Exemplo n.º 1
0
class KRCCModule:
  __metaclass__ = ABCMeta

  def __init__(self):
    self._terminate = BooleanVar(False)
    self._id = StringVar(False)

  @property
  def terminate(self):
    return self._terminate.get()

  @terminate.setter
  def terminate(self, value):
    self._terminate.set(value)

  @property
  def id(self):
    return self._id.get()

  @id.setter
  def id(self, value):
    self._id.set(value)

  @abstractproperty
  def name(self):
    pass

  @abstractmethod
  def run(self):
    pass
Exemplo n.º 2
0
    def __init__(self, client):
        # Basic setup
        super(Preferences, self).__init__()
        self.client = client

        # Setup the variables used
        self.echo_input = BooleanVar()
        self.echo_input.set(self.client.config['UI'].getboolean('echo_input'))
        self.echo_input.trace("w", self.echo_handler)
        self.logging = BooleanVar()
        self.logging.set(self.client.config['logging'].getboolean('log_session'))
        self.logging.trace('w', self.logging_handler)
        self.log_dir = self.client.config['logging']['log_directory']

        # Build the actual window and widgets
        prefs = Toplevel(self)
        prefs.wm_title("Preferences")
        echo_input_label = Label(prefs, text="Echo Input:")
        logging_label = Label(prefs, text='Log to file:')
        echo_checkbox = Checkbutton(prefs, variable=self.echo_input)
        logging_checkbox = Checkbutton(prefs, variable=self.logging)
        logging_button_text = 'Choose file...' if self.log_dir == "" else self.log_dir
        logging_button = Button(prefs, text=logging_button_text, command=self.logging_pick_location)

        # Pack 'em in.
        echo_input_label.grid(row=0, column=0)
        echo_checkbox.grid(row=0, column=1)
        logging_label.grid(row=1, column=0)
        logging_checkbox.grid(row=1, column=1)
        logging_button.grid(row=1, column=2)
Exemplo n.º 3
0
 def test_invalid_value_domain(self):
     v = BooleanVar(self.root, name="name")
     self.root.globalsetvar("name", "value")
     with self.assertRaises(ValueError):
         v.get()
     self.root.globalsetvar("name", "1.0")
     with self.assertRaises(ValueError):
         v.get()
Exemplo n.º 4
0
 def __init__(self, modelXbrl, tabWin, lang):
     super(ViewRenderedGrid, self).__init__(modelXbrl, tabWin, "Rendering", True, lang)
     self.newFactItemOptions = ModelInstanceObject.NewFactItemOptions(xbrlInstance=modelXbrl)
     self.factPrototypes = []
     self.zOrdinateChoices = None
     # context menu Boolean vars
     self.ignoreDimValidity = BooleanVar(value=True)
     self.xAxisChildrenFirst = BooleanVar(value=True)
     self.yAxisChildrenFirst = BooleanVar(value=False)
Exemplo n.º 5
0
 def __init__(self, modelXbrl, tabWin, lang):
     super(ViewRenderedGrid, self).__init__(modelXbrl, tabWin, "Rendering", True, lang)
     self.newFactItemOptions = ModelInstanceObject.NewFactItemOptions(xbrlInstance=modelXbrl)
     self.factPrototypes = []
     self.zOrdinateChoices = None
     # context menu Boolean vars
     self.options = self.modelXbrl.modelManager.cntlr.config.setdefault("viewRenderedGridOptions", {})
     self.ignoreDimValidity = BooleanVar(value=self.options.setdefault("ignoreDimValidity",True))
     self.xAxisChildrenFirst = BooleanVar(value=self.options.setdefault("xAxisChildrenFirst",True))
     self.yAxisChildrenFirst = BooleanVar(value=self.options.setdefault("yAxisChildrenFirst",False))
Exemplo n.º 6
0
def validateTableInfosetMenuEntender(cntlr, validateMenu):
    # Extend menu with an item for the save infoset plugin
    cntlr.modelManager.generateTableInfoset = cntlr.config.setdefault("generateTableInfoset",False)
    from tkinter import BooleanVar
    generateTableInfoset = BooleanVar(value=cntlr.modelManager.generateTableInfoset)
    def setTableInfosetOption(*args):
        cntlr.config["generateTableInfoset"] = cntlr.modelManager.generateTableInfoset = generateTableInfoset.get()
    generateTableInfoset.trace("w", setTableInfosetOption)
    validateMenu.add_checkbutton(label=_("Generate table infosets (instead of diffing them)"), 
                                 underline=0, 
                                 variable=generateTableInfoset, onvalue=True, offvalue=False)
Exemplo n.º 7
0
    def __init__(self, root):
        '''Initialize Variables that save search state.

        The dialogs bind these to the UI elements present in the dialogs.
        '''
        self.root = root  # need for report_error()
        self.patvar = StringVar(root, '')   # search pattern
        self.revar = BooleanVar(root, False)   # regular expression?
        self.casevar = BooleanVar(root, False)   # match case?
        self.wordvar = BooleanVar(root, False)   # match whole word?
        self.wrapvar = BooleanVar(root, True)   # wrap around buffer?
        self.backvar = BooleanVar(root, False)   # search backwards?
Exemplo n.º 8
0
 def __init__(self, modelXbrl, tabWin, lang):
     super(ViewRenderedGrid, self).__init__(modelXbrl, tabWin, "Table", True, lang)
     self.newFactItemOptions = ModelInstanceObject.NewFactItemOptions(xbrlInstance=modelXbrl)
     self.factPrototypes = []
     self.aspectEntryObjectIdsNode = {}
     self.aspectEntryObjectIdsCell = {}
     self.factPrototypeAspectEntryObjectIds = defaultdict(set)
     self.zOrdinateChoices = None
     # context menu Boolean vars
     self.options = self.modelXbrl.modelManager.cntlr.config.setdefault("viewRenderedGridOptions", {})
     self.openBreakdownLines = self.options.setdefault("openBreakdownLines", 5) # ensure there is a default entry
     self.ignoreDimValidity = BooleanVar(value=self.options.setdefault("ignoreDimValidity",True))
     self.xAxisChildrenFirst = BooleanVar(value=self.options.setdefault("xAxisChildrenFirst",True))
     self.yAxisChildrenFirst = BooleanVar(value=self.options.setdefault("yAxisChildrenFirst",False))
Exemplo n.º 9
0
class Preferences(Frame):
    def __init__(self, client):
        # Basic setup
        super(Preferences, self).__init__()
        self.client = client

        # Setup the variables used
        self.echo_input = BooleanVar()
        self.echo_input.set(self.client.config['UI'].getboolean('echo_input'))
        self.echo_input.trace("w", self.echo_handler)
        self.logging = BooleanVar()
        self.logging.set(self.client.config['logging'].getboolean('log_session'))
        self.logging.trace('w', self.logging_handler)
        self.log_dir = self.client.config['logging']['log_directory']

        # Build the actual window and widgets
        prefs = Toplevel(self)
        prefs.wm_title("Preferences")
        echo_input_label = Label(prefs, text="Echo Input:")
        logging_label = Label(prefs, text='Log to file:')
        echo_checkbox = Checkbutton(prefs, variable=self.echo_input)
        logging_checkbox = Checkbutton(prefs, variable=self.logging)
        logging_button_text = 'Choose file...' if self.log_dir == "" else self.log_dir
        logging_button = Button(prefs, text=logging_button_text, command=self.logging_pick_location)

