350 lines
15 KiB
Python
350 lines
15 KiB
Python
from PyQt5 import QtWidgets
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from PyQt5.QtCore import QSettings
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from flatcamGUI.GUIElements import FCEntry, RadioSet, FCDoubleSpinner, FCComboBox, FCCheckBox
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from flatcamGUI.preferences.OptionsGroupUI import OptionsGroupUI
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import gettext
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import FlatCAMTranslation as fcTranslate
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import builtins
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fcTranslate.apply_language('strings')
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if '_' not in builtins.__dict__:
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_ = gettext.gettext
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settings = QSettings("Open Source", "FlatCAM")
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if settings.contains("machinist"):
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machinist_setting = settings.value('machinist', type=int)
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else:
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machinist_setting = 0
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class ToolsNCCPrefGroupUI(OptionsGroupUI):
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def __init__(self, decimals=4, parent=None):
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# OptionsGroupUI.__init__(self, "NCC Tool Options", parent=parent)
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super(ToolsNCCPrefGroupUI, self).__init__(self, parent=parent)
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self.setTitle(str(_("NCC Tool Options")))
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self.decimals = decimals
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# ## Clear non-copper regions
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self.clearcopper_label = QtWidgets.QLabel("<b>%s:</b>" % _("Parameters"))
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self.clearcopper_label.setToolTip(
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_("Create a Geometry object with\n"
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"toolpaths to cut all non-copper regions.")
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)
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self.layout.addWidget(self.clearcopper_label)
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grid0 = QtWidgets.QGridLayout()
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self.layout.addLayout(grid0)
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ncctdlabel = QtWidgets.QLabel('<b><font color="green">%s:</font></b>' % _('Tools Dia'))
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ncctdlabel.setToolTip(
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_("Diameters of the tools, separated by comma.\n"
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"The value of the diameter has to use the dot decimals separator.\n"
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"Valid values: 0.3, 1.0")
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)
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grid0.addWidget(ncctdlabel, 0, 0)
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self.ncc_tool_dia_entry = FCEntry(border_color='#0069A9')
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self.ncc_tool_dia_entry.setPlaceholderText(_("Comma separated values"))
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grid0.addWidget(self.ncc_tool_dia_entry, 0, 1)
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# Tool Type Radio Button
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self.tool_type_label = QtWidgets.QLabel('%s:' % _('Tool Type'))
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self.tool_type_label.setToolTip(
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_("Default tool type:\n"
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"- 'V-shape'\n"
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"- Circular")
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)
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self.tool_type_radio = RadioSet([{'label': _('V-shape'), 'value': 'V'},
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{'label': _('Circular'), 'value': 'C1'}])
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self.tool_type_radio.setToolTip(
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_("Default tool type:\n"
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"- 'V-shape'\n"
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"- Circular")
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)
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grid0.addWidget(self.tool_type_label, 1, 0)
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grid0.addWidget(self.tool_type_radio, 1, 1)
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# Tip Dia
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self.tipdialabel = QtWidgets.QLabel('%s:' % _('V-Tip Dia'))
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self.tipdialabel.setToolTip(
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_("The tip diameter for V-Shape Tool"))
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self.tipdia_entry = FCDoubleSpinner()
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self.tipdia_entry.set_precision(self.decimals)
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self.tipdia_entry.set_range(0, 1000)
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self.tipdia_entry.setSingleStep(0.1)
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grid0.addWidget(self.tipdialabel, 2, 0)
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grid0.addWidget(self.tipdia_entry, 2, 1)
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# Tip Angle
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self.tipanglelabel = QtWidgets.QLabel('%s:' % _('V-Tip Angle'))
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self.tipanglelabel.setToolTip(
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_("The tip angle for V-Shape Tool.\n"
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"In degree."))
