def __init__(self, parent=None):
ObjectUI.__init__(self, title='Gerber Object', parent=parent)
## Plot options
self.plot_options_label = QtWidgets.QLabel("<b>Plot Options:</b>")
self.custom_box.addWidget(self.plot_options_label)
grid0 = QtWidgets.QGridLayout()
self.custom_box.addLayout(grid0)
# Plot CB
self.plot_cb = FCCheckBox(label='Plot')
self.plot_options_label.setToolTip("Plot (show) this object.")
grid0.addWidget(self.plot_cb, 0, 0)
# Solid CB
self.solid_cb = FCCheckBox(label='Solid')
self.solid_cb.setToolTip("Solid color polygons.")
grid0.addWidget(self.solid_cb, 0, 1)
# Multicolored CB
self.multicolored_cb = FCCheckBox(label='Multicolored')
self.multicolored_cb.setToolTip("Draw polygons in different colors.")
grid0.addWidget(self.multicolored_cb, 0, 2)
## Isolation Routing
self.isolation_routing_label = QtWidgets.QLabel(
"<b>Isolation Routing:</b>")
self.isolation_routing_label.setToolTip(
"Create a Geometry object with\n"
"toolpaths to cut outside polygons.")
self.custom_box.addWidget(self.isolation_routing_label)
grid1 = QtWidgets.QGridLayout()
self.custom_box.addLayout(grid1)
tdlabel = QtWidgets.QLabel('Tool dia:')
tdlabel.setToolTip("Diameter of the cutting tool.")
grid1.addWidget(tdlabel, 0, 0)
self.iso_tool_dia_entry = LengthEntry()
grid1.addWidget(self.iso_tool_dia_entry, 0, 1)
passlabel = QtWidgets.QLabel('Width (# passes):')
passlabel.setToolTip("Width of the isolation gap in\n"
"number (integer) of tool widths.")
grid1.addWidget(passlabel, 1, 0)
self.iso_width_entry = IntEntry()
grid1.addWidget(self.iso_width_entry, 1, 1)
overlabel = QtWidgets.QLabel('Pass overlap:')
overlabel.setToolTip("How much (fraction of tool width)\n"
"to overlap each pass.")
grid1.addWidget(overlabel, 2, 0)
self.iso_overlap_entry = FloatEntry()
grid1.addWidget(self.iso_overlap_entry, 2, 1)
# combine all passes CB
self.combine_passes_cb = FCCheckBox(label='Combine Passes')
self.combine_passes_cb.setToolTip("Combine all passes into one object")
grid1.addWidget(self.combine_passes_cb, 3, 0)
self.generate_iso_button = QtWidgets.QPushButton('Generate Geometry')
self.generate_iso_button.setToolTip("Create the Geometry Object\n"
"for isolation routing.")
self.custom_box.addWidget(self.generate_iso_button)
## Board cuttout
self.board_cutout_label = QtWidgets.QLabel("<b>Board cutout:</b>")
self.board_cutout_label.setToolTip("Create toolpaths to cut around\n"
"the PCB and separate it from\n"
"the original board.")
self.custom_box.addWidget(self.board_cutout_label)
grid2 = QtWidgets.QGridLayout()
self.custom_box.addLayout(grid2)
tdclabel = QtWidgets.QLabel('Tool dia:')
tdclabel.setToolTip("Diameter of the cutting tool.")
grid2.addWidget(tdclabel, 0, 0)
self.cutout_tooldia_entry = LengthEntry()
grid2.addWidget(self.cutout_tooldia_entry, 0, 1)
marginlabel = QtWidgets.QLabel('Margin:')
marginlabel.setToolTip("Distance from objects at which\n"
"to draw the cutout.")
grid2.addWidget(marginlabel, 1, 0)
self.cutout_margin_entry = LengthEntry()
grid2.addWidget(self.cutout_margin_entry, 1, 1)
gaplabel = QtWidgets.QLabel('Gap size:')
gaplabel.setToolTip("Size of the gaps in the toolpath\n"
"that will remain to hold the\n"
"board in place.")
grid2.addWidget(gaplabel, 2, 0)
self.cutout_gap_entry = LengthEntry()
grid2.addWidget(self.cutout_gap_entry, 2, 1)
gapslabel = QtWidgets.QLabel('Gaps:')
gapslabel.setToolTip("Where to place the gaps, Top/Bottom\n"
"Left/Rigt, or on all 4 sides.")
grid2.addWidget(gapslabel, 3, 0)
self.gaps_radio = RadioSet([{
'label': '2 (T/B)',
'value': 'tb'
}, {
'label': '2 (L/R)',
'value': 'lr'
}, {
'label': '4',
'value': '4'
}])
grid2.addWidget(self.gaps_radio, 3, 1)
self.generate_cutout_button = QtWidgets.QPushButton(
'Generate Geometry')
self.generate_cutout_button.setToolTip("Generate the geometry for\n"
"the board cutout.")
