bartool/flatcam-wsl
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

- 2Sided Tool - fixed newly introduced issues in the Alignment section

Browse Source 
- 2Sided Tool - modified the UI such that some of the fields will allow only numbers and some special characters ([,],(,),/,*,,,+,-,%)
- Cutout Tool - working on adding mouse bites for the Freeform cutout
- updated the translation files to the current state of the app
This commit is contained in:
Marius Stanciu
2020-08-29 16:10:00 +03:00
committed by Marius
parent 6c9c367540
commit f73f6fb5da
25 changed files with 81423 additions and 64480 deletions
Download Patch File Download Diff File Expand all files Collapse all files

653
appTools/ToolCutOut.py
View File

@@ -10,7 +10,7 @@ from appTool import AppTool
from appGUI.GUIElements import FCDoubleSpinner, FCCheckBox, RadioSet, FCComboBox, OptionalInputSection, FCButton, \
FCLabel
from shapely.geometry import box, MultiPolygon, Polygon, LineString, LinearRing, MultiLineString
from shapely.geometry import box, MultiPolygon, Polygon, LineString, LinearRing, MultiLineString, Point
from shapely.ops import cascaded_union, unary_union, linemerge
import shapely.affinity as affinity
@@ -187,52 +187,52 @@ class CutOut(AppTool):
self.ui.dia.set_value(float(self.app.defaults["tools_cutout_tooldia"]))
self.default_data.update({
"plot": True,
"plot": True,
"cutz": float(self.app.defaults["geometry_cutz"]),
"multidepth": self.app.defaults["geometry_multidepth"],
"depthperpass": float(self.app.defaults["geometry_depthperpass"]),
"cutz": float(self.app.defaults["geometry_cutz"]),
"multidepth": self.app.defaults["geometry_multidepth"],
"depthperpass": float(self.app.defaults["geometry_depthperpass"]),
"vtipdia": float(self.app.defaults["geometry_vtipdia"]),
"vtipangle": float(self.app.defaults["geometry_vtipangle"]),
"travelz": float(self.app.defaults["geometry_travelz"]),
"feedrate": float(self.app.defaults["geometry_feedrate"]),
"feedrate_z": float(self.app.defaults["geometry_feedrate_z"]),
"feedrate_rapid": float(self.app.defaults["geometry_feedrate_rapid"]),
"spindlespeed": self.app.defaults["geometry_spindlespeed"],
"dwell": self.app.defaults["geometry_dwell"],
"dwelltime": float(self.app.defaults["geometry_dwelltime"]),
"spindledir": self.app.defaults["geometry_spindledir"],
"ppname_g": self.app.defaults["geometry_ppname_g"],
"extracut": self.app.defaults["geometry_extracut"],
"extracut_length": float(self.app.defaults["geometry_extracut_length"]),
"toolchange": self.app.defaults["geometry_toolchange"],
"toolchangexy": self.app.defaults["geometry_toolchangexy"],
"toolchangez": float(self.app.defaults["geometry_toolchangez"]),
"startz": self.app.defaults["geometry_startz"],
"endz": float(self.app.defaults["geometry_endz"]),
"area_exclusion": self.app.defaults["geometry_area_exclusion"],
"area_shape": self.app.defaults["geometry_area_shape"],
"area_strategy": self.app.defaults["geometry_area_strategy"],
"area_overz": float(self.app.defaults["geometry_area_overz"]),
"optimization_type": self.app.defaults["geometry_optimization_type"],
"vtipdia": float(self.app.defaults["geometry_vtipdia"]),
"vtipangle": float(self.app.defaults["geometry_vtipangle"]),
"travelz": float(self.app.defaults["geometry_travelz"]),
"feedrate": float(self.app.defaults["geometry_feedrate"]),
"feedrate_z": float(self.app.defaults["geometry_feedrate_z"]),
"feedrate_rapid": float(self.app.defaults["geometry_feedrate_rapid"]),
"spindlespeed": self.app.defaults["geometry_spindlespeed"],
"dwell": self.app.defaults["geometry_dwell"],
"dwelltime": float(self.app.defaults["geometry_dwelltime"]),
