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- from PyQt5 import QtGui, QtCore, QtWidgets
- from PyQt5.QtCore import Qt, QSettings
- from shapely.geometry import LineString, LinearRing, MultiLineString
- from shapely.ops import cascaded_union
- import shapely.affinity as affinity
- from numpy import arctan2, Inf, array, sqrt, sign, dot
- from rtree import index as rtindex
- import threading, time
- import copy
- from camlib import *
- from flatcamGUI.GUIElements import FCEntry, FCComboBox, FCTable, FCDoubleSpinner, LengthEntry, RadioSet, \
- SpinBoxDelegate, EvalEntry, EvalEntry2, FCInputDialog, FCButton, OptionalInputSection, FCCheckBox
- from flatcamEditors.FlatCAMGeoEditor import FCShapeTool, DrawTool, DrawToolShape, DrawToolUtilityShape, FlatCAMGeoEditor
- from FlatCAMObj import FlatCAMGerber
- from FlatCAMTool import FlatCAMTool
- import gettext
- import FlatCAMTranslation as fcTranslate
- fcTranslate.apply_language('strings')
- import builtins
- if '_' not in builtins.__dict__:
- _ = gettext.gettext
- class FCPad(FCShapeTool):
- """
- Resulting type: Polygon
- """
- def __init__(self, draw_app):
- DrawTool.__init__(self, draw_app)
- self.name = 'pad'
- self.draw_app = draw_app
- self.storage_obj = self.draw_app.storage_dict[self.draw_app.last_aperture_selected]['solid_geometry']
- self.radius = float(self.draw_app.storage_dict[self.draw_app.last_aperture_selected]['size']) / 2
- # if those cause KeyError exception it means that the aperture type is not 'R'. Only 'R' type has those keys
- try:
- self.half_width = float(self.draw_app.storage_dict[self.draw_app.last_aperture_selected]['width']) / 2
- except KeyError:
- pass
- try:
- self.half_height = float(self.draw_app.storage_dict[self.draw_app.last_aperture_selected]['height']) / 2
- except KeyError:
- pass
- geo = self.utility_geometry(data=(self.draw_app.snap_x, self.draw_app.snap_y))
- if isinstance(geo, DrawToolShape) and geo.geo is not None:
- self.draw_app.draw_utility_geometry(geo=geo)
- self.draw_app.app.inform.emit(_("Click to place ..."))
- # Switch notebook to Selected page
- self.draw_app.app.ui.notebook.setCurrentWidget(self.draw_app.app.ui.selected_tab)
- self.start_msg = _("Click to place ...")
- def click(self, point):
- self.make()
- return "Done."
- def utility_geometry(self, data=None):
- self.points = data
- geo_data = self.util_shape(data)
- if geo_data:
- return DrawToolUtilityShape(geo_data)
- else:
- return None
- def util_shape(self, point):
- if point[0] is None and point[1] is None:
- point_x = self.draw_app.x
- point_y = self.draw_app.y
- else:
- point_x = point[0]
- point_y = point[1]
- ap_type = self.draw_app.storage_dict[self.draw_app.last_aperture_selected]['type']
- if ap_type == 'C':
- center = Point([point_x, point_y])
- return center.buffer(self.radius)
- elif ap_type == 'R':
- p1 = (point_x - self.half_width, point_y - self.half_height)
- p2 = (point_x + self.half_width, point_y - self.half_height)
- p3 = (point_x + self.half_width, point_y + self.half_height)
- p4 = (point_x - self.half_width, point_y + self.half_height)
- return Polygon([p1, p2, p3, p4, p1])
- else:
- self.draw_app.app.inform.emit(_("Incompatible aperture type. Select an aperture with type 'C' or 'R'."))
- return None
- def make(self):
- self.draw_app.current_storage = self.storage_obj
- try:
- self.geometry = DrawToolShape(self.util_shape(self.points))
- except Exception as e:
- log.debug("FCPad.make() --> %s" % str(e))
- self.draw_app.in_action = False
- self.complete = True
- self.draw_app.app.inform.emit(_("[success] Done. Adding Pad completed."))
- class FCPadArray(FCShapeTool):
- """
- Resulting type: Polygon
- """
- def __init__(self, draw_app):
- DrawTool.__init__(self, draw_app)
- self.name = 'pad_array'
- self.start_msg = _("Click on 1st corner ...")
- def click(self, point):
- self.points.append(point)
- if len(self.points) == 1:
- return "Click on opposite corner to complete ..."
- if len(self.points) == 2:
- self.make()
- return "Done."
- return ""
- def utility_geometry(self, data=None):
- if len(self.points) == 1:
- p1 = self.points[0]
- p2 = data
- return DrawToolUtilityShape(LinearRing([p1, (p2[0], p1[1]), p2, (p1[0], p2[1])]))
- return None
- def make(self):
- p1 = self.points[0]
- p2 = self.points[1]
- # self.geometry = LinearRing([p1, (p2[0], p1[1]), p2, (p1[0], p2[1])])
- self.geometry = DrawToolShape(Polygon([p1, (p2[0], p1[1]), p2, (p1[0], p2[1])]))
- self.complete = True
- self.draw_app.app.inform.emit(_("[success] Done. Rectangle completed."))
- class FCRegion(FCShapeTool):
- """
- Resulting type: Polygon
- """
- def __init__(self, draw_app):
- DrawTool.__init__(self, draw_app)
- self.name = 'region'
- self.draw_app = draw_app
- size_ap = float(self.draw_app.storage_dict[self.draw_app.last_aperture_selected]['size'])
- self.buf_val = (size_ap / 2) if size_ap > 0 else 0.0000001
- self.start_msg = _("Click on 1st point ...")
- def click(self, point):
- self.draw_app.in_action = True
- self.points.append(point)
- if len(self.points) > 0:
- self.draw_app.app.inform.emit(_("Click on next Point or click Right mouse button to complete ..."))
- return "Click on next point or hit ENTER to complete ..."
- return ""
- def utility_geometry(self, data=None):
- if len(self.points) == 1:
- temp_points = [x for x in self.points]
- temp_points.append(data)
- return DrawToolUtilityShape(LineString(temp_points).buffer(self.buf_val, join_style=1))
- if len(self.points) > 1:
- temp_points = [x for x in self.points]
- temp_points.append(data)
- return DrawToolUtilityShape(LinearRing(temp_points).buffer(self.buf_val, join_style=1))
- return None
- def make(self):
- # self.geometry = LinearRing(self.points)
- self.geometry = DrawToolShape(Polygon(self.points).buffer(self.buf_val, join_style=2))
- self.draw_app.in_action = False
- self.complete = True
- self.draw_app.app.inform.emit(_("[success] Done. Region completed."))
- def on_key(self, key):
- if key == 'backspace':
- if len(self.points) > 0:
- self.points = self.points[0:-1]
- class FCTrack(FCRegion):
- """
- Resulting type: Polygon
- """
- def make(self):
- self.geometry = DrawToolShape(LineString(self.points).buffer(self.buf_val))
- self.name = 'track'
- self.draw_app.in_action = False
- self.complete = True
- self.draw_app.app.inform.emit(_("[success] Done. Path completed."))
- def utility_geometry(self, data=None):
- if len(self.points) > 0:
- temp_points = [x for x in self.points]
- temp_points.append(data)
- return DrawToolUtilityShape(LineString(temp_points).buffer(self.buf_val))
- return None
- def on_key(self, key):
- if key == 'backspace':
- if len(self.points) > 0:
- self.points = self.points[0:-1]
- class FCScale(FCShapeTool):
- def __init__(self, draw_app):
- FCShapeTool.__init__(self, draw_app)
- self.name = 'scale'
- # self.shape_buffer = self.draw_app.shape_buffer
- self.draw_app = draw_app
- self.app = draw_app.app
- self.start_msg = _("Scale the selected Gerber apertures ...")
- self.origin = (0, 0)
- if self.draw_app.app.ui.splitter.sizes()[0] == 0:
- self.draw_app.app.ui.splitter.setSizes([1, 1])
- self.activate_scale()
- def activate_scale(self):
- self.draw_app.hide_tool('all')
- self.draw_app.scale_tool_frame.show()
- try:
- self.draw_app.scale_button.clicked.disconnect()
- except TypeError:
- pass
- self.draw_app.scale_button.clicked.connect(self.on_scale_click)
- def deactivate_scale(self):
- self.draw_app.scale_button.clicked.disconnect()
- self.complete = True
- self.draw_app.select_tool("select")
- self.draw_app.hide_tool(self.name)
- def on_scale_click(self):
- self.draw_app.on_scale()
- self.deactivate_scale()
- class FCBuffer(FCShapeTool):
- def __init__(self, draw_app):
- FCShapeTool.__init__(self, draw_app)
- self.name = 'buffer'
- # self.shape_buffer = self.draw_app.shape_buffer
- self.draw_app = draw_app
- self.app = draw_app.app
- self.start_msg = _("Buffer the selected apertures ...")
- self.origin = (0, 0)
- if self.draw_app.app.ui.splitter.sizes()[0] == 0:
- self.draw_app.app.ui.splitter.setSizes([1, 1])
- self.activate_buffer()
- def activate_buffer(self):
- self.draw_app.hide_tool('all')
- self.draw_app.buffer_tool_frame.show()
- try:
- self.draw_app.buffer_button.clicked.disconnect()
- except TypeError:
- pass
- self.draw_app.buffer_button.clicked.connect(self.on_buffer_click)
- def deactivate_buffer(self):
- self.draw_app.buffer_button.clicked.disconnect()
- self.complete = True
- self.draw_app.select_tool("select")
- self.draw_app.hide_tool(self.name)
- def on_buffer_click(self):
- self.draw_app.on_buffer()
- self.deactivate_buffer()
- class FCApertureMove(FCShapeTool):
- def __init__(self, draw_app):
- DrawTool.__init__(self, draw_app)
- self.name = 'move'
- # self.shape_buffer = self.draw_app.shape_buffer
- self.origin = None
- self.destination = None
- self.selected_apertures = []
- if self.draw_app.launched_from_shortcuts is True:
- self.draw_app.launched_from_shortcuts = False
- self.draw_app.app.inform.emit(_("Click on target location ..."))
- else:
- self.draw_app.app.inform.emit(_("Click on reference location ..."))
- self.current_storage = None
- self.geometry = []
- for index in self.draw_app.apertures_table.selectedIndexes():
- row = index.row()
- # on column 1 in tool tables we hold the diameters, and we retrieve them as strings
- # therefore below we convert to float
- aperture_on_row = self.draw_app.apertures_table.item(row, 1).text()
- self.selected_apertures.append(aperture_on_row)
- # Switch notebook to Selected page
- self.draw_app.app.ui.notebook.setCurrentWidget(self.draw_app.app.ui.selected_tab)
- def set_origin(self, origin):
- self.origin = origin
- def click(self, point):
- if len(self.draw_app.get_selected()) == 0:
- return "Nothing to move."
- if self.origin is None:
- self.set_origin(point)
- self.draw_app.app.inform.emit(_("Click on target location ..."))
- return
- else:
- self.destination = point
- self.make()
- # MS: always return to the Select Tool
- self.draw_app.select_tool("select")
- return
- def make(self):
- # Create new geometry
- dx = self.destination[0] - self.origin[0]
- dy = self.destination[1] - self.origin[1]
- sel_shapes_to_be_deleted = []
- for sel_dia in self.selected_apertures:
- self.current_storage = self.draw_app.storage_dict[sel_dia]['solid_geometry']
- for select_shape in self.draw_app.get_selected():
- if select_shape in self.current_storage:
- self.geometry.append(DrawToolShape(affinity.translate(select_shape.geo, xoff=dx, yoff=dy)))
- self.current_storage.remove(select_shape)
- sel_shapes_to_be_deleted.append(select_shape)
- self.draw_app.on_grb_shape_complete(self.current_storage)
- self.geometry = []
- for shp in sel_shapes_to_be_deleted:
- self.draw_app.selected.remove(shp)
- sel_shapes_to_be_deleted = []
- self.draw_app.build_ui()
- self.draw_app.app.inform.emit(_("[success] Done. Apertures Move completed."))
- def utility_geometry(self, data=None):
- """
- Temporary geometry on screen while using this tool.
- :param data:
- :return:
- """
- geo_list = []
- if self.origin is None:
- return None
- if len(self.draw_app.get_selected()) == 0:
- return None
- dx = data[0] - self.origin[0]
- dy = data[1] - self.origin[1]
- for geom in self.draw_app.get_selected():
- geo_list.append(affinity.translate(geom.geo, xoff=dx, yoff=dy))
- return DrawToolUtilityShape(geo_list)
- class FCApertureCopy(FCApertureMove):
- def __init__(self, draw_app):
- FCApertureMove.__init__(self, draw_app)
- self.name = 'copy'
- def make(self):
- # Create new geometry
- dx = self.destination[0] - self.origin[0]
- dy = self.destination[1] - self.origin[1]
- sel_shapes_to_be_deleted = []
- for sel_dia in self.selected_apertures:
- self.current_storage = self.draw_app.storage_dict[sel_dia]['solid_geometry']
- for select_shape in self.draw_app.get_selected():
- if select_shape in self.current_storage:
- self.geometry.append(DrawToolShape(affinity.translate(select_shape.geo, xoff=dx, yoff=dy)))
- sel_shapes_to_be_deleted.append(select_shape)
- self.draw_app.on_grb_shape_complete(self.current_storage)
- self.geometry = []
- for shp in sel_shapes_to_be_deleted:
- self.draw_app.selected.remove(shp)
- sel_shapes_to_be_deleted = []
- self.draw_app.build_ui()
- self.draw_app.app.inform.emit(_("[success] Done. Apertures copied."))