self.custom_box.addWidget(self.generate_cutout_button)
## Non-copper regions
self.noncopper_label = QtWidgets.QLabel("<b>Non-copper regions:</b>")
self.noncopper_label.setToolTip("Create polygons covering the\n"
"areas without copper on the PCB.\n"
"Equivalent to the inverse of this\n"
"object. Can be used to remove all\n"
"copper from a specified region.")
self.custom_box.addWidget(self.noncopper_label)
grid3 = QtWidgets.QGridLayout()
self.custom_box.addLayout(grid3)
# Margin
bmlabel = QtWidgets.QLabel('Boundary Margin:')
bmlabel.setToolTip("Specify the edge of the PCB\n"
"by drawing a box around all\n"
"objects with this minimum\n"
"distance.")
grid3.addWidget(bmlabel, 0, 0)
self.noncopper_margin_entry = LengthEntry()
grid3.addWidget(self.noncopper_margin_entry, 0, 1)
# Rounded corners
self.noncopper_rounded_cb = FCCheckBox(label="Rounded corners")
self.noncopper_rounded_cb.setToolTip(
"Creates a Geometry objects with polygons\n"
"covering the copper-free areas of the PCB.")
grid3.addWidget(self.noncopper_rounded_cb, 1, 0, 1, 2)
self.generate_noncopper_button = QtWidgets.QPushButton(
'Generate Geometry')
self.custom_box.addWidget(self.generate_noncopper_button)
## Bounding box
self.boundingbox_label = QtWidgets.QLabel('<b>Bounding Box:</b>')
self.custom_box.addWidget(self.boundingbox_label)
grid4 = QtWidgets.QGridLayout()
self.custom_box.addLayout(grid4)
bbmargin = QtWidgets.QLabel('Boundary Margin:')
bbmargin.setToolTip("Distance of the edges of the box\n"
"to the nearest polygon.")
grid4.addWidget(bbmargin, 0, 0)
self.bbmargin_entry = LengthEntry()
grid4.addWidget(self.bbmargin_entry, 0, 1)
self.bbrounded_cb = FCCheckBox(label="Rounded corners")
self.bbrounded_cb.setToolTip("If the bounding box is \n"
"to have rounded corners\n"
"their radius is equal to\n"
"the margin.")
grid4.addWidget(self.bbrounded_cb, 1, 0, 1, 2)
self.generate_bb_button = QtWidgets.QPushButton('Generate Geometry')
self.generate_bb_button.setToolTip("Generate the Geometry object.")
self.custom_box.addWidget(self.generate_bb_button)
class ObjectUI(QtWidgets.QWidget):
"""
Base class for the UI of FlatCAM objects. Deriving classes should
put UI elements in ObjectUI.custom_box (QtWidgets.QLayout).
"""
def __init__(self,
icon_file='share/flatcam_icon32.png',
title='FlatCAM Object',
parent=None):
QtWidgets.QWidget.__init__(self, parent=parent)
layout = QtWidgets.QVBoxLayout()
self.setLayout(layout)
## Page Title box (spacing between children)
self.title_box = QtWidgets.QHBoxLayout()
layout.addLayout(self.title_box)
## Page Title icon
pixmap = QtWidgets.QPixmap(icon_file)
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>" + title +
"</b></font>")
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 box for custom widgets
# This gets populated in offspring implementations.
self.custom_box = QtWidgets.QVBoxLayout()
layout.addLayout(self.custom_box)
###########################
## Common to all objects ##
###########################
#### Scale ####
self.scale_label = QtWidgets.QLabel('<b>Scale:</b>')
self.scale_label.setToolTip("Change the size of the object.")
layout.addWidget(self.scale_label)
self.scale_grid = QtWidgets.QGridLayout()
layout.addLayout(self.scale_grid)
# Factor
faclabel = QtWidgets.QLabel('Factor:')
faclabel.setToolTip("Factor by which to multiply\n"
"geometric features of this object.")
self.scale_grid.addWidget(faclabel, 0, 0)
self.scale_entry = FloatEntry()
self.scale_entry.set_value(1.0)
self.scale_grid.addWidget(self.scale_entry, 0, 1)
# GO Button
self.scale_button = QtWidgets.QPushButton('Scale')
self.scale_button.setToolTip("Perform scaling operation.")
layout.addWidget(self.scale_button)
#### Offset ####
self.offset_label = QtWidgets.QLabel('<b>Offset:</b>')
self.offset_label.setToolTip("Change the position of this object.")
layout.addWidget(self.offset_label)
self.offset_grid = QtWidgets.QGridLayout()
layout.addLayout(self.offset_grid)
self.offset_vectorlabel = QtWidgets.QLabel('Vector:')
self.offset_vectorlabel.setToolTip(
"Amount by which to move the object\n"
"in the x and y axes in (x, y) format.")
self.offset_grid.addWidget(self.offset_vectorlabel, 0, 0)
self.offsetvector_entry = EvalEntry()
self.offsetvector_entry.setText("(0.0, 0.0)")
self.offset_grid.addWidget(self.offsetvector_entry, 0, 1)
self.offset_button = QtWidgets.QPushButton('Offset')
self.offset_button.setToolTip("Perform the offset operation.")
