- in FlatCAMGeometry fixed the scale and offset methods to always process the self.solid_geometry
- Calibration Tool - finished the calibrated object creation method
This commit is contained in:
parent
38756175f6
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1f1d200ab6
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@ -5370,9 +5370,8 @@ class FlatCAMGeometry(FlatCAMObj, Geometry):
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try:
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xfactor = float(xfactor)
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except Exception as e:
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self.app.inform.emit('[ERROR_NOTCL] %s' %
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_("Scale factor has to be a number: integer or float."))
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except Exception:
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self.app.inform.emit('[ERROR_NOTCL] %s' % _("Scale factor has to be a number: integer or float."))
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return
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if yfactor is None:
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@ -5380,9 +5379,11 @@ class FlatCAMGeometry(FlatCAMObj, Geometry):
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else:
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try:
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yfactor = float(yfactor)
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except Exception as e:
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self.app.inform.emit('[ERROR_NOTCL] %s' %
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_("Scale factor has to be a number: integer or float."))
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except Exception:
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self.app.inform.emit('[ERROR_NOTCL] %s' % _("Scale factor has to be a number: integer or float."))
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return
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if xfactor == 1 and yfactor == 1:
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return
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if point is None:
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@ -5391,18 +5392,6 @@ class FlatCAMGeometry(FlatCAMObj, Geometry):
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else:
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px, py = point
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# if type(self.solid_geometry) == list:
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# geo_list = self.flatten(self.solid_geometry)
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# self.solid_geometry = []
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# # for g in geo_list:
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# # self.solid_geometry.append(affinity.scale(g, xfactor, yfactor, origin=(px, py)))
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# self.solid_geometry = [affinity.scale(g, xfactor, yfactor, origin=(px, py))
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# for g in geo_list]
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# else:
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# self.solid_geometry = affinity.scale(self.solid_geometry, xfactor, yfactor,
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# origin=(px, py))
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# self.app.inform.emit("[success] Geometry Scale done.")
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self.geo_len = 0
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self.old_disp_number = 0
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self.el_count = 0
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@ -5438,7 +5427,7 @@ class FlatCAMGeometry(FlatCAMObj, Geometry):
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self.el_count = 0
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self.tools[tool]['solid_geometry'] = scale_recursion(self.tools[tool]['solid_geometry'])
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else:
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try:
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# variables to display the percentage of work done
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self.geo_len = 0
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@ -5455,7 +5444,6 @@ class FlatCAMGeometry(FlatCAMObj, Geometry):
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return
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self.app.proc_container.new_text = ''
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if xfactor != 1 and yfactor != 1:
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self.app.inform.emit('[success] %s' % _("Geometry Scale done."))
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def offset(self, vect):
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@ -5478,6 +5466,9 @@ class FlatCAMGeometry(FlatCAMObj, Geometry):
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)
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return
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if dx == 0 and dy == 0:
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return
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self.geo_len = 0
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self.old_disp_number = 0
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self.el_count = 0
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@ -5513,7 +5504,7 @@ class FlatCAMGeometry(FlatCAMObj, Geometry):
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self.el_count = 0
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self.tools[tool]['solid_geometry'] = translate_recursion(self.tools[tool]['solid_geometry'])
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else:
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# variables to display the percentage of work done
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self.geo_len = 0
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try:
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@ -17,6 +17,8 @@ CAD program, and create G-Code for Isolation routing.
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- reverted this change: "selected object in Project used to ask twice for UI build" because it will not build the UI when a tab is closed for Document object and the object is selected
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- fixed issue after Geometry object edit; the GCode made from and edited object did not reflect the changes in the object
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- in Object UI, the Scale FCDoubleSpinner will no longer work for Return key press due of issues of unwanted scaling on focusOut event
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- in FlatCAMGeometry fixed the scale and offset methods to always process the self.solid_geometry
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- Calibration Tool - finished the calibrated object creation method
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8.12.2019
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@ -531,6 +531,7 @@ class FCSpinner(QtWidgets.QSpinBox):
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def __init__(self, suffix=None, alignment=None, parent=None):
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super(FCSpinner, self).__init__(parent)
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self.readyToEdit = True
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self.editingFinished.connect(self.on_edit_finished)
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self.lineEdit().installEventFilter(self)
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@ -588,6 +589,7 @@ class FCSpinner(QtWidgets.QSpinBox):
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super(FCSpinner, self).focusOutEvent(e) # required to remove cursor on focusOut
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self.lineEdit().deselect()
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self.readyToEdit = True
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self.prev_readyToEdit = True
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def get_value(self):
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return int(self.value())
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@ -652,7 +654,6 @@ class FCDoubleSpinner(QtWidgets.QDoubleSpinBox):
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self.readyToEdit = False
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else:
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self.lineEdit().deselect()
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return True
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return False
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@ -1112,6 +1112,9 @@ class Excellon(Geometry):
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else:
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px, py = point
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if xfactor == 0 and yfactor == 0:
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return
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def scale_geom(obj):
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if type(obj) is list:
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new_obj = []
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@ -1168,6 +1171,9 @@ class Excellon(Geometry):
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dx, dy = vect
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if dx == 0 and dy == 0:
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return
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def offset_geom(obj):
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if type(obj) is list:
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new_obj = []
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@ -1297,6 +1303,9 @@ class Excellon(Geometry):
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if angle_y is None:
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angle_y = 0.0
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if angle_x == 0 and angle_y == 0:
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return
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def skew_geom(obj):
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if type(obj) is list:
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new_obj = []
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@ -1375,6 +1384,9 @@ class Excellon(Geometry):
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"""
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log.debug("flatcamParsers.ParseExcellon.Excellon.rotate()")
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if angle == 0:
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return
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def rotate_geom(obj, origin=None):
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if type(obj) is list:
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new_obj = []
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@ -1760,6 +1760,9 @@ class Gerber(Geometry):
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_("Scale factor has to be a number: integer or float."))
