Ejemplo n.º 1
0
	def changed_click(self):
		if self.notebook.tabText(self.notebook.currentIndex()).strip()==_("Electrical parameters"):
			help_window().help_set_help(["tab.png",_("<big><b>Electrical parameters</b></big><br>Use this tab to configure the electrical parameters for the material.")])
			self.ribbon.tb_save.setEnabled(False)
			self.ribbon.import_data.setEnabled(False)

		if self.notebook.tabText(self.notebook.currentIndex()).strip()==_("Luminescence"):
			help_window().help_set_help(["tab.png",_("<big><b>Luminescence</b></big><br>Use this tab to edit the materials Luminescence.")])
			self.ribbon.tb_save.setEnabled(False)
			self.ribbon.import_data.setEnabled(False)

		if self.notebook.tabText(self.notebook.currentIndex()).strip()==_("Absorption"):
			text=get_ref_text(os.path.join(self.path,"alpha.ref"))
			if text==None:
				text=""
			help_window().help_set_help(["alpha.png",_("<big><b>Absorption</b></big><br>"+text)])
			self.ribbon.tb_save.setEnabled(True)
			self.ribbon.import_data.setEnabled(True)

		if self.notebook.tabText(self.notebook.currentIndex()).strip()==_("Refractive index"):
			text=get_ref_text(os.path.join(self.path,"n.ref"))
			if text==None:
				text=""
			help_window().help_set_help(["n.png",_("<big><b>Refractive index</b></big><br>"+text)])
			self.ribbon.tb_save.setEnabled(True)
			self.ribbon.import_data.setEnabled(True)
Ejemplo n.º 2
0
    def draw_graph(self):
        self.fig.clf()
        self.fig.subplots_adjust(bottom=0.2)
        self.fig.subplots_adjust(left=0.1)
        self.ax1 = self.fig.add_subplot(111)
        self.ax1.ticklabel_format(useOffset=False)

        self.ax1.set_ylabel(self.ylabel)
        if self.x != None:
            x_nm = [x * 1e9 for x in self.x]
            frequency, = self.ax1.plot(x_nm,
                                       self.y,
                                       'ro-',
                                       linewidth=3,
                                       alpha=1.0)

        if os.path.isfile(os.path.join(self.path, self.exp_file)) == True:

            dat_file_read(self.data, os.path.join(self.path, self.exp_file))
            title = get_ref_text(os.path.join(self.path, self.exp_file),
                                 html=False)

            if title != None:
                self.fig.suptitle(title)

            x_nm = [x * 1e9 for x in self.data.y_scale]
            frequency, = self.ax1.plot(x_nm,
                                       self.data.data[0][0],
                                       'bo-',
                                       linewidth=3,
                                       alpha=1.0)

        self.ax1.set_xlabel(_("Wavelength") + " (nm)")
Ejemplo n.º 3
0
    def changed_click(self):

        if self.notebook.tabText(
                self.notebook.currentIndex()).strip() == _("Refractive index"):
            text = get_ref_text(os.path.join(self.path, "n.ref"))
            if text == None:
                text = ""
            help_window().help_set_help(
                ["n.png",
                 _("<big><b>Refractive index</b></big><br>" + text)])
Ejemplo n.º 4
0
 def fill_store(self):
     self.materials.clear()
     print(get_materials_path())
     all_files = find_materials()
     for fl in all_files:
         text = get_ref_text(os.path.join(get_materials_path(), fl,
                                          "n.omat"),
                             html=False)
         if text != None:
             itm = QListWidgetItem(os.path.basename(fl) + " " + text)
             itm.setIcon(self.mat_icon)
             itm.setToolTip(text)
             self.materials.addItem(itm)
Ejemplo n.º 5
0
    def on_selection_changed(self):
        if len(self.selectedItems()) > 0:
            item = self.selectedItems()[0]

            if type(item) != None:
                file_name = self.decode_name(item.text())
                if file_name == None:
                    return

                self.file_path = os.path.join(self.path, file_name)
            return

            if (file_name.endswith(".dat") == True):
                state = dat_file()
                get_plot_file_info(state, full_path)
                summary = "<big><b>" + file_name + "</b></big><br><br>" + _(
                    "title") + ": " + state.title + "<br>" + _(
                        "x axis"
                    ) + ": " + state.x_label + " (" + latex_to_html(
                        state.x_units) + ")<br>" + _(
                            "y axis"
                        ) + ": " + state.data_label + " (" + latex_to_html(
                            state.data_units) + ")<br><br><big><b>" + _(
                                "Double click to open") + "</b></big>"
                help_window().help_set_help(["dat_file.png", summary])

            if file_name.endswith("equilibrium"):
                state = dat_file()
                get_plot_file_info(state, full_path)
                summary = "<big><b>" + _(
                    "equilibrium"
                ) + "</b></big><br><br>" + _(
                    "This contains the simulation output at 0V in the dark.")
                help_window().help_set_help(["folder.png", summary])

            if os.path.isdir(full_path) == True:
                if os.path.isfile(os.path.join(full_path, "mat.inp")):
                    summary = "<b><big>" + file_name + "</b></big><br>"
                    ref_path = os.path.join(full_path, "n.ref")
                    ref = get_ref_text(ref_path)
                    if ref != None:
                        summary = summary + ref
                    help_window().help_set_help(["organic_material", summary])