Förena tråd

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This page is a translated version of the page Macro JointWire and the translation is 100% complete.
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!!! This macro needs to be corrected. !!!

Macro JointWire.png Förena tråd

Beskrivning
!!! This macro needs to be corrected. !!!
Detta makro tillåter att hitta och fästa all icke-ansluten kant till närmaste icke-anslutna en med en linje. Det tar en formmatris i ingången ( [shape1,shape2,...])

Versions makro : 0.1
Datum senaste ändring : 2011-08-24
FreeCAD-versionen : All
Ladda ner : ToolBar Icon
Författare
Tremblou
Ladda ner
ToolBar Icon
länkar
Makroversion
0.1
Datum senaste ändring
2011-08-24
FreeCAD Version(s)
All
Standard genväg
None
Se även
None


Beskrivning

Detta makro hittar alla oanslutna kanter och kopplar ihop dem med den närmaste oanslutna genom att använda en linje. Det har en matrisform i inmatningen ( [shape1,shape2,...]).

Script

ToolBar Icon Macro JointWire.png

Macro_JointWire.FCMacro

def findWires(edges):
    def verts(shape):
                return [shape.Vertexes[0].Point,shape.Vertexes[-1].Point]
        def group(shapes):
                shapesIn = shapes[:]
                pointTst = []
        pointOut =[]
        for s in shapesIn :
            pointTst=pointTst+[s.Vertexes[0].Point]
            pointTst=pointTst+[s.Vertexes[-1].Point]
        print pointTst               
        changed = False
                for s in shapesIn:
                        if len(s.Vertexes) < 2:
                print "one vertex, its a circle, just add"
                        else:                             
                                for v in verts(s):
                    twoDot=0
                                        for vv in pointTst:
                                                if v == vv:
                            twoDot=twoDot+1                           
                        if v==vv and twoDot==2 :                   
                            changed = True
                            print "found matching vert"
                            break
                                    if twoDot<2:
                        print "didn't find any matching vert..."
                        pointOut.append(v)
         print "Dots non connected", pointOut
                return(changed,pointOut)
    def joint(point):
        for p in range(len(point)/2) :
            print point
            deltI=Part.Vertex(100,100,100).Point
            pos=1
            for pp in range(len(point)-1) :
                print "position:",pp+1
                if len(point)-1>1:
                    deltN=(point[0]-point[pp+1])
                    if deltN.Length<deltI.Length:
                        deltI=deltN
                        pos=pp+1
                        print "changement",pos
                else:
                    pos=1   
            print "points a joindre",point[0],point[pos]
            if point[0]!=point[pos]:
                Part.show(Part.makePolygon([point[0],point[pos]]))
            else:
                print "WARNING les points ont la meme valeurs "
            point.pop(0)
            point.pop(pos-1)
        point=0 #to have a return normally void
        return(point)
    working = True
        edgeSet = edges
    result = group(edgeSet)
        working = result[0]
        edgeSet = result[1]
    joint(result[1])
        return result[1]