- fixed the Circle Steps parameter for both Gerber and Geometry objects not being applied and instead the app internal defaults were used.
- fixed the Tcl command Geocutout issue that gave an error when using the 4 or 8 value for gaps parameter
This commit is contained in:
parent
f71645c96c
commit
a545658d44
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@ -684,7 +684,7 @@ class App(QtCore.QObject):
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"gerber_noncopperrounded": False,
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"gerber_noncopperrounded": False,
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"gerber_bboxmargin": 0.1,
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"gerber_bboxmargin": 0.1,
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"gerber_bboxrounded": False,
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"gerber_bboxrounded": False,
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"gerber_circle_steps": 64,
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"gerber_circle_steps": 128,
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"gerber_use_buffer_for_union": True,
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"gerber_use_buffer_for_union": True,
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# Gerber Advanced Options
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# Gerber Advanced Options
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@ -746,7 +746,7 @@ class App(QtCore.QObject):
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# Geometry General
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# Geometry General
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"geometry_plot": True,
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"geometry_plot": True,
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"geometry_circle_steps": 64,
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"geometry_circle_steps": 128,
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"geometry_cnctooldia": 0.016,
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"geometry_cnctooldia": 0.016,
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# Geometry Options
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# Geometry Options
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@ -8,6 +8,10 @@ Among other things, it can take a Gerber file generated by your favorite PCB
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CAD program, and create G-Code for Isolation routing.
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CAD program, and create G-Code for Isolation routing.
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=================================================
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=================================================
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19.05.2019
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- fixed the Circle Steps parameter for both Gerber and Geometry objects not being applied and instead the app internal defaults were used.
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- fixed the Tcl command Geocutout issue that gave an error when using the 4 or 8 value for gaps parameter
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18.05.2019
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18.05.2019
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36
camlib.py
36
camlib.py
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@ -86,7 +86,7 @@ class Geometry(object):
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defaults = {
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defaults = {
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"units": 'in',
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"units": 'in',
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"geo_steps_per_circle": 64
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"geo_steps_per_circle": 128
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}
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}
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def __init__(self, geo_steps_per_circle=None):
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def __init__(self, geo_steps_per_circle=None):
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@ -1884,10 +1884,10 @@ class Gerber (Geometry):
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"""
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"""
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defaults = {
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# defaults = {
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"steps_per_circle": 56,
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# "steps_per_circle": 128,
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"use_buffer_for_union": True
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# "use_buffer_for_union": True
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}
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# }
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def __init__(self, steps_per_circle=None):
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def __init__(self, steps_per_circle=None):
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"""
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"""
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@ -1899,12 +1899,12 @@ class Gerber (Geometry):
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"""
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"""
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# How to discretize a circle.
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# How to discretize a circle.
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if steps_per_circle is None:
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# if steps_per_circle is None:
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steps_per_circle = int(Gerber.defaults['steps_per_circle'])
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# steps_per_circle = int(Gerber.defaults['steps_per_circle'])
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self.steps_per_circle = int(steps_per_circle)
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self.steps_per_circle = int(self.app.defaults["gerber_circle_steps"])
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# Initialize parent
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# Initialize parent
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Geometry.__init__(self, geo_steps_per_circle=int(steps_per_circle))
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Geometry.__init__(self, geo_steps_per_circle=int(self.app.defaults["gerber_circle_steps"]))
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# Number format
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# Number format
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self.int_digits = 3
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self.int_digits = 3
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@ -2043,7 +2043,7 @@ class Gerber (Geometry):
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self.am1_re = re.compile(r'^%AM([^\*]+)\*([^%]+)?(%)?$')
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self.am1_re = re.compile(r'^%AM([^\*]+)\*([^%]+)?(%)?$')
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self.am2_re = re.compile(r'(.*)%$')
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self.am2_re = re.compile(r'(.*)%$')
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self.use_buffer_for_union = self.defaults["use_buffer_for_union"]
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self.use_buffer_for_union = self.app.defaults["gerber_use_buffer_for_union"]
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def aperture_parse(self, apertureId, apertureType, apParameters):
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def aperture_parse(self, apertureId, apertureType, apParameters):