"spindledir": self.app.defaults["geometry_spindledir"],
"ppname_g": self.app.defaults["geometry_ppname_g"],
"extracut": self.app.defaults["geometry_extracut"],
"extracut_length": float(self.app.defaults["geometry_extracut_length"]),
"toolchange": self.app.defaults["geometry_toolchange"],
"toolchangexy": self.app.defaults["geometry_toolchangexy"],
"toolchangez": float(self.app.defaults["geometry_toolchangez"]),
"startz": self.app.defaults["geometry_startz"],
"endz": float(self.app.defaults["geometry_endz"]),
"area_exclusion": self.app.defaults["geometry_area_exclusion"],
"area_shape": self.app.defaults["geometry_area_shape"],
"area_strategy": self.app.defaults["geometry_area_strategy"],
"area_overz": float(self.app.defaults["geometry_area_overz"]),
"optimization_type": self.app.defaults["geometry_optimization_type"],
# Cutout
"tools_cutout_tooldia": self.app.defaults["tools_cutout_tooldia"],
"tools_cutout_kind": self.app.defaults["tools_cutout_kind"],
"tools_cutout_margin": float(self.app.defaults["tools_cutout_margin"]),
"tools_cutout_z": float(self.app.defaults["tools_cutout_z"]),
"tools_cutout_depthperpass": float(self.app.defaults["tools_cutout_depthperpass"]),
"tools_cutout_mdepth": self.app.defaults["tools_cutout_mdepth"],
"tools_cutout_gapsize": float(self.app.defaults["tools_cutout_gapsize"]),
"tools_cutout_gaps_ff": self.app.defaults["tools_cutout_gaps_ff"],
"tools_cutout_convexshape": self.app.defaults["tools_cutout_convexshape"],
"tools_cutout_tooldia": self.app.defaults["tools_cutout_tooldia"],
"tools_cutout_kind": self.app.defaults["tools_cutout_kind"],
"tools_cutout_margin": float(self.app.defaults["tools_cutout_margin"]),
"tools_cutout_z": float(self.app.defaults["tools_cutout_z"]),
"tools_cutout_depthperpass": float(self.app.defaults["tools_cutout_depthperpass"]),
"tools_cutout_mdepth": self.app.defaults["tools_cutout_mdepth"],
"tools_cutout_gapsize": float(self.app.defaults["tools_cutout_gapsize"]),
"tools_cutout_gaps_ff": self.app.defaults["tools_cutout_gaps_ff"],
"tools_cutout_convexshape": self.app.defaults["tools_cutout_convexshape"],
"tools_cutout_big_cursor": self.app.defaults["tools_cutout_big_cursor"],
"tools_cutout_gap_type": self.app.defaults["tools_cutout_gap_type"],
"tools_cutout_gap_depth": float(self.app.defaults["tools_cutout_gap_depth"]),
"tools_cutout_mb_dia": float(self.app.defaults["tools_cutout_mb_dia"]),
"tools_cutout_mb_spacing": float(self.app.defaults["tools_cutout_mb_spacing"]),
"tools_cutout_big_cursor": self.app.defaults["tools_cutout_big_cursor"],
"tools_cutout_gap_type": self.app.defaults["tools_cutout_gap_type"],
"tools_cutout_gap_depth": float(self.app.defaults["tools_cutout_gap_depth"]),
"tools_cutout_mb_dia": float(self.app.defaults["tools_cutout_mb_dia"]),
"tools_cutout_mb_spacing": float(self.app.defaults["tools_cutout_mb_spacing"]),
})
tool_dia = float(self.app.defaults["tools_cutout_tooldia"])
@@ -366,14 +366,14 @@ class CutOut(AppTool):
new_tdia = deepcopy(updated_tooldia) if updated_tooldia is not None else deepcopy(truncated_tooldia)
self.cut_tool_dict.update({
'tooldia': new_tdia,
'offset': deepcopy(offset),
'offset_value': deepcopy(offset_val),
'type': deepcopy(typ),
'tool_type': deepcopy(tool_type),
'data': deepcopy(new_tools_dict),
'solid_geometry': []
})
'tooldia': new_tdia,
'offset': deepcopy(offset),
'offset_value': deepcopy(offset_val),
'type': deepcopy(typ),
'tool_type': deepcopy(tool_type),
'data': deepcopy(new_tools_dict),
'solid_geometry': []
})
self.update_ui(new_tools_dict)
@@ -381,65 +381,67 @@ class CutOut(AppTool):
self.app.inform.emit('[success] %s' % _("Updated tool from Tools Database."))