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return
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if xfactor == 0 and yfactor == 0:
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return
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if point is None:
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px = 0
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py = 0
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@ -1769,8 +1772,7 @@ class Gerber(Geometry):
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# variables to display the percentage of work done
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self.geo_len = 0
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try:
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for __ in self.solid_geometry:
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self.geo_len += 1
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self.geo_len = len(self.solid_geometry)
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except TypeError:
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self.geo_len = 1
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@ -1835,8 +1837,7 @@ class Gerber(Geometry):
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log.debug('camlib.Gerber.scale() Exception --> %s' % str(e))
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return 'fail'
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self.app.inform.emit('[success] %s' %
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_("Gerber Scale done."))
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self.app.inform.emit('[success] %s' % _("Gerber Scale done."))
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self.app.proc_container.new_text = ''
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# ## solid_geometry ???
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"Probable you entered only one value in the Offset field."))
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return
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if dx == 0 and dy == 0:
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return
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# variables to display the percentage of work done
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self.geo_len = 0
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try:
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px, py = point
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if angle_x == 0 and angle_y == 0:
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return
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# variables to display the percentage of work done
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self.geo_len = 0
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try:
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for __ in self.solid_geometry:
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self.geo_len += 1
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self.geo_len = len(self.solid_geometry)
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except TypeError:
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self.geo_len = 1
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@ -2089,6 +2095,9 @@ class Gerber(Geometry):
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px, py = point
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if angle == 0:
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return
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# variables to display the percentage of work done
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self.geo_len = 0
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try:
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@ -18,6 +18,7 @@ from shapely.geometry.base import *
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import math
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from datetime import datetime
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import logging
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from copy import deepcopy
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import gettext
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import FlatCAMTranslation as fcTranslate
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@ -388,6 +389,21 @@ class ToolCalibration(FlatCAMTool):
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""")
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grid_lay.addWidget(self.generate_factors_button, 20, 0, 1, 3)
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separator_line1 = QtWidgets.QFrame()
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separator_line1.setFrameShape(QtWidgets.QFrame.HLine)
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separator_line1.setFrameShadow(QtWidgets.QFrame.Sunken)
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grid_lay.addWidget(separator_line1, 21, 0, 1, 3)
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grid_lay.addWidget(QtWidgets.QLabel(''), 22, 0, 1, 3)
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# STEP 4 #
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step_4 = QtWidgets.QLabel('<b>%s</b>' % _("STEP 4: Adjusted GCode"))
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step_4.setToolTip(
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_("Generate verification GCode file adjusted with\n"
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"the factors above.")
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)
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grid_lay.addWidget(step_4, 23, 0, 1, 3)
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self.scalex_label = QtWidgets.QLabel(_("Scale Factor X:"))
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self.scalex_label.setToolTip(
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_("Factor for Scale action over X axis.")
