763 lines
32 KiB
Python
763 lines
32 KiB
Python
# ##########################################################
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# FlatCAM: 2D Post-processing for Manufacturing #
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# File Author: Marius Adrian Stanciu (c) #
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# Date: 3/10/2019 #
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# MIT Licence #
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# ##########################################################
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from PyQt6 import QtWidgets, QtGui
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from appTool import AppTool
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from appGUI.GUIElements import FCSpinner, FCDoubleSpinner, NumericalEvalEntry, FCLabel, RadioSet, FCButton, \
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VerticalScrollArea, FCGridLayout
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import math
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import gettext
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import appTranslation 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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class ToolCalculator(AppTool):
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def __init__(self, app):
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AppTool.__init__(self, app)
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self.app = app
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self.decimals = self.app.decimals
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# #############################################################################
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# ######################### Tool GUI ##########################################
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# #############################################################################
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self.ui = CalcUI(layout=self.layout, app=self.app)
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self.pluginName = self.ui.pluginName
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self.units = ''
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def run(self, toggle=True):
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self.app.defaults.report_usage("ToolCalculators()")
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if toggle:
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# if the splitter is hidden, display it
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if self.app.ui.splitter.sizes()[0] == 0:
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self.app.ui.splitter.setSizes([1, 1])
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# if the Tool Tab is hidden display it, else hide it but only if the objectName is the same
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found_idx = None
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for idx in range(self.app.ui.notebook.count()):
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if self.app.ui.notebook.widget(idx).objectName() == "plugin_tab":
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found_idx = idx
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break
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# show the Tab
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if not found_idx:
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try:
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self.app.ui.notebook.addTab(self.app.ui.plugin_tab, _("Plugin"))
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except RuntimeError:
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self.app.ui.plugin_tab = QtWidgets.QWidget()
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self.app.ui.plugin_tab.setObjectName("plugin_tab")
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self.app.ui.plugin_tab_layout = QtWidgets.QVBoxLayout(self.app.ui.plugin_tab)
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self.app.ui.plugin_tab_layout.setContentsMargins(2, 2, 2, 2)
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self.app.ui.plugin_scroll_area = VerticalScrollArea()
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self.app.ui.plugin_tab_layout.addWidget(self.app.ui.plugin_scroll_area)
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self.app.ui.notebook.addTab(self.app.ui.plugin_tab, _("Plugin"))
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# focus on Tool Tab
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self.app.ui.notebook.setCurrentWidget(self.app.ui.plugin_tab)
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try:
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if self.app.ui.plugin_scroll_area.widget().objectName() == self.pluginName and found_idx:
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# if the Tool Tab is not focused, focus on it
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if not self.app.ui.notebook.currentWidget() is self.app.ui.plugin_tab:
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# focus on Tool Tab
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self.app.ui.notebook.setCurrentWidget(self.app.ui.plugin_tab)
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else:
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# else remove the Tool Tab
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self.app.ui.notebook.setCurrentWidget(self.app.ui.properties_tab)
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self.app.ui.notebook.removeTab(2)
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# if there are no objects loaded in the app then hide the Notebook widget
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if not self.app.collection.get_list():
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self.app.ui.splitter.setSizes([0, 1])
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except AttributeError:
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pass
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else:
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if self.app.ui.splitter.sizes()[0] == 0:
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self.app.ui.splitter.setSizes([1, 1])
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AppTool.run(self)
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self.set_tool_ui()
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self.app.ui.notebook.setTabText(2, _("Calculators"))
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def connect_signals_at_init(self):
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# ## Signals
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self.ui.mm_entry.editingFinished.connect(self.on_calculate_inch_units)
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self.ui.inch_entry.editingFinished.connect(self.on_calculate_mm_units)
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self.ui.reset_button.clicked.connect(self.set_tool_ui)
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self.ui.area_sel_radio.activated_custom.connect(self.on_area_calculation_radio)
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def install(self, icon=None, separator=None, **kwargs):
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AppTool.install(self, icon, separator, shortcut='Alt+C', **kwargs)
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def set_tool_ui(self):
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self.units = self.app.defaults['units'].lower()
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self.clear_ui(self.layout)
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self.ui = CalcUI(layout=self.layout, app=self.app)
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self.pluginName = self.ui.pluginName
