Obiecte create prin script-programare

From FreeCAD Documentation
This page is a translated version of the page Scripted objects and the translation is 10% complete.
Outdated translations are marked like this.

Introduction

Pe lângă tipurile obișnuite de obiecte, cum ar fi adnotările, plasele și obiectele de piese, FreeCAD oferă, de asemenea, uimitoare posibilitate de a scrie scriptul obeictelor 100% Python, numite caracteristici Python. Aceste obiecte se vor comporta exact ca orice alt obiect FreeCAD și vor fi salvate și restaurate automat la salvarea / încărcarea fișierelor.

O particularitate care trebuie înțeleasă, aceste obiecte sunt salvate în fișiere FreeCAD FcStd cu modului python json module. Acest modul transformă un obiect python în șir de caractere(test), permițându-l să fie adăugat la fișierul salvat. Odată încărcat, modulul json utilizează șirul de caracter pentru a recrea obiectul original, cu condiția ca acesta să aibă acces la codul sursă care a creat obiectul. Aceasta înseamnă că dacă salvați un astfel de obiect personalizat și îl deschideți pe o mașină unde codul python care a generat obiectul nu este prezent, obiectul nu va fi recreat. Dacă distribuiți astfel de obiecte ale altora, va trebui să distribuiți în totalitate scriptul python care a creat-o împreună.

Note: It is possible to pack python code inside a FreeCAD file using json serializing with an App::PropertyPythonObject, but that code can never directly be run, and therefore has little use for our purpose here.

Caracteristicile Python respectă aceeași regulă ca toate funcțiile FreeCAD: ele sunt separate în părți App(application) și GUI(interfață grafică). Partea de aplicație, Object App, definește geometria obiectului nostru, în timp ce partea GUI, definește modul în care obiectul va fi afișat pe ecran. Instrumentul View Provider Objet, ca oricare altă caracteristică FreeCAD, este disponibil numai când rulați FreeCAD în propriul GUI. Există mai multe proprietăți și metode disponibile pentru a construi obiectul. Proprietățile trebuie să fie oricare dintre tipurile de proprietăți predefinite oferite de FreeCAD și vor apărea în fereastra de vizualizare a proprietății, astfel încât acestea să poată fi editate de utilizator. În acest fel, obiectele FeaturePython (au toate proprietățile Python) sunt cu adevărat și în totalitate parametrice. Puteți defini proprietăți pentru Obiect și ViewObject separat.

Basic example

Exemplu de bază

Următorul exemplu poate fi găsit in fișierul src/Mod/TemplatePyMod/FeaturePython.py, împreună cu alte exemple:

'''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(float(l), float(w), float(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 XPM 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 dumps(self):
        '''When saving the document this object gets stored using Python's json module.\
                Since we have some un-serializable parts here -- the Coin stuff -- we must define this method\
                to return a tuple of all serializable objects or None.'''
        return None

    def loads(self,state):
        '''When restoring the serialized object from document we have the chance to set some internals here.\
                Since no data were serialized nothing needs to be done here.'''
        return None

def makeBox():
    FreeCAD.newDocument()
    a=FreeCAD.ActiveDocument.addObject("App::FeaturePython", "Box")
    Box(a)
    ViewProviderBox(a.ViewObject)

makeBox()

Things to note

If your object relies on being recomputed as soon as it is created, you must do this manually in the __init__ function as it is not called automatically. This example does not require it because the onChanged method of the Box class has the same effect as the execute function, but the examples below rely on being recomputed before anything is displayed in the 3D view. In the examples, this is done manually with ActiveDocument.recompute() but in more complex scenarios you need to decide where to recompute either the whole document or the FeaturePython object.

This example produces a number of exception stack traces in the report view window. This is because the onChanged method of the Box class is called each time a property is added in __init__. When the first one is added, the Width and Height properties don't exist yet and so the attempt to access them fails.

An explanation of __getstate__ and __setstate__ which have been replaced by dumps and loads is in the forum thread obj.Proxy.Type is a dict, not a string.

obj.addProperty(...) returns obj, so that the value of the property can be set on the same line:

obj.addProperty("App::PropertyLength", "Length", "Box", "Length of the box").Length = 1.0

Which is equivalent to:

obj.addProperty("App::PropertyLength", "Length", "Box", "Length of the box")
obj.Length = 1.0

Other more complex example

Alte exemple mai complexe

Acest exemplu ne face să utilizăm Part Workbench pentru a crea un octahedron, apoi crează reprezentarea sa coin cu pivy.