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self.tipangle_entry = FCDoubleSpinner()
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self.tipangle_entry.set_precision(self.decimals)
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self.tipangle_entry.set_range(1, 180)
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self.tipangle_entry.setSingleStep(5)
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self.tipangle_entry.setWrapping(True)
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grid0.addWidget(self.tipanglelabel, 3, 0)
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grid0.addWidget(self.tipangle_entry, 3, 1)
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# Cut Z entry
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cutzlabel = QtWidgets.QLabel('%s:' % _('Cut Z'))
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cutzlabel.setToolTip(
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_("Depth of cut into material. Negative value.\n"
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"In FlatCAM units.")
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)
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self.cutz_entry = FCDoubleSpinner()
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self.cutz_entry.set_precision(self.decimals)
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self.cutz_entry.set_range(-9999.9999, 0.0000)
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self.cutz_entry.setSingleStep(0.1)
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self.cutz_entry.setToolTip(
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_("Depth of cut into material. Negative value.\n"
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"In FlatCAM units.")
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)
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grid0.addWidget(cutzlabel, 4, 0)
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grid0.addWidget(self.cutz_entry, 4, 1)
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# New Diameter
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self.newdialabel = QtWidgets.QLabel('%s:' % _('New Dia'))
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self.newdialabel.setToolTip(
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_("Diameter for the new tool to add in the Tool Table.\n"
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"If the tool is V-shape type then this value is automatically\n"
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"calculated from the other parameters.")
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)
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self.newdia_entry = FCDoubleSpinner()
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self.newdia_entry.set_precision(self.decimals)
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self.newdia_entry.set_range(0.0001, 9999.9999)
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self.newdia_entry.setSingleStep(0.1)
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grid0.addWidget(self.newdialabel, 5, 0)
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grid0.addWidget(self.newdia_entry, 5, 1)
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separator_line = QtWidgets.QFrame()
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separator_line.setFrameShape(QtWidgets.QFrame.HLine)
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separator_line.setFrameShadow(QtWidgets.QFrame.Sunken)
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grid0.addWidget(separator_line, 6, 0, 1, 2)
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# Milling Type Radio Button
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self.milling_type_label = QtWidgets.QLabel('%s:' % _('Milling Type'))
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self.milling_type_label.setToolTip(
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_("Milling type when the selected tool is of type: 'iso_op':\n"
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"- climb / best for precision milling and to reduce tool usage\n"
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"- conventional / useful when there is no backlash compensation")
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)
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self.milling_type_radio = RadioSet([{'label': _('Climb'), 'value': 'cl'},
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{'label': _('Conventional'), 'value': 'cv'}])
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self.milling_type_radio.setToolTip(
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_("Milling type when the selected tool is of type: 'iso_op':\n"
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"- climb / best for precision milling and to reduce tool usage\n"
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"- conventional / useful when there is no backlash compensation")
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)
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grid0.addWidget(self.milling_type_label, 7, 0)
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grid0.addWidget(self.milling_type_radio, 7, 1)
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# Tool order Radio Button
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self.ncc_order_label = QtWidgets.QLabel('%s:' % _('Tool order'))
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self.ncc_order_label.setToolTip(_("This set the way that the tools in the tools table are used.\n"
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"'No' --> means that the used order is the one in the tool table\n"
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"'Forward' --> means that the tools will be ordered from small to big\n"
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"'Reverse' --> means that the tools will ordered from big to small\n\n"
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"WARNING: using rest machining will automatically set the order\n"
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"in reverse and disable this control."))
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self.ncc_order_radio = RadioSet([{'label': _('No'), 'value': 'no'},
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{'label': _('Forward'), 'value': 'fwd'},
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{'label': _('Reverse'), 'value': 'rev'}])
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self.ncc_order_radio.setToolTip(_("This set the way that the tools in the tools table are used.\n"
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"'No' --> means that the used order is the one in the tool table\n"
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"'Forward' --> means that the tools will be ordered from small to big\n"
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"'Reverse' --> means that the tools will ordered from big to small\n\n"
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"WARNING: using rest machining will automatically set the order\n"
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"in reverse and disable this control."))