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self.connect_signals_at_init()
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# ## Initialize form
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self.ui.mm_entry.set_value('%.*f' % (self.decimals, 0))
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self.ui.inch_entry.set_value('%.*f' % (self.decimals, 0))
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length = self.app.defaults["tools_calc_electro_length"]
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width = self.app.defaults["tools_calc_electro_width"]
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density = self.app.defaults["tools_calc_electro_cdensity"]
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growth = self.app.defaults["tools_calc_electro_growth"]
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self.ui.pcblength_entry.set_value(length)
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self.ui.pcbwidth_entry.set_value(width)
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self.ui.area_entry.set_value(self.app.defaults["tools_calc_electro_area"])
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self.ui.cdensity_entry.set_value(density)
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self.ui.growth_entry.set_value(growth)
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self.ui.cvalue_entry.set_value(0.00)
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self.ui.time_entry.set_value(0.0)
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tip_dia = self.app.defaults["tools_calc_vshape_tip_dia"]
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tip_angle = self.app.defaults["tools_calc_vshape_tip_angle"]
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cut_z = self.app.defaults["tools_calc_vshape_cut_z"]
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self.ui.tipDia_entry.set_value(tip_dia)
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self.ui.tipAngle_entry.set_value(tip_angle)
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self.ui.cutDepth_entry.set_value(cut_z)
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self.on_calculate_tool_dia()
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self.ui.area_sel_radio.set_value('d')
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self.on_area_calculation_radio(val='d')
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self.on_calculate_eplate()
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self.ui_disconnect()
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self.ui_connect()
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def on_area_calculation_radio(self, val):
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if val == 'a':
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self.ui.pcbwidthlabel.hide()
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self.ui.pcbwidth_entry.hide()
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self.ui.width_unit.hide()
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self.ui.pcblengthlabel.hide()
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self.ui.pcblength_entry.hide()
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self.ui.length_unit.hide()
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self.ui.area_label.show()
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self.ui.area_entry.show()
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self.ui.area_unit.show()
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else:
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self.ui.pcbwidthlabel.show()
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self.ui.pcbwidth_entry.show()
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self.ui.width_unit.show()
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self.ui.pcblengthlabel.show()
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self.ui.pcblength_entry.show()
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self.ui.length_unit.show()
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self.ui.area_label.hide()
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self.ui.area_entry.hide()
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self.ui.area_unit.hide()
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def on_calculate_tool_dia(self):
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self.ui_disconnect()
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# Calculation:
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# Manufacturer gives total angle of the the tip but we need only half of it
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# tangent(half_tip_angle) = opposite side / adjacent = part_of _real_dia / depth_of_cut
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# effective_diameter = tip_diameter + part_of_real_dia_left_side + part_of_real_dia_right_side
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# tool is symmetrical therefore: part_of_real_dia_left_side = part_of_real_dia_right_side
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# effective_diameter = tip_diameter + (2 * part_of_real_dia_left_side)
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# effective diameter = tip_diameter + (2 * depth_of_cut * tangent(half_tip_angle))
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tip_diameter = float(self.ui.tipDia_entry.get_value())
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half_tip_angle = float(self.ui.tipAngle_entry.get_value()) / 2.0
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cut_depth = float(self.ui.cutDepth_entry.get_value())
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cut_depth = -cut_depth if cut_depth < 0 else cut_depth
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tool_diameter = tip_diameter + (2 * cut_depth * math.tan(math.radians(half_tip_angle)))
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self.ui.effectiveToolDia_entry.set_value(self.app.dec_format(tool_diameter, self.decimals))
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self.app.inform.emit('[success] %s' % _("Cut width (tool diameter) calculated."))
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self.ui_connect()
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def on_calculate_cutz(self):
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self.ui_disconnect()
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# Calculation:
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# Manufacturer gives total angle of the the tip but we need only half of it
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# tangent(half_tip_angle) = opposite side / adjacent = part_of _real_dia / depth_of_cut
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# effective_diameter = tip_diameter + part_of_real_dia_left_side + part_of_real_dia_right_side
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# tool is symmetrical therefore: part_of_real_dia_left_side = part_of_real_dia_right_side
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# effective_diameter = tip_diameter + (2 * part_of_real_dia_left_side)
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# effective diameter = tip_diameter + (2 * depth_of_cut * tangent(half_tip_angle))
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tip_diameter = float(self.ui.tipDia_entry.get_value())
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half_tip_angle = float(self.ui.tipAngle_entry.get_value()) / 2.0
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tooldia = self.ui.effectiveToolDia_entry.get_value()
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if tip_diameter > tooldia:
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self.ui.cutDepth_entry.set_value(self.app.dec_format(0.0, self.decimals))
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self.app.inform.emit('[ERROR_NOTCL] %s' %
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_("Tool diameter (cut width) cannot be smaller than the tip diameter."))
