//creates a cutout
private void Create_Cutout(double PointOnGraphic_X, double PointOnGraphic_Y, double PointOnGraphic_Z, SolidEdgeGeometry.Face selected_face,
int[] face_norm, string selected_face_normal)
{
PartDocument _doc = _application.ActiveDocument as PartDocument;
RefPlanes refPlanes = null;
RefPlane refPlane = null;
refPlanes = _doc.RefPlanes;
//Adding parallel refplane to the selected face
refPlane = refPlanes.AddParallelByDistance(selected_face, 0.0, ReferenceElementConstants.igNormalSide, false, false, true, false);
Relations2d relations2D = null;
ProfileSets profileSets = null;
ProfileSet profileSet = null;
Profiles profiles = null;
Profile profile = null;
Lines2d lines2D = null;
Models models = null;
Model model = null;
Sketchs sketchs = null;
Sketch sketch = null;
ExtrudedCutouts extrudedCutouts = null;
sketchs = _doc.Sketches;
sketch = sketchs.Add();
profileSets = _doc.ProfileSets;
profileSet = profileSets.Add();
profiles = sketch.Profiles;
profile = profiles.Add(refPlane);
lines2D = profile.Lines2d;
relations2D = (Relations2d)profile.Relations2d;
//adding a 2D profile for the cutout
lines2D.AddBy2Points(0.03, -0.055, 0.045, -0.055);
lines2D.AddBy2Points(0.045, -0.055, 0.045, -0.04);
lines2D.AddBy2Points(0.045, -0.04, 0.03, -0.04);
lines2D.AddBy2Points(0.03, -0.04, 0.03, -0.055);
profile.End(ProfileValidationType.igProfileClosed);
models = _doc.Models;
model = models.Item(1);
extrudedCutouts = model.ExtrudedCutouts;
//adding a new extruded cutout
extrudedCutouts.AddThroughNext(Profile: profile,
ProfileSide: FeaturePropertyConstants.igLeft,
ProfilePlaneSide: FeaturePropertyConstants.igLeft
);
}
//creates a slot
private void Create_Slot(double PointOnGraphic_X, double PointOnGraphic_Y, double PointOnGraphic_Z, SolidEdgeGeometry.Face selected_face,
int[] face_norm, string selected_face_normal)
{
PartDocument _doc = _application.ActiveDocument as PartDocument;
RefPlanes refPlanes = null;
RefPlane refPlane = null;
refPlanes = _doc.RefPlanes;
//Adding a parallel refplane to the selected face
refPlane = refPlanes.AddParallelByDistance(selected_face, 0.0, ReferenceElementConstants.igNormalSide, false, false, true, false);
ProfileSets profileSets = null;
ProfileSet profileSet = null;
Profiles profiles = null;
Profile profile = null;
Lines2d lines2D = null;
Models models = null;
Model model = null;
Sketchs sketchs = null;
Sketch sketch = null;
Slots slots = null;
Slot slot = null;
sketchs = _doc.Sketches;
sketch = sketchs.Add();
profileSets = _doc.ProfileSets;
profileSet = profileSets.Add();
profiles = sketch.Profiles;
//Adding the refplane to the profile
profile = profiles.Add(refPlane);
lines2D = profile.Lines2d;
lines2D.AddBy2Points(0.02, 0, 0.02, 0.02);
profile.End(ProfileValidationType.igProfileClosed);
models = _doc.Models;
model = models.Item(1);
slots = model.Slots;
//Adding a new slot
slots.Add(Profile: profile,
SlotType: FeaturePropertyConstants.igRegularSlot,
SlotEndCondition: FeaturePropertyConstants.igFormedEnd,
SlotWidth: 0.005,
SlotOffsetWidth: 0,
SlotOffsetDepth: 0,
ExtentType: FeaturePropertyConstants.igThroughAll,
ExtentSide: FeaturePropertyConstants.igLeft,
FiniteDistance: 0,
KeyPointFlags: KeyPointExtentConstants.igTangentNormal,
KeyPointOrTangentFace: null,
ExtentType2: FeaturePropertyConstants.igNone,
ExtentSide2: FeaturePropertyConstants.igNone,
FiniteDistance2: 0,
KeyPointFlags2: KeyPointExtentConstants.igTangentNormal,
KeyPointOrTangentFace2: null,
FromFaceOrPlane: null,
FromOffsetSide: OffsetSideConstants.seOffsetNone,
FromOffsetDistance: 0,
ToFaceOrPlane: null,
ToOffsetSide: OffsetSideConstants.seOffsetNone,
ToOffsetDistance: 0
);
}
//creates a hole
private void create_hole(double PointOnGraphic_X, double PointOnGraphic_Y, double PointOnGraphic_Z, SolidEdgeGeometry.Face selected_face,
int[] face_norm, string selected_face_normal)
{
// var selected_face = pGraphicDispatch as SolidEdgeGeometry.Face;
PartDocument _doc = _application.ActiveDocument as PartDocument;
RefPlanes refPlanes = null;
RefPlane refPlane = null;
refPlanes = _doc.RefPlanes;
//Adding parallel refplane to the selected face
refPlane = refPlanes.AddParallelByDistance(selected_face, 0.0, ReferenceElementConstants.igNormalSide, false, false, true, false);