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grid0.addWidget(self.ncc_order_label, 8, 0)
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grid0.addWidget(self.ncc_order_radio, 8, 1)
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separator_line = QtWidgets.QFrame()
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separator_line.setFrameShape(QtWidgets.QFrame.HLine)
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separator_line.setFrameShadow(QtWidgets.QFrame.Sunken)
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grid0.addWidget(separator_line, 9, 0, 1, 2)
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# Overlap Entry
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nccoverlabel = QtWidgets.QLabel('%s:' % _('Overlap'))
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nccoverlabel.setToolTip(
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_("How much (percentage) of the tool width to overlap each tool pass.\n"
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"Adjust the value starting with lower values\n"
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"and increasing it if areas that should be cleared are still \n"
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"not cleared.\n"
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"Lower values = faster processing, faster execution on CNC.\n"
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"Higher values = slow processing and slow execution on CNC\n"
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"due of too many paths.")
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)
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self.ncc_overlap_entry = FCDoubleSpinner(suffix='%')
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self.ncc_overlap_entry.set_precision(self.decimals)
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self.ncc_overlap_entry.setWrapping(True)
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self.ncc_overlap_entry.setRange(0.0000, 99.9999)
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self.ncc_overlap_entry.setSingleStep(0.1)
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grid0.addWidget(nccoverlabel, 10, 0)
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grid0.addWidget(self.ncc_overlap_entry, 10, 1)
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# Margin entry
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nccmarginlabel = QtWidgets.QLabel('%s:' % _('Margin'))
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nccmarginlabel.setToolTip(
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_("Bounding box margin.")
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)
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self.ncc_margin_entry = FCDoubleSpinner()
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self.ncc_margin_entry.set_precision(self.decimals)
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self.ncc_margin_entry.set_range(-10000, 10000)
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self.ncc_margin_entry.setSingleStep(0.1)
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grid0.addWidget(nccmarginlabel, 11, 0)
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grid0.addWidget(self.ncc_margin_entry, 11, 1)
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# Method
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methodlabel = QtWidgets.QLabel('%s:' % _('Method'))
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methodlabel.setToolTip(
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_("Algorithm for copper clearing:\n"
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"- Standard: Fixed step inwards.\n"
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"- Seed-based: Outwards from seed.\n"
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"- Line-based: Parallel lines.")
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)
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# self.ncc_method_radio = RadioSet([
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# {"label": _("Standard"), "value": "standard"},
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# {"label": _("Seed-based"), "value": "seed"},
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# {"label": _("Straight lines"), "value": "lines"}
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# ], orientation='vertical', stretch=False)
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self.ncc_method_combo = FCComboBox()
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self.ncc_method_combo.addItems(
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[_("Standard"), _("Seed"), _("Lines")]
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)
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grid0.addWidget(methodlabel, 12, 0)
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grid0.addWidget(self.ncc_method_combo, 12, 1)
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# Connect lines
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self.ncc_connect_cb = FCCheckBox('%s' % _("Connect"))
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self.ncc_connect_cb.setToolTip(
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_("Draw lines between resulting\n"
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"segments to minimize tool lifts.")
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)
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grid0.addWidget(self.ncc_connect_cb, 13, 0)
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# Contour Checkbox
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self.ncc_contour_cb = FCCheckBox('%s' % _("Contour"))
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self.ncc_contour_cb.setToolTip(
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_("Cut around the perimeter of the polygon\n"
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"to trim rough edges.")
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)
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grid0.addWidget(self.ncc_contour_cb, 13, 1)
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# ## NCC Offset choice
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self.ncc_choice_offset_cb = FCCheckBox('%s' % _("Offset"))
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self.ncc_choice_offset_cb.setToolTip(
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_("If used, it will add an offset to the copper features.\n"
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"The copper clearing will finish to a distance\n"
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"from the copper features.\n"
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"The value can be between 0 and 10 FlatCAM units.")