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self.scalex_entry.set_precision(self.decimals)
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self.scalex_entry.setSingleStep(0.1)
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grid_lay.addWidget(self.scalex_label, 21, 0)
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grid_lay.addWidget(self.scalex_entry, 21, 1, 1, 2)
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grid_lay.addWidget(self.scalex_label, 24, 0)
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grid_lay.addWidget(self.scalex_entry, 24, 1, 1, 2)
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self.scaley_label = QtWidgets.QLabel(_("Scale Factor Y:"))
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self.scaley_label.setToolTip(
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self.scaley_entry.set_precision(self.decimals)
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self.scaley_entry.setSingleStep(0.1)
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grid_lay.addWidget(self.scaley_label, 22, 0)
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grid_lay.addWidget(self.scaley_entry, 22, 1, 1, 2)
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grid_lay.addWidget(self.scaley_label, 25, 0)
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grid_lay.addWidget(self.scaley_entry, 25, 1, 1, 2)
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self.scale_button = QtWidgets.QPushButton(_("Apply Scale Factors"))
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self.scale_button.setToolTip(
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font-weight: bold;
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}
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""")
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grid_lay.addWidget(self.scale_button, 23, 0, 1, 3)
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grid_lay.addWidget(self.scale_button, 26, 0, 1, 3)
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self.skewx_label = QtWidgets.QLabel(_("Skew Angle X:"))
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self.skewx_label.setToolTip(
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self.skewx_entry.set_precision(self.decimals)
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self.skewx_entry.setSingleStep(0.1)
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grid_lay.addWidget(self.skewx_label, 24, 0)
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grid_lay.addWidget(self.skewx_entry, 24, 1, 1, 2)
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grid_lay.addWidget(self.skewx_label, 27, 0)
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grid_lay.addWidget(self.skewx_entry, 27, 1, 1, 2)
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self.skewy_label = QtWidgets.QLabel(_("Skew Angle Y:"))
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self.skewy_label.setToolTip(
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@ -447,8 +463,8 @@ class ToolCalibration(FlatCAMTool):
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self.skewy_entry.set_precision(self.decimals)
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self.skewy_entry.setSingleStep(0.1)
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grid_lay.addWidget(self.skewy_label, 25, 0)
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grid_lay.addWidget(self.skewy_entry, 25, 1, 1, 2)
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grid_lay.addWidget(self.skewy_label, 28, 0)
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grid_lay.addWidget(self.skewy_entry, 28, 1, 1, 2)
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self.skew_button = QtWidgets.QPushButton(_("Apply Skew Factors"))
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self.skew_button.setToolTip(
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@ -460,7 +476,7 @@ class ToolCalibration(FlatCAMTool):
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font-weight: bold;
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}
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""")
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grid_lay.addWidget(self.skew_button, 26, 0, 1, 3)
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grid_lay.addWidget(self.skew_button, 29, 0, 1, 3)
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# final_factors_lbl = QtWidgets.QLabel('<b>%s</b>' % _("Final Factors"))
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# final_factors_lbl.setToolTip(
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@ -519,22 +535,8 @@ class ToolCalibration(FlatCAMTool):
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# grid_lay.addWidget(self.fin_skewy_label, 31, 0)
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# grid_lay.addWidget(self.fin_skewy_entry, 31, 1, 1, 2)
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separator_line1 = QtWidgets.QFrame()
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separator_line1.setFrameShape(QtWidgets.QFrame.HLine)
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separator_line1.setFrameShadow(QtWidgets.QFrame.Sunken)
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grid_lay.addWidget(separator_line1, 32, 0, 1, 3)
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grid_lay.addWidget(QtWidgets.QLabel(''), 32, 0, 1, 3)
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# STEP 4 #
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step_4 = QtWidgets.QLabel('<b>%s</b>' % _("STEP 4: Adjusted GCode"))
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step_4.setToolTip(
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_("Generate verification GCode file adjusted with\n"
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"the factors above.")
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)
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grid_lay.addWidget(step_4, 34, 0, 1, 3)
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# ## Adjusted GCode Button
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self.adj_gcode_button = QtWidgets.QPushButton(_("Generate Adjusted GCode"))
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self.adj_gcode_button.setToolTip(
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_("Generate verification GCode file adjusted with\n"
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@ -735,6 +737,16 @@ class ToolCalibration(FlatCAMTool):
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self.object_combo.setDisabled(True)
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def on_start_collect_points(self):
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if self.cal_source_radio.get_value() == 'object':
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selection_index = self.object_combo.currentIndex()
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model_index = self.app.collection.index(selection_index, 0, self.object_combo.rootModelIndex())
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try:
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self.target_obj = model_index.internalPointer().obj
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except Exception:
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self.app.inform.emit('[WARNING_NOTCL] %s' % _("There is no source FlatCAM object selected..."))
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return
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# disengage the grid snapping since it will be hard to find the drills on grid
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if self.app.ui.grid_snap_btn.isChecked():
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self.grid_status_memory = True
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@ -751,15 +763,6 @@ class ToolCalibration(FlatCAMTool):
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self.local_connected = True
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if self.cal_source_radio.get_value() == 'object':
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selection_index = self.object_combo.currentIndex()
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model_index = self.app.collection.index(selection_index, 0, self.object_combo.rootModelIndex())
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try:
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self.target_obj = model_index.internalPointer().obj
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except Exception:
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self.app.inform.emit('[WARNING_NOTCL] %s' % _("There is no target object loaded ..."))
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return
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self.reset_calibration_points()
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self.app.inform.emit(_("Get First calibration point. Bottom Left..."))