Primul este însuși obiectul Document:

import FreeCAD, FreeCADGui, Part
import pivy
from pivy import coin

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

Apoi, avem obiectul furnizorului de vizualizare, responsabil pentru afișarea obiectului în scena 3D:

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.SoIndexedFaceSet()

     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 dumps(self):
     return None

  def loads(self,state):
     return None

În cele din urmă, odată ce obiectul și obiectul său de vedere sunt definite, trebuie doar să le numim (clasa Octahedron și codul clasei viewprovider pot fi copiate direct în consola Python FreeCAD):

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

Making objects selectable

Crearea de obiecte selectabile

Dacă doriți să faceți obiectul selectabil sau cel puțin o parte a acestuia, făcând clic pe el în fereastra de vizualizare, trebuie să includeți forma geometriei sale în interiorul unui nod SoFCSelection. Dacă obiectul are o reprezentare complexă, cu widget-uri, adnotări etc., poate doriți să includeți doar o parte a acestuia într-o selecție SoFCSelecție. Tot ceea ce este un SoFCSelection este scanat constant de FreeCAD pentru a detecta selectia / preselectarea, deci ar fi bine să nu incercați a o supraincarca cu scanări inutile. Iată un exemplu de ceea ce ați face pentru a include o self.face din exemplul de mai sus :

Once the parts of the scenegraph that are to be selectable are inside SoFCSelection nodes, you then need to provide two methods to handle the selection path. The selection path can take the form of a string giving the names of each element in the path, or of an array of scenegraph objects. The two methods you provide are getDetailPath, which converts from a string path to an array of scenegraph objects, and getElementPicked, which takes an element which has been clicked on in the scenegraph and returns its string name (note, not its string path).

Here is the molecule example above, adapted to make the elements of the molecule selectable:

class Molecule:
    def __init__(self, obj):
        ''' Add two point properties '''
        obj.addProperty("App::PropertyVector","p1","Line","Start point")
        obj.addProperty("App::PropertyVector","p2","Line","End point").p2=FreeCAD.Vector(5,0,0)

        obj.Proxy = self

    def onChanged(self, fp, prop):
        if prop == "p1" or prop == "p2":
            ''' Print the name of the property that has changed '''
            fp.Shape = Part.makeLine(fp.p1,fp.p2)

    def execute(self, fp):
        ''' Print a short message when doing a recomputation, this method is mandatory '''
        fp.Shape = Part.makeLine(fp.p1,fp.p2)

class ViewProviderMolecule:
    def __init__(self, obj):
        ''' Set this object to the proxy object of the actual view provider '''
        obj.Proxy = self
        self.ViewObject = obj
        sep1=coin.SoSeparator()
        sel1 = coin.SoType.fromName('SoFCSelection').createInstance()
        # sel1.policy.setValue(coin.SoSelection.SHIFT)
        sel1.ref()
        sep1.addChild(sel1)
        self.trl1=coin.SoTranslation()
        sel1.addChild(self.trl1)
        sel1.addChild(coin.SoSphere())
        sep2=coin.SoSeparator()
        sel2 = coin.SoType.fromName('SoFCSelection').createInstance()
        sel2.ref()
        sep2.addChild(sel2)
        self.trl2=coin.SoTranslation()
        sel2.addChild(self.trl2)
        sel2.addChild(coin.SoSphere())
        obj.RootNode.addChild(sep1)
        obj.RootNode.addChild(sep2)
        self.updateData(obj.Object, 'p2')
        self.sel1 = sel1
        self.sel2 = sel2

    def getDetailPath(self, subname, path, append):
        vobj = self.ViewObject
        if append:
            path.append(vobj.RootNode)
            path.append(vobj.SwitchNode)

            mode = vobj.SwitchNode.whichChild.getValue()
            if mode >= 0:
                mode = vobj.SwitchNode.getChild(mode)
                path.append(mode)
                sub = Part.splitSubname(subname)[-1]
                if sub == 'Atom1':
                    path.append(self.sel1)
                elif sub == 'Atom2':
                    path.append(self.sel2)
                else:
                    path.append(mode.getChild(0))
        return True

    def getElementPicked(self, pp):
        path = pp.getPath()
        if path.findNode(self.sel1) >= 0:
            return 'Atom1'
        if path.findNode(self.sel2) >= 0:
            return 'Atom2'
        raise NotImplementedError

