nts and decompose them
4. use f(x) component with formula "If x=0,true,false"
5. take Z values from point decomposition, and input it as x value in f(x)
6. use cull pattern , as pattern provide values produces with fx, list to cull is our brep edges from brep explosion
END
Other possibility, maybe more flexible :
1. explode brep
2. compute area of faces (from F output) (area component)
3. get C (centroids)
4. sort list from C with sort list component(as K again provide Z values of centroid points)
5. as A input provide faces of exploded brep
6. use list item component with A output from sort list
7. now use brep wireframe on face outputted with list item component - thats your curve…
mport itertoolsa = [len(list(g)) for k, g in itertools.groupby(Boolean)]5) Right click your inputs and choose list accessIt should look something like this:
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