        # Pack 'em in.
        echo_input_label.grid(row=0, column=0)
        echo_checkbox.grid(row=0, column=1)
        logging_label.grid(row=1, column=0)
        logging_checkbox.grid(row=1, column=1)
        logging_button.grid(row=1, column=2)

    def logging_pick_location(self):
        location = askdirectory(initialdir="%UserProfile%\Documents\\")
        self.client.config['logging']['log_directory'] = location
        self.write_config()

    def echo_handler(self, arg1, arg2, mode):
        pprint(self.echo_input.get())
        self.client.config['UI']['echo_input'] = 'yes' if self.echo_input.get() else 'no'
        self.write_config()

    def logging_handler(self, arg1, arg2, mode):
        self.client.config['logging']['log_session'] = 'yes' if self.logging.get else 'no'
        self.write_config()

    def write_config(self, file='config.ini'):
        self.client.config.write(open(file, 'w'))
Exemplo n.º 10
0
 def __init__(self, title="", message="", button="Ok", image=None,
              checkmessage="", style="clam", **options):
     """
         Create a messagebox with one button and a checkbox below the button:
             parent: parent of the toplevel window
             title: message box title
             message: message box text
             button: message displayed on the button
             image: image displayed at the left of the message
             checkmessage: message displayed next to the checkbox
             **options: other options to pass to the Toplevel.__init__ method
     """
     Tk.__init__(self, **options)
     self.resizable(False, False)
     self.title(title)
     s = Style(self)
     s.theme_use(style)
     if image:
         Label(self, text=message, wraplength=335,
               font="Sans 11", compound="left",
               image=image).grid(row=0, padx=10, pady=(10, 0))
     else:
         Label(self, text=message, wraplength=335,
               font="Sans 11").grid(row=0, padx=10, pady=(10, 0))
     b = Button(self, text=button, command=self.destroy)
     b.grid(row=2, padx=10, pady=10)
     self.var = BooleanVar(self)
     c = Checkbutton(self, text=checkmessage, variable=self.var)
     c.grid(row=1, padx=10, pady=0, sticky="e")
     self.grab_set()
     b.focus_set()
     self.wait_window(self)
Exemplo n.º 11
0
    def init_widgets(self):
        # file selector
        self.btn_file_select = Button(self, text="Select file", command=self.on_select)
        self.btn_file_select.grid(column=0, row=0, columnspan=2)

        # filename
        self.filename, self.e_filename, self.l_filename = make_entry(self, "File name: ", 1)


        # delimiter
        self.delimiter, self.e_delimiter, self.l_delimiter = make_entry(self, "Delimiter: ", 2)

        # has_header
        self.l_has_header = ttk.Label(self, text="Has header: ")
        self.l_has_header.grid(column=0, row=3, sticky=W)
        self.has_header = BooleanVar()
        self.e_has_header = ttk.Checkbutton(self, variable=self.has_header)
        self.e_has_header.grid(column=1, row=3, sticky=W)

        # sheet_name
        self.sheet_name, self.e_sheet_name, self.l_sheet_name = make_entry(self, "Sheet name: ", 4)

        # x_offset
        self.x_offset, self.e_x_offset, self.l_x_offset = make_entry(self, "X offset: ", 5)


        # y_offset
        self.y_offset, self.e_y_offset, self.l_y_offset = make_entry(self, "Y offset: ", 6)
Exemplo n.º 12
0
 def build_widgets(self):
     "Build the various widgets that will be used in the program."
     # Create processing frame widgets.
     self.processing_frame = LabelFrame(self, text='Processing Mode:')
     self.mode_var = StringVar(self, 'encode')
     self.decode_button = Radiobutton(self.processing_frame,
                                      text='Decode Cipher-Text',
                                      command=self.handle_radiobuttons,
                                      value='decode',
                                      variable=self.mode_var)
     self.encode_button = Radiobutton(self.processing_frame,
                                      text='Encode Plain-Text',
                                      command=self.handle_radiobuttons,
                                      value='encode',
                                      variable=self.mode_var)
     self.freeze_var = BooleanVar(self, False)
     self.freeze_button = Checkbutton(self.processing_frame,
                                      text='Freeze Key & Primer',
                                      command=self.handle_checkbutton,
                                      offvalue=False,
                                      onvalue=True,
                                      variable=self.freeze_var)
     # Create encoding frame widgets.
     self.encoding_frame = LabelFrame(self, text='Encoding Options:')
     self.chain_size_label = Label(self.encoding_frame, text='Chain Size:')
     self.chain_size_entry = Entry(self.encoding_frame)
     self.plain_text_label = Label(self.encoding_frame, text='Plain-Text:')
     self.plain_text_entry = Entry(self.encoding_frame)
     # Create input frame widgets.
     self.input_frame = LabelFrame(self, text='Input Area:')
     self.input_text = ScrolledText(self.input_frame, **self.TEXT)
     # Create output frame widgets.
     self.output_frame = LabelFrame(self, text='Output Area:')
     self.output_text = ScrolledText(self.output_frame, **self.TEXT)
Exemplo n.º 13
0
    def init_widgets(self):
        # file selector
        self.btn_file_select=Button(self, text="Select file",command=self.on_select)
        self.btn_file_select.grid(column=0, row=0, columnspan=2)
        # filename
        self.filename, self.e_filename, self.l_filename = make_entry(self,"File name: ", 1)

        # delimiter
        self.delimiter, self.e_delimiter, self.l_delimiter = make_entry(self,"Delimiter: ", 2)

        # has_header
        self.l_has_header = ttk.Label(self, text="Has header: ")
        self.l_has_header.grid(column=0, row=3, sticky=W)
        self.has_header = BooleanVar()
        self.e_has_header = ttk.Checkbutton(self, variable=self.has_header)
        self.e_has_header.grid(column=1, row=3, sticky=W)

        # csv_dialect
        self.csv_dialect, self.e_csv_dialect, self.l_csv_dialect = make_entry(self,"CSV dialect: ", 4)

        # quoting
        self.quoting, self.e_quoting, self.l_quoting = make_entry(self, "Quoting: ", 5)

        # escapechar
        self.escapechar, self.e_escapechar, self.l_escapechar = make_entry(self, "Escape character: ", 6)

        # lineterminator
        self.lineterminator, self.e_lineterminator, self.l_lineterminator = make_entry(self, "Line terminator: ", 7)

        # quotechar
        self.quotechar, self.e_quotechar, self.l_quotechar = make_entry(self, "Quote character: ", 8)

        # skipinitialspace
        self.skipinitialspace, self.e_skipinitialspace, self.l_skipinitialspace = make_entry(self, "Skip initial space: ", 9)
Exemplo n.º 14
0
    def __init__(self, _master, _mapping = None,
                 _on_get_source_references = None,
                 _on_get_destination_references = None,
                 _on_select = None):
        super(FrameMapping, self).__init__(_master)


        # Add monitored variables.
        self.is_key = BooleanVar()
        self.src_reference = StringVar()
        self.src_datatype = StringVar()
        self.curr_data = StringVar()

        self.result_cast_to = StringVar()
        self.preview = StringVar()

        self.dest_reference = StringVar()

        self.on_get_source_references = _on_get_source_references
        self.on_get_destination_references = _on_get_destination_references

        self.on_select = _on_select
        self.init_widgets()

        self.mapping = _mapping



        if _mapping is not None:
            self.mapping_to_gui()
Exemplo n.º 15
0
 def initData(self):
    self.browseInitialDir = def_initialDir
    
    self.recentFile = def_recentFile
    
    self.menuOutputAudio = StringVar()
    self.menuOutputAudio.set(def_menuOutputAudio)
    
    self.menuVideoRefresh = BooleanVar()
    self.menuVideoRefresh.set(def_menuVideoRefresh)
    
    self.menuBgBlack = BooleanVar()
    self.menuBgBlack.set(def_menuBgBlack)
    
    self.maxRecentVideos = def_maxRecentVideos
    
    self.moreOptions = def_moreOptions
    
    self.playProcess = None
Exemplo n.º 16
0
def addValidateMenuTools(cntlr, validateMenu, name, map_name):
    # Extend menu with an item for the save infoset plugin
    attr_name = 'validate{}'.format(name.strip())
    attr_value = cntlr.config.setdefault(attr_name, False)
    setattr(cntlr.modelManager, attr_name, attr_value)
    #cntlr.modelManager.validateDQC = cntlr.config.setdefault("validateDQC",False)
    from tkinter import BooleanVar
    validate_var = BooleanVar(value=getattr(cntlr.modelManager, attr_name))
    
    def setValidateXuleOption(*args):
        setattr(cntlr.modelManager, attr_name, validate_var.get())
        cntlr.config[attr_name] = getattr(cntlr.modelManager, attr_name)
        
    validate_var.trace("w", setValidateXuleOption)
    validateMenu.add_checkbutton(label=_("{} Rules".format(name)), 
                                 underline=0, 
                                 variable=validate_var, onvalue=True, offvalue=False)


    xuleRegisterValidators(name, map_name, validate_var)
Exemplo n.º 17
0
    def __init__(self, *args, **kwargs):
        Tk.__init__(self, *args, **kwargs)

