# ##########################################################
# FlatCAM: 2D Post-processing for Manufacturing #
# File Author: Marius Adrian Stanciu (c) #
# Date: 3/10/2019 #
# MIT Licence #
# ##########################################################
from PyQt5 import QtWidgets, QtGui, QtCore
from appTool import AppTool
from appGUI.GUIElements import FCSpinner, FCDoubleSpinner, RadioSet, FCCheckBox, OptionalInputSection, FCComboBox, \
FCButton, FCLabel
from camlib import grace
from copy import deepcopy
import numpy as np
import shapely.affinity as affinity
from shapely.ops import unary_union, linemerge, snap
from shapely.geometry import LineString, MultiLineString
import gettext
import appTranslation as fcTranslate
import builtins
import logging
fcTranslate.apply_language('strings')
if '_' not in builtins.__dict__:
_ = gettext.gettext
log = logging.getLogger('base')
class Panelize(AppTool):
toolName = _("Panelize PCB")
def __init__(self, app):
AppTool.__init__(self, app)
self.decimals = app.decimals
self.app = app
# #############################################################################
# ######################### Tool GUI ##########################################
# #############################################################################
self.ui = PanelizeUI(layout=self.layout, app=self.app)
self.toolName = self.ui.toolName
# Signals
self.ui.reference_radio.activated_custom.connect(self.on_reference_radio_changed)
self.ui.panelize_object_button.clicked.connect(self.on_panelize)
self.ui.type_obj_combo.currentIndexChanged.connect(self.on_type_obj_index_changed)
self.ui.type_box_combo.currentIndexChanged.connect(self.on_type_box_index_changed)
self.ui.reset_button.clicked.connect(self.set_tool_ui)
# list to hold the temporary objects
self.objs = []
# final name for the panel object
self.outname = ""
# flag to signal the constrain was activated
self.constrain_flag = False
def run(self, toggle=True):
self.app.defaults.report_usage("ToolPanelize()")
if toggle:
# if the splitter is hidden, display it, else hide it but only if the current widget is the same
if self.app.ui.splitter.sizes()[0] == 0:
self.app.ui.splitter.setSizes([1, 1])
else:
try:
if self.app.ui.tool_scroll_area.widget().objectName() == self.toolName:
# if tab is populated with the tool but it does not have the focus, focus on it
if not self.app.ui.notebook.currentWidget() is self.app.ui.tool_tab:
# focus on Tool Tab
self.app.ui.notebook.setCurrentWidget(self.app.ui.tool_tab)
else:
self.app.ui.splitter.setSizes([0, 1])
except AttributeError:
pass
else:
if self.app.ui.splitter.sizes()[0] == 0:
self.app.ui.splitter.setSizes([1, 1])
AppTool.run(self)
self.set_tool_ui()
self.app.ui.notebook.setTabText(2, _("Panel. Tool"))
def install(self, icon=None, separator=None, **kwargs):
AppTool.install(self, icon, separator, shortcut='Alt+Z', **kwargs)
def set_tool_ui(self):
self.reset_fields()
self.ui.reference_radio.set_value('bbox')
sp_c = self.app.defaults["tools_panelize_spacing_columns"] if \
self.app.defaults["tools_panelize_spacing_columns"] else 0.0
self.ui.spacing_columns.set_value(float(sp_c))
sp_r = self.app.defaults["tools_panelize_spacing_rows"] if \
self.app.defaults["tools_panelize_spacing_rows"] else 0.0
self.ui.spacing_rows.set_value(float(sp_r))
rr = self.app.defaults["tools_panelize_rows"] if \
self.app.defaults["tools_panelize_rows"] else 0.0
self.ui.rows.set_value(int(rr))
cc = self.app.defaults["tools_panelize_columns"] if \
self.app.defaults["tools_panelize_columns"] else 0.0
self.ui.columns.set_value(int(cc))
optimized_path_cb = self.app.defaults["tools_panelize_optimization"] if \
self.app.defaults["tools_panelize_optimization"] else True
self.ui.optimization_cb.set_value(optimized_path_cb)
c_cb = self.app.defaults["tools_panelize_constrain"] if \
self.app.defaults["tools_panelize_constrain"] else False
self.ui.constrain_cb.set_value(c_cb)
x_w = self.app.defaults["tools_panelize_constrainx"] if \
self.app.defaults["tools_panelize_constrainx"] else 0.0
