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- # ##########################################################
- # FlatCAM: 2D Post-processing for Manufacturing #
- # File Author: Marius Adrian Stanciu (c) #
- # Date: 09/27/2019 #
- # MIT Licence #
- # ##########################################################
- from PyQt5 import QtWidgets
- from FlatCAMTool import FlatCAMTool
- from flatcamGUI.GUIElements import FCDoubleSpinner, FCCheckBox, OptionalInputSection
- from copy import deepcopy
- from FlatCAMPool import *
- # from os import getpid
- from shapely.ops import nearest_points
- from shapely.geometry import MultiPolygon, Polygon
- import logging
- import gettext
- import FlatCAMTranslation as fcTranslate
- import builtins
- fcTranslate.apply_language('strings')
- if '_' not in builtins.__dict__:
- _ = gettext.gettext
- log = logging.getLogger('base')
- class RulesCheck(FlatCAMTool):
- toolName = _("Check Rules")
- tool_finished = QtCore.pyqtSignal(list)
- def __init__(self, app):
- super(RulesCheck, self).__init__(self)
- self.app = app
- self.decimals = 4
- # ## Title
- title_label = QtWidgets.QLabel("%s" % self.toolName)
- title_label.setStyleSheet("""
- QLabel
- {
- font-size: 16px;
- font-weight: bold;
- }
- """)
- self.layout.addWidget(title_label)
- # Form Layout
- self.grid_layout = QtWidgets.QGridLayout()
- self.layout.addLayout(self.grid_layout)
- self.grid_layout.setColumnStretch(0, 0)
- self.grid_layout.setColumnStretch(1, 3)
- self.grid_layout.setColumnStretch(2, 0)
- self.gerber_title_lbl = QtWidgets.QLabel('<b>%s</b>:' % _("Gerber Files"))
- self.gerber_title_lbl.setToolTip(
- _("Gerber objects for which to check rules.")
- )
- self.all_obj_cb = FCCheckBox()
- self.grid_layout.addWidget(self.gerber_title_lbl, 0, 0, 1, 2)
- self.grid_layout.addWidget(self.all_obj_cb, 0, 2)
- # Copper Top object
- self.copper_t_object = QtWidgets.QComboBox()
- self.copper_t_object.setModel(self.app.collection)
- self.copper_t_object.setRootModelIndex(self.app.collection.index(0, 0, QtCore.QModelIndex()))
- self.copper_t_object.setCurrentIndex(1)
- self.copper_t_object_lbl = QtWidgets.QLabel('%s:' % _("Top"))
- self.copper_t_object_lbl.setToolTip(
- _("The Top Gerber Copper object for which rules are checked.")
- )
- self.copper_t_cb = FCCheckBox()
- self.grid_layout.addWidget(self.copper_t_object_lbl, 1, 0)
- self.grid_layout.addWidget(self.copper_t_object, 1, 1)
- self.grid_layout.addWidget(self.copper_t_cb, 1, 2)
- # Copper Bottom object
- self.copper_b_object = QtWidgets.QComboBox()
- self.copper_b_object.setModel(self.app.collection)
- self.copper_b_object.setRootModelIndex(self.app.collection.index(0, 0, QtCore.QModelIndex()))
- self.copper_b_object.setCurrentIndex(1)
- self.copper_b_object_lbl = QtWidgets.QLabel('%s:' % _("Bottom"))
- self.copper_b_object_lbl.setToolTip(
- _("The Bottom Gerber Copper object for which rules are checked.")
- )
- self.copper_b_cb = FCCheckBox()
- self.grid_layout.addWidget(self.copper_b_object_lbl, 2, 0)
- self.grid_layout.addWidget(self.copper_b_object, 2, 1)
- self.grid_layout.addWidget(self.copper_b_cb, 2, 2)
- # SolderMask Top object
- self.sm_t_object = QtWidgets.QComboBox()
- self.sm_t_object.setModel(self.app.collection)
- self.sm_t_object.setRootModelIndex(self.app.collection.index(0, 0, QtCore.QModelIndex()))
- self.sm_t_object.setCurrentIndex(1)
- self.sm_t_object_lbl = QtWidgets.QLabel('%s:' % _("SM Top"))
- self.sm_t_object_lbl.setToolTip(
- _("The Top Gerber Solder Mask object for which rules are checked.")
- )
- self.sm_t_cb = FCCheckBox()
- self.grid_layout.addWidget(self.sm_t_object_lbl, 3, 0)
- self.grid_layout.addWidget(self.sm_t_object, 3, 1)
- self.grid_layout.addWidget(self.sm_t_cb, 3, 2)
- # SolderMask Bottom object
- self.sm_b_object = QtWidgets.QComboBox()
- self.sm_b_object.setModel(self.app.collection)
- self.sm_b_object.setRootModelIndex(self.app.collection.index(0, 0, QtCore.QModelIndex()))
- self.sm_b_object.setCurrentIndex(1)
- self.sm_b_object_lbl = QtWidgets.QLabel('%s:' % _("SM Bottom"))
- self.sm_b_object_lbl.setToolTip(
- _("The Bottom Gerber Solder Mask object for which rules are checked.")
- )
- self.sm_b_cb = FCCheckBox()
- self.grid_layout.addWidget(self.sm_b_object_lbl, 4, 0)
- self.grid_layout.addWidget(self.sm_b_object, 4, 1)
- self.grid_layout.addWidget(self.sm_b_cb, 4, 2)
- # SilkScreen Top object
- self.ss_t_object = QtWidgets.QComboBox()
- self.ss_t_object.setModel(self.app.collection)
- self.ss_t_object.setRootModelIndex(self.app.collection.index(0, 0, QtCore.QModelIndex()))
- self.ss_t_object.setCurrentIndex(1)
- self.ss_t_object_lbl = QtWidgets.QLabel('%s:' % _("Silk Top"))
- self.ss_t_object_lbl.setToolTip(
- _("The Top Gerber Silkscreen object for which rules are checked.")
- )
- self.ss_t_cb = FCCheckBox()
- self.grid_layout.addWidget(self.ss_t_object_lbl, 5, 0)
- self.grid_layout.addWidget(self.ss_t_object, 5, 1)
- self.grid_layout.addWidget(self.ss_t_cb, 5, 2)
- # SilkScreen Bottom object
- self.ss_b_object = QtWidgets.QComboBox()
- self.ss_b_object.setModel(self.app.collection)
- self.ss_b_object.setRootModelIndex(self.app.collection.index(0, 0, QtCore.QModelIndex()))
- self.ss_b_object.setCurrentIndex(1)
- self.ss_b_object_lbl = QtWidgets.QLabel('%s:' % _("Silk Bottom"))
- self.ss_b_object_lbl.setToolTip(
- _("The Bottom Gerber Silkscreen object for which rules are checked.")
- )
- self.ss_b_cb = FCCheckBox()
- self.grid_layout.addWidget(self.ss_b_object_lbl, 6, 0)
- self.grid_layout.addWidget(self.ss_b_object, 6, 1)
- self.grid_layout.addWidget(self.ss_b_cb, 6, 2)
- # Outline object
- self.outline_object = QtWidgets.QComboBox()
- self.outline_object.setModel(self.app.collection)
- self.outline_object.setRootModelIndex(self.app.collection.index(0, 0, QtCore.QModelIndex()))
- self.outline_object.setCurrentIndex(1)
- self.outline_object_lbl = QtWidgets.QLabel('%s:' % _("Outline"))
- self.outline_object_lbl.setToolTip(
- _("The Gerber Outline (Cutout) object for which rules are checked.")
- )
- self.out_cb = FCCheckBox()
- self.grid_layout.addWidget(self.outline_object_lbl, 7, 0)
- self.grid_layout.addWidget(self.outline_object, 7, 1)
- self.grid_layout.addWidget(self.out_cb, 7, 2)
- self.grid_layout.addWidget(QtWidgets.QLabel(""), 8, 0, 1, 3)
- self.excellon_title_lbl = QtWidgets.QLabel('<b>%s</b>:' % _("Excellon Objects"))
- self.excellon_title_lbl.setToolTip(
- _("Excellon objects for which to check rules.")