- class FCApertureSelect(DrawTool):
- def __init__(self, grb_editor_app):
- DrawTool.__init__(self, grb_editor_app)
- self.name = 'select'
- self.origin = None
- self.grb_editor_app = grb_editor_app
- self.storage = self.grb_editor_app.storage_dict
- # self.selected = self.grb_editor_app.selected
- # here we store all shapes that were selected
- self.sel_storage = []
- self.grb_editor_app.apertures_table.clearSelection()
- self.grb_editor_app.hide_tool('all')
- self.grb_editor_app.hide_tool('select')
- def set_origin(self, origin):
- self.origin = origin
- def click(self, point):
- key_modifier = QtWidgets.QApplication.keyboardModifiers()
- if self.grb_editor_app.app.defaults["global_mselect_key"] == 'Control':
- if key_modifier == Qt.ControlModifier:
- pass
- else:
- self.grb_editor_app.selected = []
- else:
- if key_modifier == Qt.ShiftModifier:
- pass
- else:
- self.grb_editor_app.selected = []
- def click_release(self, point):
- self.grb_editor_app.apertures_table.clearSelection()
- sel_aperture = set()
- for storage in self.grb_editor_app.storage_dict:
- for shape in self.grb_editor_app.storage_dict[storage]['solid_geometry']:
- if Point(point).within(shape.geo):
- if self.draw_app.key == self.draw_app.app.defaults["global_mselect_key"]:
- if shape in self.draw_app.selected:
- self.draw_app.selected.remove(shape)
- else:
- # add the object to the selected shapes
- self.draw_app.selected.append(shape)
- sel_aperture.add(storage)
- else:
- self.draw_app.selected.append(shape)
- sel_aperture.add(storage)
- # select the aperture in the Apertures Table that is associated with the selected shape
- try:
- self.draw_app.apertures_table.cellPressed.disconnect()
- except:
- pass
- self.grb_editor_app.apertures_table.setSelectionMode(QtWidgets.QAbstractItemView.MultiSelection)
- for aper in sel_aperture:
- for row in range(self.grb_editor_app.apertures_table.rowCount()):
- if str(aper) == self.grb_editor_app.apertures_table.item(row, 1).text():
- self.grb_editor_app.apertures_table.selectRow(row)
- self.draw_app.last_aperture_selected = aper
- self.grb_editor_app.apertures_table.setSelectionMode(QtWidgets.QAbstractItemView.ExtendedSelection)
- self.draw_app.apertures_table.cellPressed.connect(self.draw_app.on_row_selected)
- return ""
- class FCTransform(FCShapeTool):
- def __init__(self, draw_app):
- FCShapeTool.__init__(self, draw_app)
- self.name = 'transformation'
- # self.shape_buffer = self.draw_app.shape_buffer
- self.draw_app = draw_app
- self.app = draw_app.app
- self.start_msg = _("Shape transformations ...")
- self.origin = (0, 0)
- self.draw_app.transform_tool.run()
- class FlatCAMGrbEditor(QtCore.QObject):
- draw_shape_idx = -1
- def __init__(self, app):
- assert isinstance(app, FlatCAMApp.App), \
- "Expected the app to be a FlatCAMApp.App, got %s" % type(app)
- super(FlatCAMGrbEditor, self).__init__()
- self.app = app
- self.canvas = self.app.plotcanvas
- ## Current application units in Upper Case
- self.units = self.app.ui.general_defaults_form.general_app_group.units_radio.get_value().upper()
- self.grb_edit_widget = QtWidgets.QWidget()
- layout = QtWidgets.QVBoxLayout()
- self.grb_edit_widget.setLayout(layout)
- ## Page Title box (spacing between children)
- self.title_box = QtWidgets.QHBoxLayout()
- layout.addLayout(self.title_box)
- ## Page Title icon
- pixmap = QtGui.QPixmap('share/flatcam_icon32.png')
- self.icon = QtWidgets.QLabel()
- self.icon.setPixmap(pixmap)
- self.title_box.addWidget(self.icon, stretch=0)
- ## Title label
- self.title_label = QtWidgets.QLabel("<font size=5><b>%s</b></font>" % _('Gerber Editor'))
- self.title_label.setAlignment(QtCore.Qt.AlignLeft | QtCore.Qt.AlignVCenter)
- self.title_box.addWidget(self.title_label, stretch=1)
- ## Object name
- self.name_box = QtWidgets.QHBoxLayout()
- layout.addLayout(self.name_box)
- name_label = QtWidgets.QLabel(_("Name:"))
- self.name_box.addWidget(name_label)
- self.name_entry = FCEntry()
- self.name_box.addWidget(self.name_entry)
- ## Box for custom widgets
- # This gets populated in offspring implementations.
- self.custom_box = QtWidgets.QVBoxLayout()
- layout.addLayout(self.custom_box)
- #### Gerber Apertures ####
- self.apertures_table_label = QtWidgets.QLabel(_('<b>Apertures:</b>'))
- self.apertures_table_label.setToolTip(
- _("Apertures Table for the Gerber Object.")
- )
- self.custom_box.addWidget(self.apertures_table_label)
- self.apertures_table = FCTable()
- # delegate = SpinBoxDelegate(units=self.units)
- # self.apertures_table.setItemDelegateForColumn(1, delegate)
- self.custom_box.addWidget(self.apertures_table)
- self.apertures_table.setColumnCount(5)
- self.apertures_table.setHorizontalHeaderLabels(['#', _('Code'), _('Type'), _('Size'), _('Dim')])
- self.apertures_table.setSortingEnabled(False)
- self.apertures_table.horizontalHeaderItem(0).setToolTip(
- _("Index"))
- self.apertures_table.horizontalHeaderItem(1).setToolTip(
- _("Aperture Code"))
- self.apertures_table.horizontalHeaderItem(2).setToolTip(
- _("Type of aperture: circular, rectangle, macros etc"))
- self.apertures_table.horizontalHeaderItem(4).setToolTip(
- _("Aperture Size:"))
- self.apertures_table.horizontalHeaderItem(4).setToolTip(
- _("Aperture Dimensions:\n"
- " - (width, height) for R, O type.\n"
- " - (dia, nVertices) for P type"))
- self.empty_label = QtWidgets.QLabel('')
- self.custom_box.addWidget(self.empty_label)
- # add a frame and inside add a vertical box layout. Inside this vbox layout I add all the Apertures widgets
- # this way I can hide/show the frame
- self.apertures_frame = QtWidgets.QFrame()
- self.apertures_frame.setContentsMargins(0, 0, 0, 0)
- self.custom_box.addWidget(self.apertures_frame)
- self.apertures_box = QtWidgets.QVBoxLayout()
- self.apertures_box.setContentsMargins(0, 0, 0, 0)
- self.apertures_frame.setLayout(self.apertures_box)
- #### Add/Delete an new Aperture ####
- grid1 = QtWidgets.QGridLayout()
- self.apertures_box.addLayout(grid1)
- apcode_lbl = QtWidgets.QLabel(_('Aperture Code:'))
- apcode_lbl.setToolTip(
- _("Code for the new aperture")
- )
- grid1.addWidget(apcode_lbl, 1, 0)
- self.apcode_entry = FCEntry()
- self.apcode_entry.setValidator(QtGui.QIntValidator(0, 999))
- grid1.addWidget(self.apcode_entry, 1, 1)
- apsize_lbl = QtWidgets.QLabel(_('Aperture Size:'))
- apsize_lbl.setToolTip(
- _("Size for the new aperture.\n"
- "If aperture type is 'R' then this value\n"
- "is automatically calculated as:\n"
- "sqrt(width**2 + height**2)")
- )
- grid1.addWidget(apsize_lbl, 2, 0)
- self.apsize_entry = FCEntry()
- self.apsize_entry.setValidator(QtGui.QDoubleValidator(0.0001, 99.9999, 4))
- grid1.addWidget(self.apsize_entry, 2, 1)
- aptype_lbl = QtWidgets.QLabel(_('Aperture Type:'))
- aptype_lbl.setToolTip(
- _("Select the type of new aperture. Can be:\n"
- "C = circular\n"
- "R = rectangular")
- )
- grid1.addWidget(aptype_lbl, 3, 0)
- self.aptype_cb = FCComboBox()
- self.aptype_cb.addItems(['C', 'R'])
- grid1.addWidget(self.aptype_cb, 3, 1)
- self.apdim_lbl = QtWidgets.QLabel(_('Aperture Dim:'))
- self.apdim_lbl.setToolTip(
- _("Dimensions for the new aperture.\n"
- "Active only for rectangular apertures (type R).\n"
- "The format is (width, height)")
- )
- grid1.addWidget(self.apdim_lbl, 4, 0)
- self.apdim_entry = EvalEntry()
- grid1.addWidget(self.apdim_entry, 4, 1)
- apadd_lbl = QtWidgets.QLabel('<b>%s</b>' % _('Add Aperture:'))
- apadd_lbl.setToolTip(
- _("Add an aperture to the aperture list")
- )
- grid1.addWidget(apadd_lbl, 5, 0)
- self.addaperture_btn = QtWidgets.QPushButton(_('Go'))
- self.addaperture_btn.setToolTip(
- _( "Add a new aperture to the aperture list.")
- )
- grid1.addWidget(self.addaperture_btn, 5, 1)
- apdelete_lbl = QtWidgets.QLabel('<b>%s</b>' % _('Del Aperture:'))
- apdelete_lbl.setToolTip(
- _( "Delete a aperture in the aperture list.\n"
- "It will delete also the associated geometry.")
- )
- grid1.addWidget(apdelete_lbl, 6, 0)
- self.delaperture_btn = QtWidgets.QPushButton(_('Go'))
- self.delaperture_btn.setToolTip(
- _( "Delete a aperture in the aperture list")
- )
- grid1.addWidget(self.delaperture_btn, 6, 1)
- ### BUFFER TOOL ###
- self.buffer_tool_frame = QtWidgets.QFrame()
- self.buffer_tool_frame.setContentsMargins(0, 0, 0, 0)
- self.custom_box.addWidget(self.buffer_tool_frame)
- self.buffer_tools_box = QtWidgets.QVBoxLayout()
- self.buffer_tools_box.setContentsMargins(0, 0, 0, 0)
- self.buffer_tool_frame.setLayout(self.buffer_tools_box)
- self.buffer_tool_frame.hide()
- # Title
- buf_title_lbl = QtWidgets.QLabel('<b>%s</b>' % _('Buffer Aperture:'))
- buf_title_lbl.setToolTip(
- _("Buffer a aperture in the aperture list")
- )
- self.buffer_tools_box.addWidget(buf_title_lbl)
- # Form Layout
- buf_form_layout = QtWidgets.QFormLayout()
- self.buffer_tools_box.addLayout(buf_form_layout)
- # Buffer distance
- self.buffer_distance_entry = FCEntry()
- buf_form_layout.addRow(_("Buffer distance:"), self.buffer_distance_entry)
- self.buffer_corner_lbl = QtWidgets.QLabel(_("Buffer corner:"))
- self.buffer_corner_lbl.setToolTip(
- _("There are 3 types of corners:\n"
- " - 'Round': the corner is rounded.\n"
- " - 'Square:' the corner is met in a sharp angle.\n"
- " - 'Beveled:' the corner is a line that directly connects the features meeting in the corner")
- )
- self.buffer_corner_cb = FCComboBox()
- self.buffer_corner_cb.addItem(_("Round"))
- self.buffer_corner_cb.addItem(_("Square"))
- self.buffer_corner_cb.addItem(_("Beveled"))
- buf_form_layout.addRow(self.buffer_corner_lbl, self.buffer_corner_cb)
- # Buttons
- hlay_buf = QtWidgets.QHBoxLayout()
- self.buffer_tools_box.addLayout(hlay_buf)
- self.buffer_button = QtWidgets.QPushButton(_("Buffer"))
- hlay_buf.addWidget(self.buffer_button)
- ### SCALE TOOL ###
- self.scale_tool_frame = QtWidgets.QFrame()
- self.scale_tool_frame.setContentsMargins(0, 0, 0, 0)
- self.custom_box.addWidget(self.scale_tool_frame)
- self.scale_tools_box = QtWidgets.QVBoxLayout()
- self.scale_tools_box.setContentsMargins(0, 0, 0, 0)
- self.scale_tool_frame.setLayout(self.scale_tools_box)
- self.scale_tool_frame.hide()
- # Title
- scale_title_lbl = QtWidgets.QLabel('<b>%s</b>' % _('Scale Aperture:'))
- scale_title_lbl.setToolTip(
- _("Scale a aperture in the aperture list")
- )
- self.scale_tools_box.addWidget(scale_title_lbl)
- # Form Layout
- scale_form_layout = QtWidgets.QFormLayout()
- self.scale_tools_box.addLayout(scale_form_layout)
- self.scale_factor_lbl = QtWidgets.QLabel(_("Scale factor:"))
- self.scale_factor_lbl.setToolTip(
- _("The factor by which to scale the selected aperture.\n"
- "Values can be between 0.0000 and 999.9999")
- )
- self.scale_factor_entry = FCEntry()
- self.scale_factor_entry.setValidator(QtGui.QDoubleValidator(0.0000, 999.9999, 4))
- scale_form_layout.addRow(self.scale_factor_lbl, self.scale_factor_entry)
- # Buttons
- hlay_scale = QtWidgets.QHBoxLayout()
- self.scale_tools_box.addLayout(hlay_scale)
- self.scale_button = QtWidgets.QPushButton(_("Scale"))
- hlay_scale.addWidget(self.scale_button)
- self.custom_box.addStretch()
- ## Toolbar events and properties
- self.tools_gerber = {
- "select": {"button": self.app.ui.grb_select_btn,
- "constructor": FCApertureSelect},
- "pad": {"button": self.app.ui.grb_add_pad_btn,
- "constructor": FCPad},
- "track": {"button": self.app.ui.grb_add_track_btn,
- "constructor": FCTrack},
- "region": {"button": self.app.ui.grb_add_region_btn,
- "constructor": FCRegion},
- "buffer": {"button": self.app.ui.aperture_buffer_btn,
- "constructor": FCBuffer},
- "scale": {"button": self.app.ui.aperture_scale_btn,
- "constructor": FCScale},
- "copy": {"button": self.app.ui.aperture_copy_btn,
- "constructor": FCApertureCopy},
- "transform": {"button": self.app.ui.grb_transform_btn,
- "constructor": FCTransform},
- "move": {"button": self.app.ui.aperture_move_btn,
- "constructor": FCApertureMove},
- }
- ### Data
- self.active_tool = None
- self.storage_dict = {}
- self.current_storage = []
- self.sorted_apid =[]
- self.new_apertures = {}
- self.new_aperture_macros = {}
- # store here the plot promises, if empty the delayed plot will be activated
- self.grb_plot_promises = []
- # dictionary to store the tool_row and diameters in Tool_table
- # it will be updated everytime self.build_ui() is called
- self.olddia_newdia = {}
- self.tool2tooldia = {}
- # this will store the value for the last selected tool, for use after clicking on canvas when the selection
- # is cleared but as a side effect also the selected tool is cleared
- self.last_aperture_selected = None
- self.utility = []
- # this will flag if the Editor "tools" are launched from key shortcuts (True) or from menu toolbar (False)
- self.launched_from_shortcuts = False
- # this var will store the state of the toolbar before starting the editor
- self.toolbar_old_state = False
- # Init GUI
- self.apdim_lbl.hide()
- self.apdim_entry.hide()
- self.gerber_obj = None
- self.gerber_obj_options = {}
- self.buffer_distance_entry.set_value(0.01)
- self.scale_factor_entry.set_value(1.0)
- # VisPy Visuals
- self.shapes = self.app.plotcanvas.new_shape_collection(layers=1)
- self.tool_shape = self.app.plotcanvas.new_shape_collection(layers=1)
- self.app.pool_recreated.connect(self.pool_recreated)
- # Remove from scene
- self.shapes.enabled = False
- self.tool_shape.enabled = False
- ## List of selected shapes.