self.ui.x_width_entry.set_value(float(x_w))
y_w = self.app.defaults["tools_panelize_constrainy"] if \
self.app.defaults["tools_panelize_constrainy"] else 0.0
self.ui.y_height_entry.set_value(float(y_w))
panel_type = self.app.defaults["tools_panelize_panel_type"] if \
self.app.defaults["tools_panelize_panel_type"] else 'gerber'
self.ui.panel_type_radio.set_value(panel_type)
self.ui.on_panel_type(val=panel_type)
# run once the following so the obj_type attribute is updated in the FCComboBoxes
# such that the last loaded object is populated in the combo boxes
self.on_type_obj_index_changed()
self.on_type_box_index_changed()
def on_type_obj_index_changed(self):
obj_type = self.ui.type_obj_combo.currentIndex()
self.ui.object_combo.setRootModelIndex(self.app.collection.index(obj_type, 0, QtCore.QModelIndex()))
self.ui.object_combo.setCurrentIndex(0)
self.ui.object_combo.obj_type = {
_("Gerber"): "Gerber", _("Excellon"): "Excellon", _("Geometry"): "Geometry"
}[self.ui.type_obj_combo.get_value()]
# hide the panel type for Excellons, the panel can be only of type Geometry
if self.ui.type_obj_combo.currentText() != 'Excellon':
self.ui.panel_type_label.setDisabled(False)
self.ui.panel_type_radio.setDisabled(False)
self.ui.on_panel_type(val=self.ui.panel_type_radio.get_value())
else:
self.ui.panel_type_label.setDisabled(True)
self.ui.panel_type_radio.setDisabled(True)
self.ui.panel_type_radio.set_value('geometry')
self.ui.optimization_cb.setDisabled(True)
def on_type_box_index_changed(self):
obj_type = self.ui.type_box_combo.currentIndex()
obj_type = 2 if obj_type == 1 else obj_type
self.ui.box_combo.setRootModelIndex(self.app.collection.index(obj_type, 0, QtCore.QModelIndex()))
self.ui.box_combo.setCurrentIndex(0)
self.ui.box_combo.obj_type = {
_("Gerber"): "Gerber", _("Geometry"): "Geometry"
}[self.ui.type_box_combo.get_value()]
def on_reference_radio_changed(self, current_val):
if current_val == 'object':
self.ui.type_box_combo.setDisabled(False)
self.ui.type_box_combo_label.setDisabled(False)
self.ui.box_combo.setDisabled(False)
else:
self.ui.type_box_combo.setDisabled(True)
self.ui.type_box_combo_label.setDisabled(True)
self.ui.box_combo.setDisabled(True)
def on_panelize(self):
name = self.ui.object_combo.currentText()
# delete any selection box
self.app.delete_selection_shape()
# Get source object to be panelized.
try:
panel_source_obj = self.app.collection.get_by_name(str(name))
except Exception as e:
log.debug("Panelize.on_panelize() --> %s" % str(e))
self.app.inform.emit('[ERROR_NOTCL] %s: %s' % (_("Could not retrieve object"), name))
return
if panel_source_obj is None:
self.app.inform.emit('[ERROR_NOTCL] %s: %s' %
(_("Object not found"), panel_source_obj))
return
boxname = self.ui.box_combo.currentText()
try:
box = self.app.collection.get_by_name(boxname)
except Exception as e:
log.debug("Panelize.on_panelize() --> %s" % str(e))
self.app.inform.emit('[ERROR_NOTCL] %s: %s' % (_("Could not retrieve object"), boxname))
return
if box is None:
self.app.inform.emit('[WARNING_NOTCL] %s: %s' % (_("No object Box. Using instead"), panel_source_obj))
self.ui.reference_radio.set_value('bbox')
if self.ui.reference_radio.get_value() == 'bbox':
box = panel_source_obj
self.outname = name + '_panelized'
spacing_columns = float(self.ui.spacing_columns.get_value())
spacing_columns = spacing_columns if spacing_columns is not None else 0
spacing_rows = float(self.ui.spacing_rows.get_value())
spacing_rows = spacing_rows if spacing_rows is not None else 0
rows = int(self.ui.rows.get_value())
rows = rows if rows is not None else 1
columns = int(self.ui.columns.get_value())
columns = columns if columns is not None else 1
constrain_dx = float(self.ui.x_width_entry.get_value())
constrain_dy = float(self.ui.y_height_entry.get_value())
panel_type = str(self.ui.panel_type_radio.get_value())
if 0 in {columns, rows}:
self.app.inform.emit('[ERROR_NOTCL] %s' %
_("Columns or Rows are zero value. Change them to a positive integer."))