- )
- self.grid_layout.addWidget(self.excellon_title_lbl, 9, 0, 1, 3)
- # Excellon 1 object
- self.e1_object = QtWidgets.QComboBox()
- self.e1_object.setModel(self.app.collection)
- self.e1_object.setRootModelIndex(self.app.collection.index(1, 0, QtCore.QModelIndex()))
- self.e1_object.setCurrentIndex(1)
- self.e1_object_lbl = QtWidgets.QLabel('%s:' % _("Excellon 1"))
- self.e1_object_lbl.setToolTip(
- _("Excellon object for which to check rules.\n"
- "Holds the plated holes or a general Excellon file content.")
- )
- self.e1_cb = FCCheckBox()
- self.grid_layout.addWidget(self.e1_object_lbl, 10, 0)
- self.grid_layout.addWidget(self.e1_object, 10, 1)
- self.grid_layout.addWidget(self.e1_cb, 10, 2)
- # Excellon 2 object
- self.e2_object = QtWidgets.QComboBox()
- self.e2_object.setModel(self.app.collection)
- self.e2_object.setRootModelIndex(self.app.collection.index(1, 0, QtCore.QModelIndex()))
- self.e2_object.setCurrentIndex(1)
- self.e2_object_lbl = QtWidgets.QLabel('%s:' % _("Excellon 2"))
- self.e2_object_lbl.setToolTip(
- _("Excellon object for which to check rules.\n"
- "Holds the non-plated holes.")
- )
- self.e2_cb = FCCheckBox()
- self.grid_layout.addWidget(self.e2_object_lbl, 11, 0)
- self.grid_layout.addWidget(self.e2_object, 11, 1)
- self.grid_layout.addWidget(self.e2_cb, 11, 2)
- self.grid_layout.addWidget(QtWidgets.QLabel(""), 12, 0, 1, 3)
- # Control All
- self.all_cb = FCCheckBox('%s' % _("All Rules"))
- self.all_cb.setToolTip(
- _("This check/uncheck all the rules below.")
- )
- self.all_cb.setStyleSheet(
- """
- QCheckBox {font-weight: bold; color: green}
- """
- )
- self.layout.addWidget(self.all_cb)
- # Form Layout
- self.form_layout_1 = QtWidgets.QFormLayout()
- self.layout.addLayout(self.form_layout_1)
- self.form_layout_1.addRow(QtWidgets.QLabel(""))
- # Trace size
- self.trace_size_cb = FCCheckBox('%s:' % _("Trace Size"))
- self.trace_size_cb.setToolTip(
- _("This checks if the minimum size for traces is met.")
- )
- self.form_layout_1.addRow(self.trace_size_cb)
- # Trace size value
- self.trace_size_entry = FCDoubleSpinner()
- self.trace_size_entry.set_range(0.00001, 999.99999)
- self.trace_size_entry.set_precision(self.decimals)
- self.trace_size_entry.setSingleStep(0.1)
- self.trace_size_lbl = QtWidgets.QLabel('%s:' % _("Min value"))
- self.trace_size_lbl.setToolTip(
- _("Minimum acceptable trace size.")
- )
- self.form_layout_1.addRow(self.trace_size_lbl, self.trace_size_entry)
- self.ts = OptionalInputSection(self.trace_size_cb, [self.trace_size_lbl, self.trace_size_entry])
- # Copper2copper clearance
- self.clearance_copper2copper_cb = FCCheckBox('%s:' % _("Copper to Copper clearance"))
- self.clearance_copper2copper_cb.setToolTip(
- _("This checks if the minimum clearance between copper\n"
- "features is met.")
- )
- self.form_layout_1.addRow(self.clearance_copper2copper_cb)
- # Copper2copper clearance value
- self.clearance_copper2copper_entry = FCDoubleSpinner()
- self.clearance_copper2copper_entry.set_range(0.00001, 999.99999)
- self.clearance_copper2copper_entry.set_precision(self.decimals)
- self.clearance_copper2copper_entry.setSingleStep(0.1)
- self.clearance_copper2copper_lbl = QtWidgets.QLabel('%s:' % _("Min value"))
- self.clearance_copper2copper_lbl.setToolTip(
- _("Minimum acceptable clearance value.")
- )
- self.form_layout_1.addRow(self.clearance_copper2copper_lbl, self.clearance_copper2copper_entry)
- self.c2c = OptionalInputSection(
- self.clearance_copper2copper_cb, [self.clearance_copper2copper_lbl, self.clearance_copper2copper_entry])
- # Copper2outline clearance
- self.clearance_copper2ol_cb = FCCheckBox('%s:' % _("Copper to Outline clearance"))
- self.clearance_copper2ol_cb.setToolTip(
- _("This checks if the minimum clearance between copper\n"
- "features and the outline is met.")
- )
- self.form_layout_1.addRow(self.clearance_copper2ol_cb)
- # Copper2outline clearance value
- self.clearance_copper2ol_entry = FCDoubleSpinner()
- self.clearance_copper2ol_entry.set_range(0.00001, 999.99999)
- self.clearance_copper2ol_entry.set_precision(self.decimals)
- self.clearance_copper2ol_entry.setSingleStep(0.1)
- self.clearance_copper2ol_lbl = QtWidgets.QLabel('%s:' % _("Min value"))
- self.clearance_copper2ol_lbl.setToolTip(
- _("Minimum acceptable clearance value.")
- )
- self.form_layout_1.addRow(self.clearance_copper2ol_lbl, self.clearance_copper2ol_entry)
- self.c2ol = OptionalInputSection(
- self.clearance_copper2ol_cb, [self.clearance_copper2ol_lbl, self.clearance_copper2ol_entry])
- # Silkscreen2silkscreen clearance
- self.clearance_silk2silk_cb = FCCheckBox('%s:' % _("Silk to Silk Clearance"))
- self.clearance_silk2silk_cb.setToolTip(
- _("This checks if the minimum clearance between silkscreen\n"
- "features and silkscreen features is met.")
- )
- self.form_layout_1.addRow(self.clearance_silk2silk_cb)
- # Copper2silkscreen clearance value
- self.clearance_silk2silk_entry = FCDoubleSpinner()
- self.clearance_silk2silk_entry.set_range(0.00001, 999.99999)
- self.clearance_silk2silk_entry.set_precision(self.decimals)
- self.clearance_silk2silk_entry.setSingleStep(0.1)
- self.clearance_silk2silk_lbl = QtWidgets.QLabel('%s:' % _("Min value"))
- self.clearance_silk2silk_lbl.setToolTip(
- _("Minimum acceptable clearance value.")
- )
- self.form_layout_1.addRow(self.clearance_silk2silk_lbl, self.clearance_silk2silk_entry)
- self.s2s = OptionalInputSection(
- self.clearance_silk2silk_cb, [self.clearance_silk2silk_lbl, self.clearance_silk2silk_entry])
- # Silkscreen2soldermask clearance
- self.clearance_silk2sm_cb = FCCheckBox('%s:' % _("Silk to Solder Mask Clearance"))
- self.clearance_silk2sm_cb.setToolTip(
- _("This checks if the minimum clearance between silkscreen\n"
- "features and soldermask features is met.")
- )
- self.form_layout_1.addRow(self.clearance_silk2sm_cb)
- # Silkscreen2soldermask clearance value
- self.clearance_silk2sm_entry = FCDoubleSpinner()
- self.clearance_silk2sm_entry.set_range(0.00001, 999.99999)
- self.clearance_silk2sm_entry.set_precision(self.decimals)
- self.clearance_silk2sm_entry.setSingleStep(0.1)
- self.clearance_silk2sm_lbl = QtWidgets.QLabel('%s:' % _("Min value"))
- self.clearance_silk2sm_lbl.setToolTip(
- _("Minimum acceptable clearance value.")
- )
- self.form_layout_1.addRow(self.clearance_silk2sm_lbl, self.clearance_silk2sm_entry)
- self.s2sm = OptionalInputSection(
- self.clearance_silk2sm_cb, [self.clearance_silk2sm_lbl, self.clearance_silk2sm_entry])
- # Silk2outline clearance
- self.clearance_silk2ol_cb = FCCheckBox('%s:' % _("Silk to Outline Clearance"))
- self.clearance_silk2ol_cb.setToolTip(
- _("This checks if the minimum clearance between silk\n"
- "features and the outline is met.")