    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 == "p1":
            p = fp.getPropertyByName("p1")
            self.trl1.translation=(p.x,p.y,p.z)
        elif prop == "p2":
            p = fp.getPropertyByName("p2")
            self.trl2.translation=(p.x,p.y,p.z)

    def dumps(self):
        return None

    def loads(self,state):
        return None

def makeMolecule():
    FreeCAD.newDocument()
    a=FreeCAD.ActiveDocument.addObject("Part::FeaturePython","Molecule")
    Molecule(a)
    ViewProviderMolecule(a.ViewObject)
    FreeCAD.ActiveDocument.recompute()

Working with simple shapes

Lucrul cu forme simple

Dacă obiectul dvs. parametric emite doar o formă simplă, nu este necesar să utilizați un obiect furnizor de vizualizare(view provider object). Forma va fi afișată utilizând reprezentarea standard a formelor din FreeCAD:

import FreeCAD as App
import FreeCADGui
import FreeCAD
import Part
class Line:
    def __init__(self, obj):
        '''"App two point properties" '''
        obj.addProperty("App::PropertyVector","p1","Line","Start point")
        obj.addProperty("App::PropertyVector","p2","Line","End point").p2=FreeCAD.Vector(1,0,0)
        obj.Proxy = self

    def execute(self, fp):
        '''"Print a short message when doing a recomputation, this method is mandatory" '''
        fp.Shape = Part.makeLine(fp.p1,fp.p2)

a=FreeCAD.ActiveDocument.addObject("Part::FeaturePython","Line")
Line(a)
a.ViewObject.Proxy=0 # just set it to something different from None (this assignment is needed to run an internal notification)
FreeCAD.ActiveDocument.recompute()

Același cod utilizând ViewProviderLine

import FreeCAD as App
import FreeCADGui
import FreeCAD
import Part

class Line:
    def __init__(self, obj):
         '''"App two point properties" '''
         obj.addProperty("App::PropertyVector","p1","Line","Start point")
         obj.addProperty("App::PropertyVector","p2","Line","End point").p2=FreeCAD.Vector(100,0,0)
         obj.Proxy = self

    def execute(self, fp):
        '''"Print a short message when doing a recomputation, this method is mandatory" '''
        fp.Shape = Part.makeLine(fp.p1,fp.p2)

class ViewProviderLine:
   def __init__(self, obj):
      ''' Set this object to the proxy object of the actual view provider '''
      obj.Proxy = self

   def getDefaultDisplayMode(self):
      ''' Return the name of the default display mode. It must be defined in getDisplayModes. '''
      return "Flat Lines"

a=FreeCAD.ActiveDocument.addObject("Part::FeaturePython","Line")
Line(a)
ViewProviderLine(a.ViewObject)
App.ActiveDocument.recompute()

Scenegraph Structure

You may have noticed that the examples above construct their scenegraphs in slightly different ways. Some use obj.addDisplayMode(node, "modename") while others use obj.SwitchNode.getChild(x).addChild(y).

Each feature in a FreeCAD document is based the following scenegraph structure:

RootNode
 \- SwitchNode
     \- Shaded
      - Wireframe
      - etc

The SwitchNode displays only one of its children, depending on which display mode is selection in FreeCAD.

The examples which use addDisplayMode are constructing their scenegraphs solely out of coin3d scenegraph elements. Under the covers, addDisplayMode adds a new child to the SwitchNode; the name of that node will match the display mode it was passed.

The examples which use SwitchNode.getChild(x).addChild also construct part of their geometry using functions from the Part workbench, such as fp.Shape = Part.makeLine(fp.p1,fp.p2). This constructs the different display mode scenegraphs under the SwitchNode; when we later come to add coin3d elements to the scenegraph, we need to add them to the existing display mode scenegraphs using addChild rather than creating a new child of the SwitchNode.

When using addDisplayMode() to add geometry to the scenegraph, each display mode should have its own node which is passed to addDisplayMode(); don't reuse the same node for this. Doing so will confuse the selection mechanism. It's okay if each display mode's node has the same geometry nodes added below it, just the root of each display mode needs to be distinct.

