def __init__(self, parent):
# inheritance
tk.Frame.__init__(self, parent)
self.parent = parent
# instantiate status
self.sta = parent.sta
self.sta.bind_to_interrupt(self.stop_thread)
# instantiate config settings
self.cfg = PlenopticamConfig()
# instantiate menu widget
self.men_wid = MenuWidget(self)
self.men_wid.grid()
# instantiate config widget
self.fil_wid = FileWidget(self)
self.fil_wid.grid(padx=PX, pady=PY)
# instantiate command widget
self.cmd_wid = CmndWidget(self)
self.cmd_wid.grid(padx=PX, pady=PY)
self.all_btn_list = self.cmd_wid.btn_list + self.fil_wid.btn_list + self.men_wid.btn_list
self.var_init()
def test_file_widget(self):
wid = FileWidget(self.root)
self.pump_events()
wid.destroy()
class CtrlWidget(tk.Frame):
""" Control widget class """
def __init__(self, parent):
# inheritance
tk.Frame.__init__(self, parent)
self.parent = parent
# instantiate status
self.sta = parent.sta
self.sta.bind_to_interrupt(self.stop_thread)
# instantiate config settings
self.cfg = parent.cfg if hasattr(parent,
'cfg') else PlenopticamConfig()
# instantiate menu widget
self.men_wid = MenuWidget(self)
self.men_wid.grid()
# instantiate config widget
self.fil_wid = FileWidget(self)
self.fil_wid.grid(padx=PX, pady=PY)
# instantiate command widget
self.cmd_wid = CmndWidget(self)
self.cmd_wid.grid(padx=PX, pady=PY)
self.all_btn_list = self.fil_wid.btn_list + self.men_wid.btn_list + self.cmd_wid.btn_list[:
2]
self.var_init()
def var_init(self):
# image variables
self.lfp_img = None
self.wht_img = None
self.lfp_img_align = None
self.vp_img_arr = None
# threading
self.sta.interrupt = False
self.sta.error = False
self.job_queue = queue.Queue()
self.cur_thread = None
# remove viewer window (if present)
self.view_frame.destroy() if hasattr(self, 'view_frame') else None
def fetch_paths(self):
# compare config path with path in user interface (detect change)
if self.fil_wid.lfp_wid.ent.get() != self.cfg.params[
self.cfg.lfp_path]:
# pass path to config
self.cfg.params[self.cfg.lfp_path] = self.fil_wid.lfp_wid.path
# reset light field image
self.lfp_img = None
# compare config path with path in user interface (detect change)
if self.fil_wid.cal_wid.ent.get() != self.cfg.params[
self.cfg.cal_path]:
# pass path to config
self.cfg.params[self.cfg.cal_path] = self.fil_wid.cal_wid.path
# reset calibration image
self.wht_img = None
# reset calibration metadata path
self.cfg.params[self.cfg.cal_meta] = ''
# save config to hard drive
self.cfg.save_params()
def start_thread(self, func, cond, *args):
# return value of bound method conditions
cond = cond() if isinstance(cond, types.MethodType) else cond
# start next thread if condition is met
if cond and self.cur_thread is None:
self.cur_thread = PropagatingThread(target=func,
args=args,
cfg=self.cfg,
sta=self.sta)
self.cur_thread.start()
def stop_thread(self):
#self.cur_thread.join(POLLING_RATE) if self.cur_thread else None
while not self.job_queue.empty():
self.job_queue.get(block=True, timeout=POLLING_RATE)
self.job_queue.task_done()
def poll(self):
if self.cur_thread is not None:
if not self.cur_thread.is_alive():
self.cur_thread.join()