return
xmin, ymin, xmax, ymax = box.bounds()
lenghtx = xmax - xmin + spacing_columns
lenghty = ymax - ymin + spacing_rows
# check if constrain within an area is desired
if self.ui.constrain_cb.isChecked():
panel_lengthx = ((xmax - xmin) * columns) + (spacing_columns * (columns - 1))
panel_lengthy = ((ymax - ymin) * rows) + (spacing_rows * (rows - 1))
# adjust the number of columns and/or rows so the panel will fit within the panel constraint area
if (panel_lengthx > constrain_dx) or (panel_lengthy > constrain_dy):
self.constrain_flag = True
while panel_lengthx > constrain_dx:
columns -= 1
panel_lengthx = ((xmax - xmin) * columns) + (spacing_columns * (columns - 1))
while panel_lengthy > constrain_dy:
rows -= 1
panel_lengthy = ((ymax - ymin) * rows) + (spacing_rows * (rows - 1))
if panel_source_obj.kind == 'excellon' or panel_source_obj.kind == 'geometry':
# make a copy of the panelized Excellon or Geometry tools
copied_tools = {}
for tt, tt_val in list(panel_source_obj.tools.items()):
copied_tools[tt] = deepcopy(tt_val)
if panel_source_obj.kind == 'gerber':
# make a copy of the panelized Gerber apertures
copied_apertures = {}
for tt, tt_val in list(panel_source_obj.apertures.items()):
copied_apertures[tt] = deepcopy(tt_val)
to_optimize = self.ui.optimization_cb.get_value()
def panelize_worker():
if panel_source_obj is not None:
self.app.inform.emit(_("Generating panel ... "))
def job_init_excellon(obj_fin, app_obj):
currenty = 0.0
# init the storage for drills and for slots
for tool in copied_tools:
copied_tools[tool]['drills'] = []
copied_tools[tool]['slots'] = []
obj_fin.tools = copied_tools
obj_fin.solid_geometry = []
for option in panel_source_obj.options:
if option != 'name':
try:
obj_fin.options[option] = panel_source_obj.options[option]
except KeyError:
log.warning("Failed to copy option. %s" % str(option))
# calculate the total number of drills and slots
geo_len_drills = 0
geo_len_slots = 0
for tool in copied_tools:
geo_len_drills += len(copied_tools[tool]['drills'])
geo_len_slots += len(copied_tools[tool]['slots'])
# panelization
element = 0
for row in range(rows):
currentx = 0.0
for col in range(columns):
element += 1
old_disp_number = 0
for tool in panel_source_obj.tools:
if panel_source_obj.tools[tool]['drills']:
drill_nr = 0
for drill in panel_source_obj.tools[tool]['drills']:
# graceful abort requested by the user
if self.app.abort_flag:
raise grace
# offset / panelization
point_offseted = affinity.translate(drill, currentx, currenty)
obj_fin.tools[tool]['drills'].append(point_offseted)
# update progress
drill_nr += 1
disp_number = int(np.interp(drill_nr, [0, geo_len_drills], [0, 100]))
if old_disp_number < disp_number <= 100:
self.app.proc_container.update_view_text(' %s: %d D:%d%%' %
(_("Copy"),
int(element),
disp_number))
old_disp_number = disp_number
if panel_source_obj.tools[tool]['slots']:
slot_nr = 0
for slot in panel_source_obj.tools[tool]['slots']:
# graceful abort requested by the user
if self.app.abort_flag:
raise grace
# offset / panelization
start_offseted = affinity.translate(slot[0], currentx, currenty)
stop_offseted = affinity.translate(slot[1], currentx, currenty)
offseted_slot = (
start_offseted,
stop_offseted
)
obj_fin.tools[tool]['slots'].append(offseted_slot)
# update progress
slot_nr += 1
disp_number = int(np.interp(slot_nr, [0, geo_len_slots], [0, 100]))
if old_disp_number < disp_number <= 100:
self.app.proc_container.update_view_text(' %s: %d S:%d%%' %
(_("Copy"),
int(element),
disp_number))
old_disp_number = disp_number
currentx += lenghtx
currenty += lenghty
obj_fin.create_geometry()
obj_fin.zeros = panel_source_obj.zeros
obj_fin.units = panel_source_obj.units
app_obj.inform.emit('%s' % _("Generating panel ... Adding the source code."))