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self.ui_connect()
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return
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cut_depth = (tooldia - tip_diameter) / (2 * math.tan(math.radians(half_tip_angle))) * -1
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self.ui.cutDepth_entry.set_value(self.app.dec_format(cut_depth, self.decimals))
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self.app.inform.emit('[success] %s' % _("Cut depth (Cut Z) calculated."))
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self.ui_connect()
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def on_calculate_inch_units(self):
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mm_val = float(self.ui.mm_entry.get_value())
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self.ui.inch_entry.set_value('%.*f' % (self.decimals, (mm_val / 25.4)))
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def on_calculate_mm_units(self):
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inch_val = float(self.ui.inch_entry.get_value())
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self.ui.mm_entry.set_value('%.*f' % (self.decimals, (inch_val * 25.4)))
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def on_calculate_current(self):
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"""
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:return:
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"""
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'''
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Example: If you are plating a 12" by 9", double-sided board, with a current density of 20 ASF, you will need:
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[(12" x 9" x 2 sides)/144] x 20 = 30 Amps = C
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In Metric, for a 10cm by 10cm, double sided board, with a current density of 20 ASF, you will need:
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[(10cm x 10cm x 2 sides]/929.0304359661127] x 20 =~ 4.3 Amps = C
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or written differently:
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[(10cm x 10cm x 2 sides] * 0.001076391] x 20 =~ 4.3 Amps = C
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or:
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(10cm x 10cm) * 0.0021527820833419] x 20 =~ 4.3 Amps = C
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'''
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self.ui_disconnect()
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area_calc_sel = self.ui.area_sel_radio.get_value()
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length = self.ui.pcblength_entry.get_value()
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width = self.ui.pcbwidth_entry.get_value()
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area = self.ui.area_entry.get_value()
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density = self.ui.cdensity_entry.get_value()
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if area_calc_sel == 'd':
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calculated_current = (length * width * density) * 0.0021527820833419
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else:
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calculated_current = (area * density) * 0.0021527820833419
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self.ui.cvalue_entry.set_value('%.2f' % calculated_current)
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self.ui_connect()
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def on_calculate_time(self):
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"""
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:return:
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"""
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'''
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Calculated time for a copper growth of 10 microns is:
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[10um / (28um/hr)] x 60 min/hr = 21.42 minutes = TC (at 20ASF)
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or:
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10 um * 2.142857142857143 min/um = 21.42 minutes = TC (at 20ASF)
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or:
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10 * 2.142857142857143 min * (20/new_density) = 21.42 minutes = TC
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(with new_density = 20ASF amd copper groth of 10 um)
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'''
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self.ui_disconnect()
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density = self.ui.cdensity_entry.get_value()
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growth = self.ui.growth_entry.get_value()
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calculated_time = growth * 2.142857142857143 * float(20 / density)
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self.ui.time_entry.set_value('%.1f' % calculated_time)
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self.ui_connect()
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def on_calculate_eplate(self):
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self.on_calculate_time()
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self.on_calculate_current()
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self.app.inform.emit('[success] %s' % _("Done."))
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def on_calculate_growth(self):
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self.ui_disconnect()
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density = self.ui.cdensity_entry.get_value()
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time = self.ui.time_entry.get_value()
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growth = time / (2.142857142857143 * float(20 / density))
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self.ui.growth_entry.set_value(self.app.dec_format(growth, self.decimals))
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self.app.inform.emit('[success] %s' % _("Done."))