self.cur_thread = None
# any more jobs to do?
elif not self.job_queue.empty():
try:
job_info = self.job_queue.get_nowait() # non-blocking
self.start_thread(*job_info)
except queue.Empty:
pass
elif self.job_queue.empty() and self.cur_thread is None:
# enable button activity
self.toggle_btn_list(self.all_btn_list)
# step out of loop
return True
self.after(POLLING_RATE, self.poll)
def process(self):
# reset
self.var_init()
# status update
self.sta.status_msg('Loading data', self.cfg.params[self.cfg.opt_prnt])
self.sta.progress(None, self.cfg.params[self.cfg.opt_prnt])
# disable button activity
self.toggle_btn_list(self.all_btn_list)
self.cmd_wid.btn_list[3].config(text='Stop')
# read light field photo and calibration source paths
self.fetch_paths()
# remove output folder if option is set
misc.rmdir_p(
self.cfg.exp_path) if self.cfg.params[self.cfg.dir_remo] else None
# remove calibrated light-field if calibration or devignetting option is set
if self.cfg.params[self.cfg.opt_cali] or self.cfg.params[
self.cfg.opt_vign]:
misc.rm_file(join(self.cfg.exp_path, 'lfp_img_align.pkl'))
if self.cfg.params[self.cfg.opt_cali]:
misc.rm_file(self.cfg.params[self.cfg.cal_meta])
# create output data folder (prevent override)
misc.mkdir_p(self.cfg.exp_path, self.cfg.params[self.cfg.opt_prnt])
# put tasks in the job queue to be run
for task_info in ((self.load_lfp, self.cfg.cond_load_limg,
self.cfg.params[self.cfg.lfp_path]),
(self.auto_find, self.cfg.cond_auto_find),
(self.load_lfp, self.cfg.cond_load_wimg,
self.cfg.params[self.cfg.cal_path],
True), (self.cal, self.cfg.cond_perf_cali),
(self.cfg.load_cal_data, self.cfg.cond_lfp_align),
(self.lfp_align,
self.cfg.cond_lfp_align), (self.lfp_extract, True),
(self.lfp_refo,
self.cfg.params[self.cfg.opt_refo]), (self.finish,
True)):
self.job_queue.put(task_info)
# start polling
self.after(POLLING_RATE, self.poll)
# cancel if file paths not provided
self.sta.validate(checklist=[
self.cfg.params[self.cfg.lfp_path],
self.cfg.params[self.cfg.cal_path]
],
msg='Canceled due to missing image file path')
def finish(self):
""" procedure for finished process """
self.sta.status_msg('Export finished', opt=True)
self.sta.progress(100, opt=True)
# open viewer window
self.view()
# set button to quit
self.cmd_wid.btn_list[3].config(text='Quit')
def lfp_refo(self):
obj = lfp_refocuser.LfpRefocuser(self.vp_img_arr,
cfg=self.cfg,
sta=self.sta)
obj.main()
del obj
def lfp_align(self):
# align light field
lfp_obj = lfp_aligner.LfpAligner(self.lfp_img, self.cfg, self.sta,
self.wht_img)
lfp_obj.main()
self.lfp_img_align = lfp_obj.lfp_img
del lfp_obj
def lfp_extract(self):
# export light field data
exp_obj = lfp_extractor.LfpExtractor(self.lfp_img_align, self.cfg,
self.sta)
exp_obj.main()
self.vp_img_arr = exp_obj.vp_img_linear
del exp_obj
def cal(self):
# perform centroid calibration
cal_obj = lfp_calibrator.LfpCalibrator(self.wht_img, self.cfg,
self.sta)
cal_obj.main()
self.cfg = cal_obj.cfg
del cal_obj
def auto_find(self):
if self.wht_img is None:
# find calibration file automatically
obj = lfp_calibrator.CaliFinder(self.cfg, self.sta)
obj.main()
self.wht_img = obj._wht_bay
del obj
# white image demosaicing (when light field image is given as RGB)
if self.wht_img is not None and len(self.lfp_img.shape) == 3:
from plenopticam.lfp_aligner.cfa_processor import CfaProcessor
cfa_obj = CfaProcessor(bay_img=self.wht_img,
cfg=self.cfg,
sta=self.sta)
cfa_obj.bay2rgb()
self.wht_img = cfa_obj.rgb_img
del cfa_obj
def load_lfp(self, lfp_path=None, wht_opt=False):
# decode light field image
lfp_obj = lfp_reader.LfpReader(cfg=self.cfg,
sta=self.sta,
lfp_path=lfp_path)
lfp_obj.main()
if wht_opt:
self.wht_img = lfp_obj.lfp_img
else:
self.lfp_img = lfp_obj.lfp_img
del lfp_obj
@staticmethod
def toggle_btn_state(btn):
btn['state'] = tk.DISABLED if btn['state'] != tk.DISABLED else tk.NORMAL