def on_tool_default_add(self, dia=None, muted=None):
dia = dia
self.default_data.update({
"plot": True,
"plot": True,
"cutz": float(self.app.defaults["geometry_cutz"]),
"multidepth": self.app.defaults["geometry_multidepth"],
"depthperpass": float(self.app.defaults["geometry_depthperpass"]),
"cutz": float(self.app.defaults["geometry_cutz"]),
"multidepth": self.app.defaults["geometry_multidepth"],
"depthperpass": float(self.app.defaults["geometry_depthperpass"]),
"vtipdia": float(self.app.defaults["geometry_vtipdia"]),
"vtipangle": float(self.app.defaults["geometry_vtipangle"]),
"travelz": float(self.app.defaults["geometry_travelz"]),
"feedrate": float(self.app.defaults["geometry_feedrate"]),
"feedrate_z": float(self.app.defaults["geometry_feedrate_z"]),
"feedrate_rapid": float(self.app.defaults["geometry_feedrate_rapid"]),
"spindlespeed": self.app.defaults["geometry_spindlespeed"],
"dwell": self.app.defaults["geometry_dwell"],
"dwelltime": float(self.app.defaults["geometry_dwelltime"]),
"spindledir": self.app.defaults["geometry_spindledir"],
"ppname_g": self.app.defaults["geometry_ppname_g"],
"extracut": self.app.defaults["geometry_extracut"],
"extracut_length": float(self.app.defaults["geometry_extracut_length"]),
"toolchange": self.app.defaults["geometry_toolchange"],
"toolchangexy": self.app.defaults["geometry_toolchangexy"],
"toolchangez": float(self.app.defaults["geometry_toolchangez"]),
"startz": self.app.defaults["geometry_startz"],
"endz": float(self.app.defaults["geometry_endz"]),
"area_exclusion": self.app.defaults["geometry_area_exclusion"],
"area_shape": self.app.defaults["geometry_area_shape"],
"area_strategy": self.app.defaults["geometry_area_strategy"],
"area_overz": float(self.app.defaults["geometry_area_overz"]),
"optimization_type": self.app.defaults["geometry_optimization_type"],
"vtipdia": float(self.app.defaults["geometry_vtipdia"]),
"vtipangle": float(self.app.defaults["geometry_vtipangle"]),
"travelz": float(self.app.defaults["geometry_travelz"]),
"feedrate": float(self.app.defaults["geometry_feedrate"]),
"feedrate_z": float(self.app.defaults["geometry_feedrate_z"]),
"feedrate_rapid": float(self.app.defaults["geometry_feedrate_rapid"]),
"spindlespeed": self.app.defaults["geometry_spindlespeed"],
"dwell": self.app.defaults["geometry_dwell"],
"dwelltime": float(self.app.defaults["geometry_dwelltime"]),
"spindledir": self.app.defaults["geometry_spindledir"],
"ppname_g": self.app.defaults["geometry_ppname_g"],
"extracut": self.app.defaults["geometry_extracut"],
"extracut_length": float(self.app.defaults["geometry_extracut_length"]),
"toolchange": self.app.defaults["geometry_toolchange"],
"toolchangexy": self.app.defaults["geometry_toolchangexy"],
"toolchangez": float(self.app.defaults["geometry_toolchangez"]),
"startz": self.app.defaults["geometry_startz"],
"endz": float(self.app.defaults["geometry_endz"]),
"area_exclusion": self.app.defaults["geometry_area_exclusion"],
"area_shape": self.app.defaults["geometry_area_shape"],
"area_strategy": self.app.defaults["geometry_area_strategy"],
"area_overz": float(self.app.defaults["geometry_area_overz"]),
"optimization_type": self.app.defaults["geometry_optimization_type"],
# Cutout
"tools_cutout_tooldia": self.app.defaults["tools_cutout_tooldia"],