        # Set window title
        self.wm_title('Plastey Configurator')

        # Create GUI driven variables
        self._mode       = BooleanVar()
        self._base       = BooleanVar()
        self._comm       = BooleanVar()
        self._pass       = StringVar()
        self._addressed  = StringVar()
        self._connected  = StringVar()
        self._this_host  = StringVar()
        self._this_port  = StringVar()
        self._other_host = StringVar()
        self._other_port = StringVar()

        # Create GUI
        self._build_gui()

        # Set default values for GUI driven variables
        self._mode.set(MODE_SINGLE_PLAYER)
        self._base.set(BASE_OPENED_GEOMETRY)
        self._comm.set(COMM_SOCKET_SERVER)
        self._pass.set('')
        self._addressed.set(ADDR_HAVE_ADDRESS if check(COMM_THIS_HOST) else ADDR_NO_ADDRESS)
        self._connected.set(CONN_NOT_CONNECTED)
        self._this_host.set(COMM_THIS_HOST)
        self._this_port.set(COMM_THIS_PORT)
        self._other_host.set(COMM_THIS_HOST)
        self._other_port.set(COMM_OTHER_PORT)

        # Follow changes on password
        self._pass.trace('w', self._on_bind_address)

        # Create folder structures if they don't exists yet
        makedirs(FILE_TEMPORARY_FOLDER,  exist_ok=True)
        makedirs(FILE_PERMANENT_FOLDER,  exist_ok=True)
        makedirs(FILE_TEMP_SAVE_FOLDER,  exist_ok=True)
        makedirs(FILE_AUTO_SAVE_FOLDER,  exist_ok=True)
Exemplo n.º 18
0
 def __init__(self, parent):
     Frame.__init__(self, parent)
     self.parent = parent
     self.pack(fill=BOTH, expand=True)
     self.parent.title("youtube-dl GUI")
     # Initialise variables
     self._extract_audio = BooleanVar()
     self._video_url = StringVar()
     self._output_path = StringVar()
     # Initialise
     self._logger = LogWindow(self)
     self._init_ui()
Exemplo n.º 19
0
    def __init__(self, pype, toplevel=False, filename=False, num_sequences=10,
                 run_tag=''):
        '''
        '''
        self.pype = pype
        self.toplevel = toplevel

        self.keep_runningVar = BooleanVar(value=True)
        self.extend_runVar = BooleanVar(value=False)
        self.run_typeVar = StringVar(value="/tmp/")
        self.run_tagVar = StringVar(value=run_tag)
        self.num_sequencesVar = IntVar(value=num_sequences)
        self.sequence_spacingVar = DoubleVar(value=0)
        self.len_sequenceVar = DoubleVar()
        self.stateVar = StringVar(value='done')
        self.conf_filename = StringVar(value='')
        self.params = {}
        self.runthread = multiprocessing.Process()

        self._GetParamFuncs()
        if toplevel:
            self._BuildGui()
Exemplo n.º 20
0
 def test_invalid_value_domain(self):
     false = 0 if self.root.wantobjects() else "0"
     v = BooleanVar(self.root, name="name")
     with self.assertRaises(TclError):
         v.set("value")
     self.assertEqual(self.root.globalgetvar("name"), false)
     self.root.globalsetvar("name", "value")
     with self.assertRaises(ValueError):
         v.get()
     self.root.globalsetvar("name", "1.0")
     with self.assertRaises(ValueError):
         v.get()
Exemplo n.º 21
0
Arquivo: grep.py Projeto: 1st1/cpython
    def __init__(self, root, engine, flist):
        """Create search dialog for searching for a phrase in the file system.

        Uses SearchDialogBase as the basis for the GUI and a
        searchengine instance to prepare the search.

        Attributes:
            globvar: Value of Text Entry widget for path to search.
            recvar: Boolean value of Checkbutton widget
                    for traversing through subdirectories.
        """
        SearchDialogBase.__init__(self, root, engine)
        self.flist = flist
        self.globvar = StringVar(root)
        self.recvar = BooleanVar(root)
Exemplo n.º 22
0
    def __createWidgets(self):
        """
            @ brief
                create the widgets
                """
        Label(self, text="input dictionary tree: ").grid(row=0, column=0, sticky=W)

        self.dict_with_label = BooleanVar()
        Checkbutton(self, text="label edge", variable=self.dict_with_label).grid(row=0, column=0, sticky=E)

        self.source_text = Text(self, width=40, wrap=WORD)
        self.source_text.grid(row=1, column=0, sticky=W)

        Button(self, text="visual tree", command=self.__submitSource).grid(row=2, column=0, sticky=W)

        Button(self, text="clear", command=self.__clearText).grid(row=2, column=0, sticky=E)
Exemplo n.º 23
0
 def test_get(self):
     v = BooleanVar(self.root, True, "name")
     self.assertIs(v.get(), True)
     self.root.globalsetvar("name", "0")
     self.assertIs(v.get(), False)
     self.root.globalsetvar("name", 42 if self.root.wantobjects() else 1)
     self.assertIs(v.get(), True)
     self.root.globalsetvar("name", 0)
     self.assertIs(v.get(), False)
     self.root.globalsetvar("name", "on")
     self.assertIs(v.get(), True)
Exemplo n.º 24
0
class Application(Frame):
    "application frame"

    def __init__(self, master):
        """
         @ brief
             initialize the frame with master
         @ params
             self    -- new instance
             master  -- root container
             """
        super(Application, self).__init__(master)

        self.grid()
        self.__createWidgets()

    def __createWidgets(self):
        """
            @ brief
                create the widgets
                """
        Label(self, text="input dictionary tree: ").grid(row=0, column=0, sticky=W)

        self.dict_with_label = BooleanVar()
        Checkbutton(self, text="label edge", variable=self.dict_with_label).grid(row=0, column=0, sticky=E)

        self.source_text = Text(self, width=40, wrap=WORD)
        self.source_text.grid(row=1, column=0, sticky=W)

        Button(self, text="visual tree", command=self.__submitSource).grid(row=2, column=0, sticky=W)

        Button(self, text="clear", command=self.__clearText).grid(row=2, column=0, sticky=E)

    def __submitSource(self):
        "listener for visual button"
        source = self.source_text.get("1.0", END)
        if "" != source:
            current_view = Draw(self)
            current_view.initDot()
            current_view.setSource(source, self.dict_with_label.get())
            current_view.show()

    def __clearText(self):
        "clear button callback"
        self.source_text.delete(0.0, END)
Exemplo n.º 25
0
    def __init__(self, pype, toplevel=False, **runargs):
        '''
        '''
        self.pype = pype
        self.runargs = runargs
        self.toplevel = toplevel
        self.sweep_result = {}

        self.powerVar = DoubleVar(value=20) #dBm
        self.set_power_BoolVar = BooleanVar(value=True)
        self.start_freq_Var = DoubleVar(value=26350) #MHz
        self.stop_freq_Var = DoubleVar(value=26600) #MHz
        self.start_search_freq_Var = DoubleVar(value=26450) #MHz
        self.stop_search_freq_Var = DoubleVar(value=26510) #MHz
        self.sweep_time_Var = DoubleVar(value=15) #s
        self.num_points_Var = IntVar(value=400) #ms
        self.spanVar = DoubleVar(value=100)
        self.stepVar = DoubleVar(value=4)
        #self.fit_channel_Var = StringVar(value='xdata')
        self.result_str_Var = StringVar(value='')

        self._BuildGui()
Exemplo n.º 26
0
 def test_default(self):
     v = BooleanVar(self.root)
     self.assertIs(v.get(), False)
Exemplo n.º 27
0
    def build_parsing_book_groups(self):
        """
        Функция отвечающая за наполнение подвкладки "Парсинг по группам"
        вкладки "Парсинг"
        :return:
        """
        left_frame = ttk.Frame(self.parsing_book_groups,
                               relief='solid',
                               borderwidth=1,
                               padding=1)
        right_frame = ttk.Frame(self.parsing_book_groups, padding=5)
        left_frame.grid(row=0, column=0, sticky='NSWE', padx=3, pady=3)
        right_frame.grid(row=0, column=1, sticky='NSWE', padx=3, pady=3)

        lbl_progress = ttk.Label(self.parsing_book_groups, font=fonts.H6_FONT)
        progressbar = ttk.Progressbar(self.parsing_book_groups,
                                      orient='vertical',
                                      mode='determinate',
                                      maximum=PROGRESSBAR_MAX,
                                      value=0)
        lbl_progress.grid(row=1, column=0, columnspan=2, pady=5, sticky='SWE')
        progressbar.grid(row=2, column=0, columnspan=2, pady=5, sticky='SWE')