@classmethod
def toggle_btn_list(cls, btn_list):
for btn in btn_list:
cls.toggle_btn_state(btn)
def cfg_change(self):
# disable button activity
self.toggle_btn_list(self.cmd_wid.btn_list[:2])
# create settings frame
CnfgWidget(self)
# enable buttons
self.toggle_btn_list(self.cmd_wid.btn_list[:2])
def exit(self):
""" this exit function is connected to most-right menu button triggering either stop or quit """
if self.cmd_wid.btn_list[3].cget('text') == 'Quit':
self.quit()
else:
self.cmd_wid.btn_list[3].config(text='Quit')
self.stop()
def stop(self):
""" stop app """
# set interrupt in status
self.sta.interrupt = True
def quit(self):
""" quit app """
self.stop_thread()
# destroy tkinter objects
self.view_frame.destroy() if hasattr(self, 'view_frame') else None
self.parent.destroy()
sys.exit()
def view(self):
""" open viewer """
# disable button activity (prevent a sequence of clicks to create several view windows)
self.toggle_btn_state(self.cmd_wid.btn_list[2])
view_thread = PropagatingThread(target=self.instantiate_viewer,
args=[self.cmd_wid.btn_list[2]],
cfg=self.cfg,
sta=self.sta)
view_thread.start()
def instantiate_viewer(self, btn):
self.view_frame = tk.Toplevel(padx=PX, pady=PY) # open window
self.view_frame.resizable(width=0,
height=0) # make window not resizable
ViewWidget(self.view_frame, cfg=self.cfg, sta=self.sta,
btn=btn).pack(expand="no", fill="both")
class CtrlWidget(tk.Frame):
''' Control widget class '''
def __init__(self, parent):
# inheritance
tk.Frame.__init__(self, parent)
self.parent = parent
# instantiate status
self.sta = parent.sta
self.sta.bind_to_interrupt(self.stop_thread)
# instantiate config settings
self.cfg = PlenopticamConfig()
# instantiate menu widget
self.men_wid = MenuWidget(self)
self.men_wid.grid()
# instantiate config widget
self.fil_wid = FileWidget(self)
self.fil_wid.grid(padx=PX, pady=PY)
# instantiate command widget
self.cmd_wid = CmndWidget(self)
self.cmd_wid.grid(padx=PX, pady=PY)
self.all_btn_list = self.cmd_wid.btn_list + self.fil_wid.btn_list + self.men_wid.btn_list
self.var_init()
def var_init(self):
# image variables
self.lfp_img = None
self.wht_img = None
self.lfp_img_align = None
self.vp_img_arr = None
# threading
self.sta.interrupt = False
self.sta.error = False
self.job_queue = queue.Queue()
self.cur_thread = None
def fetch_paths(self):
# compare config path with path in user interface (detect change)
if self.fil_wid.lfp_wid.ent.get() != self.cfg.params[
self.cfg.lfp_path]:
# pass path to config
self.cfg.params[self.cfg.lfp_path] = self.fil_wid.lfp_wid.path
# reset light field image
self.lfp_img = None
# compare config path with path in user interface (detect change)
if self.fil_wid.cal_wid.ent.get() != self.cfg.params[
self.cfg.cal_path]:
# pass path to config
self.cfg.params[self.cfg.cal_path] = self.fil_wid.cal_wid.path
# reset calibration image
self.wht_img = None
# reset calibration metadata path (if roots in paths do not match)
if dirname(dirname(self.cfg.params[self.cfg.cal_meta])) not in dirname(
self.cfg.params[self.cfg.cal_path]):
self.cfg.params[self.cfg.cal_meta] = ''
# save config to hard drive
self.cfg.save_params()
def start_thread(self, func, cond, *args):
# return value of bound method conditions
cond = cond() if isinstance(cond, types.MethodType) else cond
# start next thread if condition is met
if cond and self.cur_thread is None:
self.cur_thread = PropagatingThread(target=func,
args=args,
cfg=self.cfg,
sta=self.sta)
self.cur_thread.start()
def stop_thread(self):
#self.cur_thread.join(POLLING_RATE) if self.cur_thread else None
while not self.job_queue.empty():
self.job_queue.get(block=True, timeout=POLLING_RATE)
self.job_queue.task_done()
def poll(self):
if self.cur_thread is not None:
if not self.cur_thread.is_alive():
self.cur_thread.join()
