- remade the handlers for the Enable/Disable Project Tree context menu so they are threaded and activity is shown in the lower right corner of the main window
This commit is contained in:
Marius Stanciu
@@ -3465,14 +3465,14 @@ class App(QtCore.QObject):
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# here it is done the object plotting
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def worker_task(t_obj):
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# with self.proc_container.new(_("Plotting")):
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if isinstance(t_obj, FlatCAMCNCjob):
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t_obj.plot(kind=self.defaults["cncjob_plot_kind"])
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else:
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t_obj.plot()
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t1 = time.time() # DEBUG
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self.log.debug("%f seconds adding object and plotting." % (t1 - t0))
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self.object_plotted.emit(t_obj)
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with self.proc_container.new(_("Plotting")):
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if isinstance(t_obj, FlatCAMCNCjob):
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t_obj.plot(kind=self.defaults["cncjob_plot_kind"])
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else:
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t_obj.plot()
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t1 = time.time() # DEBUG
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self.log.debug("%f seconds adding object and plotting." % (t1 - t0))
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self.object_plotted.emit(t_obj)
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# Send to worker
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# self.worker.add_task(worker_task, [self])
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@@ -9379,11 +9379,26 @@ The normal flow when working in FlatCAM is the following:</span></p>
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:return:
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"""
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log.debug("Enabling plots ...")
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self.inform.emit(_("Working ..."))
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# self.inform.emit(_("Working ..."))
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for obj in objects:
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if obj.options['plot'] is False:
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obj.options.set_change_callback(lambda x: None)
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obj.options['plot'] = True
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self.plots_updated.emit()
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obj.options.set_change_callback(obj.on_options_change)
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def worker_task(objects):
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with self.proc_container.new(_("Enabling plots ...")):
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for obj in objects:
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# obj.options['plot'] = True
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if isinstance(obj, FlatCAMCNCjob):
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obj.plot(visible=True, kind=self.defaults["cncjob_plot_kind"])
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else:
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obj.plot(visible=True)
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self.worker_task.emit({'fcn': worker_task, 'params': [objects]})
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# self.plots_updated.emit()
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def disable_plots(self, objects):
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"""
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@@ -9397,11 +9412,25 @@ The normal flow when working in FlatCAM is the following:</span></p>
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return
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log.debug("Disabling plots ...")
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self.inform.emit(_("Working ..."))
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# self.inform.emit(_("Working ..."))
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for obj in objects:
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if obj.options['plot'] is True:
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obj.options.set_change_callback(lambda x: None)
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obj.options['plot'] = False
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self.plots_updated.emit()
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obj.options.set_change_callback(obj.on_options_change)
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# self.plots_updated.emit()
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def worker_task(objects):
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with self.proc_container.new(_("Disabling plots ...")):
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for obj in objects:
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# obj.options['plot'] = True
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if isinstance(obj, FlatCAMCNCjob):
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obj.plot(visible=False, kind=self.defaults["cncjob_plot_kind"])
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else:
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obj.plot(visible=False)
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self.worker_task.emit({'fcn': worker_task, 'params': [objects]})
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def toggle_plots(self, objects):
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"""
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162
FlatCAMObj.py
162
FlatCAMObj.py
@@ -1162,6 +1162,11 @@ class FlatCAMGerber(FlatCAMObj, Gerber):
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else:
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face_color = self.app.defaults['global_plot_fill']
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if 'visible' not in kwargs:
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visible = self.options['plot']
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else:
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visible = kwargs['visible']
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# if the Follow Geometry checkbox is checked then plot only the follow geometry
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if self.ui.follow_cb.get_value():
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geometry = self.follow_geometry
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@@ -1179,40 +1184,39 @@ class FlatCAMGerber(FlatCAMObj, Gerber):
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color[3] = 1
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return color
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with self.app.proc_container.new(_("Plotting")):
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try:
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if self.options["solid"]:
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for g in geometry:
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if type(g) == Polygon or type(g) == LineString:
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try:
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if self.options["solid"]:
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for g in geometry:
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if type(g) == Polygon or type(g) == LineString:
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self.add_shape(shape=g, color=color,
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face_color=random_color() if self.options['multicolored']
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else face_color, visible=visible)
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elif type(g) == Point:
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pass
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else:
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try:
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for el in g:
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self.add_shape(shape=el, color=color,
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face_color=random_color() if self.options['multicolored']
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else face_color, visible=visible)
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except TypeError:
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self.add_shape(shape=g, color=color,
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face_color=random_color() if self.options['multicolored']
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else face_color, visible=self.options['plot'])
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elif type(g) == Point:
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pass
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else:
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try:
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for el in g:
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self.add_shape(shape=el, color=color,
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face_color=random_color() if self.options['multicolored']
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else face_color, visible=self.options['plot'])
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except TypeError:
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self.add_shape(shape=g, color=color,
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face_color=random_color() if self.options['multicolored']
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else face_color, visible=self.options['plot'])
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else:
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for g in geometry:
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if type(g) == Polygon or type(g) == LineString:
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self.add_shape(shape=g, color=random_color() if self.options['multicolored'] else 'black',
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visible=self.options['plot'])
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elif type(g) == Point:
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pass
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else:
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for el in g:
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self.add_shape(shape=el, color=random_color() if self.options['multicolored'] else 'black',
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visible=self.options['plot'])
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self.shapes.redraw()
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except (ObjectDeleted, AttributeError):
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self.shapes.clear(update=True)
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else face_color, visible=visible)
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else:
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for g in geometry:
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if type(g) == Polygon or type(g) == LineString:
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self.add_shape(shape=g, color=random_color() if self.options['multicolored'] else 'black',
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visible=visible)
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elif type(g) == Point:
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pass
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else:
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for el in g:
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self.add_shape(shape=el, color=random_color() if self.options['multicolored'] else 'black',
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visible=visible)
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self.shapes.redraw()
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except (ObjectDeleted, AttributeError):
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self.shapes.clear(update=True)
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# experimental plot() when the solid_geometry is stored in the self.apertures
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def plot_aperture(self, **kwargs):
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@@ -2902,7 +2906,7 @@ class FlatCAMExcellon(FlatCAMObj, Excellon):
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# except TypeError: # Element is not iterable...