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self.ui_connect()
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def ui_connect(self):
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# V-Shape Calculator
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self.ui.cutDepth_entry.valueChanged.connect(self.on_calculate_tool_dia)
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self.ui.cutDepth_entry.returnPressed.connect(self.on_calculate_tool_dia)
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self.ui.effectiveToolDia_entry.valueChanged.connect(self.on_calculate_cutz)
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self.ui.effectiveToolDia_entry.returnPressed.connect(self.on_calculate_cutz)
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self.ui.tipDia_entry.returnPressed.connect(self.on_calculate_tool_dia)
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self.ui.tipAngle_entry.returnPressed.connect(self.on_calculate_tool_dia)
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self.ui.calculate_vshape_button.clicked.connect(self.on_calculate_tool_dia)
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# Electroplating Calculator
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self.ui.cdensity_entry.valueChanged.connect(self.on_calculate_eplate)
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self.ui.cdensity_entry.returnPressed.connect(self.on_calculate_eplate)
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self.ui.growth_entry.valueChanged.connect(self.on_calculate_time)
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self.ui.growth_entry.returnPressed.connect(self.on_calculate_time)
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self.ui.area_entry.valueChanged.connect(self.on_calculate_current)
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self.ui.area_entry.returnPressed.connect(self.on_calculate_current)
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self.ui.time_entry.valueChanged.connect(self.on_calculate_growth)
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self.ui.time_entry.returnPressed.connect(self.on_calculate_growth)
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self.ui.calculate_plate_button.clicked.connect(self.on_calculate_eplate)
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def ui_disconnect(self):
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# V-Shape Calculator
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try:
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self.ui.cutDepth_entry.valueChanged.disconnect()
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except (AttributeError, TypeError):
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pass
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try:
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self.ui.cutDepth_entry.returnPressed.disconnect()
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except (AttributeError, TypeError):
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pass
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# ##
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try:
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self.ui.effectiveToolDia_entry.valueChanged.disconnect()
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except (AttributeError, TypeError):
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pass
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try:
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self.ui.effectiveToolDia_entry.returnPressed.disconnect()
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except (AttributeError, TypeError):
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pass
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# ###
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try:
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self.ui.tipDia_entry.returnPressed.disconnect()
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except (AttributeError, TypeError):
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pass
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try:
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self.ui.tipAngle_entry.returnPressed.disconnect()
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except (AttributeError, TypeError):
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pass
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try:
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self.ui.calculate_vshape_button.clicked.disconnect()
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except (AttributeError, TypeError):
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pass
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# Electroplating Calculator
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# Density
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try:
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self.ui.cdensity_entry.valueChanged.disconnect()
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except (AttributeError, TypeError):
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pass
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try:
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self.ui.cdensity_entry.returnPressed.disconnect()
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except (AttributeError, TypeError):
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pass
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# Growth
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try:
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self.ui.growth_entry.valueChanged.disconnect()
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except (AttributeError, TypeError):
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pass
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try:
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self.ui.growth_entry.returnPressed.disconnect()
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except (AttributeError, TypeError):
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pass
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# Area
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try:
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self.ui.area_entry.valueChanged.disconnect()
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except (AttributeError, TypeError):
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pass
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try:
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self.ui.area_entry.returnPressed.disconnect()
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except (AttributeError, TypeError):
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pass
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# Time
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try:
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self.ui.time_entry.valueChanged.disconnect()
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except (AttributeError, TypeError):