self.cur_thread = None
# any more jobs to do?
elif not self.job_queue.empty():
try:
job_info = self.job_queue.get_nowait() # non-blocking
self.start_thread(*job_info)
except queue.Empty:
pass
elif self.job_queue.empty() and self.cur_thread is None:
# enable button activity
self.toggle_btn_list(self.all_btn_list)
# step out of loop
return True
self.after(POLLING_RATE, self.poll)
def process(self):
# reset
self.var_init()
# status update
self.sta.status_msg('Loading data', self.cfg.params[self.cfg.opt_prnt])
self.sta.progress(None, self.cfg.params[self.cfg.opt_prnt])
# disable button activity
self.toggle_btn_list(self.all_btn_list)
# read light field photo and calibration source paths
self.fetch_paths()
# remove output folder if option is set
misc.rmdir_p(
self.cfg.exp_path) if self.cfg.params[self.cfg.dir_remo] else None
# remove calibrated light-field if calibration option is set
if self.cfg.params[self.cfg.opt_cali] or self.cfg.params[
self.cfg.opt_vign]:
misc.rm_file(join(self.cfg.exp_path, 'lfp_img_align.pkl'))
if self.cfg.params[self.cfg.opt_cali]:
misc.rm_file(self.cfg.params[self.cfg.cal_meta])
# create output data folder (prevent override)
misc.mkdir_p(self.cfg.exp_path, self.cfg.params[self.cfg.opt_prnt])
# put tasks in the job queue to be run
for task_info in ((self.load_lfp, self.cfg.cond_load_limg,
self.cfg.params[self.cfg.lfp_path]),
(self.auto_find, self.cfg.cond_auto_find),
(self.load_lfp, self.cfg.cond_load_wimg,
self.cfg.params[self.cfg.cal_path],
True), (self.cal, self.cfg.cond_perf_cali),
(self.cfg.load_cal_data, self.cfg.cond_lfp_align),
(self.lfp_align,
self.cfg.cond_lfp_align), (self.load_pickle_file,
True), (self.lfp_extract,
True),
(self.lfp_refo,
self.cfg.params[self.cfg.opt_refo]), (self.finish,
True)):
self.job_queue.put(task_info)
# start polling
self.after(POLLING_RATE, self.poll)
# cancel if file paths not provided
self.sta.validate(checklist=[
self.cfg.params[self.cfg.lfp_path],
self.cfg.params[self.cfg.cal_path]
],
msg='Canceled due to missing image file path')
def finish(self):
self.sta.status_msg('Export finished', opt=True)
self.sta.progress(100, opt=True)
def lfp_refo(self):
obj = lfp_refocuser.LfpRefocuser(self.vp_img_arr,
cfg=self.cfg,
sta=self.sta)
obj.main()
del obj
def lfp_align(self):
# align light field
lfp_obj = lfp_aligner.LfpAligner(self.lfp_img, self.cfg, self.sta,
self.wht_img)
lfp_obj.main()
self.lfp_img_align = lfp_obj.lfp_img
del lfp_obj
def load_pickle_file(self):
# file path
fp = join(self.cfg.exp_path, 'lfp_img_align.pkl')
try:
# load previously computed light field alignment
self.lfp_img_align = pickle.load(open(fp, 'rb'))
except EOFError:
os.remove(fp)
# load LFP metadata settings (for Lytro files only)
fp = join(
self.cfg.exp_path,
splitext(basename(self.cfg.params[self.cfg.lfp_path]))[0] +
'.json')
if os.path.isfile(fp):
json_dict = self.cfg.load_json(fp=fp, sta=None)
from plenopticam.lfp_reader.lfp_decoder import LfpDecoder
self.cfg.lfpimg = LfpDecoder().filter_lfp_json(
json_dict, settings=self.cfg.lfpimg)
def lfp_extract(self):
# export light field data
exp_obj = lfp_extractor.LfpExtractor(self.lfp_img_align, self.cfg,
self.sta)
exp_obj.main()
self.vp_img_arr = exp_obj.vp_img_arr
del exp_obj
def cal(self):
# perform centroid calibration
cal_obj = lfp_calibrator.LfpCalibrator(self.wht_img, self.cfg,
self.sta)
cal_obj.main()
self.cfg = cal_obj.cfg
del cal_obj
def auto_find(self):
if self.wht_img is None:
# find calibration file automatically
obj = lfp_calibrator.CaliFinder(self.cfg, self.sta)
obj.main()
self.wht_img = obj._wht_bay
del obj
# white image demosaicing (when light field image is given as RGB)
if self.wht_img is not None and len(self.lfp_img.shape) == 3:
from plenopticam.lfp_aligner.cfa_processor import CfaProcessor
cfa_obj = CfaProcessor(bay_img=self.wht_img,
cfg=self.cfg,
sta=self.sta)
cfa_obj.bay2rgb()
self.wht_img = cfa_obj.rgb_img
del cfa_obj
def load_lfp(self, lfp_path=None, wht_opt=False):