        #####################---------LEFT_FRAME---------#####################

        var_easy_parse = BooleanVar()
        var_easy_parse.set(0)

        #  row 0
        lbl_count = ttk.Label(left_frame,
                              font=fonts.H1_FONT,
                              text='Количество: 0')

        #  row 1
        check_easy_parse = ttk.Checkbutton(
            left_frame,
            variable=var_easy_parse,
            text='Отключить сбор доп. данных(Дальнейший парсинг по выборке '
            'недоступен)',
            onvalue=1,
            offvalue=0)

        #  row 2
        txt_groups = Text(left_frame,
                          wrap='word',
                          font=fonts.TEXT_FONT,
                          foreground=styles.FOREGROUND_TEXT,
                          background=styles.BACKGROUND_TEXT)

        #  row 3
        lbl_warning = ttk.Label(
            left_frame,
            foreground='#e10000',
            font=fonts.H6_FONT,
            text='Вводите исключительно ссылки на группы. И вводите через '
            '"Enter"\nСкопировать Ctrl + C. Вставить Ctrl + V. Не иначе!')

        #####################---------RIGHT_FRAME---------#####################

        btn_parse = ttk.Button(right_frame, text='Парсить')
        btn_up_count = ttk.Button(right_frame,
                                  text='Обновить кол-во',
                                  cursor='exchange')
        btn_paste = ttk.Button(right_frame, text='Вставить из буфера')
        btn_show_all = ttk.Button(right_frame, text='Все записи')

        widgets = {
            'right_frame': right_frame,
            'left_frame': left_frame,
            'lbl_count': lbl_count,
            'var_easy_parse': var_easy_parse,
            'txt_groups': txt_groups,
            'lbl_progress': lbl_progress,
            'btn_paste': btn_paste,
            'progressbar': progressbar
        }

        ####################-------------GRID-------------####################

        #  left_frame
        #  row 0
        lbl_count.grid(row=0, column=0, sticky='NSWE')
        #  row 1
        check_easy_parse.grid(row=1, column=0, sticky='SWE', pady=7)
        #  row 2
        txt_groups.grid(row=2, column=0, sticky='NSWE')
        #  row 3
        lbl_warning.grid(row=3, column=0, sticky='SWE')

        # right_frame
        #  row 0
        btn_parse.grid(row=0, column=0, sticky='NWE', pady=5)
        #  row 1
        btn_up_count.grid(row=1, column=0, sticky='NWE')
        #  row 2
        btn_paste.grid(row=2, column=0, sticky='NWE', pady=5)
        #  row 3
        btn_show_all.grid(row=3, column=0, sticky='NWE')

        left_frame.rowconfigure(2, weight=1)
        left_frame.columnconfigure(0, weight=1)

        right_frame.columnconfigure(0, weight=1)

        self.parsing_book_groups.rowconfigure(0, weight=1)
        self.parsing_book_groups.columnconfigure(0, weight=9)
        self.parsing_book_groups.columnconfigure(1, weight=1)

        btn_show_all.bind('<Button-1>',
                          lambda event: TreeViewWindow(method='view'))
        btn_up_count.bind(
            '<Button-1>', lambda event: FunctionsForWindows.
            update_label_count_group(widgets))
        btn_paste.bind(
            '<Button-1>',
            lambda event: paste_into_widget(widget=txt_groups, text=True))
        btn_parse.bind(
            '<Button-1>',
            lambda event: FunctionsForWindows().parsing_groups(widgets))
Exemplo n.º 28
0
 def test_get(self):
     v = BooleanVar(self.root, True, "name")
     self.assertAlmostEqual(True, v.get())
     self.root.globalsetvar("name", "0")
     self.assertAlmostEqual(False, v.get())
Exemplo n.º 29
0
class SensorControl(Tk):
    def __init__(self,
                 screenName=None,
                 baseName=None,
                 useTk=1,
                 sync=0,
                 use=None):
        super().__init__(screenName=screenName,
                         baseName=baseName,
                         useTk=useTk,
                         sync=sync,
                         use=use)

        #######################################################################
        # Attributes ----------------------------------------------------------
        self.age = ['User', 'User']
        self.sex = ['User', 'User']
        self.height = ['User', 'User']
        self.weight = ['User', 'User']
        self.is_streaming = False
        self.is_displaying = False

        self.frame_count = 0
        self.time_stamp_tmp = 0
        self.depth_frame_tmp = 0
        self.rgb_frame_tmp = 0

        self.activity = StringVar()
        self.activity1 = StringVar()
        self.sensor_ignore = BooleanVar()
        self.buffer_ignore = BooleanVar()
        self.debug_mode = BooleanVar()

        # Clients
        self.kinect_client = PahoMqtt(BROKER, "KINECT", c_msg="kinect")
        self.kinect_client.loop_start()
        self.sound_client = PahoMqtt(BROKER, "SOUND", c_msg="sound")
        self.sound_client.loop_start()
        self.clients = list()
        dis = 0
        for i, item in enumerate(SENSORS):
            if item[2]:
                self.clients.append(
                    PahoMqtt(BROKER, f"{item[1]}", c_msg=item[0]))
                self.clients[i - dis].subscribe(item[0])
                self.clients[i - dis].loop_start()
            else:
                dis += 1

        # Attributes ----------------------------------------------------------
        #######################################################################
        # Tk widgets ----------------------------------------------------------

        self.title("Control")
        self.resizable(0, 0)
        self.configure(bg='white')

        # Sensor Frame 1
        self.sensor_frame1 = LabelFrame(self,
                                        text="Sensor control",
                                        background='white')
        self.sensor_frame1.pack(side=LEFT, fill="y")

        self.sensor_state = list()
        for item in self.clients:
            self.sensor_state.append(
                Label(self.sensor_frame1,
                      text=f"SENSOR {item.info}",
                      background='white',
                      font=("default", 15, 'bold')))
            self.sensor_state[-1].grid(row=len(self.sensor_state), column=0)

        self.start_btn = ttk.Button(self.sensor_frame1,
                                    text="Refresh",
                                    command=self.refresh)
        self.start_btn.grid(row=len(self.clients) + 1, column=0)