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pass
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try:
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self.ui.time_entry.returnPressed.disconnect()
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except (AttributeError, TypeError):
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pass
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# Calculate
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try:
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self.ui.calculate_plate_button.clicked.disconnect()
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except (AttributeError, TypeError):
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pass
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class CalcUI:
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pluginName = _("Calculators")
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v_shapeName = _("V-Shape Tool Calculator")
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unitsName = _("Units Calculator")
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eplateName = _("ElectroPlating Calculator")
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def __init__(self, layout, app):
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self.app = app
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self.decimals = self.app.decimals
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self.layout = layout
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self.units = self.app.defaults['units'].lower()
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# ## Title
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title_label = FCLabel("%s" % self.pluginName)
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title_label.setStyleSheet("""
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QLabel
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{
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font-size: 16px;
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font-weight: bold;
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}
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""")
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self.layout.addWidget(title_label)
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# #####################
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# ## Units Calculator #
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# #####################
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self.unists_spacer_label = FCLabel(" ")
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self.layout.addWidget(self.unists_spacer_label)
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# ## Title of the Units Calculator
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units_label = FCLabel("<font size=3><b>%s</b></font>" % self.unitsName)
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self.layout.addWidget(units_label)
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# Grid Layout
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grid_units_layout = FCGridLayout(v_spacing=3)
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self.layout.addLayout(grid_units_layout)
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inch_label = FCLabel(_("INCH"))
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mm_label = FCLabel(_("MM"))
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grid_units_layout.addWidget(mm_label, 0, 0)
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grid_units_layout.addWidget(inch_label, 0, 1)
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self.inch_entry = NumericalEvalEntry(border_color='#0069A9')
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# self.inch_entry.setFixedWidth(70)
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# self.inch_entry.setAlignment(QtCore.Qt.AlignmentFlag.AlignRight | QtCore.Qt.AlignmentFlag.AlignVCenter)
|
|
self.inch_entry.setToolTip(_("Here you enter the value to be converted from INCH to MM"))
|
|
|
|
self.mm_entry = NumericalEvalEntry(border_color='#0069A9')
|
|
# self.mm_entry.setFixedWidth(130)
|
|
# self.mm_entry.setAlignment(QtCore.Qt.AlignmentFlag.AlignRight | QtCore.Qt.AlignmentFlag.AlignVCenter)
|
|
self.mm_entry.setToolTip(_("Here you enter the value to be converted from MM to INCH"))
|
|
|
|
grid_units_layout.addWidget(self.mm_entry, 1, 0)
|
|
grid_units_layout.addWidget(self.inch_entry, 1, 1)
|
|
|
|
# #############################################################################################################
|
|
# ################################ V-shape Tool Calculator ####################################################
|
|
# #############################################################################################################
|
|
grid_vshape = FCGridLayout(v_spacing=3)
|
|
grid_vshape.setColumnStretch(0, 0)
|
|
grid_vshape.setColumnStretch(1, 1)
|
|
self.layout.addLayout(grid_vshape)
|
|
|
|
self.v_shape_spacer_label = FCLabel(" ")
|
|
grid_vshape.addWidget(self.v_shape_spacer_label, 0, 0, 1, 2)
|
|
|
|
# ## Title of the V-shape Tools Calculator
|
|
v_shape_title_label = FCLabel("<font size=3><b>%s</b></font>" % self.v_shapeName)
|
|
grid_vshape.addWidget(v_shape_title_label, 2, 0, 1, 2)
|
|
|
|
# Tip Diameter
|
|
self.tipDia_label = FCLabel('%s:' % _("Tip Diameter"))
|
|
self.tipDia_label.setToolTip(
|
|
_("This is the tool tip diameter.\n"
|
|
"It is specified by manufacturer.")
|
|
)
|
|
|
|
self.tipDia_entry = FCDoubleSpinner(callback=self.confirmation_message)
|
|
self.tipDia_entry.set_precision(self.decimals)
|
|
self.tipDia_entry.set_range(0.0, 10000.0000)
|
|
self.tipDia_entry.setSingleStep(0.1)
|
|
|
|
grid_vshape.addWidget(self.tipDia_label, 4, 0)
|
|
grid_vshape.addWidget(self.tipDia_entry, 4, 1)
|
|
|
|
# Tip Angle
|
|
self.tipAngle_label = FCLabel('%s:' % _("Tip Angle"))
|
|
self.tipAngle_label.setToolTip(_("This is the angle of the tip of the tool.\n"
|
|
"It is specified by manufacturer."))
|
|
|
|
self.tipAngle_entry = FCSpinner(callback=self.confirmation_message_int)
|
|
self.tipAngle_entry.set_range(0, 180)
|
|
self.tipAngle_entry.set_step(5)
|
|
|
|
grid_vshape.addWidget(self.tipAngle_label, 6, 0)
|
|
grid_vshape.addWidget(self.tipAngle_entry, 6, 1)
|
|
|
|
# Cut Z
|
|
self.cutDepth_label = FCLabel('%s:' % _("Cut Z"))
|
|
self.cutDepth_label.setToolTip(_("This is the depth to cut into the material.\n"
|
|
"In the CNCJob is the CutZ parameter."))
|
|
|
|
self.cutDepth_entry = FCDoubleSpinner(callback=self.confirmation_message)
|
|
self.cutDepth_entry.set_range(-10000.0000, 10000.0000)
|
|
self.cutDepth_entry.set_precision(self.decimals)
|
|
|
|
grid_vshape.addWidget(self.cutDepth_label, 8, 0)
|
|
grid_vshape.addWidget(self.cutDepth_entry, 8, 1)
|
|
|
|
# Tool Diameter
|
|
self.effectiveToolDia_label = FCLabel('%s:' % _("Tool Diameter"))
|
|
self.effectiveToolDia_label.setToolTip(_("This is the tool diameter to be entered into\n"
|
|
"FlatCAM Gerber section.\n"
|
|
"In the CNCJob section it is called >Tool dia<."))