- self.selected = []
- self.move_timer = QtCore.QTimer()
- self.move_timer.setSingleShot(True)
- self.key = None # Currently pressed key
- self.modifiers = None
- self.x = None # Current mouse cursor pos
- self.y = None
- # Current snapped mouse pos
- self.snap_x = None
- self.snap_y = None
- self.pos = None
- def make_callback(thetool):
- def f():
- self.on_tool_select(thetool)
- return f
- for tool in self.tools_gerber:
- self.tools_gerber[tool]["button"].triggered.connect(make_callback(tool)) # Events
- self.tools_gerber[tool]["button"].setCheckable(True) # Checkable
- self.options = {
- "global_gridx": 0.1,
- "global_gridy": 0.1,
- "snap_max": 0.05,
- "grid_snap": True,
- "corner_snap": False,
- "grid_gap_link": True
- }
- self.app.options_read_form()
- for option in self.options:
- if option in self.app.options:
- self.options[option] = self.app.options[option]
- # flag to show if the object was modified
- self.is_modified = False
- self.edited_obj_name = ""
- self.tool_row = 0
- # store the status of the editor so the Delete at object level will not work until the edit is finished
- self.editor_active = False
- def entry2option(option, entry):
- self.options[option] = float(entry.text())
- self.transform_tool = TransformEditorTool(self.app, self)
- # Signals
- self.buffer_button.clicked.connect(self.on_buffer)
- self.scale_button.clicked.connect(self.on_scale)
- self.app.ui.delete_drill_btn.triggered.connect(self.on_delete_btn)
- self.name_entry.returnPressed.connect(self.on_name_activate)
- self.aptype_cb.currentIndexChanged[str].connect(self.on_aptype_changed)
- self.addaperture_btn.clicked.connect(self.on_aperture_add)
- self.delaperture_btn.clicked.connect(self.on_aperture_delete)
- self.apertures_table.cellPressed.connect(self.on_row_selected)
- self.app.ui.grb_add_pad_menuitem.triggered.connect(self.on_pad_add)
- self.app.ui.grb_add_track_menuitem.triggered.connect(self.on_track_add)
- self.app.ui.grb_add_region_menuitem.triggered.connect(self.on_region_add)
- self.app.ui.grb_add_buffer_menuitem.triggered.connect(self.on_buffer)
- self.app.ui.grb_add_scale_menuitem.triggered.connect(self.on_scale)
- self.app.ui.grb_transform_menuitem.triggered.connect(self.transform_tool.run)
- self.app.ui.grb_copy_menuitem.triggered.connect(self.on_copy_button)
- self.app.ui.grb_delete_menuitem.triggered.connect(self.on_delete_btn)
- self.app.ui.grb_move_menuitem.triggered.connect(self.on_move_button)
- # store the status of the editor so the Delete at object level will not work until the edit is finished
- self.editor_active = False
- def pool_recreated(self, pool):
- self.shapes.pool = pool
- self.tool_shape.pool = pool
- def set_ui(self):
- # updated units
- self.units = self.app.ui.general_defaults_form.general_app_group.units_radio.get_value().upper()
- self.olddia_newdia.clear()
- self.tool2tooldia.clear()
- # update the olddia_newdia dict to make sure we have an updated state of the tool_table
- for key in self.storage_dict:
- self.olddia_newdia[key] = key
- sort_temp = []
- for aperture in self.olddia_newdia:
- sort_temp.append(int(aperture))
- self.sorted_apid = sorted(sort_temp)
- # populate self.intial_table_rows dict with the tool number as keys and tool diameters as values
- for i in range(len(self.sorted_apid)):
- tt_aperture = self.sorted_apid[i]
- self.tool2tooldia[i + 1] = tt_aperture
- if self.units == "IN":
- self.apsize_entry.set_value(0.039)
- else:
- self.apsize_entry.set_value(1.00)
- def build_ui(self):
- try:
- # if connected, disconnect the signal from the slot on item_changed as it creates issues
- self.apertures_table.itemChanged.disconnect()
- except:
- pass
- try:
- self.apertures_table.cellPressed.disconnect()
- except:
- pass
- # updated units
- self.units = self.app.ui.general_defaults_form.general_app_group.units_radio.get_value().upper()
- # make a new name for the new Excellon object (the one with edited content)
- self.edited_obj_name = self.gerber_obj.options['name']
- self.name_entry.set_value(self.edited_obj_name)
- self.apertures_row = 0
- aper_no = self.apertures_row + 1
- sort = []
- for k, v in list(self.storage_dict.items()):
- sort.append(int(k))
- sorted_apertures = sorted(sort)
- sort = []
- for k, v in list(self.gerber_obj.aperture_macros.items()):
- sort.append(k)
- sorted_macros = sorted(sort)
- n = len(sorted_apertures) + len(sorted_macros)
- self.apertures_table.setRowCount(n)
- for ap_code in sorted_apertures:
- ap_code = str(ap_code)
- ap_id_item = QtWidgets.QTableWidgetItem('%d' % int(self.apertures_row + 1))
- ap_id_item.setFlags(QtCore.Qt.ItemIsSelectable | QtCore.Qt.ItemIsEnabled)
- self.apertures_table.setItem(self.apertures_row, 0, ap_id_item) # Tool name/id
- ap_code_item = QtWidgets.QTableWidgetItem(ap_code)
- ap_code_item.setFlags(QtCore.Qt.ItemIsEnabled)
- ap_type_item = QtWidgets.QTableWidgetItem(str(self.storage_dict[ap_code]['type']))
- ap_type_item.setFlags(QtCore.Qt.ItemIsEnabled)
- if str(self.storage_dict[ap_code]['type']) == 'R' or str(self.storage_dict[ap_code]['type']) == 'O':
- ap_dim_item = QtWidgets.QTableWidgetItem(
- '%.4f, %.4f' % (self.storage_dict[ap_code]['width'] * self.gerber_obj.file_units_factor,
- self.storage_dict[ap_code]['height'] * self.gerber_obj.file_units_factor
- )
- )
- ap_dim_item.setFlags(QtCore.Qt.ItemIsEnabled)
- elif str(self.storage_dict[ap_code]['type']) == 'P':
- ap_dim_item = QtWidgets.QTableWidgetItem(
- '%.4f, %.4f' % (self.storage_dict[ap_code]['diam'] * self.gerber_obj.file_units_factor,
- self.storage_dict[ap_code]['nVertices'] * self.gerber_obj.file_units_factor)
- )
- ap_dim_item.setFlags(QtCore.Qt.ItemIsEnabled)
- else:
- ap_dim_item = QtWidgets.QTableWidgetItem('')
- ap_dim_item.setFlags(QtCore.Qt.ItemIsEnabled)
- try:
- if self.storage_dict[ap_code]['size'] is not None:
- ap_size_item = QtWidgets.QTableWidgetItem('%.4f' %
- float(self.storage_dict[ap_code]['size'] *
- self.gerber_obj.file_units_factor))
- else:
- ap_size_item = QtWidgets.QTableWidgetItem('')
- except KeyError:
- ap_size_item = QtWidgets.QTableWidgetItem('')
- ap_size_item.setFlags(QtCore.Qt.ItemIsEnabled)
- self.apertures_table.setItem(self.apertures_row, 1, ap_code_item) # Aperture Code
- self.apertures_table.setItem(self.apertures_row, 2, ap_type_item) # Aperture Type
- self.apertures_table.setItem(self.apertures_row, 3, ap_size_item) # Aperture Dimensions
- self.apertures_table.setItem(self.apertures_row, 4, ap_dim_item) # Aperture Dimensions
- self.apertures_row += 1
- for ap_code in sorted_macros:
- ap_code = str(ap_code)
- ap_id_item = QtWidgets.QTableWidgetItem('%d' % int(self.apertures_row + 1))
- ap_id_item.setFlags(QtCore.Qt.ItemIsSelectable | QtCore.Qt.ItemIsEnabled)
- self.apertures_table.setItem(self.apertures_row, 0, ap_id_item) # Tool name/id
- ap_code_item = QtWidgets.QTableWidgetItem(ap_code)
- ap_type_item = QtWidgets.QTableWidgetItem('AM')
- ap_type_item.setFlags(QtCore.Qt.ItemIsEnabled)
- self.apertures_table.setItem(self.apertures_row, 1, ap_code_item) # Aperture Code
- self.apertures_table.setItem(self.apertures_row, 2, ap_type_item) # Aperture Type
- self.apertures_row += 1
- self.apertures_table.selectColumn(0)
- self.apertures_table.resizeColumnsToContents()
- self.apertures_table.resizeRowsToContents()
- vertical_header = self.apertures_table.verticalHeader()
- # vertical_header.setSectionResizeMode(QtWidgets.QHeaderView.ResizeToContents)
- vertical_header.hide()
- self.apertures_table.setVerticalScrollBarPolicy(QtCore.Qt.ScrollBarAlwaysOff)
- horizontal_header = self.apertures_table.horizontalHeader()
- horizontal_header.setMinimumSectionSize(10)
- horizontal_header.setDefaultSectionSize(70)
- horizontal_header.setSectionResizeMode(0, QtWidgets.QHeaderView.Fixed)
- horizontal_header.resizeSection(0, 20)
- horizontal_header.setSectionResizeMode(1, QtWidgets.QHeaderView.ResizeToContents)
- horizontal_header.setSectionResizeMode(2, QtWidgets.QHeaderView.ResizeToContents)
- horizontal_header.setSectionResizeMode(3, QtWidgets.QHeaderView.ResizeToContents)
- horizontal_header.setSectionResizeMode(4, QtWidgets.QHeaderView.Stretch)
- self.apertures_table.setHorizontalScrollBarPolicy(QtCore.Qt.ScrollBarAlwaysOff)
- self.apertures_table.setSortingEnabled(False)
- self.apertures_table.setMinimumHeight(self.apertures_table.getHeight())
- self.apertures_table.setMaximumHeight(self.apertures_table.getHeight())
- # make sure no rows are selected so the user have to click the correct row, meaning selecting the correct tool
- self.apertures_table.clearSelection()
- # Remove anything else in the GUI Selected Tab
- self.app.ui.selected_scroll_area.takeWidget()
- # Put ourself in the GUI Selected Tab
- self.app.ui.selected_scroll_area.setWidget(self.grb_edit_widget)
- # Switch notebook to Selected page
- self.app.ui.notebook.setCurrentWidget(self.app.ui.selected_tab)
- # we reactivate the signals after the after the tool adding as we don't need to see the tool been populated
- self.apertures_table.itemChanged.connect(self.on_tool_edit)
- self.apertures_table.cellPressed.connect(self.on_row_selected)
- # for convenience set the next aperture code in the apcode field
- self.apcode_entry.set_value(max(self.tool2tooldia.values()) + 1)
- def on_aperture_add(self, apid=None):
- self.is_modified = True
- if apid:
- ap_id = apid
- else:
- try:
- ap_id = str(self.apcode_entry.get_value())
- except ValueError:
- self.app.inform.emit(_("[WARNING_NOTCL] Aperture code value is missing or wrong format. "
- "Add it and retry."))
- return
- if ap_id == '':
- self.app.inform.emit(_("[WARNING_NOTCL] Aperture code value is missing or wrong format. "
- "Add it and retry."))
- return
- if ap_id not in self.olddia_newdia:
- self.storage_dict[ap_id] = {}
- type_val = self.aptype_cb.currentText()
- self.storage_dict[ap_id]['type'] = type_val
- if type_val == 'R':
- try:
- dims = self.apdim_entry.get_value()
- self.storage_dict[ap_id]['width'] = dims[0]
- self.storage_dict[ap_id]['height'] = dims[1]
- size_val = math.sqrt((dims[0] ** 2) + (dims[1] ** 2))
- self.apsize_entry.set_value(size_val)
- except Exception as e:
- log.error("FlatCAMGrbEditor.on_aperture_add() --> the R aperture dims has to be in a "
- "tuple format (x,y)\nError: %s" % str(e))
- self.app.inform.emit(_("[WARNING_NOTCL] Aperture dimensions value is missing or wrong format. "
- "Add it in format (width, height) and retry."))
- return
- else:
- try:
- size_val = float(self.apsize_entry.get_value())
- except ValueError:
- # try to convert comma to decimal point. if it's still not working error message and return
- try:
- size_val = float(self.apsize_entry.get_value().replace(',', '.'))
- self.apsize_entry.set_value(size_val)
- except ValueError:
- self.app.inform.emit(_("[WARNING_NOTCL] Aperture size value is missing or wrong format. "
- "Add it and retry."))
- return
- self.storage_dict[ap_id]['size'] = size_val
- self.storage_dict[ap_id]['solid_geometry'] = []
- self.storage_dict[ap_id]['follow_geometry'] = []
- # self.olddia_newdia dict keeps the evidence on current tools diameters as keys and gets updated on values
- # each time a tool diameter is edited or added
- self.olddia_newdia[ap_id] = ap_id
- else:
- self.app.inform.emit(_("[WARNING_NOTCL] Aperture already in the aperture table."))
