Scripted objects

Besides the standard object types such as annotations, meshes and parts objects, FreeCAD also offers the amazing possibility to build 100% python-scripted objects, called Python Features. Those objects will behave exactly as any other FreeCAD object, can be saved in a document and opened on any other installation of FreeCAD, since the python code that defines the object is also saved in the document.

Python Features follow the same rule as all FreeCAD features: they are separated into App and GUI parts. The app part, the Document Object, defines the geometry of our object, while its GUI part, the View Provider Object, defines how the object will be drawn on screen. The View Provider Object, as any other FreeCAD feature, is only available when you run FreeCAD in its own GUI. There are several properties and methods available to build your object. Properties must be of any of the predefined properties types that FreeCAD offers, and will appear in the property view window, so they can be edited by the user. This way, FeaturePython objects are truly and totally parametric. you can define properties for the Object and its ViewObject separately.

Basic example
The following sample can be found in the src/Mod/TemplatePyMod/FeaturePython.py file:

"Examples for a feature class and its view provider." import FreeCAD, FreeCADGui from pivy import coin class Box: def __init__(self, obj): "Add some custom properties to our box feature" obj.addProperty("App::PropertyLength","Length","Box","Length of the box").Length=1.0 obj.addProperty("App::PropertyLength","Width","Box","Width of the box").Width=1.0 obj.addProperty("App::PropertyLength","Height","Box", "Height of the box").Height=1.0 obj.Proxy = self def onChanged(self, fp, prop): "Do something when a property has changed" FreeCAD.Console.PrintMessage("Change property: " + str(prop) + "\n") def execute(self, fp): "Do something when doing a recomputation, this method is mandatory" FreeCAD.Console.PrintMessage("Recompute Python Box feature\n") class ViewProviderBox: def __init__(self, obj): "Set this object to the proxy object of the actual view provider" obj.addProperty("App::PropertyColor","Color","Box","Color of the box").Color=(1.0,0.0,0.0) obj.Proxy = self def attach(self, obj): "Setup the scene sub-graph of the view provider, this method is mandatory" self.shaded = coin.SoGroup self.wireframe = coin.SoGroup self.scale = coin.SoScale self.color = coin.SoBaseColor data=coin.SoCube self.shaded.addChild(self.scale) self.shaded.addChild(self.color) self.shaded.addChild(data) obj.addDisplayMode(self.shaded,"Shaded"); style=coin.SoDrawStyle style.style = coin.SoDrawStyle.LINES self.wireframe.addChild(style) self.wireframe.addChild(self.scale) self.wireframe.addChild(self.color) self.wireframe.addChild(data) obj.addDisplayMode(self.wireframe,"Wireframe"); self.onChanged(obj,"Color") def updateData(self, fp, prop): "If a property of the handled feature has changed we have the chance to handle this here" # fp is the handled feature, prop is the name of the property that has changed l = fp.getPropertyByName("Length") w = fp.getPropertyByName("Width") h = fp.getPropertyByName("Height") self.scale.scaleFactor.setValue(l,w,h) pass def getDisplayModes(self,obj): "Return a list of display modes." modes=[] modes.append("Shaded") modes.append("Wireframe") return modes def getDefaultDisplayMode(self): "Return the name of the default display mode. It must be defined in getDisplayModes." return "Shaded" def setDisplayMode(self,mode): "Map the display mode defined in attach with those defined in getDisplayModes.                Since they have the same names nothing needs to be done. This method is optional" return mode def onChanged(self, vp, prop): "Here we can do something when a single property got changed" FreeCAD.Console.PrintMessage("Change property: " + str(prop) + "\n") if prop == "Color": c = vp.getPropertyByName("Color") self.color.rgb.setValue(c[0],c[1],c[2]) def getIcon(self): "Return the icon in XMP format which will appear in the tree view. This method is                optional and if not defined a default icon is shown." return """ 			/* XPM */ 			static const char * ViewProviderBox_xpm[] = { 			"16 16 6 1", 			" 	c None", 			".	c #141010", 			"+	c #615BD2", 			"@	c #C39D55", 			"#	c #000000", 			"$	c #57C355", 			"       ........", 			"   ......++..+..", 			"   .@@@@.++..++.", 			"   .@@@@.++..++.", 			"   .@@  .++++++.", 			"  ..@@  .++..++.", 			"###@@@@ .++..++.", 			"##$.@@$#.++++++.", 			"#$#$.$$$........", 			"#$$#######      ", 			"#$$#$$$$$#      ", 			"#$$#$$$$$#      ", 			"#$$#$$$$$#      ", 			" #$#$$$$$#      ", 			"  ##$$$$$#      ", 			"   #######      "}; 			""" def __getstate__(self): "When saving the document this object gets stored using Python's cPickle module.                Since we have some un-pickable here -- the Coin stuff -- we must define this method                 to return a tuple of all pickable objects or None." return None def __setstate__(self,state): "When restoring the pickled object from document we have the chance to set some internals here.                Since no data were pickled nothing needs to be done here." return None def makeBox: FreeCAD.newDocument a=FreeCAD.ActiveDocument.addObject("App::FeaturePython","Box") Box(a) ViewProviderBox(a.ViewObject)