|
|
self.effectiveToolDia_entry = FCDoubleSpinner(callback=self.confirmation_message)
|
|
self.effectiveToolDia_entry.set_precision(self.decimals)
|
|
|
|
grid_vshape.addWidget(self.effectiveToolDia_label, 10, 0)
|
|
grid_vshape.addWidget(self.effectiveToolDia_entry, 10, 1)
|
|
|
|
# ## Buttons
|
|
self.calculate_vshape_button = FCButton(_("Calculate"))
|
|
self.calculate_vshape_button.setIcon(QtGui.QIcon(self.app.resource_location + '/calculator16.png'))
|
|
|
|
self.calculate_vshape_button.setToolTip(
|
|
_("Calculate either the Cut Z or the effective tool diameter,\n "
|
|
"depending on which is desired and which is known. ")
|
|
)
|
|
|
|
grid_vshape.addWidget(self.calculate_vshape_button, 12, 0, 1, 2)
|
|
|
|
# #############################################################################################################
|
|
# ############################## ElectroPlating Tool Calculator ###############################################
|
|
# #############################################################################################################
|
|
grid_electro = FCGridLayout(v_spacing=3)
|
|
grid_electro.setColumnStretch(0, 0)
|
|
grid_electro.setColumnStretch(1, 1)
|
|
|
|
self.layout.addLayout(grid_electro)
|
|
|
|
grid_electro.addWidget(FCLabel(""), 0, 0, 1, 2)
|
|
|
|
# ## Title of the ElectroPlating Tools Calculator
|
|
plate_title_label = FCLabel("<font size=3><b>%s</b></font>" % self.eplateName)
|
|
plate_title_label.setToolTip(
|
|
_("This calculator is useful for those who plate the via/pad/drill holes,\n"
|
|
"using a method like graphite ink or calcium hypophosphite ink or palladium chloride.")
|
|
)
|
|
grid_electro.addWidget(plate_title_label, 2, 0, 1, 2)
|
|
|
|
# Area Calculation
|
|
self.area_sel_label = FCLabel('%s:' % _("Area Calculation"))
|
|
self.area_sel_label.setToolTip(
|
|
_("Choose how to calculate the board area.")
|
|
)
|
|
self.area_sel_radio = RadioSet([
|
|
{'label': _('Dimensions'), 'value': 'd'},
|
|
{"label": _("Area"), "value": "a"}
|
|
], stretch=False)
|
|
|
|
grid_electro.addWidget(self.area_sel_label, 4, 0)
|
|
grid_electro.addWidget(self.area_sel_radio, 6, 0, 1, 2)
|
|
|
|
# BOARD LENGTH
|
|
self.pcblengthlabel = FCLabel('%s:' % _("Board Length"))
|
|
self.pcblengthlabel.setToolTip(_('This is the board length. In centimeters.'))
|
|
self.pcblength_entry = FCDoubleSpinner(callback=self.confirmation_message)
|
|
self.pcblength_entry.setSizePolicy(QtWidgets.QSizePolicy.Policy.MinimumExpanding, QtWidgets.QSizePolicy.Policy.Preferred)
|
|
self.pcblength_entry.set_precision(self.decimals)
|
|
self.pcblength_entry.set_range(0.0, 10000.0000)
|
|
|
|
self.length_unit = FCLabel('%s' % _("cm"))
|
|
self.length_unit.setMinimumWidth(25)
|
|
|
|
l_hlay = QtWidgets.QHBoxLayout()
|
|
l_hlay.addWidget(self.pcblength_entry)
|
|
l_hlay.addWidget(self.length_unit)
|
|
|
|
grid_electro.addWidget(self.pcblengthlabel, 8, 0)
|
|
grid_electro.addLayout(l_hlay, 8, 1)
|
|
|
|
# BOARD WIDTH
|
|
self.pcbwidthlabel = FCLabel('%s:' % _("Board Width"))
|
|
self.pcbwidthlabel.setToolTip(_('This is the board width.In centimeters.'))