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)
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grid0.addWidget(self.ncc_choice_offset_cb, 14, 0, 1, 2)
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# ## NCC Offset value
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self.ncc_offset_label = QtWidgets.QLabel('%s:' % _("Offset value"))
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self.ncc_offset_label.setToolTip(
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_("If used, it will add an offset to the copper features.\n"
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"The copper clearing will finish to a distance\n"
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"from the copper features.\n"
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"The value can be between 0.0 and 9999.9 FlatCAM units.")
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)
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self.ncc_offset_spinner = FCDoubleSpinner()
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self.ncc_offset_spinner.set_range(0.00, 9999.9999)
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self.ncc_offset_spinner.set_precision(self.decimals)
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self.ncc_offset_spinner.setWrapping(True)
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self.ncc_offset_spinner.setSingleStep(0.1)
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grid0.addWidget(self.ncc_offset_label, 15, 0)
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grid0.addWidget(self.ncc_offset_spinner, 15, 1)
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separator_line = QtWidgets.QFrame()
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separator_line.setFrameShape(QtWidgets.QFrame.HLine)
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separator_line.setFrameShadow(QtWidgets.QFrame.Sunken)
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grid0.addWidget(separator_line, 16, 0, 1, 2)
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# Rest machining CheckBox
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self.ncc_rest_cb = FCCheckBox('%s' % _("Rest Machining"))
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self.ncc_rest_cb.setToolTip(
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_("If checked, use 'rest machining'.\n"
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"Basically it will clear copper outside PCB features,\n"
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"using the biggest tool and continue with the next tools,\n"
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"from bigger to smaller, to clear areas of copper that\n"
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"could not be cleared by previous tool, until there is\n"
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"no more copper to clear or there are no more tools.\n"
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"If not checked, use the standard algorithm.")
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)
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grid0.addWidget(self.ncc_rest_cb, 17, 0, 1, 2)
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# ## Reference
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# self.reference_radio = RadioSet([{'label': _('Itself'), 'value': 'itself'},
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# {"label": _("Area Selection"), "value": "area"},
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# {'label': _('Reference Object'), 'value': 'box'}],
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# orientation='vertical',
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# stretch=None)
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self.select_combo = FCComboBox()
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self.select_combo.addItems(
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[_("Itself"), _("Area Selection"), _("Reference Object")]
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)
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select_label = QtWidgets.QLabel('%s:' % _("Selection"))
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select_label.setToolTip(
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_("Selection of area to be processed.\n"
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"- 'Itself' - the processing extent is based on the object that is processed.\n "
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"- 'Area Selection' - left mouse click to start selection of the area to be processed.\n"
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"- 'Reference Object' - will process the area specified by another object.")
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)
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grid0.addWidget(select_label, 18, 0)
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grid0.addWidget(self.select_combo, 18, 1)
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self.area_shape_label = QtWidgets.QLabel('%s:' % _("Shape"))
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self.area_shape_label.setToolTip(
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_("The kind of selection shape used for area selection.")
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)
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self.area_shape_radio = RadioSet([{'label': _("Square"), 'value': 'square'},
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{'label': _("Polygon"), 'value': 'polygon'}])
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grid0.addWidget(self.area_shape_label, 19, 0)
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grid0.addWidget(self.area_shape_radio, 19, 1)
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separator_line = QtWidgets.QFrame()
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separator_line.setFrameShape(QtWidgets.QFrame.HLine)
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separator_line.setFrameShadow(QtWidgets.QFrame.Sunken)
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grid0.addWidget(separator_line, 20, 0, 1, 2)
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# ## Plotting type
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self.ncc_plotting_radio = RadioSet([{'label': _('Normal'), 'value': 'normal'},
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{"label": _("Progressive"), "value": "progressive"}])
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plotting_label = QtWidgets.QLabel('%s:' % _("NCC Plotting"))
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plotting_label.setToolTip(
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_("- 'Normal' - normal plotting, done at the end of the NCC job\n"
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"- 'Progressive' - after each shape is generated it will be plotted.")
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)
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grid0.addWidget(plotting_label, 21, 0)
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grid0.addWidget(self.ncc_plotting_radio, 21, 1)
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self.layout.addStretch()
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