layout.addWidget(self.offset_button)
self.auto_offset_button = QtWidgets.QPushButton('Offset auto')
self.auto_offset_button.setToolTip(
"Align the object with the x and y axes.")
layout.addWidget(self.auto_offset_button)
#### Mirror ####
self.mirror_label = QtWidgets.QLabel('<b>Mirror:</b>')
self.mirror_label.setToolTip("Flip the object along an axis.")
layout.addWidget(self.mirror_label)
self.mirror_axis_grid = QtWidgets.QGridLayout()
layout.addLayout(self.mirror_axis_grid)
axislabel = QtWidgets.QLabel('Axis:')
axislabel.setToolTip("Mirror axis parallel to the x or y axis.")
self.mirror_axis_grid.addWidget(axislabel, 0, 0)
self.mirror_axis_radio = RadioSet([{
'label': 'X',
'value': 'X'
}, {
'label': 'Y',
'value': 'Y'
}])
self.mirror_axis_radio.set_value('Y')
self.mirror_axis_grid.addWidget(self.mirror_axis_radio, 0, 1)
self.mirror_auto_center_cb = FCCheckBox(
label='Center axis automatically')
self.mirror_auto_center_cb.setToolTip(
"Place the mirror axis on the middle of the object.")
self.mirror_auto_center_cb.set_value(True)
layout.addWidget(self.mirror_auto_center_cb)
self.mirror_button = QtWidgets.QPushButton('Mirror')
self.mirror_button.setToolTip("Perform the mirror operation.")
layout.addWidget(self.mirror_button)
layout.addStretch()
def __init__(self, parent=None):
super(GeometryObjectUI,
self).__init__(title='Geometry Object',
icon_file='share/geometry32.png',
parent=parent)
## Plot options
self.plot_options_label = QtWidgets.QLabel("<b>Plot Options:</b>")
self.custom_box.addWidget(self.plot_options_label)
# Plot CB
self.plot_cb = FCCheckBox(label='Plot')
self.plot_cb.setToolTip("Plot (show) this object.")
self.custom_box.addWidget(self.plot_cb)
#-----------------------------------
# Create CNC Job
#-----------------------------------
self.cncjob_label = QtWidgets.QLabel('<b>Create CNC Job:</b>')
self.cncjob_label.setToolTip("Create a CNC Job object\n"
"tracing the contours of this\n"
"Geometry object.")
self.custom_box.addWidget(self.cncjob_label)
grid1 = QtWidgets.QGridLayout()
self.custom_box.addLayout(grid1)
cutzlabel = QtWidgets.QLabel('Cut Z:')
cutzlabel.setToolTip("Cutting depth (negative)\n"
"below the copper surface.")
grid1.addWidget(cutzlabel, 0, 0)
self.cutz_entry = LengthEntry()
grid1.addWidget(self.cutz_entry, 0, 1)
# Travel Z
travelzlabel = QtWidgets.QLabel('Travel Z:')
travelzlabel.setToolTip("Height of the tool when\n"
"moving without cutting.")
grid1.addWidget(travelzlabel, 1, 0)
self.travelz_entry = LengthEntry()
grid1.addWidget(self.travelz_entry, 1, 1)
# Feedrate
frlabel = QtWidgets.QLabel('Feed Rate:')
frlabel.setToolTip("Cutting speed in the XY\n"
"plane in units per minute")
grid1.addWidget(frlabel, 2, 0)
self.cncfeedrate_entry = LengthEntry()
grid1.addWidget(self.cncfeedrate_entry, 2, 1)
# Tooldia
tdlabel = QtWidgets.QLabel('Tool dia:')
tdlabel.setToolTip("The diameter of the cutting\n"
"tool (just for display).")
grid1.addWidget(tdlabel, 3, 0)
self.cnctooldia_entry = LengthEntry()
grid1.addWidget(self.cnctooldia_entry, 3, 1)
# Spindlespeed
spdlabel = QtWidgets.QLabel('Spindle speed:')
spdlabel.setToolTip("Speed of the spindle\n" "in RPM (optional)")
grid1.addWidget(spdlabel, 4, 0)
self.cncspindlespeed_entry = IntEntry(allow_empty=True)
grid1.addWidget(self.cncspindlespeed_entry, 4, 1)
# Multi-pass
mpasslabel = QtWidgets.QLabel('Multi-Depth:')
mpasslabel.setToolTip("Use multiple passes to limit\n"
"the cut depth in each pass. Will\n"
"cut multiple times until Cut Z is\n"
"reached.")
grid1.addWidget(mpasslabel, 5, 0)
self.mpass_cb = FCCheckBox()
grid1.addWidget(self.mpass_cb, 5, 1)
maxdepthlabel = QtWidgets.QLabel('Depth/pass:'******'Generate')
self.generate_cnc_button.setToolTip("Generate the CNC Job object.")