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"""
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"""
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@ -2455,9 +2455,9 @@ class Gerber (Geometry):
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log.debug("Bare op-code %d." % current_operation_code)
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log.debug("Bare op-code %d." % current_operation_code)
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geo_dict = dict()
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geo_dict = dict()
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flash = Gerber.create_flash_geometry(
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flash = self.create_flash_geometry(
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Point(current_x, current_y), self.apertures[current_aperture],
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Point(current_x, current_y), self.apertures[current_aperture],
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int(self.steps_per_circle))
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self.steps_per_circle)
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geo_dict['follow'] = Point([current_x, current_y])
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geo_dict['follow'] = Point([current_x, current_y])
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@ -2870,10 +2870,10 @@ class Gerber (Geometry):
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geo_dict['follow'] = geo_flash
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geo_dict['follow'] = geo_flash
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# this treats the case when we are storing geometry as solids
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# this treats the case when we are storing geometry as solids
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flash = Gerber.create_flash_geometry(
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flash = self.create_flash_geometry(
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Point( [linear_x, linear_y]),
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Point( [linear_x, linear_y]),
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self.apertures[current_aperture],
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self.apertures[current_aperture],
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int(self.steps_per_circle)
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self.steps_per_circle
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)
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)
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if not flash.is_empty:
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if not flash.is_empty:
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poly_buffer.append(flash)
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poly_buffer.append(flash)
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@ -3011,7 +3011,7 @@ class Gerber (Geometry):
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this_arc = arc(center, radius, start, stop,
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this_arc = arc(center, radius, start, stop,
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arcdir[current_interpolation_mode],
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arcdir[current_interpolation_mode],
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int(self.steps_per_circle))
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self.steps_per_circle)
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# The last point in the computed arc can have
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# The last point in the computed arc can have
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# numerical errors. The exact final point is the
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# numerical errors. The exact final point is the
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@ -3065,7 +3065,7 @@ class Gerber (Geometry):
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log.debug("########## ACCEPTING ARC ############")
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log.debug("########## ACCEPTING ARC ############")
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this_arc = arc(center, radius, start, stop,
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this_arc = arc(center, radius, start, stop,
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arcdir[current_interpolation_mode],
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arcdir[current_interpolation_mode],
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int(self.steps_per_circle))
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self.steps_per_circle)
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# Replace with exact values
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# Replace with exact values
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this_arc[-1] = (circular_x, circular_y)
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this_arc[-1] = (circular_x, circular_y)
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@ -3132,7 +3132,6 @@ class Gerber (Geometry):
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conversion_factor = 25.4 if file_units == 'IN' else (1/25.4) if file_units != app_units else 1
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conversion_factor = 25.4 if file_units == 'IN' else (1/25.4) if file_units != app_units else 1
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# --- Apply buffer ---
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# --- Apply buffer ---
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# this treats the case when we are storing geometry as paths
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# this treats the case when we are storing geometry as paths
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self.follow_geometry = follow_buffer
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self.follow_geometry = follow_buffer
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@ -3175,9 +3174,6 @@ class Gerber (Geometry):
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# log.debug('Flashing @%s, Aperture: %s' % (location, aperture))
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# log.debug('Flashing @%s, Aperture: %s' % (location, aperture))
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if steps_per_circle is None:
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steps_per_circle = 64
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if type(location) == list:
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if type(location) == list:
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location = Point(location)
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location = Point(location)
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@ -2,6 +2,7 @@ from ObjectCollection import *
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from tclCommands.TclCommand import TclCommandSignaled
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from tclCommands.TclCommand import TclCommandSignaled
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from copy import deepcopy
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from copy import deepcopy
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class TclCommandGeoCutout(TclCommandSignaled):
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class TclCommandGeoCutout(TclCommandSignaled):
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"""
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"""
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Tcl shell command to create a board cutout geometry. Allow cutout for any shape. Cuts holding gaps from geometry.
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Tcl shell command to create a board cutout geometry. Allow cutout for any shape. Cuts holding gaps from geometry.