//Running windows form application
System.Windows.Forms.Application.EnableVisualStyles();
System.Windows.Forms.Application.Run(new Form1());
MessageBox.Show("Cancel Hole Dimension?");
Form1 form1 = new Form1();
//Hole diameter from user input
double cc = form1.Hole_dia;
while (cc < 0.0)
{
MessageBox.Show("Enter valid dimension");
System.Windows.Forms.Application.EnableVisualStyles();
System.Windows.Forms.Application.Run(new Form1());
Form1 form2 = new Form1();
double dd = form2.Hole_dia;
MessageBox.Show("Cancel diamension?");
if (cc == dd)
{
MessageBox.Show("invalid argument");
dd = 0.0;
}
cc = dd;
}
ProfileSets profileSets = null;
ProfileSet profileSet = null;
Profiles profiles = null;
Profile profile = null;
Models models = null;
HoleDataCollection holeDataCollection = null;
HoleData holeData = null;
Holes2d holes2D = null;
Holes holes = null;
Sketchs sketchs = null;
Sketch sketch = null;
Array ref_dir = new double[3] as Array;
//getting the unit vector of the reference direction
refPlane.GetReferenceDirection(ref ref_dir);
var Ref_dirX = ref_dir as double[];
Array root_point = new double[3] as Array;
refPlane.GetRootPoint(ref root_point);
var Root_point = root_point as double[];
//calculating the cross-product between ref_dir and normal vector
double[] Ref_dirY = new double[3]
{
Ref_dirX[2] * face_norm[1] - Ref_dirX[1] * face_norm[2],
Ref_dirX[0] * face_norm[2] - Ref_dirX[2] * face_norm[0],
Ref_dirX[1] * face_norm[0] - Ref_dirX[0] * face_norm[1]
};
double Xcenter = -0.06; //local coordinates
double Ycenter = -0.06;
//calculating global coordinates from local coordinates
double[] X_bar = new double[3]
{
Xcenter *Ref_dirX[0] + Ycenter * Ref_dirY[0] + Root_point[0],
Xcenter *Ref_dirX[1] + Ycenter * Ref_dirY[1] + Root_point[1],
Xcenter *Ref_dirX[2] + Ycenter * Ref_dirY[2] + Root_point[2]
};
//Calculating the angle between vectors root_point and global
double[] OX = new double[3]
{
PointOnGraphic_X - Root_point[0],
PointOnGraphic_Y - Root_point[1],
PointOnGraphic_Z - Root_point[2]
};
//calculating the modulus of vector OX
double OX_Mod = Math.Sqrt(Math.Pow(OX[0], 2) + Math.Pow(OX[1], 2) + Math.Pow(OX[2], 2));
//calculating the modulus of vector Ref_dirX
double Ref_dirX_Mod = Math.Sqrt(Math.Pow(Ref_dirX[0], 2) + Math.Pow(Ref_dirX[1], 2) + Math.Pow(Ref_dirX[2], 2));
//calculating the modulus of the vector ReF_dirY
double Ref_dirY_Mod = Math.Sqrt(Math.Pow(Ref_dirY[0], 2) + Math.Pow(Ref_dirY[1], 2) + Math.Pow(Ref_dirY[2], 2));
//calculating the dot product between vector OX and Ref_dirY
double dotY = (OX[0] * Ref_dirY[0]) + (OX[1] * Ref_dirY[1]) + (OX[2] * Ref_dirY[2]);
//calculating the dot product between vector OX and Ref_dirX
double dotX = (OX[0] * Ref_dirX[0]) + (OX[1] * Ref_dirX[1]) + (OX[2] * Ref_dirX[2]);
//calculating the angle between vector OX and Ref_dirY
double angleY = Math.Acos(dotY / (OX_Mod * Ref_dirY_Mod));
//calculating the angle between vector OX and Ref_dirX
double angleX = Math.Acos(dotX / (OX_Mod * Ref_dirX_Mod));
double X_dir = 0.0;
double Y_dir = 0.0;
if (angleY > Math.PI / 2)
{
X_dir = OX_Mod * Math.Cos(-angleX);
Y_dir = OX_Mod * Math.Sin(-angleX);
}
else
{
X_dir = OX_Mod * Math.Cos(angleX);
Y_dir = OX_Mod * Math.Sin(angleX);
}
if (OX_Mod == 0.0)
{
X_dir = 0.0;
Y_dir = 0.0;
}
if (cc > 0.0)
{
sketchs = _doc.Sketches;
sketch = sketchs.Add();
holeDataCollection = _doc.HoleDataCollection;
//Defining hole properties
holeData = holeDataCollection.Add(
HoleType: SolidEdgePart.FeaturePropertyConstants.igRegularHole,
HoleDiameter: cc / 1000);
profileSets = _doc.ProfileSets;
profileSet = profileSets.Add();
//profiles = profileSet.Profiles;
profiles = sketch.Profiles;
profile = profiles.Add(refPlane);
holes2D = profile.Holes2d;
var dd = holes2D.Add(X_dir, Y_dir);
profile.End(ProfileValidationType.igProfileClosed);
// dd.Move(X_dir, Y_dir, 0.0, 0.0);
//_application.StartCommand(SolidEdgeConstants.PartCommandConstants.PartViewLookatFace);
//getting the hole collection and creating a simple hole
Model model = _doc.Models.Item(1);
holes = model.Holes;
holes.AddThroughNext(
Profile: profile,
ProfilePlaneSide: SolidEdgePart.FeaturePropertyConstants.igBoth,
Data: holeData);
}
}