self.custom_box.addWidget(self.generate_cnc_button)
#------------------------------
# Paint area
#------------------------------
self.paint_label = QtWidgets.QLabel('<b>Paint Area:</b>')
self.paint_label.setToolTip("Creates tool paths to cover the\n"
"whole area of a polygon (remove\n"
"all copper). You will be asked\n"
"to click on the desired polygon.")
self.custom_box.addWidget(self.paint_label)
grid2 = QtWidgets.QGridLayout()
self.custom_box.addLayout(grid2)
# Tool dia
ptdlabel = QtWidgets.QLabel('Tool dia:')
ptdlabel.setToolTip("Diameter of the tool to\n"
"be used in the operation.")
grid2.addWidget(ptdlabel, 0, 0)
self.painttooldia_entry = LengthEntry()
grid2.addWidget(self.painttooldia_entry, 0, 1)
# Overlap
ovlabel = QtWidgets.QLabel('Overlap:')
ovlabel.setToolTip("How much (fraction) of the tool\n"
"width to overlap each tool pass.")
grid2.addWidget(ovlabel, 1, 0)
self.paintoverlap_entry = LengthEntry()
grid2.addWidget(self.paintoverlap_entry, 1, 1)
# Margin
marginlabel = QtWidgets.QLabel('Margin:')
marginlabel.setToolTip("Distance by which to avoid\n"
"the edges of the polygon to\n"
"be painted.")
grid2.addWidget(marginlabel, 2, 0)
self.paintmargin_entry = LengthEntry()
grid2.addWidget(self.paintmargin_entry, 2, 1)
# Method
methodlabel = QtWidgets.QLabel('Method:')
methodlabel.setAlignment(QtCore.Qt.AlignLeft | QtCore.Qt.AlignTop)
methodlabel.setToolTip("Algorithm to paint the polygon:<BR>"
"<B>Standard</B>: Fixed step inwards.<BR>"
"<B>Seed-based</B>: Outwards from seed.")
grid2.addWidget(methodlabel, 3, 0)
self.paintmethod_combo = RadioSet([{
"label": "Standard",
"value": "standard"
}, {
"label": "Seed-based",
"value": "seed"
}, {
"label": "Straight lines",
"value": "lines"
}],
orientation='vertical')
grid2.addWidget(self.paintmethod_combo, 3, 1)
# Connect lines
pathconnectlabel = QtWidgets.QLabel("Connect:")
pathconnectlabel.setToolTip("Draw lines between resulting\n"
"segments to minimize tool lifts.")
grid2.addWidget(pathconnectlabel, 4, 0)
self.pathconnect_cb = FCCheckBox()
grid2.addWidget(self.pathconnect_cb, 4, 1)
contourlabel = QtWidgets.QLabel("Contour:")
contourlabel.setToolTip("Cut around the perimeter of the polygon\n"
"to trim rough edges.")
grid2.addWidget(contourlabel, 5, 0)
self.paintcontour_cb = FCCheckBox()
grid2.addWidget(self.paintcontour_cb, 5, 1)
# Polygon selection
selectlabel = QtWidgets.QLabel('Selection:')
selectlabel.setToolTip("How to select the polygons to paint.")
grid2.addWidget(selectlabel, 6, 0)
#grid3 = QtWidgets.QGridLayout()
self.selectmethod_combo = RadioSet([
{
"label": "Single",
"value": "single"
},
{
"label": "All",
"value": "all"
},
#{"label": "Rectangle", "value": "rectangle"}
])
grid2.addWidget(self.selectmethod_combo, 6, 1)
# GO Button
self.generate_paint_button = QtWidgets.QPushButton('Generate')
self.generate_paint_button.setToolTip(
"After clicking here, click inside\n"
"the polygon you wish to be painted.\n"
"A new Geometry object with the tool\n"
"paths will be created.")
self.custom_box.addWidget(self.generate_paint_button)
class DblSidedTool(FlatCAMTool):
toolName = "Double-Sided PCB Tool"
def __init__(self, app):
FlatCAMTool.__init__(self, app)
## Title
title_label = QtGui.QLabel("<font size=4><b>%s</b></font>" % self.toolName)
self.layout.addWidget(title_label)
## Form Layout
form_layout = QtGui.QFormLayout()
self.layout.addLayout(form_layout)
## Layer to mirror
self.object_combo = QtGui.QComboBox()
self.object_combo.setModel(self.app.collection)
self.botlay_label = QtGui.QLabel("Bottom Layer:")
self.botlay_label.setToolTip(
"Layer to be mirrorer."
)
# form_layout.addRow("Bottom Layer:", self.object_combo)
form_layout.addRow(self.botlay_label, self.object_combo)
## Axis
self.mirror_axis = RadioSet([{'label': 'X', 'value': 'X'},
{'label': 'Y', 'value': 'Y'}])
self.mirax_label = QtGui.QLabel("Mirror Axis:")
self.mirax_label.setToolTip(
"Mirror vertically (X) or horizontally (Y)."