"tools_cutout_kind": self.app.defaults["tools_cutout_kind"],
"tools_cutout_margin": float(self.app.defaults["tools_cutout_margin"]),
"tools_cutout_z": float(self.app.defaults["tools_cutout_z"]),
"tools_cutout_depthperpass": float(self.app.defaults["tools_cutout_depthperpass"]),
"tools_cutout_mdepth": self.app.defaults["tools_cutout_mdepth"],
"tools_cutout_gapsize": float(self.app.defaults["tools_cutout_gapsize"]),
"tools_cutout_gaps_ff": self.app.defaults["tools_cutout_gaps_ff"],
"tools_cutout_convexshape": self.app.defaults["tools_cutout_convexshape"],
"tools_cutout_tooldia": self.app.defaults["tools_cutout_tooldia"],
"tools_cutout_kind": self.app.defaults["tools_cutout_kind"],
"tools_cutout_margin": float(self.app.defaults["tools_cutout_margin"]),
"tools_cutout_z": float(self.app.defaults["tools_cutout_z"]),
"tools_cutout_depthperpass": float(self.app.defaults["tools_cutout_depthperpass"]),
"tools_cutout_mdepth": self.app.defaults["tools_cutout_mdepth"],
"tools_cutout_gapsize": float(self.app.defaults["tools_cutout_gapsize"]),
"tools_cutout_gaps_ff": self.app.defaults["tools_cutout_gaps_ff"],
"tools_cutout_convexshape": self.app.defaults["tools_cutout_convexshape"],
"tools_cutout_big_cursor": self.app.defaults["tools_cutout_big_cursor"],
"tools_cutout_gap_type": self.app.defaults["tools_cutout_gap_type"],
"tools_cutout_gap_depth": float(self.app.defaults["tools_cutout_gap_depth"]),
"tools_cutout_mb_dia": float(self.app.defaults["tools_cutout_mb_dia"]),
"tools_cutout_mb_spacing": float(self.app.defaults["tools_cutout_mb_spacing"]),
"tools_cutout_big_cursor": self.app.defaults["tools_cutout_big_cursor"],
"tools_cutout_gap_type": self.app.defaults["tools_cutout_gap_type"],
"tools_cutout_gap_depth": float(self.app.defaults["tools_cutout_gap_depth"]),
"tools_cutout_mb_dia": float(self.app.defaults["tools_cutout_mb_dia"]),
"tools_cutout_mb_spacing": float(self.app.defaults["tools_cutout_mb_spacing"]),
})
self.cut_tool_dict.update({
'tooldia': str(self.app.defaults["tools_cutout_tooldia"]),
'offset': 'Path',
'offset_value': 0.0,
'type': _('Rough'),
'tool_type': 'C1',
'data': deepcopy(self.default_data),
'solid_geometry': []
})
'tooldia': str(self.app.defaults["tools_cutout_tooldia"]),
'offset': 'Path',
'offset_value': 0.0,
'type': _('Rough'),
'tool_type': 'C1',
'data': deepcopy(self.default_data),
'solid_geometry': []
})
self.update_ui(self.default_data)
@@ -490,13 +492,13 @@ class CutOut(AppTool):
truncated_tooldia = self.app.dec_format(tooldia, self.decimals)
self.cutout_tools.update({
1: {
'tooldia': truncated_tooldia,
'offset': tool['offset'],
'offset_value': tool['offset_value'],
'type': tool['type'],
'tool_type': tool['tool_type'],
'data': deepcopy(tool['data']),
'solid_geometry': []
'tooldia': truncated_tooldia,
'offset': tool['offset'],
'offset_value': tool['offset_value'],
'type': tool['type'],
'tool_type': tool['tool_type'],
'data': deepcopy(tool['data']),
'solid_geometry': []
}
})
self.cutout_tools[1]['data']['name'] = '_cutout'
@@ -554,7 +556,6 @@ class CutOut(AppTool):
return
margin = float(self.ui.margin.get_value())
gapsize = float(self.ui.gapsize.get_value())
try:
gaps = self.ui.gaps.get_value()
@@ -575,225 +576,274 @@ class CutOut(AppTool):
"and after that perform Cutout."))