- return
- # since we add a new tool, we update also the initial state of the tool_table through it's dictionary
- # we add a new entry in the tool2tooldia dict
- self.tool2tooldia[len(self.olddia_newdia)] = int(ap_id)
- self.app.inform.emit(_("[success] Added new aperture with dia: {apid}").format(apid=str(ap_id)))
- self.build_ui()
- # make a quick sort through the tool2tooldia dict so we find which row to select
- row_to_be_selected = None
- for key in sorted(self.tool2tooldia):
- if self.tool2tooldia[key] == int(ap_id):
- row_to_be_selected = int(key) - 1
- break
- self.apertures_table.selectRow(row_to_be_selected)
- def on_aperture_delete(self, apid=None):
- self.is_modified = True
- deleted_tool_dia_list = []
- deleted_tool_offset_list = []
- try:
- if apid is None or apid is False:
- # deleted_tool_dia = float(self.apertures_table.item(self.apertures_table.currentRow(), 1).text())
- for index in self.apertures_table.selectionModel().selectedRows():
- row = index.row()
- deleted_tool_dia_list.append(self.apertures_table.item(row, 1).text())
- else:
- if isinstance(apid, list):
- for dd in apid:
- deleted_tool_dia_list.append(dd)
- else:
- deleted_tool_dia_list.append(apid)
- except:
- self.app.inform.emit(_("[WARNING_NOTCL] Select a tool in Tool Table"))
- return
- for deleted_tool_dia in deleted_tool_dia_list:
- # delete the storage used for that tool
- self.storage_dict.pop(deleted_tool_dia, None)
- # I've added this flag_del variable because dictionary don't like
- # having keys deleted while iterating through them
- flag_del = []
- for deleted_tool in self.tool2tooldia:
- if self.tool2tooldia[deleted_tool] == deleted_tool_dia:
- flag_del.append(deleted_tool)
- if flag_del:
- for tool_to_be_deleted in flag_del:
- # delete the tool
- self.tool2tooldia.pop(tool_to_be_deleted, None)
- flag_del = []
- self.olddia_newdia.pop(deleted_tool_dia, None)
- self.app.inform.emit(_("[success] Deleted aperture with code: {del_dia}").format(del_dia=str(deleted_tool_dia)))
- self.plot_all()
- self.build_ui()
- def on_tool_edit(self, item_changed):
- # if connected, disconnect the signal from the slot on item_changed as it creates issues
- self.apertures_table.itemChanged.disconnect()
- # self.apertures_table.cellPressed.disconnect()
- self.is_modified = True
- geometry = []
- current_table_dia_edited = None
- if self.apertures_table.currentItem() is not None:
- try:
- current_table_dia_edited = float(self.apertures_table.currentItem().text())
- except ValueError as e:
- log.debug("FlatCAMExcEditor.on_tool_edit() --> %s" % str(e))
- self.apertures_table.setCurrentItem(None)
- return
- row_of_item_changed = self.apertures_table.currentRow()
- # rows start with 0, tools start with 1 so we adjust the value by 1
- key_in_tool2tooldia = row_of_item_changed + 1
- dia_changed = self.tool2tooldia[key_in_tool2tooldia]
- # tool diameter is not used so we create a new tool with the desired diameter
- if current_table_dia_edited not in self.olddia_newdia.values():
- # update the dict that holds as keys our initial diameters and as values the edited diameters
- self.olddia_newdia[dia_changed] = current_table_dia_edited
- # update the dict that holds tool_no as key and tool_dia as value
- self.tool2tooldia[key_in_tool2tooldia] = current_table_dia_edited
- # update the tool offset
- modified_offset = self.gerber_obj.tool_offset.pop(dia_changed)
- self.gerber_obj.tool_offset[current_table_dia_edited] = modified_offset
- self.plot_all()
- else:
- # tool diameter is already in use so we move the drills from the prior tool to the new tool
- factor = current_table_dia_edited / dia_changed
- for shape in self.storage_dict[dia_changed].get_objects():
- geometry.append(DrawToolShape(
- MultiLineString([affinity.scale(subgeo, xfact=factor, yfact=factor) for subgeo in shape.geo])))
- self.points_edit[current_table_dia_edited].append((0, 0))
- self.add_gerber_shape(geometry, self.storage_dict[current_table_dia_edited])
- self.on_aperture_delete(apid=dia_changed)
- # delete the tool offset
- self.gerber_obj.tool_offset.pop(dia_changed, None)
- # we reactivate the signals after the after the tool editing
- self.apertures_table.itemChanged.connect(self.on_tool_edit)
- # self.apertures_table.cellPressed.connect(self.on_row_selected)
- def on_name_activate(self):
- self.edited_obj_name = self.name_entry.get_value()
- def on_aptype_changed(self, current_text):
- if current_text == 'R':
- self.apdim_lbl.show()
- self.apdim_entry.show()
- self.apsize_entry.setReadOnly(True)
- else:
- self.apdim_lbl.hide()
- self.apdim_entry.hide()
- self.apsize_entry.setReadOnly(False)
- def activate_grb_editor(self):
- self.connect_canvas_event_handlers()
- # init working objects
- self.storage_dict = {}
- self.current_storage = []
- self.sorted_apid = []
- self.new_apertures = {}
- self.new_aperture_macros = {}
- self.grb_plot_promises = []
- self.olddia_newdia = {}
- self.tool2tooldia = {}
- self.shapes.enabled = True
- self.tool_shape.enabled = True
- self.app.ui.snap_max_dist_entry.setEnabled(True)
- self.app.ui.corner_snap_btn.setEnabled(True)
- self.app.ui.snap_magnet.setVisible(True)
- self.app.ui.corner_snap_btn.setVisible(True)
- self.app.ui.grb_editor_menu.setDisabled(False)
- self.app.ui.grb_editor_menu.menuAction().setVisible(True)
- self.app.ui.update_obj_btn.setEnabled(True)
- self.app.ui.grb_editor_cmenu.setEnabled(True)
- self.app.ui.grb_edit_toolbar.setDisabled(False)
- self.app.ui.grb_edit_toolbar.setVisible(True)
- # self.app.ui.snap_toolbar.setDisabled(False)
- # start with GRID toolbar activated
- if self.app.ui.grid_snap_btn.isChecked() is False:
- self.app.ui.grid_snap_btn.trigger()
- # Tell the App that the editor is active
- self.editor_active = True
- def deactivate_grb_editor(self):
- self.disconnect_canvas_event_handlers()
- self.clear()
- self.app.ui.grb_edit_toolbar.setDisabled(True)
- settings = QSettings("Open Source", "FlatCAM")
- if settings.contains("layout"):
- layout = settings.value('layout', type=str)
- if layout == 'standard':
- # self.app.ui.exc_edit_toolbar.setVisible(False)
- self.app.ui.snap_max_dist_entry.setEnabled(False)
- self.app.ui.corner_snap_btn.setEnabled(False)
- self.app.ui.snap_magnet.setVisible(False)
- self.app.ui.corner_snap_btn.setVisible(False)
- elif layout == 'compact':
- # self.app.ui.exc_edit_toolbar.setVisible(True)
- self.app.ui.snap_max_dist_entry.setEnabled(False)
- self.app.ui.corner_snap_btn.setEnabled(False)
- self.app.ui.snap_magnet.setVisible(True)
- self.app.ui.corner_snap_btn.setVisible(True)
- else:
- # self.app.ui.exc_edit_toolbar.setVisible(False)
- self.app.ui.snap_max_dist_entry.setEnabled(False)
- self.app.ui.corner_snap_btn.setEnabled(False)
- self.app.ui.snap_magnet.setVisible(False)
- self.app.ui.corner_snap_btn.setVisible(False)
- # set the Editor Toolbar visibility to what was before entering in the Editor
- self.app.ui.grb_edit_toolbar.setVisible(False) if self.toolbar_old_state is False \
- else self.app.ui.grb_edit_toolbar.setVisible(True)
- # Disable visuals
- self.shapes.enabled = False
- self.tool_shape.enabled = False
- # self.app.app_cursor.enabled = False
- # Tell the app that the editor is no longer active
- self.editor_active = False
- self.app.ui.grb_editor_menu.setDisabled(True)
- self.app.ui.grb_editor_menu.menuAction().setVisible(False)
- self.app.ui.update_obj_btn.setEnabled(False)
- self.app.ui.g_editor_cmenu.setEnabled(False)
- self.app.ui.grb_editor_cmenu.setEnabled(False)
- self.app.ui.e_editor_cmenu.setEnabled(False)
- # Show original geometry
- if self.gerber_obj:
- self.gerber_obj.visible = True
- def connect_canvas_event_handlers(self):
- ## Canvas events
- # make sure that the shortcuts key and mouse events will no longer be linked to the methods from FlatCAMApp
- # but those from FlatCAMGeoEditor
- self.app.plotcanvas.vis_disconnect('mouse_press', self.app.on_mouse_click_over_plot)
- self.app.plotcanvas.vis_disconnect('mouse_move', self.app.on_mouse_move_over_plot)
- self.app.plotcanvas.vis_disconnect('mouse_release', self.app.on_mouse_click_release_over_plot)
- self.app.plotcanvas.vis_disconnect('mouse_double_click', self.app.on_double_click_over_plot)
- self.app.collection.view.clicked.disconnect()
- self.canvas.vis_connect('mouse_press', self.on_canvas_click)
- self.canvas.vis_connect('mouse_move', self.on_canvas_move)
- self.canvas.vis_connect('mouse_release', self.on_canvas_click_release)
- def disconnect_canvas_event_handlers(self):
- self.canvas.vis_disconnect('mouse_press', self.on_canvas_click)
- self.canvas.vis_disconnect('mouse_move', self.on_canvas_move)
- self.canvas.vis_disconnect('mouse_release', self.on_canvas_click_release)
- # we restore the key and mouse control to FlatCAMApp method
- self.app.plotcanvas.vis_connect('mouse_press', self.app.on_mouse_click_over_plot)
- self.app.plotcanvas.vis_connect('mouse_move', self.app.on_mouse_move_over_plot)
- self.app.plotcanvas.vis_connect('mouse_release', self.app.on_mouse_click_release_over_plot)
- self.app.plotcanvas.vis_connect('mouse_double_click', self.app.on_double_click_over_plot)
- self.app.collection.view.clicked.connect(self.app.collection.on_mouse_down)
- def clear(self):
- self.active_tool = None
- # self.shape_buffer = []
- self.selected = []
- self.shapes.clear(update=True)
- self.tool_shape.clear(update=True)
- def edit_fcgerber(self, orig_grb_obj):
- """
- Imports the geometry found in self.apertures from the given FlatCAM Gerber object
- into the editor.
- :param fcgeometry: FlatCAMExcellon
- :return: None
- """
- self.deactivate_grb_editor()
- self.activate_grb_editor()
- # create a reference to the source object
- self.gerber_obj = orig_grb_obj
- self.gerber_obj_options = orig_grb_obj.options
- # Hide original geometry
- orig_grb_obj.visible = False
- # Set selection tolerance
- # DrawToolShape.tolerance = fc_excellon.drawing_tolerance * 10
- self.select_tool("select")
- # we activate this after the initial build as we don't need to see the tool been populated
- self.apertures_table.itemChanged.connect(self.on_tool_edit)
- # build the geometry for each tool-diameter, each drill will be represented by a '+' symbol
- # and then add it to the storage elements (each storage elements is a member of a list
- def job_thread(self, apid):
- with self.app.proc_container.new(_("Adding aperture: %s geo ...") % str(apid)):
- solid_storage_elem = []
- follow_storage_elem = []
- self.storage_dict[apid] = {}
- for k, v in self.gerber_obj.apertures[apid].items():
- try:
- if k == 'solid_geometry':
- for geo in v:
- if geo:
- self.add_gerber_shape(DrawToolShape(geo), solid_storage_elem)
- self.storage_dict[apid][k] = solid_storage_elem
- elif k == 'follow_geometry':
- for geo in v:
- if geo is not None:
- self.add_gerber_shape(DrawToolShape(geo), follow_storage_elem)
- self.storage_dict[apid][k] = follow_storage_elem
- else:
- self.storage_dict[apid][k] = v
- except Exception as e:
- log.debug("FlatCAMGrbEditor.edit_fcgerber().job_thread() --> %s" % str(e))
- # Check promises and clear if exists
- while True:
- try:
- self.grb_plot_promises.remove(apid)
- time.sleep(0.5)
- except ValueError:
- break
- for apid in self.gerber_obj.apertures:
- self.grb_plot_promises.append(apid)
- self.app.worker_task.emit({'fcn': job_thread, 'params': [self, apid]})
- self.start_delayed_plot(check_period=1000)
- def update_fcgerber(self, grb_obj):
- """
- Create a new Gerber object that contain the edited content of the source Gerber object
- :param grb_obj: FlatCAMGerber
- :return: None
- """
- new_grb_name = self.edited_obj_name
- # if the 'delayed plot' malfunctioned stop the QTimer
- try:
- self.plot_thread.stop()
- except:
- pass
- if "_edit" in self.edited_obj_name:
- try:
- id = int(self.edited_obj_name[-1]) + 1
- new_grb_name= self.edited_obj_name[:-1] + str(id)
- except ValueError:
- new_grb_name += "_1"
- else:
- new_grb_name = self.edited_obj_name + "_edit"
- self.app.worker_task.emit({'fcn': self.new_edited_gerber,
- 'params': [new_grb_name]})
- # reset the tool table
- self.apertures_table.clear()
- self.apertures_table.setHorizontalHeaderLabels(['#', _('Code'), _('Type'), _('Size'), _('Dim')])
- self.last_aperture_selected = None
- # restore GUI to the Selected TAB
- # Remove anything else in the GUI
- self.app.ui.selected_scroll_area.takeWidget()
- # Switch notebook to Selected page
- self.app.ui.notebook.setCurrentWidget(self.app.ui.selected_tab)
- def update_options(self, obj):
- try:
- if not obj.options:
- obj.options = {}
- obj.options['xmin'] = 0
- obj.options['ymin'] = 0
- obj.options['xmax'] = 0
- obj.options['ymax'] = 0
- return True
- else:
- return False
- except AttributeError:
- obj.options = {}
- return True
- def new_edited_gerber(self, outname):
- """
- Creates a new Gerber object for the edited Gerber. Thread-safe.
- :param outname: Name of the resulting object. None causes the name to be that of the file.