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@ -1038,8 +1041,113 @@ class ToolCalibration(FlatCAMTool):
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self.app.inform.emit('[WARNING_NOTCL] %s' % _("There is no FlatCAM object selected..."))
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return 'fail'
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obj_name = self.cal_object.options["name"] + "_calibrated"
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self.app.worker_task.emit({'fcn': self.new_calibrated_object, 'params': [obj_name]})
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def new_calibrated_object(self, obj_name):
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try:
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origin_x = self.click_points[0][0]
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origin_y = self.click_points[0][1]
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except IndexError as e:
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log.debug("ToolCalibration.new_calibrated_object() --> %s" % str(e))
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return 'fail'
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scalex = self.scalex_entry.get_value()
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scaley = self.scaley_entry.get_value()
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skewx = self.skewx_entry.get_value()
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skewy = self.skewy_entry.get_value()
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# create a new object adjusted (calibrated)
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# TODO
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def initialize_geometry(obj_init, app):
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obj_init.solid_geometry = deepcopy(obj.solid_geometry)
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try:
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obj_init.follow_geometry = deepcopy(obj.follow_geometry)
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except AttributeError:
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pass
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try:
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obj_init.apertures = deepcopy(obj.apertures)
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except AttributeError:
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pass
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try:
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if obj.tools:
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obj_init.tools = deepcopy(obj.tools)
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except Exception as e:
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log.debug("App.on_copy_object() --> %s" % str(e))
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obj_init.scale(xfactor=scalex, yfactor=scaley, point=(origin_x, origin_y))
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obj_init.skew(angle_x=skewx, angle_y=skewy, point=(origin_x, origin_y))
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try:
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obj_init.source_file = deepcopy(obj.source_file)
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except (AttributeError, TypeError):
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pass
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def initialize_gerber(obj_init, app):
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obj_init.solid_geometry = deepcopy(obj.solid_geometry)
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try:
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obj_init.follow_geometry = deepcopy(obj.follow_geometry)
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except AttributeError:
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pass
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try:
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obj_init.apertures = deepcopy(obj.apertures)
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except AttributeError:
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pass
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try:
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if obj.tools:
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obj_init.tools = deepcopy(obj.tools)
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except Exception as e:
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||||
log.debug("App.on_copy_object() --> %s" % str(e))
|
||||
|
||||
obj_init.scale(xfactor=scalex, yfactor=scaley, point=(origin_x, origin_y))
|
||||
obj_init.skew(angle_x=skewx, angle_y=skewy, point=(origin_x, origin_y))
|
||||
|
||||
try:
|
||||
obj_init.source_file = self.export_gerber(obj_name=obj_name, filename=None, local_use=obj_init,
|
||||
use_thread=False)
|
||||
except (AttributeError, TypeError):
|
||||
pass
|
||||
|
||||
def initialize_excellon(obj_init, app):
|
||||
obj_init.tools = deepcopy(obj.tools)
|
||||
|
||||
# drills are offset, so they need to be deep copied
|
||||
obj_init.drills = deepcopy(obj.drills)
|
||||
# slots are offset, so they need to be deep copied
|
||||
obj_init.slots = deepcopy(obj.slots)
|
||||
|
||||
obj_init.scale(xfactor=scalex, yfactor=scaley, point=(origin_x, origin_y))
|
||||
obj_init.skew(angle_x=skewx, angle_y=skewy, point=(origin_x, origin_y))
|
||||
|
||||
obj_init.create_geometry()
|
||||
|
||||
obj_init.source_file = self.app.export_excellon(obj_name=obj_name, local_use=obj, filename=None,
|
||||
use_thread=False)
|
||||
|
||||
obj = self.cal_object
|
||||
obj_name = obj_name
|
||||
|
||||
if obj is None:
|
||||
self.app.inform.emit('[WARNING_NOTCL] %s' % _("There is no FlatCAM object selected..."))
|
||||
log.debug("ToolCalibration.new_calibrated_object() --> No object to calibrate")
|
||||
return 'fail'
|
||||
|
||||
try:
|
||||
if obj.kind.lower() == 'excellon':
|
||||
self.app.new_object("excellon", str(obj_name), initialize_excellon)
|
||||
elif obj.kind.lower() == 'gerber':
|
||||
self.app.new_object("gerber", str(obj_name), initialize_gerber)
|
||||
elif obj.kind.lower() == 'geometry':
|
||||
self.app.new_object("geometry", str(obj_name), initialize_geometry)
|
||||
except Exception as e:
|
||||
log.debug("ToolCalibration.new_calibrated_object() --> %s" % str(e))
|
||||
return "Operation failed: %s" % str(e)
|
||||
|
||||
def disconnect_cal_events(self):
|
||||
# restore the Grid snapping if it was active before
|
||||
|
|
Loading…
Reference in New Issue