return
convex_box = self.ui.convex_box_cb.get_value()
def cutout_handler(geom, gapsize):
proc_geometry = []
rest_geometry = []
r_temp_geo = []
initial_geo = deepcopy(geom)
gapsize = gapsize / 2 + (dia / 2)
# Get min and max data for each object as we just cut rectangles across X or Y
xxmin, yymin, xxmax, yymax = CutOut.recursive_bounds(geom)
def geo_init(geo_obj, app_obj):
solid_geo = []
gaps_solid_geo = None
px = 0.5 * (xxmin + xxmax) + margin
py = 0.5 * (yymin + yymax) + margin
lenx = (xxmax - xxmin) + (margin * 2)
leny = (yymax - yymin) + (margin * 2)
if cutout_obj.kind == 'gerber':
if isinstance(cutout_obj.solid_geometry, list):
cutout_obj.solid_geometry = MultiPolygon(cutout_obj.solid_geometry)
try:
if convex_box:
object_geo = cutout_obj.solid_geometry.convex_hull
else:
object_geo = cutout_obj.solid_geometry
except Exception as err:
log.debug("CutOut.on_freeform_cutout().geo_init() --> %s" % str(err))
object_geo = cutout_obj.solid_geometry
if gaps == 'None':
pass
else:
object_geo = cutout_obj.solid_geometry
if gaps == '8' or gaps == '2LR':
points = (
xxmin - gapsize, # botleft_x
py - gapsize + leny / 4, # botleft_y
xxmax + gapsize, # topright_x
py + gapsize + leny / 4 # topright_y
)
geom = self.subtract_poly_from_geo(geom, points)
r_temp_geo.append(
self.intersect_geo(initial_geo, box(points[0], points[1], points[2], points[3]))
)
def cutout_handler(geom):
proc_geometry = []
rest_geometry = []
r_temp_geo = []
initial_geo = deepcopy(geom)
points = (
xxmin - gapsize,
py - gapsize - leny / 4,
xxmax + gapsize,
py + gapsize - leny / 4
)
geom = self.subtract_poly_from_geo(geom, points)
r_temp_geo.append(
self.intersect_geo(initial_geo, box(points[0], points[1], points[2], points[3]))
)
# Get min and max data for each object as we just cut rectangles across X or Y
xxmin, yymin, xxmax, yymax = CutOut.recursive_bounds(geom)
if gaps == '8' or gaps == '2TB':
points = (
px - gapsize + lenx / 4,
yymin - gapsize,
px + gapsize + lenx / 4,
yymax + gapsize
)
geom = self.subtract_poly_from_geo(geom, points)
r_temp_geo.append(
self.intersect_geo(initial_geo, box(points[0], points[1], points[2], points[3]))
)
px = 0.5 * (xxmin + xxmax) + margin
py = 0.5 * (yymin + yymax) + margin
lenx = (xxmax - xxmin) + (margin * 2)
leny = (yymax - yymin) + (margin * 2)
points = (
px - gapsize - lenx / 4,
yymin - gapsize,
px + gapsize - lenx / 4,
yymax + gapsize
)
geom = self.subtract_poly_from_geo(geom, points)
r_temp_geo.append(
self.intersect_geo(initial_geo, box(points[0], points[1], points[2], points[3]))
)
if gaps == 'None':
pass
else:
if gaps == '8' or gaps == '2LR':
points = (
xxmin - gapsize, # botleft_x
py - gapsize + leny / 4, # botleft_y
xxmax + gapsize, # topright_x
py + gapsize + leny / 4 # topright_y
)
geom = self.subtract_poly_from_geo(geom, points)
r_temp_geo.append(
self.intersect_geo(initial_geo, box(points[0], points[1], points[2], points[3]))
)
if gaps == '4' or gaps == 'LR':
points = (
xxmin - gapsize,
py - gapsize,
xxmax + gapsize,
py + gapsize
)
geom = self.subtract_poly_from_geo(geom, points)
r_temp_geo.append(
self.intersect_geo(initial_geo, box(points[0], points[1], points[2], points[3]))
)
points = (
xxmin - gapsize,
py - gapsize - leny / 4,
xxmax + gapsize,
py + gapsize - leny / 4
)
geom = self.subtract_poly_from_geo(geom, points)
r_temp_geo.append(
self.intersect_geo(initial_geo, box(points[0], points[1], points[2], points[3]))
)
if gaps == '4' or gaps == 'TB':
points = (
px - gapsize,
yymin - gapsize,
px + gapsize,
yymax + gapsize
)
geom = self.subtract_poly_from_geo(geom, points)
r_temp_geo.append(
self.intersect_geo(initial_geo, box(points[0], points[1], points[2], points[3]))
)
if gaps == '8' or gaps == '2TB':
points = (
px - gapsize + lenx / 4,
yymin - gapsize,
px + gapsize + lenx / 4,
yymax + gapsize
)
geom = self.subtract_poly_from_geo(geom, points)
r_temp_geo.append(
self.intersect_geo(initial_geo, box(points[0], points[1], points[2], points[3]))
)
points = (
px - gapsize - lenx / 4,