obj_fin.source_file = self.app.export.export_excellon(obj_name=self.outname, filename=None,
local_use=obj_fin, use_thread=False)
app_obj.proc_container.update_view_text('')
def job_init_geometry(obj_fin, app_obj):
currentx = 0.0
currenty = 0.0
def translate_recursion(geom):
if type(geom) == list:
geoms = []
for local_geom in geom:
res_geo = translate_recursion(local_geom)
try:
geoms += res_geo
except TypeError:
geoms.append(res_geo)
return geoms
else:
return affinity.translate(geom, xoff=currentx, yoff=currenty)
obj_fin.solid_geometry = []
# create the initial structure on which to create the panel
if panel_source_obj.kind == 'geometry':
obj_fin.multigeo = panel_source_obj.multigeo
obj_fin.tools = copied_tools
if panel_source_obj.multigeo is True:
for tool in panel_source_obj.tools:
obj_fin.tools[tool]['solid_geometry'] = []
elif panel_source_obj.kind == 'gerber':
obj_fin.apertures = copied_apertures
for ap in obj_fin.apertures:
obj_fin.apertures[ap]['geometry'] = []
# find the number of polygons in the source solid_geometry
geo_len = 0
if panel_source_obj.kind == 'geometry':
if panel_source_obj.multigeo is True:
for tool in panel_source_obj.tools:
try:
geo_len += len(panel_source_obj.tools[tool]['solid_geometry'])
except TypeError:
geo_len += 1
elif panel_source_obj.kind == 'gerber':
for ap in panel_source_obj.apertures:
if 'geometry' in panel_source_obj.apertures[ap]:
try:
geo_len += len(panel_source_obj.apertures[ap]['geometry'])
except TypeError:
geo_len += 1
element = 0
for row in range(rows):
currentx = 0.0
for col in range(columns):
element += 1
old_disp_number = 0
# Will panelize a Geometry Object
if panel_source_obj.kind == 'geometry':
if panel_source_obj.multigeo is True:
for tool in panel_source_obj.tools:
# graceful abort requested by the user
if app_obj.abort_flag:
raise grace
# calculate the number of polygons
try:
geo_len = len(panel_source_obj.tools[tool]['solid_geometry'])
except TypeError:
geo_len = 1
# panelization
pol_nr = 0
for geo_el in panel_source_obj.tools[tool]['solid_geometry']:
trans_geo = translate_recursion(geo_el)
obj_fin.tools[tool]['solid_geometry'].append(trans_geo)
# update progress
pol_nr += 1
disp_number = int(np.interp(pol_nr, [0, geo_len], [0, 100]))
if old_disp_number < disp_number <= 100:
app_obj.proc_container.update_view_text(
' %s: %d %d%%' % (_("Copy"), int(element), disp_number))
old_disp_number = disp_number
else:
# graceful abort requested by the user
if app_obj.abort_flag:
raise grace
# calculate the number of polygons
try:
geo_len = len(panel_source_obj.solid_geometry)
except TypeError:
geo_len = 1
# panelization
pol_nr = 0
try:
for geo_el in panel_source_obj.solid_geometry:
if app_obj.abort_flag:
# graceful abort requested by the user
raise grace
trans_geo = translate_recursion(geo_el)
obj_fin.solid_geometry.append(trans_geo)
# update progress
pol_nr += 1
disp_number = int(np.interp(pol_nr, [0, geo_len], [0, 100]))
if old_disp_number < disp_number <= 100:
app_obj.proc_container.update_view_text(
' %s: %d %d%%' % (_("Copy"), int(element), disp_number))
old_disp_number = disp_number
except TypeError:
trans_geo = translate_recursion(panel_source_obj.solid_geometry)
obj_fin.solid_geometry.append(trans_geo)
# Will panelize a Gerber Object
else:
# graceful abort requested by the user
if self.app.abort_flag:
raise grace
# panelization solid_geometry
try:
for geo_el in panel_source_obj.solid_geometry:
# graceful abort requested by the user
if app_obj.abort_flag:
raise grace