Available properties
Properties are the true building stones of FeaturePython objects. Through them, the user will be able to interact and modify your object. After creating a new FeaturePython object in your document ( a=FreeCAD.ActiveDocument.addObject("App::FeaturePython","Box") ), you can get a list of the available properties by issuing:

a.supportedProperties

You will get a list of available properties:

App::PropertyBool App::PropertyFloat App::PropertyFloatList App::PropertyFloatConstraint App::PropertyAngle App::PropertyDistance App::PropertyInteger App::PropertyIntegerConstraint App::PropertyPercent App::PropertyEnumeration App::PropertyIntegerList App::PropertyString App::PropertyStringList App::PropertyLink App::PropertyLinkList App::PropertyMatrix App::PropertyVector App::PropertyVectorList App::PropertyPlacement App::PropertyPlacementLink App::PropertyColor App::PropertyColorList App::PropertyMaterial App::PropertyPath App::PropertyFile App::PropertyFileIncluded Part::PropertyPartShape Part::PropertyFilletContour Part::PropertyCircle

Other more complex example
This example makes use of the Part Module to create an octahedron, then creates its coin representation with pivy.

First is the Document object itself:

import FreeCAD, FreeCADGui, Part class Octahedron: def __init__(self, obj): "Add some custom properties to our box feature" obj.addProperty("App::PropertyLength","Length","Octahedron","Length of the octahedron").Length=1.0 obj.addProperty("App::PropertyLength","Width","Octahedron","Width of the octahedron").Width=1.0 obj.addProperty("App::PropertyLength","Height","Octahedron", "Height of the octahedron").Height=1.0 obj.addProperty("Part::PropertyPartShape","Shape","Octahedron", "Shape of the octahedron") obj.Proxy = self def execute(self, fp): # Define six vetices for the shape v1 = FreeCAD.Vector(0,0,0) v2 = FreeCAD.Vector(fp.Length,0,0) v3 = FreeCAD.Vector(0,fp.Width,0) v4 = FreeCAD.Vector(fp.Length,fp.Width,0) v5 = FreeCAD.Vector(fp.Length/2,fp.Width/2,fp.Height/2) v6 = FreeCAD.Vector(fp.Length/2,fp.Width/2,-fp.Height/2) # Make the wires/faces f1 = self.make_face(v1,v2,v5) f2 = self.make_face(v2,v4,v5) f3 = self.make_face(v4,v3,v5) f4 = self.make_face(v3,v1,v5) f5 = self.make_face(v2,v1,v6) f6 = self.make_face(v4,v2,v6) f7 = self.make_face(v3,v4,v6) f8 = self.make_face(v1,v3,v6) shell=Part.makeShell([f1,f2,f3,f4,f5,f6,f7,f8]) solid=Part.makeSolid(shell) fp.Shape = solid # helper mehod to create the faces def make_face(self,v1,v2,v3): wire = Part.makePolygon([v1,v2,v3,v1]) face = Part.Face(wire) return face

