def on_item_activated(self, item):
text = item.text()
if text == "..":
self.set_path(os.path.dirname(self.path))
self.fill_store()
return
decode = self.decode_name(text)
if self.decode_name(text).startswith("http"):
webbrowser.open(decode)
return
full_path = os.path.join(self.path, decode)
if os.path.isfile(full_path) == True:
self.file_path = full_path
if self.open_own_files == True:
if isfiletype(full_path, "xls") == True or isfiletype(
full_path, "xlsx") == True or isfiletype(
full_path, "pdf") == True:
desktop_open(full_path)
self.reject.emit()
return
elif isfiletype(full_path, "jpg") == True:
desktop_open(full_path)
self.reject.emit()
return
elif os.path.basename(full_path) == "sim_info.dat":
self.sim_info_window = sim_info(full_path)
self.sim_info_window.show()
self.reject.emit()
return
elif isfiletype(full_path, "dat") == True:
plot_gen([full_path], [], "auto")
self.reject.emit()
return
else:
self.accept.emit()
return
else:
if os.path.isfile(os.path.join(full_path, "mat.inp")) == True:
self.file_path = full_path
gpvdm_file_type = inp_get_token_value(
os.path.join(full_path, "mat.inp"), "#gpvdm_file_type")
if gpvdm_file_type == "spectra":
from spectra_main import spectra_main
self.mat_window = spectra_main(full_path)
self.mat_window.show()
elif gpvdm_file_type == "mat":
from materials_main import materials_main
self.mat_window = materials_main(full_path)
self.mat_window.show()
self.accept.emit()
else:
self.set_path(full_path)
#self.path = full_path
self.fill_store()
def dropEvent(self, event):
if event.mimeData().hasUrls:
event.setDropAction(Qt.CopyAction)
event.accept()
links = []
for url in event.mimeData().urls():
links.append(str(url.toLocalFile()))
if len(links) == 1:
file_name = links[0]
if isfiletype(file_name, "gpvdm") == True:
self.load_sim(file_name)
elif os.path.isdir(file_name) == True:
file_name = os.path.join(file_name, "sim.gpvdm")
if os.path.isfile(file_name) == True:
self.load_sim(file_name)
else:
event.ignore()
def on_item_activated(self,item):
text=item.text()
if text=="..":
if self.path==self.root_dir:
self.set_path("/gpvdmroot")
else:
old_path=self.path
self.set_path(os.path.dirname(self.path))
print(self.path,old_path,os.path.dirname(self.path))
if old_path==self.path:
self.set_path("/gpvdmroot")
self.fill_store()
return
decode=self.decode_name(text)
if decode.startswith("http"):
webbrowser.open(decode)
return
elif decode=="home_dir":
self.set_path(get_home_path())
self.fill_store()
return
elif decode=="desktop_dir":
self.set_path(get_desktop_path())
self.fill_store()
return
elif decode=="gpvdm_configure":
self.set_path("/gpvdmroot/gpvdm_configure")
self.fill_store()
return
elif decode=="music_dir":
self.set_path(get_music_path())
self.fill_store()
return
elif decode=="downloads_dir":
self.set_path(get_downloads_path())
self.fill_store()
return
elif decode=="simulation_dir":
self.set_path(get_sim_path())
self.fill_store()
return
elif decode.startswith("mount_point")==True:
point=decode.split("::::")
self.set_path(point[1])
self.fill_store()
return
elif decode=="gpvdm_cluster_config":
self.win=cluster_config_window(self)
self.win.show()
return
elif decode=="gpvdm_language_config":
self.config_window=class_config_window()
from tab_lang import language_tab_class
self.config_window.files=[ ]
self.config_window.description=[]
self.config_window.init()
lang_tab=language_tab_class()
self.config_window.notebook.addTab(lang_tab,_("Language"))
self.config_window.show()
return
elif decode=="gpvdm_solver_config":
self.config_window=class_config_window()
self.config_window.files=["math.inp"]
self.config_window.description=[_("Solver configuration")]
self.config_window.init()
self.config_window.show()
return
elif decode=="gpvdm_led_config":
self.config_window=class_config_window()
self.config_window.files=["led.inp"]
self.config_window.description=[_("LED")]
self.config_window.init()
self.config_window.show()
return
elif decode=="gpvdm_dump_config":
self.config_window=class_config_window()
self.config_window.files=["dump.inp"]
self.config_window.description=[_("Output files")]
self.config_window.init()
self.config_window.show()
return
elif decode=="gpvdm_gui_config":
self.config_window=class_config_window()
self.config_window.files=["config.inp"]
self.config_window.description=[_("GUI configuration"),]
self.config_window.init()
self.config_window.show()
return
elif decode=="gpvdm_thermal_config":
self.config_window=class_config_window()
self.config_window.files=["thermal.inp"]
self.config_window.description=[_("Thermal")]
self.config_window.init()
self.config_window.show()
return
elif decode=="gpvdm_server_config":
self.config_window=class_config_window()
self.config_window.files=["server.inp"]
self.config_window.description=[_("Server configuration")]
self.config_window.init()
self.config_window.show()
return
full_path=os.path.join(self.path,decode)
if is_mat_file(full_path)==True:
print("mat file!!")