yymin - gapsize,
px + gapsize - lenx / 4,
yymax + gapsize
)
geom = self.subtract_poly_from_geo(geom, points)
r_temp_geo.append(
self.intersect_geo(initial_geo, box(points[0], points[1], points[2], points[3]))
)
if gaps == '4' or gaps == 'LR':
points = (
xxmin - gapsize,
py - gapsize,
xxmax + gapsize,
py + gapsize
)
geom = self.subtract_poly_from_geo(geom, points)
r_temp_geo.append(
self.intersect_geo(initial_geo, box(points[0], points[1], points[2], points[3]))
)
if gaps == '4' or gaps == 'TB':
points = (
px - gapsize,
yymin - gapsize,
px + gapsize,
yymax + gapsize
)
geom = self.subtract_poly_from_geo(geom, points)
r_temp_geo.append(
self.intersect_geo(initial_geo, box(points[0], points[1], points[2], points[3]))
)
try:
for g in geom:
if g and not g.is_empty:
proc_geometry.append(g)
except TypeError:
if geom and not geom.is_empty:
proc_geometry.append(geom)
r_temp_geo = CutOut.flatten(r_temp_geo)
for g in r_temp_geo:
try:
for g in geom:
if g and not g.is_empty:
rest_geometry.append(g)
proc_geometry.append(g)
except TypeError:
if geom and not geom.is_empty:
proc_geometry.append(geom)
return proc_geometry, rest_geometry
r_temp_geo = CutOut.flatten(r_temp_geo)
for g in r_temp_geo:
if g and not g.is_empty:
rest_geometry.append(g)
if kind == 'single':
object_geo = unary_union(object_geo)
return proc_geometry, rest_geometry
with self.app.proc_container.new("Generating Cutout ..."):
outname = cutout_obj.options["name"] + "_cutout"
self.app.collection.promise(outname)
outname_exc = cutout_obj.options["name"] + "_mouse_bites"
if self.ui.gaptype_radio.get_value() == 'mb':
self.app.collection.promise(outname_exc)
def job_thread(app_obj):
solid_geo = []
gaps_solid_geo = []
mouse_bites_geo = []
convex_box = self.ui.convex_box_cb.get_value()
gapsize = self.ui.gapsize.get_value()
gapsize = gapsize / 2 + (dia / 2)
# for geo in object_geo:
if cutout_obj.kind == 'gerber':
if isinstance(object_geo, MultiPolygon):
x0, y0, x1, y1 = object_geo.bounds
object_geo = box(x0, y0, x1, y1)
if margin >= 0:
geo_buf = object_geo.buffer(margin + abs(dia / 2))
else:
geo_buf = object_geo.buffer(margin - abs(dia / 2))
if isinstance(cutout_obj.solid_geometry, list):
cutout_obj.solid_geometry = MultiPolygon(cutout_obj.solid_geometry)
geo = geo_buf.exterior
else:
geo = object_geo
solid_geo, rest_geo = cutout_handler(geom=geo)
if self.ui.gaptype_radio.get_value() == 'bt' and self.ui.thin_depth_entry.get_value() > 0:
gaps_solid_geo = rest_geo
else:
try:
__ = iter(object_geo)
except TypeError:
object_geo = [object_geo]
for geom_struct in object_geo:
if cutout_obj.kind == 'gerber':
if margin >= 0:
geom_struct = (geom_struct.buffer(margin + abs(dia / 2))).exterior
try:
if convex_box:
object_geo = cutout_obj.solid_geometry.convex_hull
else:
geom_struct_buff = geom_struct.buffer(-margin + abs(dia / 2))
geom_struct = geom_struct_buff.interiors
object_geo = cutout_obj.solid_geometry
except Exception as err:
log.debug("CutOut.on_freeform_cutout().geo_init() --> %s" % str(err))
object_geo = cutout_obj.solid_geometry
else:
object_geo = cutout_obj.solid_geometry
c_geo, r_geo = cutout_handler(geom=geom_struct)
solid_geo += c_geo
if kind == 'single':
object_geo = unary_union(object_geo)
# for geo in object_geo:
if cutout_obj.kind == 'gerber':
if isinstance(object_geo, MultiPolygon):
x0, y0, x1, y1 = object_geo.bounds
object_geo = box(x0, y0, x1, y1)
if margin >= 0:
geo_buf = object_geo.buffer(margin + abs(dia / 2))
else:
geo_buf = object_geo.buffer(margin - abs(dia / 2))
geo = geo_buf.exterior
else:
geo = object_geo
solid_geo, rest_geo = cutout_handler(geom=geo, gapsize=gapsize)
if self.ui.gaptype_radio.get_value() == 'bt' and self.ui.thin_depth_entry.get_value() > 0:
gaps_solid_geo += r_geo
gaps_solid_geo = rest_geo
if self.ui.gaptype_radio.get_value() == 'mb':
mouse_bites_geo = rest_geo
else:
try:
__ = iter(object_geo)
except TypeError:
object_geo = [object_geo]
if not solid_geo:
app_obj.inform.emit('[ERROR_NOTCL] %s' % _("Failed."))