Then, we have the view provider object, responsible for showing the object in the 3D scene:

class ViewProviderOctahedron: def __init__(self, obj): "Set this object to the proxy object of the actual view provider" obj.addProperty("App::PropertyColor","Color","Octahedron","Color of the octahedron").Color=(1.0,0.0,0.0) obj.Proxy = self def attach(self, obj): "Setup the scene sub-graph of the view provider, this method is mandatory" self.shaded = coin.SoGroup self.wireframe = coin.SoGroup self.scale = coin.SoScale self.color = coin.SoBaseColor self.data=coin.SoCoordinate3 self.face=coin.SoIndexedLineSet self.shaded.addChild(self.scale) self.shaded.addChild(self.color) self.shaded.addChild(self.data) self.shaded.addChild(self.face) obj.addDisplayMode(self.shaded,"Shaded"); style=coin.SoDrawStyle style.style = coin.SoDrawStyle.LINES self.wireframe.addChild(style) self.wireframe.addChild(self.scale) self.wireframe.addChild(self.color) self.wireframe.addChild(self.data) self.wireframe.addChild(self.face) obj.addDisplayMode(self.wireframe,"Wireframe"); self.onChanged(obj,"Color") def updateData(self, fp, prop): "If a property of the handled feature has changed we have the chance to handle this here" # fp is the handled feature, prop is the name of the property that has changed if prop == "Shape": s = fp.getPropertyByName("Shape") self.data.point.setNum(6) cnt=0 for i in s.Vertexes: self.data.point.set1Value(cnt,i.X,i.Y,i.Z)               cnt=cnt+1 self.face.coordIndex.set1Value(0,0) self.face.coordIndex.set1Value(1,1) self.face.coordIndex.set1Value(2,2) self.face.coordIndex.set1Value(3,-1) self.face.coordIndex.set1Value(4,1) self.face.coordIndex.set1Value(5,3) self.face.coordIndex.set1Value(6,2) self.face.coordIndex.set1Value(7,-1) self.face.coordIndex.set1Value(8,3) self.face.coordIndex.set1Value(9,4) self.face.coordIndex.set1Value(10,2) self.face.coordIndex.set1Value(11,-1) self.face.coordIndex.set1Value(12,4) self.face.coordIndex.set1Value(13,0) self.face.coordIndex.set1Value(14,2) self.face.coordIndex.set1Value(15,-1) self.face.coordIndex.set1Value(16,1) self.face.coordIndex.set1Value(17,0) self.face.coordIndex.set1Value(18,5) self.face.coordIndex.set1Value(19,-1) self.face.coordIndex.set1Value(20,3) self.face.coordIndex.set1Value(21,1) self.face.coordIndex.set1Value(22,5) self.face.coordIndex.set1Value(23,-1) self.face.coordIndex.set1Value(24,4) self.face.coordIndex.set1Value(25,3) self.face.coordIndex.set1Value(26,5) self.face.coordIndex.set1Value(27,-1) self.face.coordIndex.set1Value(28,0) self.face.coordIndex.set1Value(29,4) self.face.coordIndex.set1Value(30,5) self.face.coordIndex.set1Value(31,-1) def getDisplayModes(self,obj): "Return a list of display modes." modes=[] modes.append("Shaded") modes.append("Wireframe") return modes def getDefaultDisplayMode(self): "Return the name of the default display mode. It must be defined in getDisplayModes." return "Shaded" def setDisplayMode(self,mode): return mode def onChanged(self, vp, prop): "Here we can do something when a single property got changed" FreeCAD.Console.PrintMessage("Change property: " + str(prop) + "\n") if prop == "Color": c = vp.getPropertyByName("Color") self.color.rgb.setValue(c[0],c[1],c[2]) def getIcon(self): return """            /* XPM */             static const char * ViewProviderBox_xpm[] = {             "16 16 6 1",             "    c None",             ".   c #141010",             "+   c #615BD2",             "@   c #C39D55",             "#   c #000000",             "$   c #57C355",             "        ........",             "   ......++..+..",             "   .@@@@.++..++.",             "   .@@@@.++..++.",             "   .@@  .++++++.",             "  ..@@  .++..++.",             "###@@@@ .++..++.",             "##$.@@$#.++++++.",             "#$#$.$$$........",             "#$$#######      ",             "#$$#$$$$$#      ",             "#$$#$$$$$#      ",             "#$$#$$$$$#      ",             " #$#$$$$$#      ",             "  ##$$$$$#      ",             "   #######      "};             """ def __getstate__(self): return None def __setstate__(self,state): return None

Finally, once our object and its viewobject are defined, we just need to call them:

FreeCAD.newDocument a=FreeCAD.ActiveDocument.addObject("App::FeaturePython","Octahedron") Octahedron(a) ViewProviderOctahedron(a.ViewObject)