- )
- self.form_layout_1.addRow(self.clearance_silk2ol_cb)
- # Silk2outline clearance value
- self.clearance_silk2ol_entry = FCDoubleSpinner()
- self.clearance_silk2ol_entry.set_range(0.00001, 999.99999)
- self.clearance_silk2ol_entry.set_precision(self.decimals)
- self.clearance_silk2ol_entry.setSingleStep(0.1)
- self.clearance_silk2ol_lbl = QtWidgets.QLabel('%s:' % _("Min value"))
- self.clearance_silk2ol_lbl.setToolTip(
- _("Minimum acceptable clearance value.")
- )
- self.form_layout_1.addRow(self.clearance_silk2ol_lbl, self.clearance_silk2ol_entry)
- self.s2ol = OptionalInputSection(
- self.clearance_silk2ol_cb, [self.clearance_silk2ol_lbl, self.clearance_silk2ol_entry])
- # Soldermask2soldermask clearance
- self.clearance_sm2sm_cb = FCCheckBox('%s:' % _("Minimum Solder Mask Sliver"))
- self.clearance_sm2sm_cb.setToolTip(
- _("This checks if the minimum clearance between soldermask\n"
- "features and soldermask features is met.")
- )
- self.form_layout_1.addRow(self.clearance_sm2sm_cb)
- # Soldermask2soldermask clearance value
- self.clearance_sm2sm_entry = FCDoubleSpinner()
- self.clearance_sm2sm_entry.set_range(0.00001, 999.99999)
- self.clearance_sm2sm_entry.set_precision(self.decimals)
- self.clearance_sm2sm_entry.setSingleStep(0.1)
- self.clearance_sm2sm_lbl = QtWidgets.QLabel('%s:' % _("Min value"))
- self.clearance_sm2sm_lbl.setToolTip(
- _("Minimum acceptable clearance value.")
- )
- self.form_layout_1.addRow(self.clearance_sm2sm_lbl, self.clearance_sm2sm_entry)
- self.sm2sm = OptionalInputSection(
- self.clearance_sm2sm_cb, [self.clearance_sm2sm_lbl, self.clearance_sm2sm_entry])
- # Ring integrity check
- self.ring_integrity_cb = FCCheckBox('%s:' % _("Minimum Annular Ring"))
- self.ring_integrity_cb.setToolTip(
- _("This checks if the minimum copper ring left by drilling\n"
- "a hole into a pad is met.")
- )
- self.form_layout_1.addRow(self.ring_integrity_cb)
- # Ring integrity value
- self.ring_integrity_entry = FCDoubleSpinner()
- self.ring_integrity_entry.set_range(0.00001, 999.99999)
- self.ring_integrity_entry.set_precision(self.decimals)
- self.ring_integrity_entry.setSingleStep(0.1)
- self.ring_integrity_lbl = QtWidgets.QLabel('%s:' % _("Min value"))
- self.ring_integrity_lbl.setToolTip(
- _("Minimum acceptable ring value.")
- )
- self.form_layout_1.addRow(self.ring_integrity_lbl, self.ring_integrity_entry)
- self.anr = OptionalInputSection(
- self.ring_integrity_cb, [self.ring_integrity_lbl, self.ring_integrity_entry])
- self.form_layout_1.addRow(QtWidgets.QLabel(""))
- # Hole2Hole clearance
- self.clearance_d2d_cb = FCCheckBox('%s:' % _("Hole to Hole Clearance"))
- self.clearance_d2d_cb.setToolTip(
- _("This checks if the minimum clearance between a drill hole\n"
- "and another drill hole is met.")
- )
- self.form_layout_1.addRow(self.clearance_d2d_cb)
- # Hole2Hole clearance value
- self.clearance_d2d_entry = FCDoubleSpinner()
- self.clearance_d2d_entry.set_range(0.00001, 999.99999)
- self.clearance_d2d_entry.set_precision(self.decimals)
- self.clearance_d2d_entry.setSingleStep(0.1)
- self.clearance_d2d_lbl = QtWidgets.QLabel('%s:' % _("Min value"))
- self.clearance_d2d_lbl.setToolTip(
- _("Minimum acceptable clearance value.")
- )
- self.form_layout_1.addRow(self.clearance_d2d_lbl, self.clearance_d2d_entry)
- self.d2d = OptionalInputSection(
- self.clearance_d2d_cb, [self.clearance_d2d_lbl, self.clearance_d2d_entry])
- # Drill holes size check
- self.drill_size_cb = FCCheckBox('%s:' % _("Hole Size"))
- self.drill_size_cb.setToolTip(
- _("This checks if the drill holes\n"
- "sizes are above the threshold.")
- )
- self.form_layout_1.addRow(self.drill_size_cb)
- # Drile holes value
- self.drill_size_entry = FCDoubleSpinner()
- self.drill_size_entry.set_range(0.00001, 999.99999)
- self.drill_size_entry.set_precision(self.decimals)
- self.drill_size_entry.setSingleStep(0.1)
- self.drill_size_lbl = QtWidgets.QLabel('%s:' % _("Min value"))
- self.drill_size_lbl.setToolTip(
- _("Minimum acceptable drill size.")
- )
- self.form_layout_1.addRow(self.drill_size_lbl, self.drill_size_entry)
- self.ds = OptionalInputSection(
- self.drill_size_cb, [self.drill_size_lbl, self.drill_size_entry])
- # Buttons
- hlay_2 = QtWidgets.QHBoxLayout()
- self.layout.addLayout(hlay_2)
- # hlay_2.addStretch()
- self.run_button = QtWidgets.QPushButton(_("Run Rules Check"))
- self.run_button.setToolTip(
- _("Panelize the specified object around the specified box.\n"
- "In other words it creates multiple copies of the source object,\n"
- "arranged in a 2D array of rows and columns.")
- )
- self.run_button.setStyleSheet("""
- QPushButton
- {
- font-weight: bold;
- }
- """)
- hlay_2.addWidget(self.run_button)
- self.layout.addStretch()
- # ## Reset Tool
- self.reset_button = QtWidgets.QPushButton(_("Reset Tool"))
- self.reset_button.setToolTip(
- _("Will reset the tool parameters.")
