202 lines
7.0 KiB
Python
202 lines
7.0 KiB
Python
from ObjectCollection import *
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from tclCommands.TclCommand import TclCommandSignaled
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class TclCommandAlignDrill(TclCommandSignaled):
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"""
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Tcl shell command to create excellon with drills for aligment.
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"""
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# array of all command aliases, to be able use old names for
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# backward compatibility (add_poly, add_polygon)
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aliases = ['aligndrill']
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# Dictionary of types from Tcl command, needs to be ordered.
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# For positional arguments
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arg_names = collections.OrderedDict([
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('name', str)
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])
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# Dictionary of types from Tcl command, needs to be ordered.
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# For options like -optionname value
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option_types = collections.OrderedDict([
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('box', str),
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('axis', str),
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('holes', str),
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('grid', float),
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('minoffset', float),
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('gridoffset', float),
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('axisoffset', float),
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('dia', float),
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('dist', float),
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])
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# array of mandatory options for current Tcl command: required = {'name','outname'}
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required = ['name', 'axis']
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# structured help for current command, args needs to be ordered
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help = {
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'main': "Create excellon with drills for aligment.",
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'args': collections.OrderedDict([
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('name', 'Name of the object (Gerber or Excellon) to mirror.'),
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('dia', 'Tool diameter'),
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('box', 'Name of object which act as box (cutout for example.)'),
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('grid', 'Aligning to grid, for those, who have aligning pins'
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'inside table in grid (-5,0),(5,0),(15,0)...'),
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('gridoffset', 'offset of grid from 0 position.'),
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('minoffset', 'min and max distance between align hole and pcb.'),
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('axisoffset', 'Offset on second axis before aligment holes'),
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('axis', 'Mirror axis parallel to the X or Y axis.'),
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('dist', 'Distance of the mirror axis to the X or Y axis.')
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]),
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'examples': []
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}
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def execute(self, args, unnamed_args):
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"""
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execute current TCL shell command
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:param args: array of known named arguments and options
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:param unnamed_args: array of other values which were passed into command
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without -somename and we do not have them in known arg_names
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:return: None or exception
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"""
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name = args['name']
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# Get source object.
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try:
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obj = self.app.collection.get_by_name(str(name))
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except:
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return "Could not retrieve object: %s" % name
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if obj is None:
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return "Object not found: %s" % name
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if not isinstance(obj, FlatCAMGeometry) and \
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not isinstance(obj, FlatCAMGerber) and \
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not isinstance(obj, FlatCAMExcellon):
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return "ERROR: Only Gerber, Geometry and Excellon objects can be used."
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# Axis
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try:
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axis = args['axis'].upper()
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except KeyError:
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return "ERROR: Specify -axis X or -axis Y"
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if not ('holes' in args or ('grid' in args and 'gridoffset' in args)):
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return "ERROR: Specify -holes or -grid with -gridoffset "
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if 'holes' in args:
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try:
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holes = eval("[" + args['holes'] + "]")
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except KeyError:
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return "ERROR: Wrong -holes format (X1,Y1),(X2,Y2)"
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xscale, yscale = {"X": (1.0, -1.0), "Y": (-1.0, 1.0)}[axis]
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# Tools
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tools = {"1": {"C": args['dia']}}
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def alligndrill_init_me(init_obj, app_obj):
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"""
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This function is used to initialize the new
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object once it's created.
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:param init_obj: The new object.
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:param app_obj: The application (FlatCAMApp)
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:return: None
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"""
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drills = []
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if 'holes' in args:
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for hole in holes:
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point = Point(hole)
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point_mirror = affinity.scale(point, xscale, yscale, origin=(px, py))
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drills.append({"point": point, "tool": "1"})
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drills.append({"point": point_mirror, "tool": "1"})
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else:
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if 'box' not in args:
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return "ERROR: -grid can be used only for -box"
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if 'axisoffset' in args:
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axisoffset = args['axisoffset']
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else:
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axisoffset = 0
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# This will align hole to given aligngridoffset and minimal offset from pcb, based on selected axis
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if axis == "X":
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firstpoint = args['gridoffset']
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while (xmin - args['minoffset']) < firstpoint:
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firstpoint = firstpoint - args['grid']
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lastpoint = args['gridoffset']
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while (xmax + args['minoffset']) > lastpoint:
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lastpoint = lastpoint + args['grid']
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localholes = (firstpoint, axisoffset), (lastpoint, axisoffset)
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else:
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firstpoint = args['gridoffset']
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while (ymin - args['minoffset']) < firstpoint:
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firstpoint = firstpoint - args['grid']
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lastpoint = args['gridoffset']
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while (ymax + args['minoffset']) > lastpoint:
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lastpoint = lastpoint + args['grid']
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localholes = (axisoffset, firstpoint), (axisoffset, lastpoint)
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for hole in localholes:
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point = Point(hole)
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point_mirror = affinity.scale(point, xscale, yscale, origin=(px, py))
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drills.append({"point": point, "tool": "1"})
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drills.append({"point": point_mirror, "tool": "1"})
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init_obj.tools = tools
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init_obj.drills = drills
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init_obj.create_geometry()
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# Box
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if 'box' in args:
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try:
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box = self.app.collection.get_by_name(args['box'])
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except:
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return "Could not retrieve object box: %s" % args['box']
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if box is None:
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return "Object box not found: %s" % args['box']
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try:
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xmin, ymin, xmax, ymax = box.bounds()
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px = 0.5 * (xmin + xmax)
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py = 0.5 * (ymin + ymax)
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obj.app.new_object("excellon",
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name + "_aligndrill",
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alligndrill_init_me)
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except Exception as e:
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return "Operation failed: %s" % str(e)
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else:
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try:
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dist = float(args['dist'])
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except KeyError:
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dist = 0.0
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except ValueError:
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return "Invalid distance: %s" % args['dist']
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try:
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px = dist
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py = dist
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obj.app.new_object("excellon", name + "_alligndrill", alligndrill_init_me)
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except Exception as e:
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return "Operation failed: %s" % str(e)
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return 'Ok'
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