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# self.add_shape(shape=element, color=color, visible=visible, layer=0)
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def plot(self, kind=None):
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def plot(self, visible=None, kind=None):
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# Does all the required setup and returns False
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# if the 'ptint' option is set to False.
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@@ -2929,29 +2933,30 @@ class FlatCAMExcellon(FlatCAMObj, Excellon):
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# except (ObjectDeleted, AttributeError, KeyError):
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# self.shapes.clear(update=True)
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with self.app.proc_container.new(_("Plotting")):
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# this stays for compatibility reasons, in case we try to open old projects
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try:
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__ = iter(self.solid_geometry)
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except TypeError:
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self.solid_geometry = [self.solid_geometry]
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# this stays for compatibility reasons, in case we try to open old projects
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try:
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__ = iter(self.solid_geometry)
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except TypeError:
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self.solid_geometry = [self.solid_geometry]
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try:
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# Plot Excellon (All polygons?)
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if self.options["solid"]:
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for geo in self.solid_geometry:
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self.add_shape(shape=geo, color='#750000BF', face_color='#C40000BF',
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visible=self.options['plot'],
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layer=2)
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else:
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for geo in self.solid_geometry:
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self.add_shape(shape=geo.exterior, color='red', visible=self.options['plot'])
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for ints in geo.interiors:
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self.add_shape(shape=ints, color='orange', visible=self.options['plot'])
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visible = visible if visible else self.options['plot']
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self.shapes.redraw()
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except (ObjectDeleted, AttributeError):
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self.shapes.clear(update=True)
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try:
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# Plot Excellon (All polygons?)
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if self.options["solid"]:
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for geo in self.solid_geometry:
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self.add_shape(shape=geo, color='#750000BF', face_color='#C40000BF',
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visible=visible,
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layer=2)
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else:
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for geo in self.solid_geometry:
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self.add_shape(shape=geo.exterior, color='red', visible=visible)
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for ints in geo.interiors:
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self.add_shape(shape=ints, color='orange', visible=visible)
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self.shapes.redraw()
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except (ObjectDeleted, AttributeError):
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self.shapes.clear(update=True)
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class FlatCAMGeometry(FlatCAMObj, Geometry):
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@@ -6071,33 +6076,32 @@ class FlatCAMCNCjob(FlatCAMObj, CNCjob):
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if not FlatCAMObj.plot(self):
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return
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with self.app.proc_container.new(_("Plotting")):
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visible = visible if visible else self.options['plot']
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visible = visible if visible else self.options['plot']
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if self.ui.annotation_cb.get_value() and self.ui.plot_cb.get_value():
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self.text_col.enabled = True
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if self.ui.annotation_cb.get_value() and self.ui.plot_cb.get_value():
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self.text_col.enabled = True
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else:
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self.text_col.enabled = False
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self.annotation.redraw()
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try:
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if self.multitool is False: # single tool usage
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try:
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dia_plot = float(self.options["tooldia"])
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except ValueError:
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# we may have a tuple with only one element and a comma
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dia_plot = [float(el) for el in self.options["tooldia"].split(',') if el != ''][0]
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self.plot2(dia_plot, obj=self, visible=visible, kind=kind)
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else:
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self.text_col.enabled = False
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self.annotation.redraw()
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try:
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if self.multitool is False: # single tool usage
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try:
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dia_plot = float(self.options["tooldia"])
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except ValueError:
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# we may have a tuple with only one element and a comma
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dia_plot = [float(el) for el in self.options["tooldia"].split(',') if el != ''][0]
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self.plot2(dia_plot, obj=self, visible=visible, kind=kind)
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else:
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# multiple tools usage
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for tooluid_key in self.cnc_tools:
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tooldia = float('%.4f' % float(self.cnc_tools[tooluid_key]['tooldia']))
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gcode_parsed = self.cnc_tools[tooluid_key]['gcode_parsed']
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self.plot2(tooldia=tooldia, obj=self, visible=visible, gcode_parsed=gcode_parsed, kind=kind)
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self.shapes.redraw()
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except (ObjectDeleted, AttributeError):
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self.shapes.clear(update=True)
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self.annotation.clear(update=True)
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# multiple tools usage
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for tooluid_key in self.cnc_tools:
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tooldia = float('%.4f' % float(self.cnc_tools[tooluid_key]['tooldia']))
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gcode_parsed = self.cnc_tools[tooluid_key]['gcode_parsed']
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self.plot2(tooldia=tooldia, obj=self, visible=visible, gcode_parsed=gcode_parsed, kind=kind)
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self.shapes.redraw()
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except (ObjectDeleted, AttributeError):
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self.shapes.clear(update=True)
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self.annotation.clear(update=True)
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def on_annotation_change(self):
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if self.ui.annotation_cb.get_value():
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@@ -13,6 +13,7 @@ CAD program, and create G-Code for Isolation routing.
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- added a method to gracefully exit from threaded tasks and implemented it for the NCC Tool and for the Paint Tool
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- modified the on_about() function to reflect the reality in 2019 - FlatCAM it is an Open Source contributed software
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- remade the handlers for the Enable/Disable Project Tree context menu so they are threaded and activity is shown in the lower right corner of the main window
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6.09.2019
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