Here is the above molecule example, adapted to be drawn only with Coin3D scenegraph objects instead of using objects from the Part workbench:

import Part
from pivy import coin

class Molecule:
    def __init__(self, obj):
        ''' Add two point properties '''
        obj.addProperty("App::PropertyVector","p1","Line","Start point")
        obj.addProperty("App::PropertyVector","p2","Line","End point").p2=FreeCAD.Vector(5,0,0)

        obj.Proxy = self

    def onChanged(self, fp, prop):
        pass

    def execute(self, fp):
        ''' Print a short message when doing a recomputation, this method is mandatory '''
        pass

class ViewProviderMolecule:
    def __init__(self, obj):
        ''' Set this object to the proxy object of the actual view provider '''
        self.constructed = False
        obj.Proxy = self
        self.ViewObject = obj

    def attach(self, obj):
        material = coin.SoMaterial()
        material.diffuseColor = (1.0, 0.0, 0.0)
        material.emissiveColor = (1.0, 0.0, 0.0)
        drawStyle = coin.SoDrawStyle()
        drawStyle.pointSize.setValue(10)
        drawStyle.style = coin.SoDrawStyle.LINES
        wireframe = coin.SoGroup()
        shaded = coin.SoGroup()
        self.wireframe = wireframe
        self.shaded = shaded

        self.coords = coin.SoCoordinate3()
        self.coords.point.setValues(0, 2, [FreeCAD.Vector(0, 0, 0), FreeCAD.Vector(1, 0, 0)])
        wireframe += self.coords
        wireframe += drawStyle
        wireframe += material
        shaded += self.coords
        shaded += drawStyle
        shaded += material

        g = coin.SoGroup()
        sel1 = coin.SoType.fromName('SoFCSelection').createInstance()
        sel1.style = 'EMISSIVE_DIFFUSE'
        p1 = coin.SoType.fromName('SoIndexedPointSet').createInstance()
        p1.coordIndex.set1Value(0, 0)
        sel1 += p1
        g += sel1
        wireframe += g
        shaded += g

        g = coin.SoGroup()
        sel2 = coin.SoType.fromName('SoFCSelection').createInstance()
        sel2.style = 'EMISSIVE_DIFFUSE'
        p2 = coin.SoType.fromName('SoIndexedPointSet').createInstance()
        p2.coordIndex.set1Value(0, 1)
        sel2 += p2
        g += sel2
        wireframe += g
        shaded += g

        g = coin.SoGroup()
        sel3 = coin.SoType.fromName('SoFCSelection').createInstance()
        sel3.style = 'EMISSIVE_DIFFUSE'
        p3 = coin.SoType.fromName('SoIndexedLineSet').createInstance()
        p3.coordIndex.setValues(0, 2, [0, 1])
        sel3 += p3
        g += sel3
        wireframe += g
        shaded += g

        obj.addDisplayMode(wireframe, 'Wireframe')
        obj.addDisplayMode(shaded, 'Shaded')

        self.sel1 = sel1
        self.sel2 = sel2
        self.sel3 = sel3
        self.constructed = True
        self.updateData(obj.Object, 'p2')

    def getDetailPath(self, subname, path, append):
        vobj = self.ViewObject
        if append:
            path.append(vobj.RootNode)
            path.append(vobj.SwitchNode)

            mode = vobj.SwitchNode.whichChild.getValue()
            FreeCAD.Console.PrintWarning("getDetailPath: mode {} is active\n".format(mode))
            if mode >= 0:
                mode = vobj.SwitchNode.getChild(mode)
                path.append(mode)
                sub = Part.splitSubname(subname)[-1]
                print(sub)
                if sub == 'Atom1':
                    path.append(self.sel1)
                elif sub == 'Atom2':
                    path.append(self.sel2)
                elif sub == 'Line':
                    path.append(self.sel3)
                else:
                    path.append(mode.getChild(0))
        return True

    def getElementPicked(self, pp):
        path = pp.getPath()
        if path.findNode(self.sel1) >= 0:
            return 'Atom1'
        if path.findNode(self.sel2) >= 0:
            return 'Atom2'
        if path.findNode(self.sel3) >= 0:
            return 'Line'
        raise NotImplementedError

    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 not self.constructed:
            return
        if prop == "p1":
            p = fp.getPropertyByName("p1")
            self.coords.point.set1Value(0, p)
        elif prop == "p2":
            p = fp.getPropertyByName("p2")
            self.coords.point.set1Value(1, p)

    def getDisplayModes(self, obj):
        return ['Wireframe', 'Shaded']

    def getDefaultDisplayMode(self):
        return 'Shaded'

    def setDisplayMode(self, mode):
        return mode

    def dumps(self):
        return None

    def loads(self,state):
        return None

def makeMolecule():
    FreeCAD.newDocument()
    a=FreeCAD.ActiveDocument.addObject("App::FeaturePython","Molecule")
    Molecule(a)
    b=ViewProviderMolecule(a.ViewObject)
    a.touch()
    FreeCAD.ActiveDocument.recompute()
    return a,b

a,b = makeMolecule()