return "fail"
for geom_struct in object_geo:
if cutout_obj.kind == 'gerber':
if margin >= 0:
geom_struct = (geom_struct.buffer(margin + abs(dia / 2))).exterior
else:
geom_struct_buff = geom_struct.buffer(-margin + abs(dia / 2))
geom_struct = geom_struct_buff.interiors
solid_geo = linemerge(solid_geo)
geo_obj.solid_geometry = deepcopy(solid_geo)
c_geo, r_geo = cutout_handler(geom=geom_struct, gapsize=gapsize)
solid_geo += c_geo
if self.ui.gaptype_radio.get_value() == 'bt' and self.ui.thin_depth_entry.get_value() > 0:
gaps_solid_geo += r_geo
if self.ui.gaptype_radio.get_value() == 'mb':
mouse_bites_geo += r_geo
if not solid_geo:
self.app.inform.emit('[ERROR_NOTCL] %s' % _("Failed."))
return "fail"
xmin, ymin, xmax, ymax = CutOut.recursive_bounds(geo_obj.solid_geometry)
geo_obj.options['xmin'] = xmin
geo_obj.options['ymin'] = ymin
geo_obj.options['xmax'] = xmax
geo_obj.options['ymax'] = ymax
geo_obj.options['cnctooldia'] = str(dia)
geo_obj.options['cutz'] = self.ui.cutz_entry.get_value()
geo_obj.options['multidepth'] = self.ui.mpass_cb.get_value()
geo_obj.options['depthperpass'] = self.ui.maxdepth_entry.get_value()
solid_geo = linemerge(solid_geo)
geo_obj.multigeo = True
# list of Shapely Points to mark the drill points centers
holes = []
print(mouse_bites_geo)
geo_obj.tools.update({
1: self.cut_tool_dict
})
geo_obj.tools[1]['tooldia'] = str(dia)
geo_obj.tools[1]['solid_geometry'] = geo_obj.solid_geometry
def geo_init(geo_obj, app_object):
geo_obj.solid_geometry = deepcopy(solid_geo)
geo_obj.tools[1]['data']['name'] = outname
geo_obj.tools[1]['data']['cutz'] = self.ui.cutz_entry.get_value()
geo_obj.tools[1]['data']['multidepth'] = self.ui.mpass_cb.get_value()
geo_obj.tools[1]['data']['depthperpass'] = self.ui.maxdepth_entry.get_value()
xmin, ymin, xmax, ymax = CutOut.recursive_bounds(geo_obj.solid_geometry)
geo_obj.options['xmin'] = xmin
geo_obj.options['ymin'] = ymin
geo_obj.options['xmax'] = xmax
geo_obj.options['ymax'] = ymax
geo_obj.options['cnctooldia'] = str(dia)
geo_obj.options['cutz'] = self.ui.cutz_entry.get_value()
geo_obj.options['multidepth'] = self.ui.mpass_cb.get_value()
geo_obj.options['depthperpass'] = self.ui.maxdepth_entry.get_value()
if gaps_solid_geo is not None:
geo_obj.tools.update({
9999: self.cut_tool_dict
})
geo_obj.tools[9999]['tooldia'] = str(dia)
geo_obj.tools[9999]['solid_geometry'] = gaps_solid_geo
geo_obj.multigeo = True
geo_obj.tools[9999]['data']['name'] = outname
geo_obj.tools[9999]['data']['cutz'] = self.ui.thin_depth_entry.get_value()
geo_obj.tools[9999]['data']['multidepth'] = self.ui.mpass_cb.get_value()
geo_obj.tools[9999]['data']['depthperpass'] = self.ui.maxdepth_entry.get_value()
# plot this tool in a different color
geo_obj.tools[9999]['data']['override_color'] = "#29a3a3fa"
geo_obj.tools.update({
1: self.cut_tool_dict
})
geo_obj.tools[1]['tooldia'] = str(dia)
geo_obj.tools[1]['solid_geometry'] = geo_obj.solid_geometry
outname = cutout_obj.options["name"] + "_cutout"
ret = self.app.app_obj.new_object('geometry', outname, geo_init)
geo_obj.tools[1]['data']['name'] = outname
geo_obj.tools[1]['data']['cutz'] = self.ui.cutz_entry.get_value()
geo_obj.tools[1]['data']['multidepth'] = self.ui.mpass_cb.get_value()
geo_obj.tools[1]['data']['depthperpass'] = self.ui.maxdepth_entry.get_value()
if ret == 'fail':
self.app.inform.emit('[ERROR_NOTCL] %s' % _("Failed."))