)
# form_layout.addRow("Mirror Axis:", self.mirror_axis)
form_layout.addRow(self.mirax_label, self.mirror_axis)
## Axis Location
self.axis_location = RadioSet([{'label': 'Point', 'value': 'point'},
{'label': 'Box', 'value': 'box'}])
self.axloc_label = QtGui.QLabel("Axis Location:")
self.axloc_label.setToolTip(
"The axis should pass through a <b>point</b> or cut "
"a specified <b>box</b> (in a Geometry object) in "
"the middle."
)
# form_layout.addRow("Axis Location:", self.axis_location)
form_layout.addRow(self.axloc_label, self.axis_location)
## Point/Box
self.point_box_container = QtGui.QVBoxLayout()
self.pb_label = QtGui.QLabel("Point/Box:")
self.pb_label.setToolTip(
"Specify the point (x, y) through which the mirror axis "
"passes or the Geometry object containing a rectangle "
"that the mirror axis cuts in half."
)
# form_layout.addRow("Point/Box:", self.point_box_container)
form_layout.addRow(self.pb_label, self.point_box_container)
self.point = EvalEntry()
self.point_box_container.addWidget(self.point)
self.box_combo = QtGui.QComboBox()
self.box_combo.setModel(self.app.collection)
self.point_box_container.addWidget(self.box_combo)
self.box_combo.hide()
## Alignment holes
self.alignment_holes = EvalEntry()
self.ah_label = QtGui.QLabel("Alignment Holes:")
self.ah_label.setToolTip(
"Alignment holes (x1, y1), (x2, y2), ... "
"on one side of the mirror axis."
)
form_layout.addRow(self.ah_label, self.alignment_holes)
## Drill diameter for alignment holes
self.drill_dia = LengthEntry()
self.dd_label = QtGui.QLabel("Drill diam.:")
self.dd_label.setToolTip(
"Diameter of the drill for the "
"alignment holes."
)
form_layout.addRow(self.dd_label, self.drill_dia)
## Buttons
hlay = QtGui.QHBoxLayout()
self.layout.addLayout(hlay)
hlay.addStretch()
self.create_alignment_hole_button = QtGui.QPushButton("Create Alignment Drill")
self.create_alignment_hole_button.setToolTip(
"Creates an Excellon Object containing the "
"specified alignment holes and their mirror "
"images."
)
self.mirror_object_button = QtGui.QPushButton("Mirror Object")
self.mirror_object_button.setToolTip(
"Mirrors (flips) the specified object around "
"the specified axis. Does not create a new "
"object, but modifies it."
)
hlay.addWidget(self.create_alignment_hole_button)
hlay.addWidget(self.mirror_object_button)
self.layout.addStretch()
## Signals
self.create_alignment_hole_button.clicked.connect(self.on_create_alignment_holes)
self.mirror_object_button.clicked.connect(self.on_mirror)
self.axis_location.group_toggle_fn = self.on_toggle_pointbox
## Initialize form
self.mirror_axis.set_value('X')
self.axis_location.set_value('point')
def on_create_alignment_holes(self):
axis = self.mirror_axis.get_value()
mode = self.axis_location.get_value()
if mode == "point":
px, py = self.point.get_value()
else:
selection_index = self.box_combo.currentIndex()
bb_obj = self.app.collection.object_list[selection_index] # TODO: Direct access??
xmin, ymin, xmax, ymax = bb_obj.bounds()
px = 0.5 * (xmin + xmax)
py = 0.5 * (ymin + ymax)
xscale, yscale = {"X": (1.0, -1.0), "Y": (-1.0, 1.0)}[axis]
dia = self.drill_dia.get_value()
tools = {"1": {"C": dia}}
# holes = self.alignment_holes.get_value()
holes = eval('[{}]'.format(self.alignment_holes.text()))
drills = []
for hole in holes:
point = Point(hole)
point_mirror = affinity.scale(point, xscale, yscale, origin=(px, py))
drills.append({"point": point, "tool": "1"})
drills.append({"point": point_mirror, "tool": "1"})
def obj_init(obj_inst, app_inst):
obj_inst.tools = tools
obj_inst.drills = drills
obj_inst.create_geometry()
self.app.new_object("excellon", "Alignment Drills", obj_init)
def on_mirror(self):
selection_index = self.object_combo.currentIndex()
fcobj = self.app.collection.object_list[selection_index]
# For now, lets limit to Gerbers and Excellons.
# assert isinstance(gerb, FlatCAMGerber)
if not isinstance(fcobj, FlatCAMGerber) and \
not isinstance(fcobj, FlatCAMExcellon) and \
not isinstance(fcobj, FlatCAMGeometry):
self.info("ERROR: Only Gerber, Excellon and Geometry objects can be mirrored.")
return
axis = self.mirror_axis.get_value()
mode = self.axis_location.get_value()
if mode == "point":
px, py = self.point.get_value()
else:
selection_index = self.box_combo.currentIndex()
bb_obj = self.app.collection.object_list[selection_index] # TODO: Direct access??