Part Design scripted objects

When making scripted objects in Part Design the process is similar to the scripted objects discussed above, but with a few additional considerations. We must handle 2 shape properties, one for the shape we see in the 3D view and another for the shape used by the pattern tools, such as polar pattern features. The object shapes also needs to be fused to any existing material already in the Body (or cut from it in the case of Subtractive features). And we must account for the placement and attachment of our objects a little bit differently.

Part Design scripted solid object features should be based on either PartDesign::FeaturePython, PartDesign::FeatureAdditivePython, or PartDesign::FeatureSubtractivePython rather than Part::FeaturePython. Only the Additive and Subtractive variants can be used in pattern features, and if based on Part::FeaturePython when the user drops the object into a Part Design Body it becomes a BaseFeature rather than being treated by the Body as a native Part Design object. Note: all of these are expected to be solids, so if you are making a non-solid feature it should be based on Part::FeaturePython or else the next feature in the tree will attempt to fuse to as a solid and it will fail.

Here is a simple example of making a Tube primitive, similar to the Tube primitive in Part Workbench except this one will be a Part Design solid feature object. For this we will 2 separate files: pdtube.FCMacro and pdtube.py. The .FCMacro file will be executed by the user to create the object. The .py file will hold the class definitions, imported by the .FCMacro. The reason for doing it this way is to maintain the parametric nature of the object after restarting FreeCAD and opening a document containing one of our Tubes.

First, the class definition file:

# -*- coding: utf-8 -*-
#classes should go in pdtube.py
import FreeCAD, FreeCADGui, Part
class PDTube:
    def __init__(self,obj):
        obj.addProperty("App::PropertyLength","Radius1","Tube","Radius1").Radius1 = 5
        obj.addProperty("App::PropertyLength","Radius2","Tube","Radius2").Radius2 = 10
        obj.addProperty("App::PropertyLength","Height","Tube","Height of tube").Height = 10
        self.makeAttachable(obj)
        obj.Proxy = self

    def makeAttachable(self, obj):

        if int(FreeCAD.Version()[1]) >= 19:
            obj.addExtension('Part::AttachExtensionPython')
        else:
            obj.addExtension('Part::AttachExtensionPython', obj)

        obj.setEditorMode('Placement', 0) #non-readonly non-hidden

    def execute(self,fp):
        outer_cylinder = Part.makeCylinder(fp.Radius2, fp.Height)
        inner_cylinder = Part.makeCylinder(fp.Radius1, fp.Height)
        if fp.Radius1 == fp.Radius2: #just make cylinder
            tube_shape = outer_cylinder
        elif fp.Radius1 < fp.Radius2:
            tube_shape = outer_cylinder.cut(inner_cylinder)
        else: #invert rather than error out
            tube_shape = inner_cylinder.cut(outer_cylinder)

        if not hasattr(fp, "positionBySupport"):
            self.makeAttachable(fp)
        fp.positionBySupport()
        tube_shape.Placement = fp.Placement

        #BaseFeature (shape property of type Part::PropertyPartShape) is provided for us
        #with the PartDesign::FeaturePython and related classes, but it might be empty
        #if our object is the first object in the tree.  it's a good idea to check
        #for its existence in case we want to make type Part::FeaturePython, which won't have it

        if hasattr(fp, "BaseFeature") and fp.BaseFeature != None:
            if "Subtractive" in fp.TypeId:
                full_shape = fp.BaseFeature.Shape.cut(tube_shape)
            else:
                full_shape = fp.BaseFeature.Shape.fuse(tube_shape)
            full_shape.transformShape(fp.Placement.inverse().toMatrix(), True) #borrowed from gears workbench
            fp.Shape = full_shape
        else:
            fp.Shape = tube_shape
        if hasattr(fp,"AddSubShape"): #PartDesign::FeatureAdditivePython and
                                      #PartDesign::FeatureSubtractivePython have this
                                      #property but PartDesign::FeaturePython does not
                                      #It is the shape used for copying in pattern features
                                      #for example in making a polar pattern
            tube_shape.transformShape(fp.Placement.inverse().toMatrix(), True)
            fp.AddSubShape = tube_shape

class PDTubeVP:
    def __init__(self, obj):
        '''Set this object to the proxy object of the actual view provider'''
        obj.Proxy = self

    def attach(self,vobj):
        self.vobj = vobj

    def updateData(self, fp, prop):
        '''If a property of the handled feature has changed we have the chance to handle this here'''
        pass

    def getDisplayModes(self,obj):
        '''Return a list of display modes.'''
        modes=[]
        modes.append("Flat Lines")
        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 "Flat Lines"