        # Stream Frame 2
        self.sensor_frame2 = LabelFrame(self,
                                        text="Person 1",
                                        background='white')
        self.sensor_frame2.pack(side=LEFT, fill="y")
        self.user_age = Label(self.sensor_frame2,
                              text="Age",
                              background='white',
                              font=("default", 10, 'bold'))
        self.user_age.grid(row=0, column=0)
        self.age_label = Label(self.sensor_frame2,
                               text=self.age[0],
                               background='white',
                               font=("default", 10, 'bold'))
        self.age_label.grid(row=0, column=1)
        self.user_sex = Label(self.sensor_frame2,
                              text="Sex",
                              background='white',
                              font=("default", 10, 'bold'))
        self.user_sex.grid(row=1, column=0)
        self.sex_label = Label(self.sensor_frame2,
                               text=self.sex[0],
                               background='white',
                               font=("default", 10, 'bold'))
        self.sex_label.grid(row=1, column=1)
        self.user_height = Label(self.sensor_frame2,
                                 text="Height",
                                 background='white',
                                 font=("default", 10, 'bold'))
        self.user_height.grid(row=2, column=0)
        self.height_label = Label(self.sensor_frame2,
                                  text=self.height[0],
                                  background='white',
                                  font=("default", 10, 'bold'))
        self.height_label.grid(row=2, column=1)
        self.user_weight = Label(self.sensor_frame2,
                                 text="Weight",
                                 background='white',
                                 font=("default", 10, 'bold'))
        self.user_weight.grid(row=3, column=0)
        self.weight_label = Label(self.sensor_frame2,
                                  text=self.weight[0],
                                  background='white',
                                  font=("default", 10, 'bold'))
        self.weight_label.grid(row=3, column=1)

        self.activity_menu = ttk.Combobox(self.sensor_frame2,
                                          value=ACTIVITIES,
                                          textvariable=self.activity)
        self.activity_menu.current(0)
        self.activity_menu.config(state="readonly", width=15)
        self.activity_menu.bind("<<ComboboxSelected>>")
        self.activity_menu.grid(row=4, column=0, columnspan=2, pady=5)

        self.stream_start_btn = ttk.Button(self.sensor_frame2,
                                           text="Stream start",
                                           command=self.stream_start,
                                           width=11)
        self.stream_start_btn.grid(row=5, column=0, padx=2, pady=2)
        self.stream_stop_btn = ttk.Button(self.sensor_frame2,
                                          text="Stream stop",
                                          command=self.stream_stop,
                                          width=11)
        self.stream_stop_btn["state"] = DISABLED
        self.stream_stop_btn.grid(row=5, column=1, padx=2, pady=2)

        self.stream_reset_btn = ttk.Button(
            self.sensor_frame2,
            text="Stream reset",
            command=lambda: self.stream_reset(delete=True),
            width=11)
        self.stream_reset_btn["state"] = DISABLED
        self.stream_reset_btn.grid(row=7, column=1, padx=2, pady=2)

        self.stream_save_btn = ttk.Button(self.sensor_frame2,
                                          text="Stream save",
                                          command=self.stream_save,
                                          width=11)
        self.stream_save_btn["state"] = DISABLED
        self.stream_save_btn.grid(row=7, column=0, padx=2, pady=2)

        self.act_start_btn = ttk.Button(self.sensor_frame2,
                                        text="Activity start",
                                        command=lambda: self.activity_start(0),
                                        width=11)
        self.act_start_btn["state"] = DISABLED
        self.act_start_btn.grid(row=6, column=0, padx=2, pady=5)

        self.act_end_btn = ttk.Button(self.sensor_frame2,
                                      text="Activity end",
                                      command=lambda: self.activity_end(0),
                                      width=11)
        self.act_end_btn["state"] = DISABLED
        self.act_end_btn.grid(row=6, column=1, padx=2, pady=5)

        ###################################################################################
        # Stream Frame 3
        self.sensor_frame3 = LabelFrame(self,
                                        text="Person 2",
                                        background='white')
        self.sensor_frame3.pack(side=LEFT, fill="y")
        self.user1_age = Label(self.sensor_frame3,
                               text="Age",
                               background='white',
                               font=("default", 10, 'bold'))
        self.user1_age.grid(row=0, column=0)
        self.age1_label = Label(self.sensor_frame3,
                                text=self.age[1],
                                background='white',
                                font=("default", 10, 'bold'))
        self.age1_label.grid(row=0, column=1)
        self.user1_sex = Label(self.sensor_frame3,
                               text="Sex",
                               background='white',
                               font=("default", 10, 'bold'))
        self.user1_sex.grid(row=1, column=0)
        self.sex1_label = Label(self.sensor_frame3,
                                text=self.sex[1],
                                background='white',
                                font=("default", 10, 'bold'))
        self.sex1_label.grid(row=1, column=1)
        self.user1_height = Label(self.sensor_frame3,
                                  text="Height",
                                  background='white',
                                  font=("default", 10, 'bold'))
        self.user1_height.grid(row=2, column=0)
        self.height1_label = Label(self.sensor_frame3,
                                   text=self.height[1],
                                   background='white',
                                   font=("default", 10, 'bold'))
        self.height1_label.grid(row=2, column=1)
        self.user1_weight = Label(self.sensor_frame3,
                                  text="Weight",
                                  background='white',
                                  font=("default", 10, 'bold'))
        self.user1_weight.grid(row=3, column=0)
        self.weight1_label = Label(self.sensor_frame3,
                                   text=self.weight[1],
                                   background='white',
                                   font=("default", 10, 'bold'))
        self.weight1_label.grid(row=3, column=1)

        self.activity1_menu = ttk.Combobox(self.sensor_frame3,
                                           value=ACTIVITIES1,
                                           textvariable=self.activity1)
        self.activity1_menu.current(0)
        self.activity1_menu.config(state="readonly", width=15)
        self.activity1_menu.bind("<<ComboboxSelected>>")
        self.activity1_menu.grid(row=4, column=0, columnspan=2, pady=5)

        self.act_start_btn1 = ttk.Button(
            self.sensor_frame3,
            text="Activity start",
            command=lambda: self.activity_start(1),
            width=11)
        self.act_start_btn1["state"] = DISABLED
        self.act_start_btn1.grid(row=5, column=0, padx=2, pady=5)

        self.act_end_btn1 = ttk.Button(self.sensor_frame3,
                                       text="Activity end",
                                       command=lambda: self.activity_end(1),
                                       width=11)
        self.act_end_btn1["state"] = DISABLED
        self.act_end_btn1.grid(row=5, column=1, padx=2, pady=5)
        ###################################################################################

        # Menu
        menubar = Menu(self)
        tool = Menu(menubar, tearoff=0)
        tool.add_command(label="Insert user info", command=self.user_info)
        tool.add_command(label="Display kinect", command=self.disp_kinect)
        tool.add_checkbutton(label="Ignore sensor error",
                             onvalue=1,
                             offvalue=0,
                             variable=self.sensor_ignore)
        tool.add_checkbutton(label="Ignore buffer error",
                             onvalue=1,
                             offvalue=0,
                             variable=self.buffer_ignore)
        tool.add_checkbutton(label="debug mode",
                             onvalue=1,
                             offvalue=0,
                             variable=self.debug_mode)
        tool.add_command(label="Close sensors", command=self.close)
        menubar.add_cascade(label="Tools", menu=tool)
        self.config(menu=menubar)

        # Tk widgets ----------------------------------------------------------
        #######################################################################
        # Sensor controls -----------------------------------------------------

        self.azure = PyK4A()
        self.azure.start()

        self.stream_reset()
        self.get_video()
        self.stream_video()
        self.stream_depth()

        self.set_state()
        self.refresh()

        # Main loop -----------------------------------------------------------
        self.mainloop()
        # Main loop -----------------------------------------------------------
        #######################################################################

    def get_video(self):
        img = self.azure.get_capture()
        time_stamp = img.color_timestamp_usec
        delta = time_stamp - self.time_stamp_tmp
        self.time_stamp_tmp = time_stamp
        if self.is_streaming:
            print(delta)
            if np.any(img.color):
                if delta < 33400:
                    pass
                else:
                    print('stream dropping 33400')
                    self.video_stream.append(self.rgb_frame_tmp)
                    self.depth_stream.append(self.depth_frame_tmp)
                self.depth_frame_tmp = img.depth
                self.rgb_frame_tmp = img.color
                self.video_stream.append(self.rgb_frame_tmp)
                self.depth_stream.append(self.depth_frame_tmp)
            else:
                print('stream dropping')
        self.after(30, self.get_video)

    def stream_video(self):
        if self.is_streaming:
            if self.video_stream.__len__() > 0:
                self.frame_count += 1
                img_color = self.video_stream.pop(0)
                img_color = img_color[:, :, 2::-1].astype(np.uint8)
                img_color = img_color[:, :, 2::-1]
                self.rgb_out.write(img_color)
            elif self.video_stream.__len__() == 0:
                pass
        self.after(VIDEO_SPEED, self.stream_video)