trans_geo = translate_recursion(geo_el)
obj_fin.solid_geometry.append(trans_geo)
except TypeError:
trans_geo = translate_recursion(panel_source_obj.solid_geometry)
obj_fin.solid_geometry.append(trans_geo)
for apid in panel_source_obj.apertures:
# graceful abort requested by the user
if app_obj.abort_flag:
raise grace
if 'geometry' in panel_source_obj.apertures[apid]:
# calculate the number of polygons
try:
geo_len = len(panel_source_obj.apertures[apid]['geometry'])
except TypeError:
geo_len = 1
# panelization -> tools
pol_nr = 0
for el in panel_source_obj.apertures[apid]['geometry']:
if app_obj.abort_flag:
# graceful abort requested by the user
raise grace
new_el = {}
if 'solid' in el:
geo_aper = translate_recursion(el['solid'])
new_el['solid'] = geo_aper
if 'clear' in el:
geo_aper = translate_recursion(el['clear'])
new_el['clear'] = geo_aper
if 'follow' in el:
geo_aper = translate_recursion(el['follow'])
new_el['follow'] = geo_aper
obj_fin.apertures[apid]['geometry'].append(deepcopy(new_el))
# update progress
pol_nr += 1
disp_number = int(np.interp(pol_nr, [0, geo_len], [0, 100]))
if old_disp_number < disp_number <= 100:
app_obj.proc_container.update_view_text(
' %s: %d %d%%' % (_("Copy"), int(element), disp_number))
old_disp_number = disp_number
currentx += lenghtx
currenty += lenghty
if panel_source_obj.kind == 'geometry' and panel_source_obj.multigeo is True:
# I'm going to do this only here as a fix for panelizing cutouts
# I'm going to separate linestrings out of the solid geometry from other
# possible type of elements and apply unary_union on them to fuse them
if to_optimize is True:
app_obj.inform.emit('%s' % _("Optimizing the overlapping paths."))
for tool in obj_fin.tools:
lines = []
other_geo = []
for geo in obj_fin.tools[tool]['solid_geometry']:
if isinstance(geo, LineString):
lines.append(geo)
elif isinstance(geo, MultiLineString):
for line in geo:
lines.append(line)
else:
other_geo.append(geo)
if to_optimize is True:
for idx, line in enumerate(lines):
for idx_s in range(idx+1, len(lines)):
line_mod = lines[idx_s]
dist = line.distance(line_mod)
if dist < 1e-8:
print("Disjoint %d: %d -> %s" % (idx, idx_s, str(dist)))
print("Distance %f" % dist)
res = snap(line_mod, line, tolerance=1e-7)
if res and not res.is_empty:
lines[idx_s] = res
fused_lines = linemerge(lines)
fused_lines = [unary_union(fused_lines)]
obj_fin.tools[tool]['solid_geometry'] = fused_lines + other_geo
if to_optimize is True:
app_obj.inform.emit('%s' % _("Optimization complete."))
app_obj.inform.emit('%s' % _("Generating panel ... Adding the source code."))
if panel_type == 'gerber':
obj_fin.source_file = self.app.f_handlers.export_gerber(obj_name=self.outname, filename=None,
local_use=obj_fin, use_thread=False)
if panel_type == 'geometry':
obj_fin.source_file = self.app.f_handlers.export_dxf(obj_name=self.outname, filename=None,
local_use=obj_fin, use_thread=False)
# obj_fin.solid_geometry = unary_union(obj_fin.solid_geometry)
# app_obj.log.debug("Finished creating a unary_union for the panel.")
app_obj.proc_container.update_view_text('')
self.app.inform.emit('%s: %d' % (_("Generating panel... Spawning copies"), (int(rows * columns))))
if panel_source_obj.kind == 'excellon':
self.app.app_obj.new_object(
"excellon", self.outname, job_init_excellon, plot=True, autoselected=True)
else:
self.app.app_obj.new_object(
panel_type, self.outname, job_init_geometry, plot=True, autoselected=True)
if self.constrain_flag is False:
self.app.inform.emit('[success] %s' % _("Panel done..."))