- :type outname: str
- :return: None
- """
- self.app.log.debug("Update the Gerber object with edited content. Source is: %s" %
- self.gerber_obj.options['name'].upper())
- out_name = outname
- local_storage_dict = deepcopy(self.storage_dict)
- # How the object should be initialized
- def obj_init(grb_obj, app_obj):
- poly_buffer = []
- follow_buffer = []
- for storage_apid, storage_val in local_storage_dict.items():
- grb_obj.apertures[storage_apid] = {}
- for k, v in storage_val.items():
- if k == 'solid_geometry':
- grb_obj.apertures[storage_apid][k] = []
- for geo in v:
- new_geo = deepcopy(geo.geo)
- grb_obj.apertures[storage_apid][k].append(new_geo)
- poly_buffer.append(new_geo)
- elif k == 'follow_geometry':
- grb_obj.apertures[storage_apid][k] = []
- for geo in v:
- new_geo = deepcopy(geo.geo)
- grb_obj.apertures[storage_apid][k].append(new_geo)
- follow_buffer.append(new_geo)
- else:
- grb_obj.apertures[storage_apid][k] = deepcopy(v)
- grb_obj.aperture_macros = deepcopy(self.gerber_obj.aperture_macros)
- new_poly = MultiPolygon(poly_buffer)
- new_poly = new_poly.buffer(0.00000001)
- new_poly = new_poly.buffer(-0.00000001)
- grb_obj.solid_geometry = new_poly
- grb_obj.follow_geometry = deepcopy(follow_buffer)
- for k, v in self.gerber_obj_options.items():
- if k == 'name':
- grb_obj.options[k] = out_name
- else:
- grb_obj.options[k] = deepcopy(v)
- grb_obj.source_file = []
- grb_obj.multigeo = False
- grb_obj.follow = False
- try:
- grb_obj.create_geometry()
- except KeyError:
- self.app.inform.emit(
- _( "[ERROR_NOTCL] There are no Aperture definitions in the file. Aborting Gerber creation.")
- )
- except:
- msg = _("[ERROR] An internal error has ocurred. See shell.\n")
- msg += traceback.format_exc()
- app_obj.inform.emit(msg)
- raise
- # raise
- with self.app.proc_container.new(_("Creating Gerber.")):
- try:
- self.app.new_object("gerber", outname, obj_init)
- except Exception as e:
- log.error("Error on object creation: %s" % str(e))
- self.app.progress.emit(100)
- return
- self.app.inform.emit(_("[success] Gerber editing finished."))
- # self.progress.emit(100)
- def on_tool_select(self, tool):
- """
- Behavior of the toolbar. Tool initialization.
- :rtype : None
- """
- current_tool = tool
- self.app.log.debug("on_tool_select('%s')" % tool)
- if self.last_aperture_selected is None and current_tool is not 'select':
- # self.draw_app.select_tool('select')
- self.complete = True
- current_tool = 'select'
- self.app.inform.emit(_("[WARNING_NOTCL] Cancelled. No aperture is selected"))
- # This is to make the group behave as radio group
- if current_tool in self.tools_gerber:
- if self.tools_gerber[current_tool]["button"].isChecked():
- self.app.log.debug("%s is checked." % current_tool)
- for t in self.tools_gerber:
- if t != current_tool:
- self.tools_gerber[t]["button"].setChecked(False)
- # this is where the Editor toolbar classes (button's) are instantiated
- self.active_tool = self.tools_gerber[current_tool]["constructor"](self)
- # self.app.inform.emit(self.active_tool.start_msg)
- else:
- self.app.log.debug("%s is NOT checked." % current_tool)
- for t in self.tools_gerber:
- self.tools_gerber[t]["button"].setChecked(False)
- self.select_tool('select')
- self.active_tool = FCApertureSelect(self)
- def on_row_selected(self, row, col):
- if col == 0:
- key_modifier = QtWidgets.QApplication.keyboardModifiers()
- if self.app.defaults["global_mselect_key"] == 'Control':
- modifier_to_use = Qt.ControlModifier
- else:
- modifier_to_use = Qt.ShiftModifier
- if key_modifier == modifier_to_use:
- pass
- else:
- self.selected = []
- try:
- selected_apid = str(self.tool2tooldia[row + 1])
- self.last_aperture_selected = self.apertures_table.item(row, 1).text()
- for obj in self.storage_dict[selected_apid]['solid_geometry']:
- self.selected.append(obj)
- except Exception as e:
- self.app.log.debug(str(e))
- self.plot_all()
- def toolbar_tool_toggle(self, key):
- self.options[key] = self.sender().isChecked()
- return self.options[key]
- def on_grb_shape_complete(self, storage=None):
- self.app.log.debug("on_shape_complete()")
- if storage is not None:
- # Add shape
- self.add_gerber_shape(self.active_tool.geometry, storage)
- else:
- stora = self.storage_dict[self.last_aperture_selected]['solid_geometry']
- self.add_gerber_shape(self.active_tool.geometry, storage=stora)
- # Remove any utility shapes
- self.delete_utility_geometry()
- self.tool_shape.clear(update=True)
- # Replot and reset tool.
- self.plot_all()
- def add_gerber_shape(self, shape, storage):
- """
- Adds a shape to the shape storage.
- :param shape: Shape to be added.
- :type shape: DrawToolShape
- :return: None
- """
- # List of DrawToolShape?
- if isinstance(shape, list):
- for subshape in shape:
- self.add_gerber_shape(subshape, storage)
- return
- assert isinstance(shape, DrawToolShape), \
- "Expected a DrawToolShape, got %s" % str(type(shape))
- assert shape.geo is not None, \
- "Shape object has empty geometry (None)"
- assert (isinstance(shape.geo, list) and len(shape.geo) > 0) or \
- not isinstance(shape.geo, list), \
- "Shape objects has empty geometry ([])"
- if isinstance(shape, DrawToolUtilityShape):
- self.utility.append(shape)
- else:
- storage.append(shape) # TODO: Check performance
- def on_canvas_click(self, event):
- """
- event.x and .y have canvas coordinates
- event.xdaya and .ydata have plot coordinates
- :param event: Event object dispatched by Matplotlib
- :return: None
- """
- if event.button is 1:
- self.app.ui.rel_position_label.setText("<b>Dx</b>: %.4f <b>Dy</b>: "
- "%.4f " % (0, 0))
- self.pos = self.canvas.vispy_canvas.translate_coords(event.pos)
- ### Snap coordinates
- x, y = self.app.geo_editor.snap(self.pos[0], self.pos[1])
- self.pos = (x, y)
- # Selection with left mouse button
- if self.active_tool is not None and event.button is 1:
- # Dispatch event to active_tool
- # msg = self.active_tool.click(self.app.geo_editor.snap(event.xdata, event.ydata))
- msg = self.active_tool.click(self.app.geo_editor.snap(self.pos[0], self.pos[1]))
- # If it is a shape generating tool
- if isinstance(self.active_tool, FCShapeTool) and self.active_tool.complete:
- if self.current_storage is not None:
- self.on_grb_shape_complete(self.current_storage)
- self.build_ui()
- # MS: always return to the Select Tool if modifier key is not pressed
- # else return to the current tool
- key_modifier = QtWidgets.QApplication.keyboardModifiers()
- if self.app.defaults["global_mselect_key"] == 'Control':
- modifier_to_use = Qt.ControlModifier
- else:
- modifier_to_use = Qt.ShiftModifier
- # if modifier key is pressed then we add to the selected list the current shape but if it's already
- # in the selected list, we removed it. Therefore first click selects, second deselects.
- if key_modifier == modifier_to_use:
- self.select_tool(self.active_tool.name)
- else:
- self.select_tool("select")
- return
- if isinstance(self.active_tool, FCApertureSelect):
- # self.app.log.debug("Replotting after click.")
- self.plot_all()
- else:
- self.app.log.debug("No active tool to respond to click!")
- def on_canvas_click_release(self, event):
- pos_canvas = self.canvas.vispy_canvas.translate_coords(event.pos)
- self.modifiers = QtWidgets.QApplication.keyboardModifiers()
- if self.app.grid_status():
- pos = self.app.geo_editor.snap(pos_canvas[0], pos_canvas[1])
- else:
- pos = (pos_canvas[0], pos_canvas[1])
- # if the released mouse button was RMB then test if it was a panning motion or not, if not it was a context
- # canvas menu
- try:
- if event.button == 2: # right click
- if self.app.panning_action is True:
- self.app.panning_action = False
- else:
- if self.in_action is False:
- self.app.cursor = QtGui.QCursor()
- self.app.ui.popMenu.popup(self.app.cursor.pos())
- else:
- # if right click on canvas and the active tool need to be finished (like Path or Polygon)
- # right mouse click will finish the action
- if isinstance(self.active_tool, FCShapeTool):
- self.active_tool.click(self.app.geo_editor.snap(self.x, self.y))
- self.active_tool.make()
- if self.active_tool.complete:
- self.on_grb_shape_complete()
- self.app.inform.emit(_("[success] Done."))
- # MS: always return to the Select Tool if modifier key is not pressed
- # else return to the current tool
- key_modifier = QtWidgets.QApplication.keyboardModifiers()
- if self.app.defaults["global_mselect_key"] == 'Control':
- modifier_to_use = Qt.ControlModifier
- else:
- modifier_to_use = Qt.ShiftModifier
- if key_modifier == modifier_to_use:
- self.select_tool(self.active_tool.name)
- else:
- self.select_tool("select")
- except Exception as e:
- log.warning("Error: %s" % str(e))
- raise
- # if the released mouse button was LMB then test if we had a right-to-left selection or a left-to-right
- # selection and then select a type of selection ("enclosing" or "touching")
- try:
- if event.button == 1: # left click
- if self.app.selection_type is not None:
- self.draw_selection_area_handler(self.pos, pos, self.app.selection_type)
- self.app.selection_type = None
- elif isinstance(self.active_tool, FCApertureSelect):
- # Dispatch event to active_tool
- # msg = self.active_tool.click(self.app.geo_editor.snap(event.xdata, event.ydata))
- # msg = self.active_tool.click_release((self.pos[0], self.pos[1]))
- # self.app.inform.emit(msg)
- self.active_tool.click_release((self.pos[0], self.pos[1]))
- # if there are selected objects then plot them
- if self.selected:
- self.plot_all()
- except Exception as e:
- log.warning("Error: %s" % str(e))
- raise
- def draw_selection_area_handler(self, start_pos, end_pos, sel_type):
- """
- :param start_pos: mouse position when the selection LMB click was done
- :param end_pos: mouse position when the left mouse button is released
- :param sel_type: if True it's a left to right selection (enclosure), if False it's a 'touch' selection
- :type Bool
- :return:
- """
- poly_selection = Polygon([start_pos, (end_pos[0], start_pos[1]), end_pos, (start_pos[0], end_pos[1])])
- sel_aperture = set()
- self.apertures_table.clearSelection()
- self.app.delete_selection_shape()
- for storage in self.storage_dict:
- for obj in self.storage_dict[storage]['solid_geometry']:
- if (sel_type is True and poly_selection.contains(obj.geo)) or \
- (sel_type is False and poly_selection.intersects(obj.geo)):
- if self.key == self.app.defaults["global_mselect_key"]:
- if obj in self.selected:
- self.selected.remove(obj)
- else:
- # add the object to the selected shapes
- self.selected.append(obj)
- sel_aperture.add(storage)
- else:
- self.selected.append(obj)
- sel_aperture.add(storage)
- try:
- self.apertures_table.cellPressed.disconnect()
- except:
- pass
- # select the aperture code of the selected geometry, in the tool table
- self.apertures_table.setSelectionMode(QtWidgets.QAbstractItemView.MultiSelection)
- for aper in sel_aperture:
- for row in range(self.apertures_table.rowCount()):
- if str(aper) == self.apertures_table.item(row, 1).text():
- self.apertures_table.selectRow(row)
- self.last_aperture_selected = aper
- self.apertures_table.setSelectionMode(QtWidgets.QAbstractItemView.ExtendedSelection)
- self.apertures_table.cellPressed.connect(self.on_row_selected)
- self.plot_all()
- def on_canvas_move(self, event):
- """
- Called on 'mouse_move' event
- event.pos have canvas screen coordinates
- :param event: Event object dispatched by VisPy SceneCavas
- :return: None
- """
- pos = self.canvas.vispy_canvas.translate_coords(event.pos)
- event.xdata, event.ydata = pos[0], pos[1]
- self.x = event.xdata
- self.y = event.ydata
- # Prevent updates on pan
- # if len(event.buttons) > 0:
- # return
- # if the RMB is clicked and mouse is moving over plot then 'panning_action' is True
- if event.button == 2:
- self.app.panning_action = True
- return
- else:
- self.app.panning_action = False
- try:
- x = float(event.xdata)
- y = float(event.ydata)
- except TypeError:
- return
- if self.active_tool is None:
- return
- ### Snap coordinates
- x, y = self.app.geo_editor.app.geo_editor.snap(x, y)
- self.snap_x = x
- self.snap_y = y
- # update the position label in the infobar since the APP mouse event handlers are disconnected
- self.app.ui.position_label.setText(" <b>X</b>: %.4f "
- "<b>Y</b>: %.4f" % (x, y))
- if self.pos is None:
- self.pos = (0, 0)
- dx = x - self.pos[0]
- dy = y - self.pos[1]
- # update the reference position label in the infobar since the APP mouse event handlers are disconnected
- self.app.ui.rel_position_label.setText("<b>Dx</b>: %.4f <b>Dy</b>: "
- "%.4f " % (dx, dy))
- ### Utility geometry (animated)
- geo = self.active_tool.utility_geometry(data=(x, y))
- if isinstance(geo, DrawToolShape) and geo.geo is not None:
- # Remove any previous utility shape
- self.tool_shape.clear(update=True)
- self.draw_utility_geometry(geo=geo)
- ### Selection area on canvas section ###
- dx = pos[0] - self.pos[0]
- if event.is_dragging == 1 and event.button == 1:
- self.app.delete_selection_shape()
- if dx < 0:
- self.app.draw_moving_selection_shape((self.pos[0], self.pos[1]), (x,y),
- color=self.app.defaults["global_alt_sel_line"],
- face_color=self.app.defaults['global_alt_sel_fill'])
- self.app.selection_type = False
- else:
- self.app.draw_moving_selection_shape((self.pos[0], self.pos[1]), (x,y))
- self.app.selection_type = True
- else:
- self.app.selection_type = None
- # Update cursor
- self.app.app_cursor.set_data(np.asarray([(x, y)]), symbol='++', edge_color='black', size=20)
- def on_canvas_key_release(self, event):
- self.key = None
- def draw_utility_geometry(self, geo):
- if type(geo.geo) == list:
- for el in geo.geo:
- # Add the new utility shape
- self.tool_shape.add(
- shape=el, color=(self.app.defaults["global_draw_color"] + '80'),
- update=False, layer=0, tolerance=None)
- else:
- # Add the new utility shape
- self.tool_shape.add(
- shape=geo.geo, color=(self.app.defaults["global_draw_color"] + '80'),
- update=False, layer=0, tolerance=None)
- self.tool_shape.redraw()
- def plot_all(self):
- """
- Plots all shapes in the editor.