    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")
        pass

    def getIcon(self):
        '''Return the icon in XPM 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 dumps(self):
        '''When saving the document this object gets stored using Python's json module.\
                Since we have some un-serializable parts here -- the Coin stuff -- we must define this method\
                to return a tuple of all serializable objects or None.'''
        return None

    def loads(self,state):
        '''When restoring the serialized object from document we have the chance to set some internals here.\
                Since no data were serialized nothing needs to be done here.'''
        return None

And now the macro file to create the object:

# -*- coding: utf-8 -*-

#pdtube.FCMacro
import pdtube
#above line needed if the class definitions above are place in another file: PDTube.py
#this is needed if the tube object is to remain parametric after restarting FreeCAD and loading
#a document containing the object

body = FreeCADGui.ActiveDocument.ActiveView.getActiveObject("pdbody")
if not body:
    FreeCAD.Console.PrintError("No active body.\n")
else:
    from PySide import QtGui
    window = FreeCADGui.getMainWindow()
    items = ["Additive","Subtractive","Neither additive nor subtractive"]
    item,ok =QtGui.QInputDialog.getItem(window,"Select tube type","Select whether you want additive, subtractive, or neither:",items,0,False)
    if ok:
        if item == items[0]:
            className = "PartDesign::FeatureAdditivePython"
        elif item == items[1]:
            className = "PartDesign::FeatureSubtractivePython"
        else:
            className = "PartDesign::FeaturePython" #not usable in pattern features, such as polar pattern

        tube = FreeCAD.ActiveDocument.addObject(className,"Tube")
        pdtube.PDTube(tube)
        pdtube.PDTubeVP(tube.ViewObject)
        body.addObject(tube) #optionally we can also use body.insertObject() for placing at particular place in tree

Available object types

The list of all object types you can create with FreeCAD.ActiveDocument.addObject() can be obtained with FreeCAD.ActiveDocument.supportedTypes(). Only object types with a name ending in Python can be used for scripted objects. These are listed here (for FreeCAD v0.21):

  • App::DocumentObjectGroupPython
  • App::FeaturePython
  • App::GeometryPython
  • App::LinkElementPython
  • App::LinkGroupPython
  • App::LinkPython
  • App::MaterialObjectPython
  • App::PlacementPython
  • Part::CustomFeaturePython
  • Part::FeaturePython
  • Part::Part2DObjectPython
  • Path::FeatureAreaPython
  • Path::FeatureAreaViewPython
  • Path::FeatureCompoundPython
  • Path::FeaturePython
  • Path::FeatureShapePython
  • Sketcher::SketchObjectPython
  • TechDraw::DrawComplexSectionPython
  • TechDraw::DrawLeaderLinePython
  • TechDraw::DrawPagePython
  • TechDraw::DrawRichAnnoPython
  • TechDraw::DrawTemplatePython
  • TechDraw::DrawTilePython
  • TechDraw::DrawTileWeldPython
  • TechDraw::DrawViewPartPython
  • TechDraw::DrawViewPython
  • TechDraw::DrawViewSectionPython
  • TechDraw::DrawViewSymbolPython
  • TechDraw::DrawWeldSymbolPython

Available methods

See FeaturePython methods for the complete reference.