else:
self.constrain_flag = False
self.app.inform.emit(_("{text} Too big for the constrain area. "
"Final panel has {col} columns and {row} rows").format(
text='[WARNING] ', col=columns, row=rows))
proc = self.app.proc_container.new(_("Working ..."))
def job_thread(app_obj):
try:
panelize_worker()
app_obj.inform.emit('[success] %s' % _("Panel created successfully."))
except Exception as ee:
proc.done()
log.debug(str(ee))
return
proc.done()
self.app.collection.promise(self.outname)
self.app.worker_task.emit({'fcn': job_thread, 'params': [self.app]})
def reset_fields(self):
self.ui.object_combo.setRootModelIndex(self.app.collection.index(0, 0, QtCore.QModelIndex()))
self.ui.box_combo.setRootModelIndex(self.app.collection.index(0, 0, QtCore.QModelIndex()))
class PanelizeUI:
toolName = _("Panelize PCB")
def __init__(self, layout, app):
self.app = app
self.decimals = self.app.decimals
self.layout = layout
# ## Title
title_label = FCLabel("%s" % self.toolName)
title_label.setStyleSheet("""
QLabel
{
font-size: 16px;
font-weight: bold;
}
""")
self.layout.addWidget(title_label)
self.object_label = FCLabel('%s:' % _("Source Object"))
self.object_label.setToolTip(
_("Specify the type of object to be panelized\n"
"It can be of type: Gerber, Excellon or Geometry.\n"
"The selection here decide the type of objects that will be\n"
"in the Object combobox.")
)
self.layout.addWidget(self.object_label)
# Form Layout
form_layout_0 = QtWidgets.QFormLayout()
self.layout.addLayout(form_layout_0)
# Type of object to be panelized
self.type_obj_combo = FCComboBox()
self.type_obj_combo.addItem("Gerber")
self.type_obj_combo.addItem("Excellon")
self.type_obj_combo.addItem("Geometry")
self.type_obj_combo.setItemIcon(0, QtGui.QIcon(self.app.resource_location + "/flatcam_icon16.png"))
self.type_obj_combo.setItemIcon(1, QtGui.QIcon(self.app.resource_location + "/drill16.png"))
self.type_obj_combo.setItemIcon(2, QtGui.QIcon(self.app.resource_location + "/geometry16.png"))
self.type_object_label = FCLabel('%s:' % _("Object Type"))
form_layout_0.addRow(self.type_object_label, self.type_obj_combo)
# Object to be panelized
self.object_combo = FCComboBox()
self.object_combo.setModel(self.app.collection)
self.object_combo.setRootModelIndex(self.app.collection.index(0, 0, QtCore.QModelIndex()))
self.object_combo.is_last = True
self.object_combo.setToolTip(
_("Object to be panelized. This means that it will\n"
"be duplicated in an array of rows and columns.")
)
form_layout_0.addRow(self.object_combo)
# Form Layout
form_layout = QtWidgets.QFormLayout()
self.layout.addLayout(form_layout)
# Type of box Panel object
self.reference_radio = RadioSet([{'label': _('Object'), 'value': 'object'},
{'label': _('Bounding Box'), 'value': 'bbox'}])
self.box_label = FCLabel("%s:" % _("Penelization Reference"))
self.box_label.setToolTip(
_("Choose the reference for panelization:\n"
"- Object = the bounding box of a different object\n"
"- Bounding Box = the bounding box of the object to be panelized\n"
"\n"
"The reference is useful when doing panelization for more than one\n"
"object. The spacings (really offsets) will be applied in reference\n"
"to this reference object therefore maintaining the panelized\n"
"objects in sync.")