- :return: None
- :rtype: None
- """
- with self.app.proc_container.new("Plotting"):
- # self.app.log.debug("plot_all()")
- self.shapes.clear(update=True)
- for storage in self.storage_dict:
- for shape in self.storage_dict[storage]['solid_geometry']:
- if shape.geo is None:
- continue
- if shape in self.selected:
- self.plot_shape(geometry=shape.geo, color=self.app.defaults['global_sel_draw_color'],
- linewidth=2)
- continue
- self.plot_shape(geometry=shape.geo, color=self.app.defaults['global_draw_color'])
- for shape in self.utility:
- self.plot_shape(geometry=shape.geo, linewidth=1)
- continue
- self.shapes.redraw()
- def plot_shape(self, geometry=None, color='black', linewidth=1):
- """
- Plots a geometric object or list of objects without rendering. Plotted objects
- are returned as a list. This allows for efficient/animated rendering.
- :param geometry: Geometry to be plotted (Any Shapely.geom kind or list of such)
- :param color: Shape color
- :param linewidth: Width of lines in # of pixels.
- :return: List of plotted elements.
- """
- # plot_elements = []
- if geometry is None:
- geometry = self.active_tool.geometry
- try:
- self.shapes.add(shape=geometry.geo, color=color, face_color=color, layer=0)
- except AttributeError:
- if type(geometry) == Point:
- return
- self.shapes.add(shape=geometry, color=color, face_color=color+'AF', layer=0)
- def start_delayed_plot(self, check_period):
- # self.plot_thread = threading.Thread(target=lambda: self.check_plot_finished(check_period))
- # self.plot_thread.start()
- log.debug("FlatCAMGrbEditor --> Delayed Plot started.")
- self.plot_thread = QtCore.QTimer()
- self.plot_thread.setInterval(check_period)
- self.plot_thread.timeout.connect(self.check_plot_finished)
- self.plot_thread.start()
- def check_plot_finished(self):
- # print(self.grb_plot_promises)
- try:
- if not self.grb_plot_promises:
- self.plot_thread.stop()
- self.set_ui()
- # now that we hava data, create the GUI interface and add it to the Tool Tab
- self.build_ui()
- self.plot_all()
- log.debug("FlatCAMGrbEditor --> delayed_plot finished")
- except Exception:
- traceback.print_exc()
- def on_shape_complete(self):
- self.app.log.debug("on_shape_complete()")
- # Add shape
- self.add_gerber_shape(self.active_tool.geometry)
- # Remove any utility shapes
- self.delete_utility_geometry()
- self.tool_shape.clear(update=True)
- # Replot and reset tool.
- self.plot_all()
- # self.active_tool = type(self.active_tool)(self)
- def get_selected(self):
- """
- Returns list of shapes that are selected in the editor.
- :return: List of shapes.
- """
- # return [shape for shape in self.shape_buffer if shape["selected"]]
- return self.selected
- def delete_selected(self):
- temp_ref = [s for s in self.selected]
- for shape_sel in temp_ref:
- self.delete_shape(shape_sel)
- self.selected = []
- self.build_ui()
- self.app.inform.emit(_("[success] Done. Apertures deleted."))
- def delete_shape(self, shape):
- self.is_modified = True
- if shape in self.utility:
- self.utility.remove(shape)
- return
- for storage in self.storage_dict:
- # try:
- # self.storage_dict[storage].remove(shape)
- # except:
- # pass
- if shape in self.storage_dict[storage]['solid_geometry']:
- self.storage_dict[storage]['solid_geometry'].remove(shape)
- if shape in self.selected:
- self.selected.remove(shape) # TODO: Check performance
- def delete_utility_geometry(self):
- # for_deletion = [shape for shape in self.shape_buffer if shape.utility]
- # for_deletion = [shape for shape in self.storage.get_objects() if shape.utility]
- for_deletion = [shape for shape in self.utility]
- for shape in for_deletion:
- self.delete_shape(shape)
- self.tool_shape.clear(update=True)
- self.tool_shape.redraw()
- def on_delete_btn(self):
- self.delete_selected()
- self.plot_all()
- def select_tool(self, toolname):
- """
- Selects a drawing tool. Impacts the object and GUI.
- :param toolname: Name of the tool.
- :return: None
- """
- self.tools_gerber[toolname]["button"].setChecked(True)
- self.on_tool_select(toolname)
- def set_selected(self, shape):
- # Remove and add to the end.
- if shape in self.selected:
- self.selected.remove(shape)
- self.selected.append(shape)
- def set_unselected(self, shape):
- if shape in self.selected:
- self.selected.remove(shape)
- def on_copy_button(self):
- self.select_tool('copy')
- return
- def on_move_button(self):
- self.select_tool('move')
- return
- def on_pad_add(self):
- self.select_tool('pad')
- def on_track_add(self):
- self.select_tool('track')
- def on_region_add(self):
- self.select_tool('region')
- def on_buffer(self):
- buff_value = 0.01
- log.debug("FlatCAMGrbEditor.on_buffer()")
- try:
- buff_value = float(self.buffer_distance_entry.get_value())
- except ValueError:
- # try to convert comma to decimal point. if it's still not working error message and return
- try:
- buff_value = float(self.buffer_distance_entry.get_value().replace(',', '.'))
- self.buffer_distance_entry.set_value(buff_value)
- except ValueError:
- self.app.inform.emit(_("[WARNING_NOTCL] Buffer distance value is missing or wrong format. "
- "Add it and retry."))
- return
- # the cb index start from 0 but the join styles for the buffer start from 1 therefore the adjustment
- # I populated the combobox such that the index coincide with the join styles value (whcih is really an INT)
- join_style = self.buffer_corner_cb.currentIndex() + 1
- def buffer_recursion(geom, selection):
- if type(geom) == list or type(geom) is MultiPolygon:
- geoms = list()
- for local_geom in geom:
- geoms.append(buffer_recursion(local_geom, selection=selection))
- return geoms
- else:
- if geom in selection:
- return DrawToolShape(geom.geo.buffer(buff_value, join_style=join_style))
- else:
- return geom
- if not self.apertures_table.selectedItems():
- self.app.inform.emit(_(
- "[WARNING_NOTCL] No aperture to buffer. Select at least one aperture and try again."
- ))
- return
- for x in self.apertures_table.selectedItems():
- try:
- apid = self.apertures_table.item(x.row(), 1).text()
- temp_storage = deepcopy(buffer_recursion(self.storage_dict[apid]['solid_geometry'], self.selected))
- self.storage_dict[apid]['solid_geometry'] = []
- self.storage_dict[apid]['solid_geometry'] = temp_storage
- except Exception as e:
- log.debug("FlatCAMGrbEditor.buffer() --> %s" % str(e))
- self.plot_all()
- self.app.inform.emit(_("[success] Done. Buffer Tool completed."))
- def on_scale(self):
- scale_factor = 1.0
- log.debug("FlatCAMGrbEditor.on_scale()")
- try:
- scale_factor = float(self.scale_factor_entry.get_value())
- except ValueError:
- # try to convert comma to decimal point. if it's still not working error message and return
- try:
- scale_factor = float(self.scale_factor_entry.get_value().replace(',', '.'))
- self.scale_factor_entry.set_value(scale_factor)
- except ValueError:
- self.app.inform.emit(_("[WARNING_NOTCL] Scale factor value is missing or wrong format. "
- "Add it and retry."))
- return
- def scale_recursion(geom, selection):
- if type(geom) == list or type(geom) is MultiPolygon:
- geoms = list()
- for local_geom in geom:
- geoms.append(scale_recursion(local_geom, selection=selection))
- return geoms
- else:
- if geom in selection:
- return DrawToolShape(affinity.scale(geom.geo, scale_factor, scale_factor, origin='center'))
- else:
- return geom
- if not self.apertures_table.selectedItems():
- self.app.inform.emit(_(
- "[WARNING_NOTCL] No aperture to scale. Select at least one aperture and try again."
- ))
- return
- for x in self.apertures_table.selectedItems():
- try:
- apid = self.apertures_table.item(x.row(), 1).text()
- temp_storage = deepcopy(scale_recursion(self.storage_dict[apid]['solid_geometry'], self.selected))
- self.storage_dict[apid]['solid_geometry'] = []
- self.storage_dict[apid]['solid_geometry'] = temp_storage
- except Exception as e:
- log.debug("FlatCAMGrbEditor.on_scale() --> %s" % str(e))
- self.plot_all()
- self.app.inform.emit(_("[success] Done. Scale Tool completed."))
- def hide_tool(self, tool_name):
- # self.app.ui.notebook.setTabText(2, _("Tools"))
- if tool_name == 'all':
- self.apertures_frame.hide()
- if tool_name == 'select':
- self.apertures_frame.show()
- if tool_name == 'buffer' or tool_name == 'all':
- self.buffer_tool_frame.hide()
- if tool_name == 'scale' or tool_name == 'all':
- self.scale_tool_frame.hide()
- self.app.ui.notebook.setCurrentWidget(self.app.ui.selected_tab)
- class TransformEditorTool(FlatCAMTool):
- """
- Inputs to specify how to paint the selected polygons.
- """
- toolName = _("Transform Tool")
- rotateName = _("Rotate")
- skewName = _("Skew/Shear")
- scaleName = _("Scale")
- flipName = _("Mirror (Flip)")
- offsetName = _("Offset")
- def __init__(self, app, draw_app):
- FlatCAMTool.__init__(self, app)
- self.app = app
- self.draw_app = draw_app
- self.transform_lay = QtWidgets.QVBoxLayout()
- self.layout.addLayout(self.transform_lay)
- ## Title
- title_label = QtWidgets.QLabel("%s" % (_('Editor %s') % self.toolName))
- title_label.setStyleSheet("""
- QLabel
- {
- font-size: 16px;
- font-weight: bold;
- }
- """)
- self.transform_lay.addWidget(title_label)
- self.empty_label = QtWidgets.QLabel("")
- self.empty_label.setFixedWidth(50)
- self.empty_label1 = QtWidgets.QLabel("")
- self.empty_label1.setFixedWidth(70)
- self.empty_label2 = QtWidgets.QLabel("")
- self.empty_label2.setFixedWidth(70)
- self.empty_label3 = QtWidgets.QLabel("")
- self.empty_label3.setFixedWidth(70)
- self.empty_label4 = QtWidgets.QLabel("")
- self.empty_label4.setFixedWidth(70)
- self.transform_lay.addWidget(self.empty_label)
- ## Rotate Title
- rotate_title_label = QtWidgets.QLabel("<font size=3><b>%s</b></font>" % self.rotateName)
- self.transform_lay.addWidget(rotate_title_label)
- ## Layout
- form_layout = QtWidgets.QFormLayout()
- self.transform_lay.addLayout(form_layout)
- form_child = QtWidgets.QHBoxLayout()
- self.rotate_label = QtWidgets.QLabel(_("Angle:"))
- self.rotate_label.setToolTip(
- _("Angle for Rotation action, in degrees.\n"
- "Float number between -360 and 359.\n"
- "Positive numbers for CW motion.\n"
- "Negative numbers for CCW motion.")
- )
- self.rotate_label.setFixedWidth(50)
- self.rotate_entry = FCEntry()
- # self.rotate_entry.setFixedWidth(60)
- self.rotate_entry.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter)
- self.rotate_button = FCButton()
- self.rotate_button.set_value(_("Rotate"))
- self.rotate_button.setToolTip(
- _("Rotate the selected shape(s).\n"
- "The point of reference is the middle of\n"
- "the bounding box for all selected shapes.")
- )
- self.rotate_button.setFixedWidth(60)
- form_child.addWidget(self.rotate_entry)
- form_child.addWidget(self.rotate_button)
- form_layout.addRow(self.rotate_label, form_child)
- self.transform_lay.addWidget(self.empty_label1)
- ## Skew Title
- skew_title_label = QtWidgets.QLabel("<font size=3><b>%s</b></font>" % self.skewName)
- self.transform_lay.addWidget(skew_title_label)
- ## Form Layout
- form1_layout = QtWidgets.QFormLayout()
- self.transform_lay.addLayout(form1_layout)
- form1_child_1 = QtWidgets.QHBoxLayout()
- form1_child_2 = QtWidgets.QHBoxLayout()
- self.skewx_label = QtWidgets.QLabel(_("Angle X:"))
- self.skewx_label.setToolTip(
- _("Angle for Skew action, in degrees.\n"
- "Float number between -360 and 359.")
- )
- self.skewx_label.setFixedWidth(50)
- self.skewx_entry = FCEntry()
- self.skewx_entry.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter)
- # self.skewx_entry.setFixedWidth(60)
- self.skewx_button = FCButton()
- self.skewx_button.set_value(_("Skew X"))
- self.skewx_button.setToolTip(
- _("Skew/shear the selected shape(s).\n"
- "The point of reference is the middle of\n"
- "the bounding box for all selected shapes."))
- self.skewx_button.setFixedWidth(60)
- self.skewy_label = QtWidgets.QLabel(_("Angle Y:"))
- self.skewy_label.setToolTip(
- _("Angle for Skew action, in degrees.\n"
- "Float number between -360 and 359.")
- )
- self.skewy_label.setFixedWidth(50)
- self.skewy_entry = FCEntry()
- self.skewy_entry.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter)
- # self.skewy_entry.setFixedWidth(60)
- self.skewy_button = FCButton()
- self.skewy_button.set_value(_("Skew Y"))
- self.skewy_button.setToolTip(
- _("Skew/shear the selected shape(s).\n"
- "The point of reference is the middle of\n"
- "the bounding box for all selected shapes."))
- self.skewy_button.setFixedWidth(60)
- form1_child_1.addWidget(self.skewx_entry)
- form1_child_1.addWidget(self.skewx_button)
- form1_child_2.addWidget(self.skewy_entry)
- form1_child_2.addWidget(self.skewy_button)
- form1_layout.addRow(self.skewx_label, form1_child_1)
- form1_layout.addRow(self.skewy_label, form1_child_2)
- self.transform_lay.addWidget(self.empty_label2)
- ## Scale Title
- scale_title_label = QtWidgets.QLabel("<font size=3><b>%s</b></font>" % self.scaleName)
- self.transform_lay.addWidget(scale_title_label)
- ## Form Layout
- form2_layout = QtWidgets.QFormLayout()
- self.transform_lay.addLayout(form2_layout)
- form2_child_1 = QtWidgets.QHBoxLayout()
- form2_child_2 = QtWidgets.QHBoxLayout()
- self.scalex_label = QtWidgets.QLabel(_("Factor X:"))
- self.scalex_label.setToolTip(
- _("Factor for Scale action over X axis.")