|
|
self.pcbwidth_entry = FCDoubleSpinner(callback=self.confirmation_message)
|
|
self.pcbwidth_entry.setSizePolicy(QtWidgets.QSizePolicy.Policy.MinimumExpanding, QtWidgets.QSizePolicy.Policy.Preferred)
|
|
self.pcbwidth_entry.set_precision(self.decimals)
|
|
self.pcbwidth_entry.set_range(0.0, 10000.0000)
|
|
|
|
self.width_unit = FCLabel('%s' % _("cm"))
|
|
self.width_unit.setMinimumWidth(25)
|
|
|
|
w_hlay = QtWidgets.QHBoxLayout()
|
|
w_hlay.addWidget(self.pcbwidth_entry)
|
|
w_hlay.addWidget(self.width_unit)
|
|
|
|
grid_electro.addWidget(self.pcbwidthlabel, 10, 0)
|
|
grid_electro.addLayout(w_hlay, 10, 1)
|
|
|
|
# AREA
|
|
self.area_label = FCLabel('%s:' % _("Area"))
|
|
self.area_label.setToolTip(_('This is the board area.'))
|
|
self.area_entry = FCDoubleSpinner(callback=self.confirmation_message)
|
|
self.area_entry.setSizePolicy(QtWidgets.QSizePolicy.Policy.MinimumExpanding, QtWidgets.QSizePolicy.Policy.Preferred)
|
|
self.area_entry.set_precision(self.decimals)
|
|
self.area_entry.set_range(0.0, 10000.0000)
|
|
|
|
self.area_unit = FCLabel('%s<sup>2</sup>' % _("cm"))
|
|
self.area_unit.setMinimumWidth(25)
|
|
|
|
a_hlay = QtWidgets.QHBoxLayout()
|
|
a_hlay.addWidget(self.area_entry)
|
|
a_hlay.addWidget(self.area_unit)
|
|
|
|
grid_electro.addWidget(self.area_label, 12, 0)
|
|
grid_electro.addLayout(a_hlay, 12, 1)
|
|
|
|
separator_line = QtWidgets.QFrame()
|
|
separator_line.setFrameShape(QtWidgets.QFrame.Shape.HLine)
|
|
separator_line.setFrameShadow(QtWidgets.QFrame.Shadow.Sunken)
|
|
grid_electro.addWidget(separator_line, 14, 0, 1, 2)
|
|
|
|
# DENSITY
|
|
self.cdensity_label = FCLabel('%s:' % _("Current Density"))
|
|
self.cdensity_label.setToolTip(_("Current density to pass through the board. \n"
|
|
"In Amps per Square Feet ASF."))
|
|
self.cdensity_entry = FCDoubleSpinner(callback=self.confirmation_message)
|
|
self.cdensity_entry.setSizePolicy(QtWidgets.QSizePolicy.Policy.MinimumExpanding, QtWidgets.QSizePolicy.Policy.Preferred)
|
|
self.cdensity_entry.set_precision(self.decimals)
|
|
self.cdensity_entry.set_range(0.0, 10000.0000)
|
|
self.cdensity_entry.setSingleStep(0.1)
|
|
|
|
density_unit = FCLabel('%s' % "ASF")
|
|
density_unit.setMinimumWidth(25)
|
|
|
|
d_hlay = QtWidgets.QHBoxLayout()
|
|
d_hlay.addWidget(self.cdensity_entry)
|
|
d_hlay.addWidget(density_unit)
|
|
|
|
grid_electro.addWidget(self.cdensity_label, 16, 0)
|
|
grid_electro.addLayout(d_hlay, 16, 1)
|
|
|
|
# COPPER GROWTH
|
|
self.growth_label = FCLabel('%s:' % _("Copper Growth"))
|
|
self.growth_label.setToolTip(_("How thick the copper growth is intended to be.\n"
|
|
"In microns."))
|
|
self.growth_entry = FCDoubleSpinner(callback=self.confirmation_message)
|
|
self.growth_entry.setSizePolicy(QtWidgets.QSizePolicy.Policy.MinimumExpanding, QtWidgets.QSizePolicy.Policy.Preferred)
|
|
self.growth_entry.set_precision(self.decimals)
|
|
self.growth_entry.set_range(0.0, 10000.0000)
|
|
self.growth_entry.setSingleStep(0.01)
|
|
|
|
growth_unit = FCLabel('%s' % _("um"))
|
|
growth_unit.setMinimumWidth(25)
|
|
|
|
g_hlay = QtWidgets.QHBoxLayout()
|
|
g_hlay.addWidget(self.growth_entry)
|
|
g_hlay.addWidget(growth_unit)
|
|
|
|
grid_electro.addWidget(self.growth_label, 18, 0)
|
|
grid_electro.addLayout(g_hlay, 18, 1)
|
|
|
|
# CURRENT
|
|
self.cvaluelabel = FCLabel('%s:' % _("Current Value"))
|
|
self.cvaluelabel.setToolTip(_('This is the current intensity value\n'
|
|
'to be set on the Power Supply. In Amps.'))