)
form_layout.addRow(self.box_label)
form_layout.addRow(self.reference_radio)
# Type of Box Object to be used as an envelope for panelization
self.type_box_combo = FCComboBox()
self.type_box_combo.addItems([_("Gerber"), _("Geometry")])
# we get rid of item1 ("Excellon") as it is not suitable for use as a "box" for panelizing
# self.type_box_combo.view().setRowHidden(1, True)
self.type_box_combo.setItemIcon(0, QtGui.QIcon(self.app.resource_location + "/flatcam_icon16.png"))
self.type_box_combo.setItemIcon(1, QtGui.QIcon(self.app.resource_location + "/geometry16.png"))
self.type_box_combo_label = FCLabel('%s:' % _("Box Type"))
self.type_box_combo_label.setToolTip(
_("Specify the type of object to be used as an container for\n"
"panelization. It can be: Gerber or Geometry type.\n"
"The selection here decide the type of objects that will be\n"
"in the Box Object combobox.")
)
form_layout.addRow(self.type_box_combo_label, self.type_box_combo)
# Box
self.box_combo = FCComboBox()
self.box_combo.setModel(self.app.collection)
self.box_combo.setRootModelIndex(self.app.collection.index(0, 0, QtCore.QModelIndex()))
# self.box_combo.is_last = True
self.box_combo.setToolTip(
_("The actual object that is used as container for the\n "
"selected object that is to be panelized.")
)
form_layout.addRow(self.box_combo)
separator_line = QtWidgets.QFrame()
separator_line.setFrameShape(QtWidgets.QFrame.HLine)
separator_line.setFrameShadow(QtWidgets.QFrame.Sunken)
form_layout.addRow(separator_line)
panel_data_label = FCLabel("%s:" % _("Panel Data"))
panel_data_label.setToolTip(
_("This informations will shape the resulting panel.\n"
"The number of rows and columns will set how many\n"
"duplicates of the original geometry will be generated.\n"
"\n"
"The spacings will set the distance between any two\n"
"elements of the panel array.")
)
form_layout.addRow(panel_data_label)
# Spacing Columns
self.spacing_columns = FCDoubleSpinner(callback=self.confirmation_message)
self.spacing_columns.set_range(0, 9999)
self.spacing_columns.set_precision(4)
self.spacing_columns_label = FCLabel('%s:' % _("Spacing cols"))
self.spacing_columns_label.setToolTip(
_("Spacing between columns of the desired panel.\n"
"In current units.")
)
form_layout.addRow(self.spacing_columns_label, self.spacing_columns)
# Spacing Rows
self.spacing_rows = FCDoubleSpinner(callback=self.confirmation_message)
self.spacing_rows.set_range(0, 9999)
self.spacing_rows.set_precision(4)
self.spacing_rows_label = FCLabel('%s:' % _("Spacing rows"))
self.spacing_rows_label.setToolTip(
_("Spacing between rows of the desired panel.\n"
"In current units.")
)
form_layout.addRow(self.spacing_rows_label, self.spacing_rows)
# Columns
self.columns = FCSpinner(callback=self.confirmation_message_int)
self.columns.set_range(0, 9999)
self.columns_label = FCLabel('%s:' % _("Columns"))
self.columns_label.setToolTip(
_("Number of columns of the desired panel")
)
form_layout.addRow(self.columns_label, self.columns)
# Rows
self.rows = FCSpinner(callback=self.confirmation_message_int)
self.rows.set_range(0, 9999)
self.rows_label = FCLabel('%s:' % _("Rows"))
self.rows_label.setToolTip(
_("Number of rows of the desired panel")
)
form_layout.addRow(self.rows_label, self.rows)
separator_line = QtWidgets.QFrame()
separator_line.setFrameShape(QtWidgets.QFrame.HLine)
separator_line.setFrameShadow(QtWidgets.QFrame.Sunken)
form_layout.addRow(separator_line)
# Type of resulting Panel object
self.panel_type_radio = RadioSet([{'label': _('Gerber'), 'value': 'gerber'},
{'label': _('Geo'), 'value': 'geometry'}])
self.panel_type_label = FCLabel("%s:" % _("Panel Type"))
self.panel_type_label.setToolTip(
_("Choose the type of object for the panel object:\n"
"- Gerber\n"
"- Geometry")
)
form_layout.addRow(self.panel_type_label)
form_layout.addRow(self.panel_type_radio)
# Path optimization
self.optimization_cb = FCCheckBox('%s' % _("Path Optimization"))
self.optimization_cb.setToolTip(
_("Active only for Geometry panel type.\n"
"When checked the application will find\n"
"any two overlapping Line elements in the panel\n"
"and will remove the overlapping parts, keeping only one of them.")