- )
- self.scalex_label.setFixedWidth(50)
- self.scalex_entry = FCEntry()
- self.scalex_entry.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter)
- # self.scalex_entry.setFixedWidth(60)
- self.scalex_button = FCButton()
- self.scalex_button.set_value(_("Scale X"))
- self.scalex_button.setToolTip(
- _("Scale the selected shape(s).\n"
- "The point of reference depends on \n"
- "the Scale reference checkbox state."))
- self.scalex_button.setFixedWidth(60)
- self.scaley_label = QtWidgets.QLabel(_("Factor Y:"))
- self.scaley_label.setToolTip(
- _("Factor for Scale action over Y axis.")
- )
- self.scaley_label.setFixedWidth(50)
- self.scaley_entry = FCEntry()
- self.scaley_entry.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter)
- # self.scaley_entry.setFixedWidth(60)
- self.scaley_button = FCButton()
- self.scaley_button.set_value(_("Scale Y"))
- self.scaley_button.setToolTip(
- _("Scale the selected shape(s).\n"
- "The point of reference depends on \n"
- "the Scale reference checkbox state."))
- self.scaley_button.setFixedWidth(60)
- self.scale_link_cb = FCCheckBox()
- self.scale_link_cb.set_value(True)
- self.scale_link_cb.setText(_("Link"))
- self.scale_link_cb.setToolTip(
- _("Scale the selected shape(s)\n"
- "using the Scale Factor X for both axis."))
- self.scale_link_cb.setFixedWidth(50)
- self.scale_zero_ref_cb = FCCheckBox()
- self.scale_zero_ref_cb.set_value(True)
- self.scale_zero_ref_cb.setText(_("Scale Reference"))
- self.scale_zero_ref_cb.setToolTip(
- _("Scale the selected shape(s)\n"
- "using the origin reference when checked,\n"
- "and the center of the biggest bounding box\n"
- "of the selected shapes when unchecked."))
- form2_child_1.addWidget(self.scalex_entry)
- form2_child_1.addWidget(self.scalex_button)
- form2_child_2.addWidget(self.scaley_entry)
- form2_child_2.addWidget(self.scaley_button)
- form2_layout.addRow(self.scalex_label, form2_child_1)
- form2_layout.addRow(self.scaley_label, form2_child_2)
- form2_layout.addRow(self.scale_link_cb, self.scale_zero_ref_cb)
- self.ois_scale = OptionalInputSection(self.scale_link_cb, [self.scaley_entry, self.scaley_button],
- logic=False)
- self.transform_lay.addWidget(self.empty_label3)
- ## Offset Title
- offset_title_label = QtWidgets.QLabel("<font size=3><b>%s</b></font>" % self.offsetName)
- self.transform_lay.addWidget(offset_title_label)
- ## Form Layout
- form3_layout = QtWidgets.QFormLayout()
- self.transform_lay.addLayout(form3_layout)
- form3_child_1 = QtWidgets.QHBoxLayout()
- form3_child_2 = QtWidgets.QHBoxLayout()
- self.offx_label = QtWidgets.QLabel(_("Value X:"))
- self.offx_label.setToolTip(
- _("Value for Offset action on X axis.")
- )
- self.offx_label.setFixedWidth(50)
- self.offx_entry = FCEntry()
- self.offx_entry.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter)
- # self.offx_entry.setFixedWidth(60)
- self.offx_button = FCButton()
- self.offx_button.set_value(_("Offset X"))
- self.offx_button.setToolTip(
- _("Offset the selected shape(s).\n"
- "The point of reference is the middle of\n"
- "the bounding box for all selected shapes.\n")
- )
- self.offx_button.setFixedWidth(60)
- self.offy_label = QtWidgets.QLabel(_("Value Y:"))
- self.offy_label.setToolTip(
- _("Value for Offset action on Y axis.")
- )
- self.offy_label.setFixedWidth(50)
- self.offy_entry = FCEntry()
- self.offy_entry.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter)
- # self.offy_entry.setFixedWidth(60)
- self.offy_button = FCButton()
- self.offy_button.set_value(_("Offset Y"))
- self.offy_button.setToolTip(
- _("Offset the selected shape(s).\n"
- "The point of reference is the middle of\n"
- "the bounding box for all selected shapes.\n")
- )
- self.offy_button.setFixedWidth(60)
- form3_child_1.addWidget(self.offx_entry)
- form3_child_1.addWidget(self.offx_button)
- form3_child_2.addWidget(self.offy_entry)
- form3_child_2.addWidget(self.offy_button)
- form3_layout.addRow(self.offx_label, form3_child_1)
- form3_layout.addRow(self.offy_label, form3_child_2)
- self.transform_lay.addWidget(self.empty_label4)
- ## Flip Title
- flip_title_label = QtWidgets.QLabel("<font size=3><b>%s</b></font>" % self.flipName)
- self.transform_lay.addWidget(flip_title_label)
- ## Form Layout
- form4_layout = QtWidgets.QFormLayout()
- form4_child_hlay = QtWidgets.QHBoxLayout()
- self.transform_lay.addLayout(form4_child_hlay)
- self.transform_lay.addLayout(form4_layout)
- form4_child_1 = QtWidgets.QHBoxLayout()
- self.flipx_button = FCButton()
- self.flipx_button.set_value(_("Flip on X"))
- self.flipx_button.setToolTip(
- _("Flip the selected shape(s) over the X axis.\n"
- "Does not create a new shape.")
- )
- self.flipx_button.setFixedWidth(60)
- self.flipy_button = FCButton()
- self.flipy_button.set_value(_("Flip on Y"))
- self.flipy_button.setToolTip(
- _("Flip the selected shape(s) over the X axis.\n"
- "Does not create a new shape.")
- )
- self.flipy_button.setFixedWidth(60)
- self.flip_ref_cb = FCCheckBox()
- self.flip_ref_cb.set_value(True)
- self.flip_ref_cb.setText(_("Ref Pt"))
- self.flip_ref_cb.setToolTip(
- _("Flip the selected shape(s)\n"
- "around the point in Point Entry Field.\n"
- "\n"
- "The point coordinates can be captured by\n"
- "left click on canvas together with pressing\n"
- "SHIFT key. \n"
- "Then click Add button to insert coordinates.\n"
- "Or enter the coords in format (x, y) in the\n"
- "Point Entry field and click Flip on X(Y)")
- )
- self.flip_ref_cb.setFixedWidth(50)
- self.flip_ref_label = QtWidgets.QLabel(_("Point:"))
- self.flip_ref_label.setToolTip(
- _("Coordinates in format (x, y) used as reference for mirroring.\n"
- "The 'x' in (x, y) will be used when using Flip on X and\n"
- "the 'y' in (x, y) will be used when using Flip on Y.")
- )
- self.flip_ref_label.setFixedWidth(50)
- self.flip_ref_entry = EvalEntry2("(0, 0)")
- self.flip_ref_entry.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter)
- # self.flip_ref_entry.setFixedWidth(60)
- self.flip_ref_button = FCButton()
- self.flip_ref_button.set_value(_("Add"))
- self.flip_ref_button.setToolTip(
- _("The point coordinates can be captured by\n"
- "left click on canvas together with pressing\n"
- "SHIFT key. Then click Add button to insert.")
- )
- self.flip_ref_button.setFixedWidth(60)
- form4_child_hlay.addStretch()
- form4_child_hlay.addWidget(self.flipx_button)
- form4_child_hlay.addWidget(self.flipy_button)
- form4_child_1.addWidget(self.flip_ref_entry)
- form4_child_1.addWidget(self.flip_ref_button)
- form4_layout.addRow(self.flip_ref_cb)
- form4_layout.addRow(self.flip_ref_label, form4_child_1)
- self.ois_flip = OptionalInputSection(self.flip_ref_cb,
- [self.flip_ref_entry, self.flip_ref_button], logic=True)
- self.transform_lay.addStretch()
- ## Signals
- self.rotate_button.clicked.connect(self.on_rotate)
- self.skewx_button.clicked.connect(self.on_skewx)
- self.skewy_button.clicked.connect(self.on_skewy)
- self.scalex_button.clicked.connect(self.on_scalex)
- self.scaley_button.clicked.connect(self.on_scaley)
- self.offx_button.clicked.connect(self.on_offx)
- self.offy_button.clicked.connect(self.on_offy)
- self.flipx_button.clicked.connect(self.on_flipx)
- self.flipy_button.clicked.connect(self.on_flipy)
- self.flip_ref_button.clicked.connect(self.on_flip_add_coords)
- self.rotate_entry.returnPressed.connect(self.on_rotate)
- self.skewx_entry.returnPressed.connect(self.on_skewx)
- self.skewy_entry.returnPressed.connect(self.on_skewy)
- self.scalex_entry.returnPressed.connect(self.on_scalex)
- self.scaley_entry.returnPressed.connect(self.on_scaley)
- self.offx_entry.returnPressed.connect(self.on_offx)
- self.offy_entry.returnPressed.connect(self.on_offy)
- self.set_tool_ui()
- def run(self):
- self.app.report_usage("Geo Editor Transform Tool()")
- FlatCAMTool.run(self)
- self.set_tool_ui()
- # if the splitter us hidden, display it
- if self.app.ui.splitter.sizes()[0] == 0:
- self.app.ui.splitter.setSizes([1, 1])
- self.app.ui.notebook.setTabText(2, _("Transform Tool"))
- def install(self, icon=None, separator=None, **kwargs):
- FlatCAMTool.install(self, icon, separator, shortcut='ALT+T', **kwargs)
- def set_tool_ui(self):
- ## Initialize form
- if self.app.defaults["tools_transform_rotate"]:
- self.rotate_entry.set_value(self.app.defaults["tools_transform_rotate"])
- else:
- self.rotate_entry.set_value(0.0)
- if self.app.defaults["tools_transform_skew_x"]:
- self.skewx_entry.set_value(self.app.defaults["tools_transform_skew_x"])
- else:
- self.skewx_entry.set_value(0.0)
- if self.app.defaults["tools_transform_skew_y"]:
- self.skewy_entry.set_value(self.app.defaults["tools_transform_skew_y"])
- else:
- self.skewy_entry.set_value(0.0)
- if self.app.defaults["tools_transform_scale_x"]:
- self.scalex_entry.set_value(self.app.defaults["tools_transform_scale_x"])
- else:
- self.scalex_entry.set_value(1.0)
- if self.app.defaults["tools_transform_scale_y"]:
- self.scaley_entry.set_value(self.app.defaults["tools_transform_scale_y"])
- else:
- self.scaley_entry.set_value(1.0)
- if self.app.defaults["tools_transform_scale_link"]:
- self.scale_link_cb.set_value(self.app.defaults["tools_transform_scale_link"])
- else:
- self.scale_link_cb.set_value(True)
- if self.app.defaults["tools_transform_scale_reference"]:
- self.scale_zero_ref_cb.set_value(self.app.defaults["tools_transform_scale_reference"])
- else:
- self.scale_zero_ref_cb.set_value(True)
- if self.app.defaults["tools_transform_offset_x"]:
- self.offx_entry.set_value(self.app.defaults["tools_transform_offset_x"])
- else:
- self.offx_entry.set_value(0.0)
- if self.app.defaults["tools_transform_offset_y"]:
- self.offy_entry.set_value(self.app.defaults["tools_transform_offset_y"])
- else:
- self.offy_entry.set_value(0.0)
- if self.app.defaults["tools_transform_mirror_reference"]:
- self.flip_ref_cb.set_value(self.app.defaults["tools_transform_mirror_reference"])
- else:
- self.flip_ref_cb.set_value(False)
- if self.app.defaults["tools_transform_mirror_point"]:
- self.flip_ref_entry.set_value(self.app.defaults["tools_transform_mirror_point"])
- else:
- self.flip_ref_entry.set_value((0, 0))
- def template(self):
- if not self.fcdraw.selected:
- self.app.inform.emit(_("[WARNING_NOTCL] Transformation cancelled. No shape selected."))
- return
- self.draw_app.select_tool("select")
- self.app.ui.notebook.setTabText(2, "Tools")
- self.app.ui.notebook.setCurrentWidget(self.app.ui.project_tab)
- self.app.ui.splitter.setSizes([0, 1])
- def on_rotate(self, sig=None, val=None):
- if val:
- value = val
- else:
- try:
- value = float(self.rotate_entry.get_value())
- except ValueError:
- # try to convert comma to decimal point. if it's still not working error message and return
- try:
- value = float(self.rotate_entry.get_value().replace(',', '.'))
- except ValueError:
- self.app.inform.emit(_("[ERROR_NOTCL] Wrong value format entered for Rotate, "
- "use a number."))
- return
- self.app.worker_task.emit({'fcn': self.on_rotate_action,
- 'params': [value]})
- # self.on_rotate_action(value)
- return
- def on_flipx(self):
- # self.on_flip("Y")
- axis = 'Y'
- self.app.worker_task.emit({'fcn': self.on_flip,
- 'params': [axis]})
- return
- def on_flipy(self):
- # self.on_flip("X")
- axis = 'X'
- self.app.worker_task.emit({'fcn': self.on_flip,
- 'params': [axis]})
- return
- def on_flip_add_coords(self):
- val = self.app.clipboard.text()
- self.flip_ref_entry.set_value(val)
- def on_skewx(self, sig=None, val=None):
- if val:
- value = val
- else:
- try:
- value = float(self.skewx_entry.get_value())
- except ValueError:
- # try to convert comma to decimal point. if it's still not working error message and return
- try:
- value = float(self.skewx_entry.get_value().replace(',', '.'))
- except ValueError:
- self.app.inform.emit(_("[ERROR_NOTCL] Wrong value format entered for Skew X, "
- "use a number."))
- return
- # self.on_skew("X", value)
- axis = 'X'
- self.app.worker_task.emit({'fcn': self.on_skew,
- 'params': [axis, value]})
- return
- def on_skewy(self, sig=None, val=None):
- if val:
- value = val
- else:
- try:
- value = float(self.skewy_entry.get_value())
- except ValueError:
- # try to convert comma to decimal point. if it's still not working error message and return
- try:
- value = float(self.skewy_entry.get_value().replace(',', '.'))
- except ValueError:
- self.app.inform.emit(_("[ERROR_NOTCL] Wrong value format entered for Skew Y, "
- "use a number."))