xmin, ymin, xmax, ymax = bb_obj.bounds()
px = 0.5 * (xmin + xmax)
py = 0.5 * (ymin + ymax)
fcobj.mirror(axis, [px, py])
fcobj.plot()
def on_toggle_pointbox(self):
if self.axis_location.get_value() == "point":
self.point.show()
self.box_combo.hide()
else:
self.point.hide()
self.box_combo.show()
def __init__(self, app):
FlatCAMTool.__init__(self, app)
## Title
title_label = QtGui.QLabel("<font size=4><b>%s</b></font>" % self.toolName)
self.layout.addWidget(title_label)
## Form Layout
form_layout = QtGui.QFormLayout()
self.layout.addLayout(form_layout)
## Layer to mirror
self.object_combo = QtGui.QComboBox()
self.object_combo.setModel(self.app.collection)
self.botlay_label = QtGui.QLabel("Bottom Layer:")
self.botlay_label.setToolTip(
"Layer to be mirrorer."
)
# form_layout.addRow("Bottom Layer:", self.object_combo)
form_layout.addRow(self.botlay_label, self.object_combo)
## Axis
self.mirror_axis = RadioSet([{'label': 'X', 'value': 'X'},
{'label': 'Y', 'value': 'Y'}])
self.mirax_label = QtGui.QLabel("Mirror Axis:")
self.mirax_label.setToolTip(
"Mirror vertically (X) or horizontally (Y)."
)
# form_layout.addRow("Mirror Axis:", self.mirror_axis)
form_layout.addRow(self.mirax_label, self.mirror_axis)
## Axis Location
self.axis_location = RadioSet([{'label': 'Point', 'value': 'point'},
{'label': 'Box', 'value': 'box'}])
self.axloc_label = QtGui.QLabel("Axis Location:")
self.axloc_label.setToolTip(
"The axis should pass through a <b>point</b> or cut "
"a specified <b>box</b> (in a Geometry object) in "
"the middle."
)
# form_layout.addRow("Axis Location:", self.axis_location)
form_layout.addRow(self.axloc_label, self.axis_location)
## Point/Box
self.point_box_container = QtGui.QVBoxLayout()
self.pb_label = QtGui.QLabel("Point/Box:")
self.pb_label.setToolTip(
"Specify the point (x, y) through which the mirror axis "
"passes or the Geometry object containing a rectangle "
"that the mirror axis cuts in half."
)
# form_layout.addRow("Point/Box:", self.point_box_container)
form_layout.addRow(self.pb_label, self.point_box_container)
self.point = EvalEntry()
self.point_box_container.addWidget(self.point)
self.box_combo = QtGui.QComboBox()
self.box_combo.setModel(self.app.collection)
self.point_box_container.addWidget(self.box_combo)
self.box_combo.hide()
## Alignment holes
self.alignment_holes = EvalEntry()
self.ah_label = QtGui.QLabel("Alignment Holes:")
self.ah_label.setToolTip(
"Alignment holes (x1, y1), (x2, y2), ... "
"on one side of the mirror axis."
)
form_layout.addRow(self.ah_label, self.alignment_holes)
## Drill diameter for alignment holes
self.drill_dia = LengthEntry()
self.dd_label = QtGui.QLabel("Drill diam.:")
self.dd_label.setToolTip(
"Diameter of the drill for the "
"alignment holes."
)
form_layout.addRow(self.dd_label, self.drill_dia)
## Buttons
hlay = QtGui.QHBoxLayout()
self.layout.addLayout(hlay)
hlay.addStretch()
self.create_alignment_hole_button = QtGui.QPushButton("Create Alignment Drill")
self.create_alignment_hole_button.setToolTip(
"Creates an Excellon Object containing the "
"specified alignment holes and their mirror "
"images."
)
self.mirror_object_button = QtGui.QPushButton("Mirror Object")
self.mirror_object_button.setToolTip(
"Mirrors (flips) the specified object around "
"the specified axis. Does not create a new "
"object, but modifies it."
)
hlay.addWidget(self.create_alignment_hole_button)
hlay.addWidget(self.mirror_object_button)
self.layout.addStretch()
## Signals
self.create_alignment_hole_button.clicked.connect(self.on_create_alignment_holes)
self.mirror_object_button.clicked.connect(self.on_mirror)
self.axis_location.group_toggle_fn = self.on_toggle_pointbox
## Initialize form
self.mirror_axis.set_value('X')
self.axis_location.set_value('point')
def __init__(self, app):
FlatCAMTool.__init__(self, app)
## Title
title_label = QtGui.QLabel("<font size=4><b>%s</b></font>" % self.toolName)
self.layout.addWidget(title_label)
## Form Layout
form_layout = QtGui.QFormLayout()
self.layout.addLayout(form_layout)
## Layer to mirror
self.object_combo = QtGui.QComboBox()
self.object_combo.setModel(self.app.collection)
self.botlay_label = QtGui.QLabel("Bottom Layer:")
self.botlay_label.setToolTip("Layer to be mirrorer.")