)
form_layout.addRow(self.optimization_cb)
# Constrains
self.constrain_cb = FCCheckBox('%s:' % _("Constrain panel within"))
self.constrain_cb.setToolTip(
_("Area define by DX and DY within to constrain the panel.\n"
"DX and DY values are in current units.\n"
"Regardless of how many columns and rows are desired,\n"
"the final panel will have as many columns and rows as\n"
"they fit completely within selected area.")
)
form_layout.addRow(self.constrain_cb)
self.x_width_entry = FCDoubleSpinner(callback=self.confirmation_message)
self.x_width_entry.set_precision(4)
self.x_width_entry.set_range(0, 9999)
self.x_width_lbl = FCLabel('%s:' % _("Width (DX)"))
self.x_width_lbl.setToolTip(
_("The width (DX) within which the panel must fit.\n"
"In current units.")
)
form_layout.addRow(self.x_width_lbl, self.x_width_entry)
self.y_height_entry = FCDoubleSpinner(callback=self.confirmation_message)
self.y_height_entry.set_range(0, 9999)
self.y_height_entry.set_precision(4)
self.y_height_lbl = FCLabel('%s:' % _("Height (DY)"))
self.y_height_lbl.setToolTip(
_("The height (DY)within which the panel must fit.\n"
"In current units.")
)
form_layout.addRow(self.y_height_lbl, self.y_height_entry)
self.constrain_sel = OptionalInputSection(
self.constrain_cb, [self.x_width_lbl, self.x_width_entry, self.y_height_lbl, self.y_height_entry])
separator_line = QtWidgets.QFrame()
separator_line.setFrameShape(QtWidgets.QFrame.HLine)
separator_line.setFrameShadow(QtWidgets.QFrame.Sunken)
form_layout.addRow(separator_line)
# Buttons
self.panelize_object_button = FCButton(_("Panelize Object"))
self.panelize_object_button.setIcon(QtGui.QIcon(self.app.resource_location + '/panelize16.png'))
self.panelize_object_button.setToolTip(
_("Panelize the specified object around the specified box.\n"
"In other words it creates multiple copies of the source object,\n"
"arranged in a 2D array of rows and columns.")
)
self.panelize_object_button.setStyleSheet("""
QPushButton
{
font-weight: bold;
}
""")
self.layout.addWidget(self.panelize_object_button)
self.layout.addStretch()
# ## Reset Tool
self.reset_button = FCButton(_("Reset Tool"))
self.reset_button.setIcon(QtGui.QIcon(self.app.resource_location + '/reset32.png'))
self.reset_button.setToolTip(
_("Will reset the tool parameters.")
)
self.reset_button.setStyleSheet("""
QPushButton
{
font-weight: bold;
}
""")
self.layout.addWidget(self.reset_button)
# #################################### FINSIHED GUI ###########################
# #############################################################################
self.panel_type_radio.activated_custom.connect(self.on_panel_type)
def on_panel_type(self, val):
if val == 'geometry':
self.optimization_cb.setDisabled(False)
else:
self.optimization_cb.setDisabled(True)
def confirmation_message(self, accepted, minval, maxval):
if accepted is False:
self.app.inform[str, bool].emit('[WARNING_NOTCL] %s: [%.*f, %.*f]' % (_("Edited value is out of range"),
self.decimals,
minval,
self.decimals,
maxval), False)
else:
self.app.inform[str, bool].emit('[success] %s' % _("Edited value is within limits."), False)
def confirmation_message_int(self, accepted, minval, maxval):
if accepted is False:
self.app.inform[str, bool].emit('[WARNING_NOTCL] %s: [%d, %d]' %
(_("Edited value is out of range"), minval, maxval), False)
else:
self.app.inform[str, bool].emit('[success] %s' % _("Edited value is within limits."), False)