from materials_main import materials_main
self.mat_window=materials_main(full_path)
self.mat_window.show()
return
if os.path.isfile(full_path)==True:
self.file_path=full_path
if self.open_own_files==True:
if os.path.basename(full_path)=="sim_info.dat":
self.sim_info_window=sim_info(full_path)
self.sim_info_window.show()
self.reject.emit()
return
elif isfiletype(full_path,"dat")==True:
plot_gen([full_path],[],"auto")
self.reject.emit()
return
else:
desktop_open(full_path)
self.reject.emit()
return
# else:
# self.accept.emit()
else:
self.accept.emit()
return
else:
if os.path.isfile(os.path.join(full_path,"mat.inp"))==True:
self.file_path=full_path
gpvdm_file_type=inp_get_token_value(os.path.join(full_path,"mat.inp"), "#gpvdm_file_type")
if gpvdm_file_type=="spectra":
from spectra_main import spectra_main
self.mat_window=spectra_main(full_path)
self.mat_window.show()
self.accept.emit()
else:
self.set_path(full_path)
#self.path = full_path
self.fill_store()
def on_item_activated(self, item):
text = item.text()
if text == "..":
if self.path == self.root_dir:
self.set_path("/gpvdmroot")
else:
old_path = self.path
self.set_path(os.path.dirname(self.path))
#print(self.path,old_path,os.path.dirname(self.path))
if old_path == self.path:
self.set_path("/gpvdmroot")
self.fill_store()
return
decode = self.decode_name(text)
full_path = os.path.join(self.path, decode.file_name)
if decode.file_name.startswith("http"):
webbrowser.open(decode)
return
elif decode.file_name == "home_dir":
self.set_path(get_home_path())
self.fill_store()
return
elif decode.file_name == "desktop_dir":
self.set_path(get_desktop_path())
self.fill_store()
return
elif decode.file_name == "gpvdm_configure":
self.set_path("/gpvdmroot/gpvdm_configure")
self.fill_store()
return
elif decode.file_name == "music_dir":
self.set_path(get_music_path())
self.fill_store()
return
elif decode.file_name == "downloads_dir":
self.set_path(get_downloads_path())
self.fill_store()
return
elif decode.file_name == "simulation_dir":
self.set_path(get_sim_path())
self.fill_store()
return
elif decode.file_name.startswith("mount_point") == True:
point = decode.split("::::")
self.set_path(point[1])
self.fill_store()
return
elif decode == "gpvdm_cluster_config":
self.win = cluster_config_window(self)
self.win.show()
return
elif decode.file_name == "gpvdm_language_config":
self.config_window = class_config_window()
from tab_lang import language_tab_class
self.config_window.files = []
self.config_window.description = []
self.config_window.init()
lang_tab = language_tab_class()
self.config_window.notebook.addTab(lang_tab, _("Language"))
self.config_window.show()
return
elif decode.file_name == "gpvdm_solver_config":
self.config_window = class_config_window()
self.config_window.files = ["math.inp"]
self.config_window.description = [_("Solver configuration")]
self.config_window.init()
self.config_window.show()
return
elif decode.file_name == "gpvdm_dump_config":
self.config_window = class_config_window()
self.config_window.files = ["dump.inp"]
self.config_window.description = [_("Output files")]
self.config_window.init()
self.config_window.show()
return
elif decode.file_name == "gpvdm_gui_config":
self.config_window = class_config_window()
self.config_window.files = ["config.inp"]
self.config_window.description = [
_("GUI configuration"),
]