|
|
self.cvalue_entry = FCDoubleSpinner(callback=self.confirmation_message)
|
|
self.cvalue_entry.setSizePolicy(QtWidgets.QSizePolicy.Policy.MinimumExpanding, QtWidgets.QSizePolicy.Policy.Preferred)
|
|
self.cvalue_entry.set_precision(self.decimals)
|
|
self.cvalue_entry.set_range(0.0, 10000.0000)
|
|
self.cvalue_entry.setSingleStep(0.1)
|
|
|
|
current_unit = FCLabel('%s' % "A")
|
|
current_unit.setMinimumWidth(25)
|
|
self.cvalue_entry.setReadOnly(True)
|
|
|
|
c_hlay = QtWidgets.QHBoxLayout()
|
|
c_hlay.addWidget(self.cvalue_entry)
|
|
c_hlay.addWidget(current_unit)
|
|
|
|
grid_electro.addWidget(self.cvaluelabel, 20, 0)
|
|
grid_electro.addLayout(c_hlay, 20, 1)
|
|
|
|
# TIME
|
|
self.timelabel = FCLabel('%s:' % _("Time"))
|
|
self.timelabel.setToolTip(_('This is the calculated time required for the procedure.\n'
|
|
'In minutes.'))
|
|
self.time_entry = FCDoubleSpinner(callback=self.confirmation_message)
|
|
self.time_entry.setSizePolicy(QtWidgets.QSizePolicy.Policy.MinimumExpanding, QtWidgets.QSizePolicy.Policy.Preferred)
|
|
self.time_entry.set_precision(self.decimals)
|
|
self.time_entry.set_range(0.0, 10000.0000)
|
|
self.time_entry.setSingleStep(0.1)
|
|
|
|
time_unit = FCLabel('%s' % "min")
|
|
time_unit.setMinimumWidth(25)
|
|
# self.time_entry.setReadOnly(True)
|
|
|
|
t_hlay = QtWidgets.QHBoxLayout()
|
|
t_hlay.addWidget(self.time_entry)
|
|
t_hlay.addWidget(time_unit)
|
|
|
|
grid_electro.addWidget(self.timelabel, 22, 0)
|
|
grid_electro.addLayout(t_hlay, 22, 1)
|
|
|
|
# ## Buttons
|
|
self.calculate_plate_button = FCButton(_("Calculate"))
|
|
self.calculate_plate_button.setIcon(QtGui.QIcon(self.app.resource_location + '/calculator16.png'))
|
|
self.calculate_plate_button.setToolTip(
|
|
_("Calculate the current intensity value and the procedure time,\n"
|
|
"depending on the parameters above")
|
|
)
|
|
grid_electro.addWidget(self.calculate_plate_button, 24, 0, 1, 2)
|
|
|
|
self.layout.addStretch(1)
|
|
|
|
# ## Reset Tool
|
|
self.reset_button = FCButton(_("Reset Tool"))
|
|
self.reset_button.setIcon(QtGui.QIcon(self.app.resource_location + '/reset32.png'))
|
|
self.reset_button.setToolTip(
|
|
_("Will reset the tool parameters.")
|
|
)
|
|
self.reset_button.setStyleSheet("""
|
|
QPushButton
|
|
{
|
|
font-weight: bold;
|
|
}
|
|
""")
|
|
self.layout.addWidget(self.reset_button)
|
|
|
|
# #################################### FINSIHED GUI ###########################
|
|
# #############################################################################
|
|
|
|
def confirmation_message(self, accepted, minval, maxval):
|
|
if accepted is False:
|
|
self.app.inform[str, bool].emit('[WARNING_NOTCL] %s: [%.*f, %.*f]' % (_("Edited value is out of range"),
|
|
self.decimals,
|
|
minval,
|
|
self.decimals,
|
|
maxval), False)
|
|
else:
|
|
self.app.inform[str, bool].emit('[success] %s' % _("Edited value is within limits."), False)
|
|
|
|
def confirmation_message_int(self, accepted, minval, maxval):
|
|
if accepted is False:
|
|
self.app.inform[str, bool].emit('[WARNING_NOTCL] %s: [%d, %d]' %
|
|
(_("Edited value is out of range"), minval, maxval), False)
|
|
else:
|
|
self.app.inform[str, bool].emit('[success] %s' % _("Edited value is within limits."), False)
|