# form_layout.addRow("Bottom Layer:", self.object_combo)
form_layout.addRow(self.botlay_label, self.object_combo)
## Axis
self.mirror_axis = RadioSet([{"label": "X", "value": "X"}, {"label": "Y", "value": "Y"}])
self.mirax_label = QtGui.QLabel("Mirror Axis:")
self.mirax_label.setToolTip("Mirror vertically (X) or horizontally (Y).")
# form_layout.addRow("Mirror Axis:", self.mirror_axis)
form_layout.addRow(self.mirax_label, self.mirror_axis)
## Axis Location
self.axis_location = RadioSet([{"label": "Point", "value": "point"}, {"label": "Box", "value": "box"}])
self.axloc_label = QtGui.QLabel("Axis Location:")
self.axloc_label.setToolTip(
"The axis should pass through a <b>point</b> or cut "
"a specified <b>box</b> (in a Geometry object) in "
"the middle."
)
# form_layout.addRow("Axis Location:", self.axis_location)
form_layout.addRow(self.axloc_label, self.axis_location)
## Point/Box
self.point_box_container = QtGui.QVBoxLayout()
self.pb_label = QtGui.QLabel("Point/Box:")
self.pb_label.setToolTip(
"Specify the point (x, y) through which the mirror axis "
"passes or the Geometry object containing a rectangle "
"that the mirror axis cuts in half."
)
# form_layout.addRow("Point/Box:", self.point_box_container)
form_layout.addRow(self.pb_label, self.point_box_container)
self.point = EvalEntry()
self.point_box_container.addWidget(self.point)
self.box_combo = QtGui.QComboBox()
self.box_combo.setModel(self.app.collection)
self.point_box_container.addWidget(self.box_combo)
self.box_combo.hide()
## Alignment holes
self.alignment_holes = EvalEntry()
self.ah_label = QtGui.QLabel("Alignment Holes:")
self.ah_label.setToolTip("Alignment holes (x1, y1), (x2, y2), ... " "on one side of the mirror axis.")
form_layout.addRow(self.ah_label, self.alignment_holes)
## Drill diameter for alignment holes
self.drill_dia = LengthEntry()
self.dd_label = QtGui.QLabel("Drill diam.:")
self.dd_label.setToolTip("Diameter of the drill for the " "alignment holes.")
form_layout.addRow(self.dd_label, self.drill_dia)
## Buttons
hlay = QtGui.QHBoxLayout()
self.layout.addLayout(hlay)
hlay.addStretch()
self.create_alignment_hole_button = QtGui.QPushButton("Create Alignment Drill")
self.create_alignment_hole_button.setToolTip(
"Creates an Excellon Object containing the " "specified alignment holes and their mirror " "images."
)
self.mirror_object_button = QtGui.QPushButton("Mirror Object")
self.mirror_object_button.setToolTip(
"Mirrors (flips) the specified object around "
"the specified axis. Does not create a new "
"object, but modifies it."
)
hlay.addWidget(self.create_alignment_hole_button)
hlay.addWidget(self.mirror_object_button)
self.layout.addStretch()
## Signals
self.create_alignment_hole_button.clicked.connect(self.on_create_alignment_holes)
self.mirror_object_button.clicked.connect(self.on_mirror)
self.axis_location.group_toggle_fn = self.on_toggle_pointbox
## Initialize form
self.mirror_axis.set_value("X")
self.axis_location.set_value("point")
class DblSidedTool(FlatCAMTool):
toolName = "Double-Sided PCB Tool"
def __init__(self, app):
FlatCAMTool.__init__(self, app)
## Title
title_label = QtGui.QLabel("<font size=4><b>%s</b></font>" % self.toolName)
self.layout.addWidget(title_label)
## Form Layout
form_layout = QtGui.QFormLayout()
self.layout.addLayout(form_layout)
## Layer to mirror
self.object_combo = QtGui.QComboBox()
self.object_combo.setModel(self.app.collection)
self.botlay_label = QtGui.QLabel("Bottom Layer:")
self.botlay_label.setToolTip("Layer to be mirrorer.")
# form_layout.addRow("Bottom Layer:", self.object_combo)
form_layout.addRow(self.botlay_label, self.object_combo)
## Axis
self.mirror_axis = RadioSet([{"label": "X", "value": "X"}, {"label": "Y", "value": "Y"}])
self.mirax_label = QtGui.QLabel("Mirror Axis:")
self.mirax_label.setToolTip("Mirror vertically (X) or horizontally (Y).")
# form_layout.addRow("Mirror Axis:", self.mirror_axis)
form_layout.addRow(self.mirax_label, self.mirror_axis)
## Axis Location
self.axis_location = RadioSet([{"label": "Point", "value": "point"}, {"label": "Box", "value": "box"}])
self.axloc_label = QtGui.QLabel("Axis Location:")
self.axloc_label.setToolTip(
"The axis should pass through a <b>point</b> or cut "
"a specified <b>box</b> (in a Geometry object) in "
"the middle."