    def stream_depth(self):
        if self.is_streaming:
            if self.depth_stream.__len__() > 0:
                img_depth = self.depth_stream.pop(0)
                cv2.normalize(img_depth, img_depth, 0, 255, cv2.NORM_MINMAX)
                img_depth = cv2.cvtColor(img_depth, cv2.COLOR_GRAY2RGB)
                img_depth = img_depth.astype(np.uint8)
                self.depth_out.write(img_depth)
            elif self.depth_stream.__len__() == 0:
                pass
        self.after(VIDEO_SPEED, self.stream_depth)

    def activity_start(self, index):
        label = None
        if index == 0:
            label = f'0 {self.activity.get()} start'
            self.act_end_btn['state'] = NORMAL
            self.act_start_btn['state'] = DISABLED
        elif index == 1:
            label = f'1 {self.activity1.get()} start'
            self.act_end_btn1['state'] = NORMAL
            self.act_start_btn1['state'] = DISABLED
        for client in self.clients:
            client.label = f'{label}'
        self.activity_list.append(label)
        msg = f'{ACTIVITIE_START}-{label}'
        self.kinect_client.publish(topic='kinect', msg=msg, qos=0)
        self.sound_client.publish(topic='sound', msg=msg, qos=0)
        self.video_activity_time.append([self.frame_count, label])
        self.stream_stop_btn['state'] = DISABLED
        self.stream_start_btn['state'] = DISABLED
        self.stream_save_btn['state'] = DISABLED
        self.stream_reset_btn['state'] = DISABLED

    def activity_end(self, index):
        label = None
        if index == 0:
            label = f'0 {self.activity.get()} end'
            self.act_end_btn['state'] = DISABLED
            self.act_start_btn['state'] = NORMAL
        elif index == 1:
            label = f'1 {self.activity1.get()} end'
            self.act_end_btn1['state'] = DISABLED
            self.act_start_btn1['state'] = NORMAL
        for client in self.clients:
            client.label = f'{label}'
        msg = f'{ACTIVITIE_STOP}-{label}'
        self.kinect_client.publish(topic='kinect', msg=msg, qos=0)
        self.sound_client.publish(topic='sound', msg=msg, qos=0)
        self.video_activity_time.append([self.frame_count, label])
        self.stream_stop_btn['state'] = NORMAL
        self.stream_start_btn['state'] = DISABLED
        self.stream_save_btn['state'] = DISABLED
        self.stream_reset_btn['state'] = DISABLED

    def stream_start(self):
        sen_count = 0
        for i in range(len(self.clients)):
            if self.clients[i].sensor_ready:
                sen_count += 1
            else:
                if self.sensor_ignore.get():
                    sen_count += 1
                else:
                    messagebox.showwarning("Sensor Error",
                                           f"{SENSOR_ERROR}-{i+1}")
        if sen_count == len(self.clients) and self.age[0] != 'User':
            if not self.clients[0].is_started:
                self.start_sec = dt.today()
                self.date = self.start_sec.strftime(DATE_FORMAT)
                self.time = self.start_sec.strftime(TIME_FORMAT)
                self.time_path = \
                    f"{SAVE_PATH}/{self.date}/{self.time}"
                os.makedirs(f'{CACHE_PATH}/{self.date}/{self.time}')
                self.srt = open(
                    f"{CACHE_PATH}/{self.date}/{self.time}/k3_rgb.srt", "w+")
                self.rgb_out = cv2.VideoWriter(
                    f"{CACHE_PATH}/{self.date}/{self.time}/k3_rgb.avi",
                    cv2.VideoWriter_fourcc(*'DIVX'), FPS,
                    AZURE_KINECT_RGB_SIZE)
                self.depth_out = cv2.VideoWriter(
                    f"{CACHE_PATH}/{self.date}/{self.time}/k3_depth.avi",
                    cv2.VideoWriter_fourcc(*'DIVX'), FPS,
                    AZURE_KINECT_DEPTH_SIZE)
                self.is_streaming = True
                for client in self.clients:
                    client.stream_init(f'{CACHE_PATH}/{self.date}/{self.time}')
            else:
                self.is_streaming = True
                for client in self.clients:
                    client.is_streaming = True
            msg = f'{START}-{self.time_path}'
            self.kinect_client.publish(topic='kinect', msg=msg, qos=0)
            self.sound_client.publish(topic='sound', msg=msg, qos=0)
            self.stream_start_btn['state'] = DISABLED
            self.stream_start_btn['text'] = "Resume stream"
            self.stream_stop_btn['state'] = NORMAL
            self.stream_reset_btn['state'] = DISABLED
            self.stream_save_btn['state'] = DISABLED
            self.act_end_btn['state'] = DISABLED
            self.act_start_btn['state'] = NORMAL
            self.act_end_btn1['state'] = DISABLED
            self.act_start_btn1['state'] = NORMAL
        else:
            messagebox.showerror('ERROR', f'Insert user info or check sensors')
            self.is_streaming = False
            self.stream_stop(send=False)
            # self.stream_reset(delete=True)

    def stream_stop(self, send=True):
        self.is_streaming = False
        for client in self.clients:
            client.is_streaming = False
        if send:
            self.stop_sec = dt.today()
            msg = f'{STOP}-?'
            self.kinect_client.publish(topic='kinect', msg=msg, qos=0)
            self.sound_client.publish(topic='sound', msg=msg, qos=0)
        self.stream_stop_btn['state'] = DISABLED
        self.stream_start_btn['state'] = NORMAL
        self.stream_save_btn['state'] = NORMAL
        self.stream_reset_btn['state'] = NORMAL
        self.act_end_btn['state'] = DISABLED
        self.act_start_btn['state'] = DISABLED

        self.act_end_btn1['state'] = DISABLED
        self.act_start_btn1['state'] = DISABLED

    def stream_save(self):
        msg = f'{SAVE}-{self.time_path}'
        self.kinect_client.publish(topic='kinect', msg=msg, qos=0)
        self.sound_client.publish(topic='sound', msg=msg, qos=0)
        for index, item in enumerate(self.video_activity_time):
            time = round(item[0] * 33.333)
            label = item[1]
            s_h, s_m, s_s, ms = get_time_1(time)
            s_s_t = str((s_s + SUB_DURATION) % 60).zfill(2)
            s_m_t = str((s_m + (s_s + SUB_DURATION) // 60)).zfill(2)
            s_h_t = str(
                (s_h + ((s_m + (s_s + SUB_DURATION) // 60) // 60))).zfill(2)
            s_h = str(s_h).zfill(2)
            s_m = str(s_m).zfill(2)
            s_s = str(s_s).zfill(2)
            self.srt.writelines([
                f"{(index+1)*2-1}\n",
                f"{s_h}:{s_m}:{s_s},{ms} --> {s_h_t}:{s_m_t}:{s_s_t},{ms}\n",
                f"{label}\n", "\n"
            ])
        self.srt.close()
        self.rgb_out.release()
        self.depth_out.release()
        try:
            os.makedirs(f'{SAVE_PATH}/{self.date}')
        except FileExistsError:
            pass
        move(f'{CACHE_PATH}/{self.date}/{self.time}',
             f'{SAVE_PATH}/{self.date}')
        usr_info = open(f'{SAVE_PATH}/{self.date}/{self.time}/user_info.csv',
                        "w+",
                        newline='')
        writer = csv.writer(usr_info)
        with usr_info:
            writer.writerow([self.age, self.sex, self.height, self.weight])
        rmtree(f'{CACHE_PATH}/{self.date}')
        self.summary()
        self.stream_reset()

    def stream_reset(self, delete=False):
        try:
            msg = f'{RESET}-{self.time_path}'
            self.sound_client.publish(topic='sound', msg=msg, qos=0)
            self.kinect_client.publish(topic='kinect', msg=msg, qos=0)
        except AttributeError:
            pass
        self.stream_start_btn['text'] = "Stream start"
        self.stream_reset_btn['state'] = DISABLED
        self.stream_save_btn['state'] = DISABLED
        self.stream_stop_btn['state'] = DISABLED
        self.stream_start_btn['state'] = NORMAL
        self.act_start_btn['state'] = DISABLED
        self.act_start_btn['state'] = DISABLED
        self.video_stream = list()
        self.depth_stream = list()
        self.activity_list = list()
        self.video_activity_time = []

