
{
Point left = new Point();
PromptPointResult promptPointResult = CommandLineQuerries.SpecifyPointOrKeepBothSides();
if (promptPointResult.Status == (PromptStatus)(-5005))
{
num = 0;
IL_F2_:
this.method_0(objectId_, planeNormalized, num);
return;
}
if (promptPointResult.Status == (PromptStatus)5100)
{
Point3d value = promptPointResult.Value;
left = new Point(value.X, value.Y, value.Z);
num = Math.Sign(ngeometry.VectorGeometry.Vector3d.Dot(planeNormalized.NormalVector, new ngeometry.VectorGeometry.Vector3d(left - planeNormalized.Point)));
if (num == 0)
{
editor.WriteMessage("\nInvalid point: point is on plane.");
}
}
else if (promptPointResult.Status == (PromptStatus)(-5002))
{
CommandLineQuerries.OnCancelled();
}
else if (promptPointResult.Status != (PromptStatus)5100)
{
CommandLineQuerries.OnNotOK();
}
}
goto IL_F2;
IL_F2:
{
this.method_0(objectId_, planeNormalized, num);
return;
}
}
catch (System.Exception ex)
{
editor.WriteMessage(Environment.NewLine + ex.Message + Environment.NewLine);
}
}
public void SliceFacesCommand()
{
Editor editor = Autodesk.AutoCAD.ApplicationServices.Application.DocumentManager.MdiActiveDocument.Editor;
try
{
//LicenseManager.CheckValid("FULL");
ObjectId[] objectId_ = CommandLineQuerries.SelectFaces(false);
CoordinateSystem coordinateSystem = CommandLineQuerries.Specify3PSystem();
ngeometry.VectorGeometry.Plane planeNormalized = coordinateSystem.GetPlaneNormalized();
int num = 0;
while (num == 0)
{
Point left = new Point();
PromptPointResult promptPointResult = CommandLineQuerries.SpecifyPointOrKeepBothSides();
if (promptPointResult.Status == (PromptStatus)(-5005))
{
num = 0;
IL_F3_:
EntitySlicer.string_0 = CommandLineQuerries.KeywordYesNo("Keep coplanar faces", EntitySlicer.string_0, false, false);
int num2 = 0;
int num3 = 0;
int num4 = 0;
bool bool_ = false;
if (EntitySlicer.string_0.Trim().ToUpper() == "Y")
{
bool_ = true;
}
this.method_1(objectId_, planeNormalized, num, bool_, ref num2, ref num3, ref num4);
editor.WriteMessage("\nFailed faces : " + num3.ToString());
editor.WriteMessage("\nFaces sliced : " + num2.ToString());
editor.WriteMessage("\nFaces remaining: " + num4.ToString());
return;
}
if (promptPointResult.Status == (PromptStatus)5100)
{
Point3d value = promptPointResult.Value;
left = new Point(value.X, value.Y, value.Z);
num = Math.Sign(ngeometry.VectorGeometry.Vector3d.Dot(planeNormalized.NormalVector, new ngeometry.VectorGeometry.Vector3d(left - planeNormalized.Point)));
if (num == 0)
{
editor.WriteMessage("\nInvalid point: point is on slicing plane.");
}
}
else if (promptPointResult.Status == (PromptStatus)(-5002))
{
CommandLineQuerries.OnCancelled();
}
else if (promptPointResult.Status != (PromptStatus)5100)
{
CommandLineQuerries.OnNotOK();
}
}
goto IL_F3;
IL_F3:
{
EntitySlicer.string_0 = CommandLineQuerries.KeywordYesNo("Keep coplanar faces", EntitySlicer.string_0, false, false);
int num2 = 0;
int num3 = 0;
int num4 = 0;
bool bool_ = false;
if (EntitySlicer.string_0.Trim().ToUpper() == "Y")
{
bool_ = true;
}
this.method_1(objectId_, planeNormalized, num, bool_, ref num2, ref num3, ref num4);
editor.WriteMessage("\nFailed faces : " + num3.ToString());
editor.WriteMessage("\nFaces sliced : " + num2.ToString());
editor.WriteMessage("\nFaces remaining: " + num4.ToString());
return;
}
}
catch (System.Exception ex)
{
editor.WriteMessage("\n" + ex.Message + "\n");
}
}