)
# form_layout.addRow("Axis Location:", self.axis_location)
form_layout.addRow(self.axloc_label, self.axis_location)
## Point/Box
self.point_box_container = QtGui.QVBoxLayout()
self.pb_label = QtGui.QLabel("Point/Box:")
self.pb_label.setToolTip(
"Specify the point (x, y) through which the mirror axis "
"passes or the Geometry object containing a rectangle "
"that the mirror axis cuts in half."
)
# form_layout.addRow("Point/Box:", self.point_box_container)
form_layout.addRow(self.pb_label, self.point_box_container)
self.point = EvalEntry()
self.point_box_container.addWidget(self.point)
self.box_combo = QtGui.QComboBox()
self.box_combo.setModel(self.app.collection)
self.point_box_container.addWidget(self.box_combo)
self.box_combo.hide()
## Alignment holes
self.alignment_holes = EvalEntry()
self.ah_label = QtGui.QLabel("Alignment Holes:")
self.ah_label.setToolTip("Alignment holes (x1, y1), (x2, y2), ... " "on one side of the mirror axis.")
form_layout.addRow(self.ah_label, self.alignment_holes)
## Drill diameter for alignment holes
self.drill_dia = LengthEntry()
self.dd_label = QtGui.QLabel("Drill diam.:")
self.dd_label.setToolTip("Diameter of the drill for the " "alignment holes.")
form_layout.addRow(self.dd_label, self.drill_dia)
## Buttons
hlay = QtGui.QHBoxLayout()
self.layout.addLayout(hlay)
hlay.addStretch()
self.create_alignment_hole_button = QtGui.QPushButton("Create Alignment Drill")
self.create_alignment_hole_button.setToolTip(
"Creates an Excellon Object containing the " "specified alignment holes and their mirror " "images."
)
self.mirror_object_button = QtGui.QPushButton("Mirror Object")
self.mirror_object_button.setToolTip(
"Mirrors (flips) the specified object around "
"the specified axis. Does not create a new "
"object, but modifies it."
)
hlay.addWidget(self.create_alignment_hole_button)
hlay.addWidget(self.mirror_object_button)
self.layout.addStretch()
## Signals
self.create_alignment_hole_button.clicked.connect(self.on_create_alignment_holes)
self.mirror_object_button.clicked.connect(self.on_mirror)
self.axis_location.group_toggle_fn = self.on_toggle_pointbox
## Initialize form
self.mirror_axis.set_value("X")
self.axis_location.set_value("point")
def on_create_alignment_holes(self):
axis = self.mirror_axis.get_value()
mode = self.axis_location.get_value()
if mode == "point":
px, py = self.point.get_value()
else:
selection_index = self.box_combo.currentIndex()
bb_obj = self.app.collection.object_list[selection_index] # TODO: Direct access??
xmin, ymin, xmax, ymax = bb_obj.bounds()
px = 0.5 * (xmin + xmax)
py = 0.5 * (ymin + ymax)
xscale, yscale = {"X": (1.0, -1.0), "Y": (-1.0, 1.0)}[axis]
dia = self.drill_dia.get_value()
tools = {"1": {"C": dia}}
# holes = self.alignment_holes.get_value()
holes = eval("[{}]".format(self.alignment_holes.text()))
drills = []
for hole in holes:
point = Point(hole)
point_mirror = affinity.scale(point, xscale, yscale, origin=(px, py))
drills.append({"point": point, "tool": "1"})
drills.append({"point": point_mirror, "tool": "1"})
def obj_init(obj_inst, app_inst):
obj_inst.tools = tools
obj_inst.drills = drills
obj_inst.create_geometry()
self.app.new_object("excellon", "Alignment Drills", obj_init)
def on_mirror(self):
selection_index = self.object_combo.currentIndex()
fcobj = self.app.collection.object_list[selection_index]
# For now, lets limit to Gerbers and Excellons.
# assert isinstance(gerb, FlatCAMGerber)
if not isinstance(fcobj, FlatCAMGerber) and not isinstance(fcobj, FlatCAMExcellon):
self.info("ERROR: Only Gerber and Excellon objects can be mirrored.")
return
axis = self.mirror_axis.get_value()
mode = self.axis_location.get_value()
if mode == "point":
px, py = self.point.get_value()
else:
selection_index = self.box_combo.currentIndex()
bb_obj = self.app.collection.object_list[selection_index] # TODO: Direct access??
xmin, ymin, xmax, ymax = bb_obj.bounds()
px = 0.5 * (xmin + xmax)
py = 0.5 * (ymin + ymax)
fcobj.mirror(axis, [px, py])
fcobj.plot()
def on_toggle_pointbox(self):
if self.axis_location.get_value() == "point":
self.point.show()
self.box_combo.hide()
else:
self.point.hide()
self.box_combo.show()