        for client in self.clients:
            client.is_started = False

        try:
            del (self.rgb_out)
            del (self.depth_out)
        except AttributeError:
            pass

        if delete:
            try:
                os.remove(f'{CACHE_PATH}/{self.date}/{self.time}/k3_rgb.avi')
                os.remove(f'{CACHE_PATH}/{self.date}/{self.time}/k3_depth.avi')
                os.remove(f'{CACHE_PATH}/{self.date}/{self.time}/k3_rgb.srt')
                for client in self.clients:
                    os.remove(
                        f'{CACHE_PATH}/{self.date}/{self.time}/sensor_{client.info}.csv'
                    )
                rmtree(f'{CACHE_PATH}/{self.date}')
            except Exception as e:
                if self.debug_mode.get():
                    print(str(e))
                else:
                    pass

    def summary(self):
        os.system("clear")
        print("----  RESULT SUMMARY  ----")
        print(
            f"start time: {self.start_sec.strftime(TIME_FORMAT)} ---> end time: {self.stop_sec.strftime(TIME_FORMAT)}"
        )
        print(f"Duration: {get_time_date(self.start_sec, self.stop_sec)}")
        print("\n----------------------------------------------------")
        print("Activities performed:")
        for index, label in enumerate(self.activity_list):
            spaces = [" " for i in range(index)]
            space = "".join(spaces)
            print(f"{space}{index+1}: {label}")
        print("----------------------------------------------------")

    def user_info(self):
        user = UserInfo(self)
        self.wait_window(user.win)
        self.age = user.age
        self.sex = user.sex
        self.weight = user.weight
        self.height = user.height
        try:
            self.age_label['text'] = user.age[0]
            self.sex_label['text'] = user.sex[0]
            self.height_label['text'] = str(user.height[0])
            self.weight_label['text'] = str(user.weight[0])
        except Exception:
            self.age1_label['text'] = 'User'
            self.sex1_label['text'] = 'User'
            self.height1_label['text'] = 'User'
            self.weight1_label['text'] = 'User'
        try:
            self.age1_label['text'] = str(user.age[1])
            self.sex1_label['text'] = user.sex[1]
            self.height1_label['text'] = str(user.height[1])
            self.weight1_label['text'] = str(user.weight[1])
        except Exception:
            self.age1_label['text'] = 'User'
            self.sex1_label['text'] = 'User'
            self.height1_label['text'] = 'User'
            self.weight1_label['text'] = 'User'
        del (user)

    def refresh(self):
        for i in range(len(self.clients)):
            if self.clients[i].sensor_ready:
                self.sensor_state[i]["foreground"] = 'green'
            else:
                self.sensor_state[i]["foreground"] = 'red'

    def set_state(self):
        for client in self.clients:
            if client.counter != client.counter_temp:
                client.counter_temp = client.counter
                client.death_counter = 0
                if self.debug_mode.get():
                    print(f'[INFO] SENSOR-{client.info} is working')
            else:
                print(f'[WARNING] SENSOR-{client.info} is not responding')
                client.death_counter += 1
                client.sensor_ready = False
            if client.death_counter > 8:
                messagebox.showerror('ERROR', f'SENSOR {client.info} DEAD')
        self.after(1000, self.set_state)

    def disp_kinect(self):
        if self.is_displaying:
            self.is_displaying = False
            msg = f'{STOP}-?'
            self.kinect_client.publish(topic='kinect', msg=msg, qos=0)
            self.sound_client.publish(topic='sound', msg=msg, qos=0)
        else:
            self.is_displaying = True
            msg = f'{PLAY}-?'
            self.kinect_client.publish(topic='kinect', msg=msg, qos=0)
            self.sound_client.publish(topic='sound', msg=msg, qos=0)

    def close(self):
        msg = f'{QUIT}-?'
        self.kinect_client.publish(topic='kinect', msg=msg, qos=0)
        self.sound_client.publish(topic='sound', msg=msg, qos=0)
Exemplo n.º 30
0
                    c1 = '{:02x}'.format(abs(z - 238))
                    self.c.after((i * delay // 4 + z + hold),
                                 lambda c1=c1, i=i: update_color(c1, i))

            for f in range(count):
                for z in range(1, 238, 5):
                    self.c.after((hold * 2) * f, lambda z=z: color_loops(z))


if __name__ == "__main__":
    root = Tk()
    root.grid()
    c = Canvas(root, width=wid, height=200)
    c.grid()
    fnt = font.Font(family="Courier", size=50)
    in_progress = BooleanVar(False)
    wtf = dicey_string(c, words[0], wid // 2, 100, fnt)

    def two(event):
        wtf.a_wave(event, 20, 4, wav, "^", words[randrange(4)])
        wtf.c_fade(None, 20, 1)

    c.bind_all(
        "1",
        lambda event: wtf.a_wave(event, 20, 4, wav, "^", words[randrange(4)]))
    c.bind_all(
        "2",
        lambda event: wtf.a_wave(event, 20, 3, tsu, "~", words[randrange(4)]))
    c.bind_all("3", lambda event: wtf.a_tw(event, 50, words[randrange(4)]))
    c.bind_all("4",
               lambda event: wtf.change_string(event, words[randrange(4)]))
Exemplo n.º 31
0
class MainWindow:

    image_index = 0
    ImageCount = 0
    canvas = None
    lock = False
    Image_list = []
    x1, x2, y1, y2 = (0, 0, 0, 0)

    def autoPositing(self):
        if self.isInnerCircle == True:
            #------------------------
            cw = self.img_org.size[0] // 2  #width
            ch = self.img_org.size[1] // 2
            r = 90
            box = (cw - r, ch - r, cw + r * 2, ch + r)
            img_center = self.img_org.crop(box)
            #self.canvas.create_rectangle(box)
            img_center = img_center.filter(ImageFilter.MedianFilter(5))
            img_center = img_center.convert("L")
            #img_center.show()
            w = img_center.size[0]  #x
            h = img_center.size[1]  #y
            img_center = np.array(img_center)
            small = 640 * 255
            small_x = 0
            small_y = 0
            for i in range(h):

                s = sum(img_center[i, :])
                if s < small:
                    small = s
                    small_y = i
            small = 640 * 255
            for j in range(w):
                s = sum(img_center[:, j])
                if s < small:
                    small = s
                    small_x = j
            #------------------------
            small_x += cw - r
            small_y += ch - r

            self.inner_x.set(small_x)
            self.inner_y.set(small_y)
            #print(small,small_x,small_y)
            #-----------------------------
            self.updateInterface(innercironly=True)
        else:
            self.dr = self.outside_d.get() - self.inner_d.get()
            self.outside_d.set(self.inner_d.get() + self.dr)
            self.outside_x.set(self.inner_x.get())
            self.outside_y.set(self.inner_y.get())
            self.recovercox()
            self._DrawCircle(moving=False, update=True)

    def recovercox(self):
        if self.isInnerCircle == True:
            self.x1 = self.inner_x.get() - self.inner_d.get() // 2
            self.y1 = self.inner_y.get() - self.inner_d.get() // 2
            self.x2 = self.inner_x.get() + self.inner_d.get() // 2
            self.y2 = self.inner_y.get() + self.inner_d.get() // 2
        else:
            self.x1 = self.outside_x.get() - self.outside_d.get() // 2
            self.y1 = self.outside_y.get() - self.outside_d.get() // 2
            self.x2 = self.outside_x.get() + self.outside_d.get() // 2
            self.y2 = self.outside_y.get() + self.outside_d.get() // 2

    def updateInterface(self, block=None, innercironly=False):
        self.lock = False
        index = 0
        if block != None:
            for vi in self.variable_list[1:]:
                vi.set(block[index])
                index += 1
        self.isInnerCircle = True
        self.recovercox()
        self._DrawCircle(moving=False, update=True)
        if innercironly == False:
            self.isInnerCircle = False
            self.recovercox()
            self._DrawCircle(moving=False, update=True)
        self.canvas.update()
        #---------------------
        self.processChooseInner()

    def autoTurn(self):

        data = 'start'
        count = -1
        pic_num = self.myio.len_filelist
        while (data != None and count < pic_num):
            count += 1
            self.processRButton()
            data = self.myio.pickoneDB(self.filename)
        print(("You have finished %d pictures") % (count))

    def processRButton(self):
        #print("RButton")
        self.lock = False
        self.filename = self.myio.nextfilename()
        self.showPicture(self.filename)
        self.currentfile.set(self.filename)

        data = self.myio.pickoneDB(self.filename)
        #print(data)
        if data != None:
            self.updateInterface(data[1:])
        else:
            self.processChooseInner()
            self.autoPositing()

    def unknownError(self):
        tkinter.messagebox.showerror("unknownError",
                                     "Please resetart this script!!!")