# decode light field image
lfp_obj = lfp_reader.LfpReader(cfg=self.cfg,
sta=self.sta,
lfp_path=lfp_path)
lfp_obj.main()
if wht_opt:
self.wht_img = lfp_obj.lfp_img
else:
self.lfp_img = lfp_obj.lfp_img
del lfp_obj
@staticmethod
def toggle_btn_state(btn):
btn['state'] = tk.DISABLED if btn['state'] != tk.DISABLED else tk.NORMAL
@classmethod
def toggle_btn_list(cls, btn_list):
for btn in btn_list:
cls.toggle_btn_state(btn)
def cfg_change(self):
# disable button activity
self.toggle_btn_list(self.all_btn_list)
# create settings frame
CnfgWidget(self.cfg)
# enable buttons
self.toggle_btn_list(self.all_btn_list)
def stp(self):
''' stop app '''
# set interrupt in status
self.sta.interrupt = True
def qit(self):
''' quit app '''
self.stop_thread()
# destroy tkinter object
self.parent.destroy()
sys.exit()
class CtrlWidget(tk.Frame):
def __init__(self, parent):
# inheritance
tk.Frame.__init__(self, parent)
self.parent = parent
# instantiate status
self.sta = parent.sta
self.sta.bind_to_interrupt(self.stop_thread)
# instantiate config settings
self.cfg = Config()
# instantiate menu widget
self.men_wid = MenuWidget(self)
self.men_wid.grid()
# instantiate config widget
self.fil_wid = FileWidget(self)
self.fil_wid.grid(padx=PX, pady=PY)
# instantiate command widget
self.cmd_wid = CmndWidget(self)
self.cmd_wid.grid(padx=PX, pady=PY)
self.var_init()
def var_init(self):
# image variables
self.lfp_img = None
self.wht_img = None
self.lfp_img_align = None
# threading
self.job_queue = queue.Queue()
self.cur_thread = None
def fetch_paths(self):
# compare config path with path in user interface (detect change)
if self.fil_wid.lfp_wid.ent.get() != self.cfg.params[
self.cfg.lfp_path]:
# pass path to config
self.cfg.params[self.cfg.lfp_path] = self.fil_wid.lfp_wid.path
# reset light field image
self.lfp_img = None
# compare config path with path in user interface (detect change)
if self.fil_wid.cal_wid.ent.get() != self.cfg.params[
self.cfg.cal_path]:
# pass path to config
self.cfg.params[self.cfg.cal_path] = self.fil_wid.cal_wid.path
# reset calibration image
self.wht_img = None
# reset calibration metadata path (if roots in paths do not match)
if dirname(dirname(self.cfg.params[self.cfg.cal_meta])) not in dirname(
self.cfg.params[self.cfg.cal_path]):
self.cfg.params[self.cfg.cal_meta] = ''
# save config to hard drive
self.cfg.save_params()
def start_thread(self, func, cond, *args):
# return value of bound method conditions
cond = cond() if isinstance(cond, types.MethodType) else cond
# start next thread if condition is met
if cond and self.cur_thread is None:
self.cur_thread = threading.Thread(target=func, args=args)
self.cur_thread.start()
def stop_thread(self):
#self.cur_thread.join(POLLING_RATE) if self.cur_thread else None
while not self.job_queue.empty():
self.job_queue.get(True, POLLING_RATE)
self.job_queue.task_done()
# reset member variables
self.var_init()
def poll(self):
if self.cur_thread is not None:
if not self.cur_thread.is_alive():
self.cur_thread.join()
self.cur_thread = None
# any more jobs to do?
elif not self.job_queue.empty():
try:
job_info = self.job_queue.get_nowait() # non-blocking
self.start_thread(*job_info)
except queue.Empty:
pass
elif self.job_queue.empty() and self.cur_thread is None:
# enable button activity
self.toggle_btn_list(self.cmd_wid.btn_list + self.fil_wid.btn_list)
# step out of loop
return True
self.after(POLLING_RATE, self.poll)
def process(self):
# status update
self.sta.status_msg('Starting ...', self.cfg.params[self.cfg.opt_dbug])
self.sta.progress(None, self.cfg.params[self.cfg.opt_dbug])
# reset
self.var_init()
self.sta.interrupt = False
# disable button activity
self.toggle_btn_list(self.cmd_wid.btn_list + self.fil_wid.btn_list)
# read light field photo and calibration source paths
self.fetch_paths()
# safely remove output folder if option is set
misc.rmdir_p(self.cfg.params[self.cfg.lfp_path].split('.')