Available properties

Proprietăți disponibile

Proprietățile sunt adevăratele pietre de temelie ale obiectelor FeaturePython. Prin intermediul acestora, utilizatorul va putea să interacționeze și să vă modifice obiectul. După crearea unui nou obiect FeaturePython din documentul dvs. (obj = FreeCAD.ActiveDocument.addObject ("App :: FeaturePython", "Box")), puteți obține o listă a proprietăților disponibile prin emiterea:

obj = FreeCAD.ActiveDocument.addObject("App::FeaturePython", "Box")
obj.supportedProperties()

Veți obține o listă cu proprietățile disponibile:

Când adăugați proprietăți obiectelor dvs. personalizate, aveți grijă de acestea:

  • Nu utilizați caractere "<" sau ">" în descrierile de proprietăți (care ar sparge fragmente de cod în fișierul xml.fcstd)
  • Proprietățile sunt stocate în ordine alfabetică într-un fișier .fcstd. Toate proprietățile ale căror nume vine după ”Shape” sunt așezate în ordine alfabetică . Dacă aveți o formă în proprietățile dvs., și cum orice proprietate al cărei nume vine după "Shape", se poate să aveți parte de comportamente ciudate.

The properties are defined in the PropertyStandard C++ header file.

Property types

Tipuri de proprietăți

Implicit proprietățile pot fi actualizate. Este posibil să se facă proprietățile numai pentru citire, de exemplu în cazul în care cineva dorește să afișeze rezultatul unei metode. De asemenea, este posibilă ascunderea proprietății. Tipul de proprietate poate fi setat utilizând

obj.setEditorMode("MyPropertyName", mode)

unde mode este un int scurt care poate fi definit ca:

 0 -- modul imolicit, read and write
 1 -- read-only
 2 -- hidden

The mode can also be set using a list of strings, e.g. obj.setEditorMode("Placement", ["ReadOnly", "Hidden"]).

EditorModes nu sunt definite la reîncărcarea fișierului FreeCAD. Acest lucru ar putea fi făcut prin funcția the __setstate__ function. Vezi http://forum.freecadweb.org/viewtopic.php?f=18&t=13460&start=10#p108072. Folosind setEditorMode proprietățile sunt citite numai în PropertyEditor. S-ar putea schimba încă de la Python. Pentru a le face să citească doar setarea trebuie să fie transmisă direct în interiorul funcției addProperty. A s vedea http://forum.freecadweb.org/viewtopic.php?f=18&t=13460&start=20#p109709 for an example.

Using the direct setting in the addProperty function, you also have more possibilities. In particular, an interesting one is mark a property as an output property. This way FreeCAD won't mark the feature as touched when changing it (so no need to recompute).

Example of output property (see also https://forum.freecadweb.org/viewtopic.php?t=24928):

obj.addProperty("App::PropertyString", "MyCustomProperty", "", "", 8)

The property types that can be set at last parameter of the addProperty function are:

  0 -- Prop_None, No special property type
  1 -- Prop_ReadOnly, Property is read-only in the editor
  2 -- Prop_Transient, Property won't be saved to file
  4 -- Prop_Hidden, Property won't appear in the editor
  8 -- Prop_Output, Modified property doesn't touch its parent container
 16 -- Prop_NoRecompute, Modified property doesn't touch its container for recompute
 32 -- Prop_NoPersist, Property won't be saved to file at all

The property types are defined in the PropertyContainer C++ header file.

Available extensions

The list of available extensions can be obtained with grep -RI EXTENSION_PROPERTY_SOURCE_TEMPLATE in the repository of the source code and is given here (for FreeCAD v0.21).

For objects:

  • App::GeoFeatureGroupExtensionPython
  • App::GroupExtensionPython
  • App::LinkBaseExtensionPython
  • App::LinkExtensionPython
  • App::OriginGroupExtensionPython
  • Part::AttachExtensionPython
  • TechDraw::CosmeticExtensionPython

For view objects:

  • Gui::ViewProviderExtensionPython
  • Gui::ViewProviderGeoFeatureGroupExtensionPython
  • Gui::ViewProviderGroupExtensionPython
  • Gui::ViewProviderOriginGroupExtensionPython
  • PartGui::ViewProviderAttachExtensionPython
  • PartGui::ViewProviderSplineExtensionPython

There exist other extensions but they do not work as-is:

  • App::ExtensionPython
  • TechDrawGui::ViewProviderCosmeticExtensionPython
  • TechDrawGui::ViewProviderDrawingViewExtensionPython
  • TechDrawGui::ViewProviderPageExtensionPython
  • TechDrawGui::ViewProviderTemplateExtensionPython

Informație suplimentară

Există câteva subiecte foarte interesante pe forum despre obiectele script:

Additional pages:

Interesting forum threads about scripted objects:

În plus față de exemplele prezentate aici puteți să vă aruncați o privire în codul sursă FreeCAD src/Mod/TemplatePyMod/FeaturePython.py for more examples.


PySide
Embedding FreeCAD