- )
- self.reset_button.setStyleSheet("""
- QPushButton
- {
- font-weight: bold;
- }
- """)
- self.layout.addWidget(self.reset_button)
- # #######################################################
- # ################ SIGNALS ##############################
- # #######################################################
- self.copper_t_cb.stateChanged.connect(lambda st: self.copper_t_object.setDisabled(not st))
- self.copper_b_cb.stateChanged.connect(lambda st: self.copper_b_object.setDisabled(not st))
- self.sm_t_cb.stateChanged.connect(lambda st: self.sm_t_object.setDisabled(not st))
- self.sm_b_cb.stateChanged.connect(lambda st: self.sm_b_object.setDisabled(not st))
- self.ss_t_cb.stateChanged.connect(lambda st: self.ss_t_object.setDisabled(not st))
- self.ss_b_cb.stateChanged.connect(lambda st: self.ss_b_object.setDisabled(not st))
- self.out_cb.stateChanged.connect(lambda st: self.outline_object.setDisabled(not st))
- self.e1_cb.stateChanged.connect(lambda st: self.e1_object.setDisabled(not st))
- self.e2_cb.stateChanged.connect(lambda st: self.e2_object.setDisabled(not st))
- self.all_obj_cb.stateChanged.connect(self.on_all_objects_cb_changed)
- self.all_cb.stateChanged.connect(self.on_all_cb_changed)
- self.run_button.clicked.connect(self.execute)
- # self.app.collection.rowsInserted.connect(self.on_object_loaded)
- self.tool_finished.connect(self.on_tool_finished)
- self.reset_button.clicked.connect(self.set_tool_ui)
- # list to hold the temporary objects
- self.objs = []
- # final name for the panel object
- self.outname = ""
- # flag to signal the constrain was activated
- self.constrain_flag = False
- # Multiprocessing Process Pool
- self.pool = self.app.pool
- self.results = None
- self.decimals = 4
- # def on_object_loaded(self, index, row):
- # print(index.internalPointer().child_items[row].obj.options['name'], index.data())
- def on_all_cb_changed(self, state):
- cb_items = [self.form_layout_1.itemAt(i).widget() for i in range(self.form_layout_1.count())
- if isinstance(self.form_layout_1.itemAt(i).widget(), FCCheckBox)]
- for cb in cb_items:
- if state:
- cb.setChecked(True)
- else:
- cb.setChecked(False)
- def on_all_objects_cb_changed(self, state):
- cb_items = [self.grid_layout.itemAt(i).widget() for i in range(self.grid_layout.count())
- if isinstance(self.grid_layout.itemAt(i).widget(), FCCheckBox)]
- for cb in cb_items:
- if state:
- cb.setChecked(True)
- else:
- cb.setChecked(False)
- def run(self, toggle=True):
- self.app.report_usage("ToolRulesCheck()")
- if toggle:
- # if the splitter is hidden, display it, else hide it but only if the current widget is the same
- if self.app.ui.splitter.sizes()[0] == 0:
- self.app.ui.splitter.setSizes([1, 1])
- else:
- try:
- if self.app.ui.tool_scroll_area.widget().objectName() == self.toolName:
- # if tab is populated with the tool but it does not have the focus, focus on it
- if not self.app.ui.notebook.currentWidget() is self.app.ui.tool_tab:
- # focus on Tool Tab
- self.app.ui.notebook.setCurrentWidget(self.app.ui.tool_tab)
- else:
- self.app.ui.splitter.setSizes([0, 1])
- except AttributeError:
- pass
- else:
- if self.app.ui.splitter.sizes()[0] == 0:
- self.app.ui.splitter.setSizes([1, 1])
- FlatCAMTool.run(self)
- self.set_tool_ui()
- self.app.ui.notebook.setTabText(2, _("Rules Tool"))
- def install(self, icon=None, separator=None, **kwargs):
- FlatCAMTool.install(self, icon, separator, shortcut='ALT+R', **kwargs)
- def set_tool_ui(self):
- # all object combobox default as disabled
- self.copper_t_object.setDisabled(True)
- self.copper_b_object.setDisabled(True)
- self.sm_t_object.setDisabled(True)
- self.sm_b_object.setDisabled(True)
- self.ss_t_object.setDisabled(True)
- self.ss_b_object.setDisabled(True)
- self.outline_object.setDisabled(True)
- self.e1_object.setDisabled(True)
- self.e2_object.setDisabled(True)
- self.trace_size_cb.set_value(self.app.defaults["tools_cr_trace_size"])
- self.trace_size_entry.set_value(float(self.app.defaults["tools_cr_trace_size_val"]))
- self.clearance_copper2copper_cb.set_value(self.app.defaults["tools_cr_c2c"])
- self.clearance_copper2copper_entry.set_value(float(self.app.defaults["tools_cr_c2c_val"]))
- self.clearance_copper2ol_cb.set_value(self.app.defaults["tools_cr_c2o"])
- self.clearance_copper2ol_entry.set_value(float(self.app.defaults["tools_cr_c2o_val"]))
- self.clearance_silk2silk_cb.set_value(self.app.defaults["tools_cr_s2s"])
- self.clearance_silk2silk_entry.set_value(float(self.app.defaults["tools_cr_s2s_val"]))
- self.clearance_silk2sm_cb.set_value(self.app.defaults["tools_cr_s2sm"])
- self.clearance_silk2sm_entry.set_value(float(self.app.defaults["tools_cr_s2sm_val"]))
- self.clearance_silk2ol_cb.set_value(self.app.defaults["tools_cr_s2o"])
- self.clearance_silk2ol_entry.set_value(float(self.app.defaults["tools_cr_s2o_val"]))
- self.clearance_sm2sm_cb.set_value(self.app.defaults["tools_cr_sm2sm"])
- self.clearance_sm2sm_entry.set_value(float(self.app.defaults["tools_cr_sm2sm_val"]))
- self.ring_integrity_cb.set_value(self.app.defaults["tools_cr_ri"])
- self.ring_integrity_entry.set_value(float(self.app.defaults["tools_cr_ri_val"]))
- self.clearance_d2d_cb.set_value(self.app.defaults["tools_cr_h2h"])
- self.clearance_d2d_entry.set_value(float(self.app.defaults["tools_cr_h2h_val"]))
- self.drill_size_cb.set_value(self.app.defaults["tools_cr_dh"])
- self.drill_size_entry.set_value(float(self.app.defaults["tools_cr_dh_val"]))
- self.reset_fields()
- @staticmethod
- def check_inside_gerber_clearance(gerber_obj, size, rule):
- log.debug("RulesCheck.check_inside_gerber_clearance()")
- rule_title = rule
- violations = list()
- obj_violations = dict()
- obj_violations.update({
- 'name': '',
- 'points': list()
- })
- if not gerber_obj:
- return 'Fail. Not enough Gerber objects to check Gerber 2 Gerber clearance'
- obj_violations['name'] = gerber_obj['name']
- solid_geo = list()
- clear_geo = list()
- for apid in gerber_obj['apertures']:
- if 'geometry' in gerber_obj['apertures'][apid]:
- geometry = gerber_obj['apertures'][apid]['geometry']
- for geo_el in geometry:
- if 'solid' in geo_el and geo_el['solid'] is not None:
- solid_geo.append(geo_el['solid'])
- if 'clear' in geo_el and geo_el['clear'] is not None:
- clear_geo.append(geo_el['clear'])
- if clear_geo:
- total_geo = list()
- for geo_c in clear_geo:
- for geo_s in solid_geo:
- if geo_c.within(geo_s):
- total_geo.append(geo_s.difference(geo_c))
- else:
- total_geo = MultiPolygon(solid_geo)
- total_geo = total_geo.buffer(0.000001)
- if isinstance(total_geo, Polygon):
- obj_violations['points'] = ['Failed. Only one polygon.']