[0]) if self.cfg.params[self.cfg.dir_remo] else None
# safely create output data folder
misc.mkdir_p(self.cfg.params[self.cfg.lfp_path].split('.')[0],
self.cfg.params[self.cfg.opt_prnt])
# put tasks in the job queue to be run
for task_info in ((self.load_lfp, self.cond0,
self.cfg.params[self.cfg.lfp_path]),
(self.auto_find,
self.cond1), (self.load_lfp, self.cond2,
self.cfg.params[self.cfg.cal_path],
True), (self.cal, self.cond3),
(self.cfg.load_cal_data, True), (self.lfp_align,
self.cond4),
(self.load_pickle_file, True), (self.lfp_extract,
True)):
self.job_queue.put(task_info)
# start polling
self.after(POLLING_RATE, self.poll)
def cond0(self):
return self.lfp_img is None
def cond1(self):
return (isdir(self.cfg.params[self.cfg.cal_path])
or self.cfg.params[self.cfg.cal_path].endswith('.tar'))
def cond2(self):
return not self.cond1()
def cond3(self):
meta_path = self.cfg.params[self.cfg.cal_meta]
return (not (exists(meta_path) and meta_path.endswith('json'))
or self.cfg.params[self.cfg.opt_cali])
def cond4(self):
return not exists(
join(self.cfg.params[self.cfg.lfp_path].split('.')[0],
'lfp_img_align.pkl'))
def lfp_align(self):
# align light field
lfp_obj = lfp_aligner.LfpAligner(self.lfp_img, self.cfg, self.sta,
self.wht_img)
lfp_obj.main()
self.lfp_img_align = lfp_obj.lfp_img
del lfp_obj
def load_pickle_file(self):
# file path
fp = join(self.cfg.params[self.cfg.lfp_path].split('.')[0],
'lfp_img_align.pkl')
try:
# load previously computed light field alignment
self.lfp_img_align = pickle.load(open(fp, 'rb'))
except EOFError:
os.remove(fp)
def lfp_extract(self):
# export light field data
exp_obj = lfp_extractor.LfpExtractor(self.lfp_img_align, self.cfg,
self.sta)
exp_obj.main()
del exp_obj
def cal(self):
# perform centroid calibration
cal_obj = lfp_calibrator.LfpCalibrator(self.wht_img, self.cfg,
self.sta)
cal_obj.main()
self.cfg = cal_obj.cfg
del cal_obj
def auto_find(self):
if self.wht_img is None:
obj = lfp_calibrator.CaliFinder(self.cfg, self.sta)
obj.main()
self.wht_img = obj.wht_img
del obj
def load_lfp(self, lfp_path=None, wht_opt=False):
# decode light field image
lfp_obj = lfp_reader.LfpReader(self.cfg, self.sta, lfp_path)
lfp_obj.main()
if wht_opt:
self.wht_img = lfp_obj.lfp_img
else:
self.lfp_img = lfp_obj.lfp_img
del lfp_obj
@staticmethod
def toggle_btn_state(btn):
btn['state'] = tk.DISABLED if btn['state'] == tk.NORMAL else tk.NORMAL
@classmethod
def toggle_btn_list(cls, btn_list):
for btn in btn_list:
cls.toggle_btn_state(btn)
def cfg_change(self):
# disable button activity
self.toggle_btn_list(self.cmd_wid.btn_list + self.fil_wid.btn_list)
# create settings frame
CnfgWidget(self.cfg)
# enable buttons
self.toggle_btn_list(self.cmd_wid.btn_list + self.fil_wid.btn_list)
def stp(self):
''' stop app '''
# set interrupt in status
self.sta.interrupt = True
def qit(self):
''' quit app '''
self.stop_thread()
# destroy tkinter object
self.parent.destroy()
sys.exit()