self.config_window.init()
self.config_window.show()
return
elif decode.file_name == "gpvdm_server_config":
self.config_window = class_config_window()
self.config_window.files = ["server.inp"]
self.config_window.description = [_("Server configuration")]
self.config_window.init()
self.config_window.show()
return
elif decode.file_name == "gpvdm_key":
from lock_key_manager import lock_key_manager
from msg_dlg import msg_dlg
self.lock_key_manager = lock_key_manager(
show_text=False,
override_text=_("Please enter your license key:"))
ret = self.lock_key_manager.run()
if ret == QDialog.Accepted:
msgBox = msg_dlg()
msgBox.setText("License updated")
reply = msgBox.exec_()
elif decode.file_name == "gpvdm_cache":
from cache import cache
self.c = cache()
self.c.show()
elif decode.type == "scan_dir":
from scan_tab import scan_vbox
#print(full_path)
self.scan_window = scan_vbox(full_path)
self.scan_window.show()
return
elif decode.type == "parameter_dir":
self.set_path(full_path)
self.fill_store()
return
dir_type = get_dir_type(full_path)
if self.open_own_files == True:
self.file_path = full_path
if dir_type == "spectra":
from spectra_main import spectra_main
self.mat_window = spectra_main(full_path)
self.mat_window.show()
return
if dir_type == "shape":
from shape_editor import shape_editor
self.windows.append(shape_editor(full_path))
self.windows[-1].show()
return
if dir_type == "light":
from optics import class_optical
self.optics_window = class_optical()
self.optics_window.show()
if dir_type == "material":
from materials_main import materials_main
self.mat_window = materials_main(full_path)
self.mat_window.show()
return
if dir_type == "emission":
from emission_main import emission_main
self.emission_window = emission_main(full_path)
self.emission_window.show()
return
if dir_type == "snapshots":
from cmp_class import cmp_class
help_window().help_set_help([
"plot_time.png",
_("<big><b>Examine the results in time domain</b></big><br> After you have run a simulation in time domain, if is often nice to be able to step through the simulation and look at the results. This is what this window does. Use the slider bar to move through the simulation. When you are simulating a JV curve, the slider sill step through voltage points rather than time points."
)
])
self.snapshot_window.append(cmp_class(full_path))
self.snapshot_window[-1].show()
#print("snapshots!!")
return
if dir_type == "backup":
ret = yes_no_dlg(
self,
_("Are you sure you want restore this file from the backup, it will overwrite all files in the simulation directory?"
) + "\n\n" + full_path)
if ret == True:
from backup import backup_restore
backup_restore(get_sim_path(), full_path)
if dir_type == "file":
self.file_path = full_path
if os.path.basename(full_path) == "sim_info.dat":
self.sim_info_window = sim_info(full_path)
self.sim_info_window.show()
return
if isfiletype(full_path, "dat") == True:
text = peek_data(full_path)
if text.startswith(b"#multiplot"):
my_multiplot = multiplot()
my_multiplot.plot(full_path)
else:
plot_gen([full_path], [], "auto")
return
if isfiletype(full_path, "gpvdm") == True:
return
desktop_open(full_path)
return
#self.reject.emit()
if dir_type == "dir" or dir_type == "backup_main" or dir_type == "multi_plot_dir":
self.file_path = full_path
self.set_path(full_path)
self.fill_store()
else:
self.accept.emit()