- return rule_title, [obj_violations]
- else:
- iterations = len(total_geo)
- iterations = (iterations * (iterations - 1)) / 2
- log.debug("RulesCheck.check_gerber_clearance(). Iterations: %s" % str(iterations))
- min_dict = dict()
- idx = 1
- for geo in total_geo:
- for s_geo in total_geo[idx:]:
- # minimize the number of distances by not taking into considerations those that are too small
- dist = geo.distance(s_geo)
- if float(dist) < float(size):
- loc_1, loc_2 = nearest_points(geo, s_geo)
- dx = loc_1.x - loc_2.x
- dy = loc_1.y - loc_2.y
- loc = min(loc_1.x, loc_2.x) + (abs(dx) / 2), min(loc_1.y, loc_2.y) + (abs(dy) / 2)
- if dist in min_dict:
- min_dict[dist].append(loc)
- else:
- min_dict[dist] = [loc]
- idx += 1
- points_list = set()
- for dist in min_dict.keys():
- for location in min_dict[dist]:
- points_list.add(location)
- obj_violations['points'] = list(points_list)
- violations.append(deepcopy(obj_violations))
- return rule_title, violations
- @staticmethod
- def check_gerber_clearance(gerber_list, size, rule):
- log.debug("RulesCheck.check_gerber_clearance()")
- rule_title = rule
- violations = list()
- obj_violations = dict()
- obj_violations.update({
- 'name': '',
- 'points': list()
- })
- if len(gerber_list) == 2:
- gerber_1 = gerber_list[0]
- # added it so I won't have errors of using before declaring
- gerber_2 = dict()
- gerber_3 = gerber_list[1]
- elif len(gerber_list) == 3:
- gerber_1 = gerber_list[0]
- gerber_2 = gerber_list[1]
- gerber_3 = gerber_list[2]
- else:
- return 'Fail. Not enough Gerber objects to check Gerber 2 Gerber clearance'
- total_geo_grb_1 = list()
- for apid in gerber_1['apertures']:
- if 'geometry' in gerber_1['apertures'][apid]:
- geometry = gerber_1['apertures'][apid]['geometry']
- for geo_el in geometry:
- if 'solid' in geo_el and geo_el['solid'] is not None:
- total_geo_grb_1.append(geo_el['solid'])
- if len(gerber_list) == 3:
- # add the second Gerber geometry to the first one if it exists
- for apid in gerber_2['apertures']:
- if 'geometry' in gerber_2['apertures'][apid]:
- geometry = gerber_2['apertures'][apid]['geometry']
- for geo_el in geometry:
- if 'solid' in geo_el and geo_el['solid'] is not None:
- total_geo_grb_1.append(geo_el['solid'])
- total_geo_grb_3 = list()
- for apid in gerber_3['apertures']:
- if 'geometry' in gerber_3['apertures'][apid]:
- geometry = gerber_3['apertures'][apid]['geometry']
- for geo_el in geometry:
- if 'solid' in geo_el and geo_el['solid'] is not None:
- total_geo_grb_3.append(geo_el['solid'])
- total_geo_grb_1 = MultiPolygon(total_geo_grb_1)
- total_geo_grb_1 = total_geo_grb_1.buffer(0)
- total_geo_grb_3 = MultiPolygon(total_geo_grb_3)
- total_geo_grb_3 = total_geo_grb_3.buffer(0)
- if isinstance(total_geo_grb_1, Polygon):
- len_1 = 1
- total_geo_grb_1 = [total_geo_grb_1]
- else:
- len_1 = len(total_geo_grb_1)
- if isinstance(total_geo_grb_3, Polygon):
- len_3 = 1
- total_geo_grb_3 = [total_geo_grb_3]
- else:
- len_3 = len(total_geo_grb_3)
- iterations = len_1 * len_3
- log.debug("RulesCheck.check_gerber_clearance(). Iterations: %s" % str(iterations))
- min_dict = dict()
- for geo in total_geo_grb_1:
- for s_geo in total_geo_grb_3:
- # minimize the number of distances by not taking into considerations those that are too small
- dist = geo.distance(s_geo)
- if float(dist) < float(size):
- loc_1, loc_2 = nearest_points(geo, s_geo)
- dx = loc_1.x - loc_2.x
- dy = loc_1.y - loc_2.y
- loc = min(loc_1.x, loc_2.x) + (abs(dx) / 2), min(loc_1.y, loc_2.y) + (abs(dy) / 2)
- if dist in min_dict:
- min_dict[dist].append(loc)
- else:
- min_dict[dist] = [loc]
- points_list = set()
- for dist in min_dict.keys():
- for location in min_dict[dist]:
- points_list.add(location)
- name_list = list()
- if gerber_1:
- name_list.append(gerber_1['name'])
- if gerber_2:
- name_list.append(gerber_2['name'])
- if gerber_3:
- name_list.append(gerber_3['name'])
- obj_violations['name'] = name_list
- obj_violations['points'] = list(points_list)
- violations.append(deepcopy(obj_violations))
- return rule_title, violations
- @staticmethod
- def check_holes_size(elements, size):
- log.debug("RulesCheck.check_holes_size()")
- rule = _("Hole Size")
- violations = list()
- obj_violations = dict()
- obj_violations.update({
- 'name': '',
- 'dia': list()
- })
- for elem in elements:
- dia_list = []
- name = elem['name']
- for tool in elem['tools']:
- tool_dia = float('%.*f' % (4, float(elem['tools'][tool]['C'])))
- if tool_dia < float(size):
- dia_list.append(tool_dia)
- obj_violations['name'] = name
- obj_violations['dia'] = dia_list
- violations.append(deepcopy(obj_violations))
- return rule, violations
- @staticmethod
- def check_holes_clearance(elements, size):
- log.debug("RulesCheck.check_holes_clearance()")
- rule = _("Hole to Hole Clearance")
- violations = list()
- obj_violations = dict()
- obj_violations.update({
- 'name': '',
- 'points': list()
- })
- total_geo = list()
- for elem in elements:
- for tool in elem['tools']:
- if 'solid_geometry' in elem['tools'][tool]:
- geometry = elem['tools'][tool]['solid_geometry']
- for geo in geometry:
- total_geo.append(geo)
- min_dict = dict()
- idx = 1
- for geo in total_geo:
- for s_geo in total_geo[idx:]:
- # minimize the number of distances by not taking into considerations those that are too small
- dist = geo.distance(s_geo)
- loc_1, loc_2 = nearest_points(geo, s_geo)
- dx = loc_1.x - loc_2.x
- dy = loc_1.y - loc_2.y
- loc = min(loc_1.x, loc_2.x) + (abs(dx) / 2), min(loc_1.y, loc_2.y) + (abs(dy) / 2)
- if dist in min_dict:
- min_dict[dist].append(loc)
- else:
- min_dict[dist] = [loc]
- idx += 1
- points_list = set()
- for dist in min_dict.keys():
- if float(dist) < size:
- for location in min_dict[dist]:
- points_list.add(location)
- name_list = list()
- for elem in elements:
- name_list.append(elem['name'])
- obj_violations['name'] = name_list
- obj_violations['points'] = list(points_list)
- violations.append(deepcopy(obj_violations))
- return rule, violations
- @staticmethod
- def check_traces_size(elements, size):
- log.debug("RulesCheck.check_traces_size()")
- rule = _("Trace Size")
- violations = list()
- obj_violations = dict()
- obj_violations.update({
- 'name': '',
- 'size': list(),
- 'points': list()
- })
- for elem in elements:
- dia_list = []
- points_list = []
- name = elem['name']
- for apid in elem['apertures']:
- try:
- tool_dia = float(elem['apertures'][apid]['size'])
- if tool_dia < float(size) and tool_dia != 0.0:
- dia_list.append(tool_dia)
- for geo_el in elem['apertures'][apid]['geometry']:
- if 'solid' in geo_el.keys():
- geo = geo_el['solid']
- pt = geo.representative_point()
- points_list.append((pt.x, pt.y))
- except Exception as e:
- # An exception will be raised for the 'size' key in case of apertures of type AM (macro) which does
- # not have the size key
- pass
- obj_violations['name'] = name
- obj_violations['size'] = dia_list
- obj_violations['points'] = points_list
- violations.append(deepcopy(obj_violations))
- return rule, violations
- @staticmethod
- def check_gerber_annular_ring(obj_list, size, rule):
- rule_title = rule
- violations = list()
- obj_violations = dict()
- obj_violations.update({
- 'name': '',
- 'points': list()
- })
- # added it so I won't have errors of using before declaring
- gerber_obj = dict()
- gerber_extra_obj = dict()
- exc_obj = dict()
- exc_extra_obj = dict()
- if len(obj_list) == 2:
- gerber_obj = obj_list[0]
- exc_obj = obj_list[1]
- if 'apertures' in gerber_obj and 'tools' in exc_obj:
- pass
- else:
- return 'Fail. At least one Gerber and one Excellon object is required to check Minimum Annular Ring'
- elif len(obj_list) == 3:
- o1 = obj_list[0]
- o2 = obj_list[1]
- o3 = obj_list[2]
- if 'apertures' in o1 and 'apertures' in o2:
- gerber_obj = o1
- gerber_extra_obj = o2
- exc_obj = o3
- elif 'tools' in o2 and 'tools' in o3:
- gerber_obj = o1
- exc_obj = o2
- exc_extra_obj = o3
- elif len(obj_list) == 4:
- gerber_obj = obj_list[0]
- gerber_extra_obj = obj_list[1]
- exc_obj = obj_list[2]
- exc_extra_obj = obj_list[3]
- else:
- return 'Fail. Not enough objects to check Minimum Annular Ring'
- total_geo_grb = list()
- for apid in gerber_obj['apertures']:
- if 'geometry' in gerber_obj['apertures'][apid]:
- geometry = gerber_obj['apertures'][apid]['geometry']
- for geo_el in geometry:
- if 'solid' in geo_el and geo_el['solid'] is not None:
- total_geo_grb.append(geo_el['solid'])
- if len(obj_list) == 3 and gerber_extra_obj:
- # add the second Gerber geometry to the first one if it exists
- for apid in gerber_extra_obj['apertures']:
- if 'geometry' in gerber_extra_obj['apertures'][apid]:
- geometry = gerber_extra_obj['apertures'][apid]['geometry']
- for geo_el in geometry:
- if 'solid' in geo_el and geo_el['solid'] is not None:
- total_geo_grb.append(geo_el['solid'])
- total_geo_grb = MultiPolygon(total_geo_grb)
- total_geo_grb = total_geo_grb.buffer(0)
- total_geo_exc = list()
- for tool in exc_obj['tools']:
- if 'solid_geometry' in exc_obj['tools'][tool]:
- geometry = exc_obj['tools'][tool]['solid_geometry']
- for geo in geometry:
- total_geo_exc.append(geo)
- if len(obj_list) == 3 and exc_extra_obj:
- # add the second Excellon geometry to the first one if it exists
- for tool in exc_extra_obj['tools']:
- if 'solid_geometry' in exc_extra_obj['tools'][tool]:
- geometry = exc_extra_obj['tools'][tool]['solid_geometry']
- for geo in geometry:
- total_geo_exc.append(geo)
- if isinstance(total_geo_grb, Polygon):
- len_1 = 1
- total_geo_grb = [total_geo_grb]
- else:
- len_1 = len(total_geo_grb)
- if isinstance(total_geo_exc, Polygon):
- len_2 = 1
- total_geo_exc = [total_geo_exc]
- else:
- len_2 = len(total_geo_exc)
- iterations = len_1 * len_2
- log.debug("RulesCheck.check_gerber_annular_ring(). Iterations: %s" % str(iterations))
- min_dict = dict()
- dist = None
- for geo in total_geo_grb:
- for s_geo in total_geo_exc:
- try:
- # minimize the number of distances by not taking into considerations those that are too small
- dist = abs(geo.exterior.distance(s_geo))
- except Exception as e:
- log.debug("RulesCheck.check_gerber_annular_ring() --> %s" % str(e))
- if dist > 0:
- if float(dist) < float(size):
- loc_1, loc_2 = nearest_points(geo.exterior, s_geo)
- dx = loc_1.x - loc_2.x
- dy = loc_1.y - loc_2.y
- loc = min(loc_1.x, loc_2.x) + (abs(dx) / 2), min(loc_1.y, loc_2.y) + (abs(dy) / 2)
- if dist in min_dict:
- min_dict[dist].append(loc)
- else:
- min_dict[dist] = [loc]
- else:
- if dist in min_dict:
- min_dict[dist].append(s_geo.representative_point())
- else:
- min_dict[dist] = [s_geo.representative_point()]
- points_list = list()
- for dist in min_dict.keys():
- for location in min_dict[dist]:
- points_list.append(location)
- name_list = list()
- try:
- if gerber_obj:
- name_list.append(gerber_obj['name'])
- except KeyError:
- pass
- try:
- if gerber_extra_obj:
- name_list.append(gerber_extra_obj['name'])
- except KeyError:
- pass
- try:
- if exc_obj:
- name_list.append(exc_obj['name'])
- except KeyError:
- pass
- try:
- if exc_extra_obj:
- name_list.append(exc_extra_obj['name'])
- except KeyError:
- pass
- obj_violations['name'] = name_list
- obj_violations['points'] = points_list
- violations.append(deepcopy(obj_violations))
- return rule_title, violations
- def execute(self):
- self.results = list()
- log.debug("RuleCheck() executing")
- def worker_job(app_obj):
- self.app.proc_container.new(_("Working..."))
- # RULE: Check Trace Size
- if self.trace_size_cb.get_value():
- copper_list = list()
- copper_name_1 = self.copper_t_object.currentText()
- if copper_name_1 is not '' and self.copper_t_cb.get_value():
- elem_dict = dict()
- elem_dict['name'] = deepcopy(copper_name_1)
- elem_dict['apertures'] = deepcopy(self.app.collection.get_by_name(copper_name_1).apertures)
- copper_list.append(elem_dict)
- copper_name_2 = self.copper_b_object.currentText()
- if copper_name_2 is not '' and self.copper_b_cb.get_value():
- elem_dict = dict()
- elem_dict['name'] = deepcopy(copper_name_2)
- elem_dict['apertures'] = deepcopy(self.app.collection.get_by_name(copper_name_2).apertures)
- copper_list.append(elem_dict)
- trace_size = float(self.trace_size_entry.get_value())
- self.results.append(self.pool.apply_async(self.check_traces_size, args=(copper_list, trace_size)))
- # RULE: Check Copper to Copper Clearance
- if self.clearance_copper2copper_cb.get_value():
- try:
- copper_copper_clearance = float(self.clearance_copper2copper_entry.get_value())
- except Exception as e:
- log.debug("RulesCheck.execute.worker_job() --> %s" % str(e))
- self.app.inform.emit('[ERROR_NOTCL] %s. %s' % (
- _("Copper to Copper clearance"),
- _("Value is not valid.")))
- return
- if self.copper_t_cb.get_value():
- copper_t_obj = self.copper_t_object.currentText()
- copper_t_dict = dict()
- if copper_t_obj is not '':
- copper_t_dict['name'] = deepcopy(copper_t_obj)
- copper_t_dict['apertures'] = deepcopy(self.app.collection.get_by_name(copper_t_obj).apertures)
- self.results.append(self.pool.apply_async(self.check_inside_gerber_clearance,
- args=(copper_t_dict,
- copper_copper_clearance,
- _("TOP -> Copper to Copper clearance"))))
- if self.copper_b_cb.get_value():
- copper_b_obj = self.copper_b_object.currentText()
- copper_b_dict = dict()
- if copper_b_obj is not '':
- copper_b_dict['name'] = deepcopy(copper_b_obj)
- copper_b_dict['apertures'] = deepcopy(self.app.collection.get_by_name(copper_b_obj).apertures)
- self.results.append(self.pool.apply_async(self.check_inside_gerber_clearance,
- args=(copper_b_dict,
- copper_copper_clearance,
- _("BOTTOM -> Copper to Copper clearance"))))
- if self.copper_t_cb.get_value() is False and self.copper_b_cb.get_value() is False:
- self.app.inform.emit('[ERROR_NOTCL] %s. %s' % (
- _("Copper to Copper clearance"),
- _("At least one Gerber object has to be selected for this rule but none is selected.")))
- return
- # RULE: Check Copper to Outline Clearance
- if self.clearance_copper2ol_cb.get_value() and self.out_cb.get_value():
- top_dict = dict()
- bottom_dict = dict()
- outline_dict = dict()
- copper_top = self.copper_t_object.currentText()
- if copper_top is not '' and self.copper_t_cb.get_value():
- top_dict['name'] = deepcopy(copper_top)
- top_dict['apertures'] = deepcopy(self.app.collection.get_by_name(copper_top).apertures)
- copper_bottom = self.copper_b_object.currentText()
- if copper_bottom is not '' and self.copper_b_cb.get_value():
- bottom_dict['name'] = deepcopy(copper_bottom)
- bottom_dict['apertures'] = deepcopy(self.app.collection.get_by_name(copper_bottom).apertures)
- copper_outline = self.outline_object.currentText()
- if copper_outline is not '' and self.out_cb.get_value():
- outline_dict['name'] = deepcopy(copper_outline)
- outline_dict['apertures'] = deepcopy(self.app.collection.get_by_name(copper_outline).apertures)
- try:
- copper_outline_clearance = float(self.clearance_copper2ol_entry.get_value())
- except Exception as e:
- log.debug("RulesCheck.execute.worker_job() --> %s" % str(e))
- self.app.inform.emit('[ERROR_NOTCL] %s. %s' % (
- _("Copper to Outline clearance"),
- _("Value is not valid.")))
- return
- if not top_dict and not bottom_dict or not outline_dict:
- self.app.inform.emit('[ERROR_NOTCL] %s. %s' % (
- _("Copper to Outline clearance"),
- _("One of the copper Gerber objects or the Outline Gerber object is not valid.")))
- return
- objs = []
- if top_dict:
- objs.append(top_dict)
- if bottom_dict:
- objs.append(bottom_dict)
- if outline_dict:
- objs.append(outline_dict)
- else:
- self.app.inform.emit('[ERROR_NOTCL] %s. %s' % (
- _("Copper to Outline clearance"),
- _("Outline Gerber object presence is mandatory for this rule but it is not selected.")))
