diff --git a/.scripts/foot_gen.py b/.scripts/foot_gen.py index 330da61..c16b33d 100644 --- a/.scripts/foot_gen.py +++ b/.scripts/foot_gen.py @@ -110,6 +110,7 @@ for foot in saved: path_split = vals[0].split(':') folder = sys.path[0] + "/../../libs/melonlib/"+ path_split[0] + ".pretty" load_foot = FootprintLoad(folder, path_split[1]) + print("Foot: ", vals[0], "; ", folder, ", ", path_split[1]) # foot.SetFPIDAsString(vals[0]) # Save the original postion of footprint + pads orig_cent = foot.GetBoundingBox(False,False).Centre() @@ -160,7 +161,7 @@ for foot in saved: # sorted_foots.sort(key=lambda foot: foot[0].GetY()) # Export the step file -os.system("kicad-cli pcb export step -f --subst-models --user-origin " + str(ToMM(brd_cent.x)) + "x" + str(ToMM(brd_cent.y)) + "mm -o /tmp/dummy.step " + sys.argv[1]) +os.system("kicad-cli pcb export step -f --no-dnp --subst-models --user-origin " + str(ToMM(brd_cent.x)) + "x" + str(ToMM(brd_cent.y)) + "mm -o /tmp/dummy.step " + sys.argv[1]) # Import the 3d model of the actual PCB dummy = FOOTPRINT(pcb) @@ -258,7 +259,8 @@ for [foot, pad_map] in sorted_foots: # kicad_mod.append(Circle(center=cent_mm, radius=radius, layer='F.Silkscreen', width=0.05)) for d in foot.GraphicalItems(): - if type(d) is pcbnew.FP_SHAPE and "F.Courtyard" in d.GetLayerName(): + print("Type: ", type(d), "Layer: ", d.GetLayerName()) + if type(d) is pcbnew.PCB_SHAPE and "Courtyard" in d.GetLayerName(): shape_type = d.GetShape() cent = d.GetCenter() - brd_cent print("Courtyard: ", cent, shape_type) @@ -406,7 +408,7 @@ for i in range(len(corners)): kicad_mod.append(Line(start=start, end=corners[j], layer='F.SilkS', width=0.1)) -# kicad_mod.append(RectLine(start=[-brd_width/2,-brd_height/2], end=[brd_width/2,brd_height/2], layer='F.SilkS', width=0.15)) +# kicad_mod.append(RectLine(start=[-brd_width/2,-brd_height/2], end=[brd_width/2,brd_height/2], layer='F.S', width=0.15)) final_model_path = "${KIPRJMOD}/../libs/melon3d/" + foot_path + ".3dshapes/" + foot_name + ".step"