return
if gaps_solid_geo:
geo_obj.tools.update({
9999: self.cut_tool_dict
})
geo_obj.tools[9999]['tooldia'] = str(dia)
geo_obj.tools[9999]['solid_geometry'] = gaps_solid_geo
# cutout_obj.plot(plot_tool=1)
self.app.inform.emit('[success] %s' % _("Any form CutOut operation finished."))
# self.app.ui.notebook.setCurrentWidget(self.app.ui.project_tab)
self.app.should_we_save = True
geo_obj.tools[9999]['data']['name'] = outname
geo_obj.tools[9999]['data']['cutz'] = self.ui.thin_depth_entry.get_value()
geo_obj.tools[9999]['data']['multidepth'] = self.ui.mpass_cb.get_value()
geo_obj.tools[9999]['data']['depthperpass'] = self.ui.maxdepth_entry.get_value()
# plot this tool in a different color
geo_obj.tools[9999]['data']['override_color'] = "#29a3a3fa"
def excellon_init(exc_obj, app_o):
if not holes:
return 'fail'
mb_dia = self.ui.mb_dia_entry.get_value()
tools = {}
tools[1] = {}
tools[1]["tooldia"] = mb_dia
tools[1]['drills'] = holes
tools[1]['solid_geometry'] = []
exc_obj.tools = tools
exc_obj.create_geometry()
exc_obj.source_file = app_o.export_excellon(obj_name=exc_obj.options['name'], local_use=exc_obj,
filename=None, use_thread=False)
# calculate the bounds
xmin, ymin, xmax, ymax = CutOut.recursive_bounds(exc_obj.solid_geometry)
exc_obj.options['xmin'] = xmin
exc_obj.options['ymin'] = ymin
exc_obj.options['xmax'] = xmax
exc_obj.options['ymax'] = ymax
try:
ret = app_obj.app_obj.new_object('geometry', outname, geo_init)
if ret == 'fail':
app_obj.inform.emit('[ERROR_NOTCL] %s' % _("Failed."))
return
if self.ui.gaptype_radio.get_value() == 'mb':
ret = app_obj.app_obj.new_object('excellon', outname_exc, excellon_init)
if ret == 'fail':
app_obj.inform.emit('[ERROR_NOTCL] %s' % _("Mouse bites failed."))
return
# cutout_obj.plot(plot_tool=1)
app_obj.inform.emit('[success] %s' % _("Any form CutOut operation finished."))
# self.app.ui.notebook.setCurrentWidget(self.app.ui.project_tab)
app_obj.should_we_save = True
except Exception as ee:
log.debug(str(ee))
self.app.worker_task.emit({'fcn': job_thread, 'params': [self.app]})
def on_rectangular_cutout(self):
log.debug("Cutout.on_rectangular_cutout() was launched ...")
@@ -875,7 +925,7 @@ class CutOut(AppTool):
xmin - gapsize, # botleft_x
py - gapsize + leny / 4, # botleft_y
xmax + gapsize, # topright_x
py + gapsize + leny / 4 # topright_y
py + gapsize + leny / 4 # topright_y
)
geom = self.subtract_poly_from_geo(geom, points)
points = (
@@ -1660,14 +1710,13 @@ class CutOut(AppTool):
if second_geo.intersects(geo):
results.append(second_geo.intersection(geo))
return CutOut.flatten(results)
return CutOut.flatten(results)
def reset_fields(self):
self.ui.obj_combo.setRootModelIndex(self.app.collection.index(0, 0, QtCore.QModelIndex()))
class CutoutUI:
toolName = _("Cutout PCB")
def __init__(self, layout, app):
@@ -1898,9 +1947,9 @@ class CutoutUI:
self.gaptype_radio = RadioSet(
[
{'label': _('Bridge'), 'value': 'b'},
{'label': _('Thin'), 'value': 'bt'},
{'label': "M-Bites", 'value': 'mb'}
{'label': _('Bridge'), 'value': 'b'},
{'label': _('Thin'), 'value': 'bt'},
{'label': "M-Bites", 'value': 'mb'}
],
stretch=True
)