- return
- self.results.append(self.pool.apply_async(self.check_gerber_clearance,
- args=(objs,
- copper_outline_clearance,
- _("Copper to Outline clearance"))))
- # RULE: Check Silk to Silk Clearance
- if self.clearance_silk2silk_cb.get_value():
- silk_dict = dict()
- try:
- silk_silk_clearance = float(self.clearance_silk2silk_entry.get_value())
- except Exception as e:
- log.debug("RulesCheck.execute.worker_job() --> %s" % str(e))
- self.app.inform.emit('[ERROR_NOTCL] %s. %s' % (
- _("Silk to Silk clearance"),
- _("Value is not valid.")))
- return
- if self.ss_t_cb.get_value():
- silk_obj = self.ss_t_object.currentText()
- if silk_obj is not '':
- silk_dict['name'] = deepcopy(silk_obj)
- silk_dict['apertures'] = deepcopy(self.app.collection.get_by_name(silk_obj).apertures)
- self.results.append(self.pool.apply_async(self.check_inside_gerber_clearance,
- args=(silk_dict,
- silk_silk_clearance,
- _("TOP -> Silk to Silk clearance"))))
- if self.ss_b_cb.get_value():
- silk_obj = self.ss_b_object.currentText()
- if silk_obj is not '':
- silk_dict['name'] = deepcopy(silk_obj)
- silk_dict['apertures'] = deepcopy(self.app.collection.get_by_name(silk_obj).apertures)
- self.results.append(self.pool.apply_async(self.check_inside_gerber_clearance,
- args=(silk_dict,
- silk_silk_clearance,
- _("BOTTOM -> Silk to Silk clearance"))))
- if self.ss_t_cb.get_value() is False and self.ss_b_cb.get_value() is False:
- self.app.inform.emit('[ERROR_NOTCL] %s. %s' % (
- _("Silk to Silk clearance"),
- _("At least one Gerber object has to be selected for this rule but none is selected.")))
- return
- # RULE: Check Silk to Solder Mask Clearance
- if self.clearance_silk2sm_cb.get_value():
- silk_t_dict = dict()
- sm_t_dict = dict()
- silk_b_dict = dict()
- sm_b_dict = dict()
- top_ss = False
- bottom_ss = False
- top_sm = False
- bottom_sm = False
- silk_top = self.ss_t_object.currentText()
- if silk_top is not '' and self.ss_t_cb.get_value():
- silk_t_dict['name'] = deepcopy(silk_top)
- silk_t_dict['apertures'] = deepcopy(self.app.collection.get_by_name(silk_top).apertures)
- top_ss = True
- silk_bottom = self.ss_b_object.currentText()
- if silk_bottom is not '' and self.ss_b_cb.get_value():
- silk_b_dict['name'] = deepcopy(silk_bottom)
- silk_b_dict['apertures'] = deepcopy(self.app.collection.get_by_name(silk_bottom).apertures)
- bottom_ss = True
- sm_top = self.sm_t_object.currentText()
- if sm_top is not '' and self.sm_t_cb.get_value():
- sm_t_dict['name'] = deepcopy(sm_top)
- sm_t_dict['apertures'] = deepcopy(self.app.collection.get_by_name(sm_top).apertures)
- top_sm = True
- sm_bottom = self.sm_b_object.currentText()
- if sm_bottom is not '' and self.sm_b_cb.get_value():
- sm_b_dict['name'] = deepcopy(sm_bottom)
- sm_b_dict['apertures'] = deepcopy(self.app.collection.get_by_name(sm_bottom).apertures)
- bottom_sm = True
- try:
- silk_sm_clearance = float(self.clearance_silk2sm_entry.get_value())
- except Exception as e:
- log.debug("RulesCheck.execute.worker_job() --> %s" % str(e))
- self.app.inform.emit('[ERROR_NOTCL] %s. %s' % (
- _("Silk to Solder Mask Clearance"),
- _("Value is not valid.")))
- return
- if (not silk_t_dict and not silk_b_dict) or (not sm_t_dict and not sm_b_dict):
- self.app.inform.emit('[ERROR_NOTCL] %s. %s' % (
- _("Silk to Solder Mask Clearance"),
- _("One or more of the Gerber objects is not valid.")))
- return
- if top_ss is True and top_sm is True:
- objs = [silk_t_dict, sm_t_dict]
- self.results.append(self.pool.apply_async(self.check_gerber_clearance,
- args=(objs,
- silk_sm_clearance,
- _("TOP -> Silk to Solder Mask Clearance"))))
- elif bottom_ss is True and bottom_sm is True:
- objs = [silk_b_dict, sm_b_dict]
- self.results.append(self.pool.apply_async(self.check_gerber_clearance,
- args=(objs,
- silk_sm_clearance,
- _("BOTTOM -> Silk to Solder Mask Clearance"))))
- else:
- self.app.inform.emit('[ERROR_NOTCL] %s. %s' % (
- _("Silk to Solder Mask Clearance"),
- _("Both Silk and Solder Mask Gerber objects has to be either both Top or both Bottom.")))
- return
- # RULE: Check Silk to Outline Clearance
- if self.clearance_silk2ol_cb.get_value():
- top_dict = dict()
- bottom_dict = dict()
- outline_dict = dict()
- silk_top = self.ss_t_object.currentText()
- if silk_top is not '' and self.ss_t_cb.get_value():
- top_dict['name'] = deepcopy(silk_top)
- top_dict['apertures'] = deepcopy(self.app.collection.get_by_name(silk_top).apertures)
- silk_bottom = self.ss_b_object.currentText()
- if silk_bottom is not '' and self.ss_b_cb.get_value():
- bottom_dict['name'] = deepcopy(silk_bottom)
- bottom_dict['apertures'] = deepcopy(self.app.collection.get_by_name(silk_bottom).apertures)
- copper_outline = self.outline_object.currentText()
- if copper_outline is not '' and self.out_cb.get_value():
- outline_dict['name'] = deepcopy(copper_outline)
- outline_dict['apertures'] = deepcopy(self.app.collection.get_by_name(copper_outline).apertures)
- try:
- copper_outline_clearance = float(self.clearance_copper2ol_entry.get_value())
- except Exception as e:
- log.debug("RulesCheck.execute.worker_job() --> %s" % str(e))
- self.app.inform.emit('[ERROR_NOTCL] %s. %s' % (
- _("Silk to Outline Clearance"),
- _("Value is not valid.")))
- return
- if not top_dict and not bottom_dict or not outline_dict:
- self.app.inform.emit('[ERROR_NOTCL] %s. %s' % (
- _("Silk to Outline Clearance"),
- _("One of the Silk Gerber objects or the Outline Gerber object is not valid.")))
- return
- objs = []
- if top_dict:
- objs.append(top_dict)
- if bottom_dict:
- objs.append(bottom_dict)
- if outline_dict:
- objs.append(outline_dict)
- else:
- self.app.inform.emit('[ERROR_NOTCL] %s. %s' % (
- _("Silk to Outline Clearance"),
- _("Outline Gerber object presence is mandatory for this rule but it is not selected.")))
- return
- self.results.append(self.pool.apply_async(self.check_gerber_clearance,
- args=(objs,
- copper_outline_clearance,
- _("Silk to Outline Clearance"))))
- # RULE: Check Minimum Solder Mask Sliver
- if self.clearance_silk2silk_cb.get_value():
- sm_dict = dict()
- try:
- sm_sm_clearance = float(self.clearance_sm2sm_entry.get_value())
- except Exception as e:
- log.debug("RulesCheck.execute.worker_job() --> %s" % str(e))
- self.app.inform.emit('[ERROR_NOTCL] %s. %s' % (
- _("Minimum Solder Mask Sliver"),
- _("Value is not valid.")))
- return
- if self.sm_t_cb.get_value():
- solder_obj = self.sm_t_object.currentText()
- if solder_obj is not '':
- sm_dict['name'] = deepcopy(solder_obj)
- sm_dict['apertures'] = deepcopy(self.app.collection.get_by_name(solder_obj).apertures)
- self.results.append(self.pool.apply_async(self.check_inside_gerber_clearance,
- args=(sm_dict,
- sm_sm_clearance,
- _("TOP -> Minimum Solder Mask Sliver"))))
- if self.sm_b_cb.get_value():
- solder_obj = self.sm_b_object.currentText()
- if solder_obj is not '':
- sm_dict['name'] = deepcopy(solder_obj)
- sm_dict['apertures'] = deepcopy(self.app.collection.get_by_name(solder_obj).apertures)
- self.results.append(self.pool.apply_async(self.check_inside_gerber_clearance,
- args=(sm_dict,
- sm_sm_clearance,
- _("BOTTOM -> Minimum Solder Mask Sliver"))))
- if self.sm_t_cb.get_value() is False and self.sm_b_cb.get_value() is False:
- self.app.inform.emit('[ERROR_NOTCL] %s. %s' % (
- _("Minimum Solder Mask Sliver"),
- _("At least one Gerber object has to be selected for this rule but none is selected.")))