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@ -65,7 +66,6 @@ class TclCommandGeoCutout(TclCommandSignaled):
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:return:
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:return:
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"""
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"""
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def subtract_rectangle(obj_, x0, y0, x1, y1):
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def subtract_rectangle(obj_, x0, y0, x1, y1):
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pts = [(x0, y0), (x1, y0), (x1, y1), (x0, y1)]
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pts = [(x0, y0), (x1, y0), (x1, y1), (x0, y1)]
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obj_.subtract_polygon(pts)
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obj_.subtract_polygon(pts)
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def substract_rectangle_geo(geo, x0, y0, x1, y1):
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def substract_rectangle_geo(geo, x0, y0, x1, y1):
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pts = [(x0, y0), (x1, y0), (x1, y1), (x0, y1)]
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pts = [(x0, y0), (x1, y0), (x1, y1), (x0, y1)]
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def flatten(geometry=None, reset=True, pathonly=False):
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def flatten(geometry=None, reset=True, pathonly=False):
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"""
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"""
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Creates a list of non-iterable linear geometry objects.
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Creates a list of non-iterable linear geometry objects.
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if reset:
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if reset:
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self.flat_geometry = []
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self.flat_geometry = []
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## If iterable, expand recursively.
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# If iterable, expand recursively.
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try:
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try:
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for geo in geometry:
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for geo_el in geometry:
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if geo is not None:
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if geo_el is not None:
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flatten(geometry=geo,
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flatten(geometry=geo_el,
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reset=False,
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reset=False,
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pathonly=pathonly)
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pathonly=pathonly)
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## Not iterable, do the actual indexing and add.
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# Not iterable, do the actual indexing and add.
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except TypeError:
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except TypeError:
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if pathonly and type(geometry) == Polygon:
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if pathonly and type(geometry) == Polygon:
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self.flat_geometry.append(geometry.exterior)
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self.flat_geometry.append(geometry.exterior)
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# Get source object.
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# Get source object.
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try:
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try:
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cutout_obj = self.app.collection.get_by_name(str(name))
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cutout_obj = self.app.collection.get_by_name(str(name))
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except:
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except Exception as e:
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log.debug("TclCommandGeoCutout --> %s" % str(e))
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return "Could not retrieve object: %s" % name
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return "Could not retrieve object: %s" % name
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if 0 in {dia}:
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if 0 in {dia}:
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self.app.inform.emit("[WARNING]Tool Diameter is zero value. Change it to a positive real number.")
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self.app.inform.emit("[WARNING]Tool Diameter is zero value. Change it to a positive real number.")
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return "Tool Diameter is zero value. Change it to a positive real number."
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return "Tool Diameter is zero value. Change it to a positive real number."
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if gaps not in ['lr', 'tb', '2lr', '2tb', 4, 8]:
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if gaps not in ['lr', 'tb', '2lr', '2tb', '4', '8']:
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self.app.inform.emit("[WARNING]Gaps value can be only one of: 'lr', 'tb', '2lr', '2tb', 4 or 8. "
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self.app.inform.emit("[WARNING]Gaps value can be only one of: 'lr', 'tb', '2lr', '2tb', 4 or 8. "
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"Fill in a correct value and retry. ")
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"Fill in a correct value and retry. ")
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return
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return
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@ -226,8 +226,8 @@ class TclCommandGeoCutout(TclCommandSignaled):
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def geo_init(geo_obj, app_obj):
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def geo_init(geo_obj, app_obj):
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try:
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try:
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geo = cutout_obj.isolation_geometry((dia / 2), iso_type=0, corner=2, follow=None)
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geo = cutout_obj.isolation_geometry((dia / 2), iso_type=0, corner=2, follow=None)
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except Exception as e:
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except Exception as exc:
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log.debug("TclCommandGeoCutout.execute() --> %s" % str(e))
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log.debug("TclCommandGeoCutout.execute() --> %s" % str(exc))
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return 'fail'
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return 'fail'
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if gaps_u == 8 or gaps_u == '2lr':
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if gaps_u == 8 or gaps_u == '2lr':
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else:
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else:
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self.app.inform.emit("[ERROR]Cancelled. Object type is not supported.")
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self.app.inform.emit("[ERROR]Cancelled. Object type is not supported.")
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return
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return
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