- return
- # self.on_skew("Y", value)
- axis = 'Y'
- self.app.worker_task.emit({'fcn': self.on_skew,
- 'params': [axis, value]})
- return
- def on_scalex(self, sig=None, val=None):
- if val:
- xvalue = val
- else:
- try:
- xvalue = float(self.scalex_entry.get_value())
- except ValueError:
- # try to convert comma to decimal point. if it's still not working error message and return
- try:
- xvalue = float(self.scalex_entry.get_value().replace(',', '.'))
- except ValueError:
- self.app.inform.emit(_("[ERROR_NOTCL] Wrong value format entered for Scale X, "
- "use a number."))
- return
- # scaling to zero has no sense so we remove it, because scaling with 1 does nothing
- if xvalue == 0:
- xvalue = 1
- if self.scale_link_cb.get_value():
- yvalue = xvalue
- else:
- yvalue = 1
- axis = 'X'
- point = (0, 0)
- if self.scale_zero_ref_cb.get_value():
- self.app.worker_task.emit({'fcn': self.on_scale,
- 'params': [axis, xvalue, yvalue, point]})
- # self.on_scale("X", xvalue, yvalue, point=(0,0))
- else:
- # self.on_scale("X", xvalue, yvalue)
- self.app.worker_task.emit({'fcn': self.on_scale,
- 'params': [axis, xvalue, yvalue]})
- return
- def on_scaley(self, sig=None, val=None):
- xvalue = 1
- if val:
- yvalue = val
- else:
- try:
- yvalue = float(self.scaley_entry.get_value())
- except ValueError:
- # try to convert comma to decimal point. if it's still not working error message and return
- try:
- yvalue = float(self.scaley_entry.get_value().replace(',', '.'))
- except ValueError:
- self.app.inform.emit(_("[ERROR_NOTCL] Wrong value format entered for Scale Y, "
- "use a number."))
- return
- # scaling to zero has no sense so we remove it, because scaling with 1 does nothing
- if yvalue == 0:
- yvalue = 1
- axis = 'Y'
- point = (0, 0)
- if self.scale_zero_ref_cb.get_value():
- self.app.worker_task.emit({'fcn': self.on_scale,
- 'params': [axis, xvalue, yvalue, point]})
- # self.on_scale("Y", xvalue, yvalue, point=(0,0))
- else:
- # self.on_scale("Y", xvalue, yvalue)
- self.app.worker_task.emit({'fcn': self.on_scale,
- 'params': [axis, xvalue, yvalue]})
- return
- def on_offx(self, sig=None, val=None):
- if val:
- value = val
- else:
- try:
- value = float(self.offx_entry.get_value())
- except ValueError:
- # try to convert comma to decimal point. if it's still not working error message and return
- try:
- value = float(self.offx_entry.get_value().replace(',', '.'))
- except ValueError:
- self.app.inform.emit(_("[ERROR_NOTCL] Wrong value format entered for Offset X, "
- "use a number."))
- return
- # self.on_offset("X", value)
- axis = 'X'
- self.app.worker_task.emit({'fcn': self.on_offset,
- 'params': [axis, value]})
- return
- def on_offy(self, sig=None, val=None):
- if val:
- value = val
- else:
- try:
- value = float(self.offy_entry.get_value())
- except ValueError:
- # try to convert comma to decimal point. if it's still not working error message and return
- try:
- value = float(self.offy_entry.get_value().replace(',', '.'))
- except ValueError:
- self.app.inform.emit(_("[ERROR_NOTCL] Wrong value format entered for Offset Y, "
- "use a number."))
- return
- # self.on_offset("Y", value)
- axis = 'Y'
- self.app.worker_task.emit({'fcn': self.on_offset,
- 'params': [axis, value]})
- return
- def on_rotate_action(self, num):
- shape_list = self.draw_app.selected
- xminlist = []
- yminlist = []
- xmaxlist = []
- ymaxlist = []
- if not shape_list:
- self.app.inform.emit(_("[WARNING_NOTCL] No shape selected. Please Select a shape to rotate!"))
- return
- else:
- with self.app.proc_container.new(_("Appying Rotate")):
- try:
- # first get a bounding box to fit all
- for sha in shape_list:
- xmin, ymin, xmax, ymax = sha.bounds()
- xminlist.append(xmin)
- yminlist.append(ymin)
- xmaxlist.append(xmax)
- ymaxlist.append(ymax)
- # get the minimum x,y and maximum x,y for all objects selected
- xminimal = min(xminlist)
- yminimal = min(yminlist)
- xmaximal = max(xmaxlist)
- ymaximal = max(ymaxlist)
- self.app.progress.emit(20)
- for sel_sha in shape_list:
- px = 0.5 * (xminimal + xmaximal)
- py = 0.5 * (yminimal + ymaximal)
- sel_sha.rotate(-num, point=(px, py))
- self.draw_app.plot_all()
- # self.draw_app.add_shape(DrawToolShape(sel_sha.geo))
- # self.draw_app.transform_complete.emit()
- self.app.inform.emit(_("[success] Done. Rotate completed."))
- self.app.progress.emit(100)
- except Exception as e:
- self.app.inform.emit(_("[ERROR_NOTCL] Due of %s, rotation movement was not executed.") % str(e))
- return
- def on_flip(self, axis):
- shape_list = self.draw_app.selected
- xminlist = []
- yminlist = []
- xmaxlist = []
- ymaxlist = []
- if not shape_list:
- self.app.inform.emit(_("[WARNING_NOTCL] No shape selected. Please Select a shape to flip!"))
- return
- else:
- with self.app.proc_container.new(_("Applying Flip")):
- try:
- # get mirroring coords from the point entry
- if self.flip_ref_cb.isChecked():
- px, py = eval('{}'.format(self.flip_ref_entry.text()))
- # get mirroing coords from the center of an all-enclosing bounding box
- else:
- # first get a bounding box to fit all
- for sha in shape_list:
- xmin, ymin, xmax, ymax = sha.bounds()
- xminlist.append(xmin)
- yminlist.append(ymin)
- xmaxlist.append(xmax)
- ymaxlist.append(ymax)
- # get the minimum x,y and maximum x,y for all objects selected
- xminimal = min(xminlist)
- yminimal = min(yminlist)
- xmaximal = max(xmaxlist)
- ymaximal = max(ymaxlist)
- px = 0.5 * (xminimal + xmaximal)
- py = 0.5 * (yminimal + ymaximal)
- self.app.progress.emit(20)
- # execute mirroring
- for sha in shape_list:
- if axis is 'X':
- sha.mirror('X', (px, py))
- self.app.inform.emit(_('[success] Flip on the Y axis done ...'))
- elif axis is 'Y':
- sha.mirror('Y', (px, py))
- self.app.inform.emit(_('[success] Flip on the X axis done ...'))
- self.draw_app.plot_all()
- # self.draw_app.add_shape(DrawToolShape(sha.geo))
- #
- # self.draw_app.transform_complete.emit()
- self.app.progress.emit(100)
- except Exception as e:
- self.app.inform.emit(_("[ERROR_NOTCL] Due of %s, Flip action was not executed.") % str(e))
- return
- def on_skew(self, axis, num):
- shape_list = self.draw_app.selected
- xminlist = []
- yminlist = []
- if not shape_list:
- self.app.inform.emit(_("[WARNING_NOTCL] No shape selected. Please Select a shape to shear/skew!"))
- return
- else:
- with self.app.proc_container.new(_("Applying Skew")):
- try:
- # first get a bounding box to fit all
- for sha in shape_list:
- xmin, ymin, xmax, ymax = sha.bounds()
- xminlist.append(xmin)
- yminlist.append(ymin)
- # get the minimum x,y and maximum x,y for all objects selected
- xminimal = min(xminlist)
- yminimal = min(yminlist)
- self.app.progress.emit(20)
- for sha in shape_list:
- if axis is 'X':
- sha.skew(num, 0, point=(xminimal, yminimal))
- elif axis is 'Y':
- sha.skew(0, num, point=(xminimal, yminimal))
- self.draw_app.plot_all()
- # self.draw_app.add_shape(DrawToolShape(sha.geo))
- #
- # self.draw_app.transform_complete.emit()
- self.app.inform.emit(_('[success] Skew on the %s axis done ...') % str(axis))
- self.app.progress.emit(100)
- except Exception as e:
- self.app.inform.emit(_("[ERROR_NOTCL] Due of %s, Skew action was not executed.") % str(e))
- return
- def on_scale(self, axis, xfactor, yfactor, point=None):
- shape_list = self.draw_app.selected
- xminlist = []
- yminlist = []
- xmaxlist = []
- ymaxlist = []
- if not shape_list:
- self.app.inform.emit(_("[WARNING_NOTCL] No shape selected. Please Select a shape to scale!"))
- return
- else:
- with self.app.proc_container.new(_("Applying Scale")):
- try:
- # first get a bounding box to fit all
- for sha in shape_list:
- xmin, ymin, xmax, ymax = sha.bounds()
- xminlist.append(xmin)
- yminlist.append(ymin)
- xmaxlist.append(xmax)
- ymaxlist.append(ymax)
- # get the minimum x,y and maximum x,y for all objects selected
- xminimal = min(xminlist)
- yminimal = min(yminlist)
- xmaximal = max(xmaxlist)
- ymaximal = max(ymaxlist)
- self.app.progress.emit(20)
- if point is None:
- px = 0.5 * (xminimal + xmaximal)
- py = 0.5 * (yminimal + ymaximal)
- else:
- px = 0
- py = 0
- for sha in shape_list:
- sha.scale(xfactor, yfactor, point=(px, py))
- self.draw_app.plot_all()
- # self.draw_app.add_shape(DrawToolShape(sha.geo))
- #
- # self.draw_app.transform_complete.emit()
- self.app.inform.emit(_('[success] Scale on the %s axis done ...') % str(axis))
- self.app.progress.emit(100)
- except Exception as e:
- self.app.inform.emit(_("[ERROR_NOTCL] Due of %s, Scale action was not executed.") % str(e))
- return
- def on_offset(self, axis, num):
- shape_list = self.draw_app.selected
- xminlist = []
- yminlist = []
- if not shape_list:
- self.app.inform.emit(_("[WARNING_NOTCL] No shape selected. Please Select a shape to offset!"))
- return
- else:
- with self.app.proc_container.new(_("Applying Offset")):
- try:
- # first get a bounding box to fit all
- for sha in shape_list:
- xmin, ymin, xmax, ymax = sha.bounds()
- xminlist.append(xmin)
- yminlist.append(ymin)
- # get the minimum x,y and maximum x,y for all objects selected
- xminimal = min(xminlist)
- yminimal = min(yminlist)
- self.app.progress.emit(20)
- for sha in shape_list:
- if axis is 'X':
- sha.offset((num, 0))
- elif axis is 'Y':
- sha.offset((0, num))
- self.draw_app.plot_all()
- # self.draw_app.add_shape(DrawToolShape(sha.geo))
- #
- # self.draw_app.transform_complete.emit()
- self.app.inform.emit(_('[success] Offset on the %s axis done ...') % str(axis))
- self.app.progress.emit(100)
- except Exception as e:
- self.app.inform.emit(_("[ERROR_NOTCL] Due of %s, Offset action was not executed.") % str(e))
- return
- def on_rotate_key(self):
- val_box = FCInputDialog(title=_("Rotate ..."),
- text=_('Enter an Angle Value (degrees):'),
- min=-359.9999, max=360.0000, decimals=4,
- init_val=float(self.app.defaults['tools_transform_rotate']))
- val_box.setWindowIcon(QtGui.QIcon('share/rotate.png'))
- val, ok = val_box.get_value()
- if ok:
- self.on_rotate(val=val)
- self.app.inform.emit(
- _("[success] Geometry shape rotate done...")
- )
- return
- else:
- self.app.inform.emit(
- _("[WARNING_NOTCL] Geometry shape rotate cancelled...")
- )
- def on_offx_key(self):
- units = self.app.ui.general_defaults_form.general_app_group.units_radio.get_value().lower()
- val_box = FCInputDialog(title=_("Offset on X axis ..."),
- text=(_('Enter a distance Value (%s):') % str(units)),
- min=-9999.9999, max=10000.0000, decimals=4,
- init_val=float(self.app.defaults['tools_transform_offset_x']))
- val_box.setWindowIcon(QtGui.QIcon('share/offsetx32.png'))
- val, ok = val_box.get_value()
- if ok:
- self.on_offx(val=val)
- self.app.inform.emit(
- _("[success] Geometry shape offset on X axis done..."))
- return
- else:
- self.app.inform.emit(
- _("[WARNING_NOTCL] Geometry shape offset X cancelled..."))
- def on_offy_key(self):
- units = self.app.ui.general_defaults_form.general_app_group.units_radio.get_value().lower()
- val_box = FCInputDialog(title=_("Offset on Y axis ..."),
- text=(_('Enter a distance Value (%s):') % str(units)),
- min=-9999.9999, max=10000.0000, decimals=4,
- init_val=float(self.app.defaults['tools_transform_offset_y']))
- val_box.setWindowIcon(QtGui.QIcon('share/offsety32.png'))
- val, ok = val_box.get_value()
- if ok:
- self.on_offx(val=val)
- self.app.inform.emit(
- _("[success] Geometry shape offset on Y axis done..."))
- return
- else:
- self.app.inform.emit(
- _("[WARNING_NOTCL] Geometry shape offset Y cancelled..."))
- def on_skewx_key(self):
- val_box = FCInputDialog(title=_("Skew on X axis ..."),
- text=_('Enter an Angle Value (degrees):'),
- min=-359.9999, max=360.0000, decimals=4,
- init_val=float(self.app.defaults['tools_transform_skew_x']))
- val_box.setWindowIcon(QtGui.QIcon('share/skewX.png'))
- val, ok = val_box.get_value()
- if ok:
- self.on_skewx(val=val)
- self.app.inform.emit(
- _("[success] Geometry shape skew on X axis done..."))
- return
- else:
- self.app.inform.emit(
- _("[WARNING_NOTCL] Geometry shape skew X cancelled..."))
- def on_skewy_key(self):
- val_box = FCInputDialog(title=_("Skew on Y axis ..."),
- text=_('Enter an Angle Value (degrees):'),
- min=-359.9999, max=360.0000, decimals=4,
- init_val=float(self.app.defaults['tools_transform_skew_y']))
- val_box.setWindowIcon(QtGui.QIcon('share/skewY.png'))
- val, ok = val_box.get_value()
- if ok:
- self.on_skewx(val=val)
- self.app.inform.emit(
- _("[success] Geometry shape skew on Y axis done..."))
- return
- else:
- self.app.inform.emit(
- _("[WARNING_NOTCL] Geometry shape skew Y cancelled..."))
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