- return
- # RULE: Check Minimum Annular Ring
- if self.ring_integrity_cb.get_value():
- top_dict = dict()
- bottom_dict = dict()
- exc_1_dict = dict()
- exc_2_dict = dict()
- copper_top = self.copper_t_object.currentText()
- if copper_top is not '' and self.copper_t_cb.get_value():
- top_dict['name'] = deepcopy(copper_top)
- top_dict['apertures'] = deepcopy(self.app.collection.get_by_name(copper_top).apertures)
- copper_bottom = self.copper_b_object.currentText()
- if copper_bottom is not '' and self.copper_b_cb.get_value():
- bottom_dict['name'] = deepcopy(copper_bottom)
- bottom_dict['apertures'] = deepcopy(self.app.collection.get_by_name(copper_bottom).apertures)
- excellon_1 = self.e1_object.currentText()
- if excellon_1 is not '' and self.e1_cb.get_value():
- exc_1_dict['name'] = deepcopy(excellon_1)
- exc_1_dict['tools'] = deepcopy(
- self.app.collection.get_by_name(excellon_1).tools)
- excellon_2 = self.e2_object.currentText()
- if excellon_2 is not '' and self.e2_cb.get_value():
- exc_2_dict['name'] = deepcopy(excellon_2)
- exc_2_dict['tools'] = deepcopy(
- self.app.collection.get_by_name(excellon_2).tools)
- try:
- ring_val = float(self.ring_integrity_entry.get_value())
- except Exception as e:
- log.debug("RulesCheck.execute.worker_job() --> %s" % str(e))
- self.app.inform.emit('[ERROR_NOTCL] %s. %s' % (
- _("Minimum Annular Ring"),
- _("Value is not valid.")))
- return
- if (not top_dict and not bottom_dict) or (not exc_1_dict and not exc_2_dict):
- self.app.inform.emit('[ERROR_NOTCL] %s. %s' % (
- _("Minimum Annular Ring"),
- _("One of the Copper Gerber objects or the Excellon objects is not valid.")))
- return
- objs = []
- if top_dict:
- objs.append(top_dict)
- elif bottom_dict:
- objs.append(bottom_dict)
- if exc_1_dict:
- objs.append(exc_1_dict)
- elif exc_2_dict:
- objs.append(exc_2_dict)
- else:
- self.app.inform.emit('[ERROR_NOTCL] %s. %s' % (
- _("Minimum Annular Ring"),
- _("Excellon object presence is mandatory for this rule but none is selected.")))
- return
- self.results.append(self.pool.apply_async(self.check_gerber_annular_ring,
- args=(objs,
- ring_val,
- _("Minimum Annular Ring"))))
- # RULE: Check Hole to Hole Clearance
- if self.clearance_d2d_cb.get_value():
- exc_list = list()
- exc_name_1 = self.e1_object.currentText()
- if exc_name_1 is not '' and self.e1_cb.get_value():
- elem_dict = dict()
- elem_dict['name'] = deepcopy(exc_name_1)
- elem_dict['tools'] = deepcopy(self.app.collection.get_by_name(exc_name_1).tools)
- exc_list.append(elem_dict)
- exc_name_2 = self.e2_object.currentText()
- if exc_name_2 is not '' and self.e2_cb.get_value():
- elem_dict = dict()
- elem_dict['name'] = deepcopy(exc_name_2)
- elem_dict['tools'] = deepcopy(self.app.collection.get_by_name(exc_name_2).tools)
- exc_list.append(elem_dict)
- hole_clearance = float(self.clearance_d2d_entry.get_value())
- self.results.append(self.pool.apply_async(self.check_holes_clearance, args=(exc_list, hole_clearance)))
- # RULE: Check Holes Size
- if self.drill_size_cb.get_value():
- exc_list = list()
- exc_name_1 = self.e1_object.currentText()
- if exc_name_1 is not '' and self.e1_cb.get_value():
- elem_dict = dict()
- elem_dict['name'] = deepcopy(exc_name_1)
- elem_dict['tools'] = deepcopy(self.app.collection.get_by_name(exc_name_1).tools)
- exc_list.append(elem_dict)
- exc_name_2 = self.e2_object.currentText()
- if exc_name_2 is not '' and self.e2_cb.get_value():
- elem_dict = dict()
- elem_dict['name'] = deepcopy(exc_name_2)
- elem_dict['tools'] = deepcopy(self.app.collection.get_by_name(exc_name_2).tools)
- exc_list.append(elem_dict)
- drill_size = float(self.drill_size_entry.get_value())
- self.results.append(self.pool.apply_async(self.check_holes_size, args=(exc_list, drill_size)))
- output = list()
- for p in self.results:
- output.append(p.get())
- self.tool_finished.emit(output)
- log.debug("RuleCheck() finished")
- self.app.worker_task.emit({'fcn': worker_job, 'params': [self.app]})
- def on_tool_finished(self, res):
- def init(new_obj, app_obj):
- txt = ''
- for el in res:
- txt += '<b>RULE NAME:</b> %s<BR>' % str(el[0]).upper()
- if isinstance(el[1][0]['name'], list):
- for name in el[1][0]['name']:
- txt += 'File name: %s<BR>' % str(name)
- else:
- txt += 'File name: %s<BR>' % str(el[1][0]['name'])
- point_txt = ''
- try:
- if el[1][0]['points']:
- txt += '{title}: <span style="color:{color};background-color:{h_color}"' \
- '> {status} </span>.<BR>'.format(title=_("STATUS"),
- h_color='red',
- color='white',
- status=_("FAILED"))
- if 'Failed' in el[1][0]['points'][0]:
- point_txt = el[1][0]['points'][0]
- else:
- for pt in el[1][0]['points']:
- point_txt += '(%.*f, %.*f)' % (self.decimals, float(pt[0]), self.decimals, float(pt[1]))
- point_txt += ', '
- txt += 'Violations: %s<BR>' % str(point_txt)
- else:
- txt += '{title}: <span style="color:{color};background-color:{h_color}"' \
- '> {status} </span>.<BR>'.format(title=_("STATUS"),
- h_color='green',
- color='white',
- status=_("PASSED"))
- txt += '%s<BR>' % _("Violations: There are no violations for the current rule.")
- except KeyError:
- pass
- try:
- if el[1][0]['dia']:
- txt += '{title}: <span style="color:{color};background-color:{h_color}"' \
- '> {status} </span>.<BR>'.format(title=_("STATUS"),
- h_color='red',
- color='white',
- status=_("FAILED"))
- if 'Failed' in el[1][0]['dia']:
- point_txt = el[1][0]['dia']
- else:
- for pt in el[1][0]['dia']:
- point_txt += '%.*f' % (self.decimals, float(pt))
- point_txt += ', '
- txt += 'Violations: %s<BR>' % str(point_txt)
- else:
- txt += '{title}: <span style="color:{color};background-color:{h_color}"' \
- '> {status} </span>.<BR>'.format(title=_("STATUS"),
- h_color='green',
- color='white',
- status=_("PASSED"))
- txt += '%s<BR>' % _("Violations: There are no violations for the current rule.")
- except KeyError:
- pass
- txt += '<BR><BR>'
- new_obj.source_file = txt
- new_obj.read_only = True
- self.app.new_object('document', name='Rules Check results', initialize=init, plot=False)
- def reset_fields(self):
- # self.object_combo.setRootModelIndex(self.app.collection.index(0, 0, QtCore.QModelIndex()))
- # self.box_combo.setRootModelIndex(self.app.collection.index(0, 0, QtCore.QModelIndex()))
- pass
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