    def processLButton(self):
        print("LButton")
        self.lock = False
        filename = self.myio.lastfilename()
        self.showPicture(filename)
        self.currentfile.set(filename)
        data = self.myio.pickoneDB(filename)
        if data != None:
            self.updateInterface(data[1:])

    def processChooseInner(self):
        self.radio_innerCircle.select()
        self.radio_outsideCircle.deselect()
        self.isInnerCircle = True
        self.recovercox()

    def processChooseOutside(self):
        self.radio_innerCircle.deselect()
        self.radio_outsideCircle.select()
        self.isInnerCircle = False
        self.autoPositing()

    def processSave(self):

        filename = self.currentfile.get()
        block = [vi.get() for vi in self.variable_list[1:]]
        self.myio.processSaveDB(filename, block)
        #--------------draw a circle-------
        idraw = ImageDraw.Draw(self.img_org)
        r = block[0] // 2
        x = block[1]
        y = block[2]
        innercirobx = [x - r, y - r, x + r, y + r]
        r = block[3] // 2
        x = block[4]
        y = block[5]
        outsidecirobx = [x - r, y - r, x + r, y + r]
        for i in range(2):
            idraw.ellipse(innercirobx, outline='white')
            innercirobx = self.inc_r(innercirobx)
            idraw.ellipse(outsidecirobx, outline='white')
            outsidecirobx = self.inc_r(outsidecirobx)

        outputname = 'output_image/' + os.path.split(
            self.currentfile.get())[-1]
        #print(outputname)
        self.img_org.save(outputname)
        #----------------------------------
        self.processRButton()

    def Press(self, event):

        self.x1 = event.x
        self.y1 = event.y

    def showPicture(self, filename):

        self.img_org = Image.open(filename)
        self.h = self.img_org.height
        self.w = self.img_org.width
        if self.isContrastEnh:

            box = (0, 0, self.w, self.h)
            img = self.img_org.crop(box)
            contrast = ImageEnhance.Contrast(img)
            contrast_img = contrast.enhance(2.0)
            self.img = ImageTk.PhotoImage(contrast_img)
        else:
            self.img = ImageTk.PhotoImage(self.img_org)
        if self.canvas.find_withtag('img'):
            self.canvas.delete('img')
        self.canvas.create_image(self.w // 2, self.h // 2, image=self.img)
        self.canvas.update()

    def _DrawCircle(self, moving=True, update=False):

        ch = 'inner'
        if self.isInnerCircle == False:
            ch = 'outside'
        if update:
            self.canvas.delete(ch)
        d = self.x2 - self.x1
        if not self.canvas.find_withtag(ch):
            self.canvas.create_oval(self.x1,
                                    self.y1,
                                    self.x1 + d,
                                    self.y1 + d,
                                    outline='white',
                                    tags=ch,
                                    width=2)
        elif moving:
            self.canvas.delete(ch)

        if self.isInnerCircle:
            self.inner_d.set(d)
            self.inner_x.set(self.x1 + d // 2)
            self.inner_y.set(self.y1 + d // 2)
        else:
            self.outside_d.set(d)
            self.outside_x.set(self.x1 + d // 2)
            self.outside_y.set(self.y1 + d // 2)

    def Release(self, event):
        self._DrawCircle(moving=False, update=True)

    def Draw(self, event):
        self.x2 = event.x
        self.y2 = event.y
        self._DrawCircle()

    def PressKey(self, event):
        key = event.keysym
        if self.lock == False:
            self.lock = True
            self.recovercox()
        if key == 'w':
            self.y1 -= 2
            self.y2 -= 2
        elif key == 's':
            self.y1 += 2
            self.y2 += 2
        elif key == 'a':
            self.x1 -= 2
            self.x2 -= 2
        elif key == 'd':
            self.x1 += 2
            self.x2 += 2

        elif key == 'q':
            self.x2 -= 2
            self.y2 -= 2
        elif key == 'e':
            self.x2 += 2
            self.y2 += 2
        elif key == 'space':
            if self.isInnerCircle == True:
                self.processChooseOutside()
            else:
                self.processSave()

        self._DrawCircle(moving=False, update=True)

    def openFolder(self):
        filenameforReading = askdirectory()

        self.myio = MyIO(filenameforReading)

        #self.processRButton()
        self.autoTurn()

    def openCsv(self):
        tkinter.messagebox.showerror("error", "under construction")

    def openDatabase(self):
        filenameforReading = askopenfilename()
        print(filenameforReading)
        if self.myio != None:
            self.myio.setdb_path(filenameforReading)
            self.autoTurn()

    def outputcsv(self):
        data = self.myio.pickallDB()
        outputname = 'data.csv'
        with open(outputname, 'a+') as csvfile:
            f_csv = csv.writer(csvfile)
            for row in data:
                f_csv.writerow(row)

    def inc_r(self, box):
        r = [-1, -1, 1, 1]
        for i in range(4):
            box[i] += r[i]
        return box

    def outputpic(self):
        data = self.myio.pickallDB()
        names = self.myio.pickallDB(True)
        name_set = set(names)

        index = 0
        for row in data:
            #--------------draw a circle-------
            filename = self.myio.filelist[index]
            pic_name = os.path.split(filename)[-1]

            if pic_name not in name_set:
                index += 1
                continue
            self.img_org = Image.open(filename)
            idraw = ImageDraw.Draw(self.img_org)
            r = row[1] // 2
            x = row[2]
            y = row[3]
            innercirobx = [x - r, y - r, x + r, y + r]
            r = row[4] // 2
            x = row[5]
            y = row[6]
            outsidecirobx = [x - r, y - r, x + r, y + r]
            for i in range(2):
                idraw.ellipse(innercirobx, outline='white')
                innercirobx = self.inc_r(innercirobx)
                idraw.ellipse(outsidecirobx, outline='white')
                outsidecirobx = self.inc_r(outsidecirobx)

            outputname = 'output_image/' + os.path.split(row[0])[-1]
            print(outputname)
            self.img_org.save(outputname)
            index += 1
            #----------------------------------
    def AlterDBFName(self):
        self.myio.alterAllFNameDB()

    def ContrastEnh(self):
        if self.isContrastEnh == False:
            self.isContrastEnh = True

        else:
            self.isContrastEnh = False
        self.showPicture(self.currentfile.get())

    def __init__(self):

        self.myio = None
        self.isContrastEnh = False
        window = Tk()
        window.title("Assist Tool")
        leftICO = PhotoImage(file="ICO/left.gif")
        rightICO = PhotoImage(file="ICO/right.gif")
        SaveICO = PhotoImage(file="ICO/Save.gif")
        self.inner_x = IntVar()
        self.inner_y = IntVar()
        self.inner_d = IntVar()
        self.outside_x = IntVar()
        self.outside_y = IntVar()
        self.outside_d = IntVar()
        self.currentfile = StringVar()
        self.variable_list = [
            self.currentfile, self.inner_d, self.inner_x, self.inner_y,
            self.outside_d, self.outside_x, self.outside_y
        ]
        self.h = 480
        self.w = 640
        self.isInnerCircle = BooleanVar()
        self.isInnerCircle.set(True)

        frame_left = Frame(window)
        frame_left.grid(row=1, column=1)
        frame_right = Frame(window)
        frame_right.grid(row=1, column=2)
        frame_bottom = Frame(window)
        frame_bottom.grid(row=2, column=1)
        frame_right_1 = Frame(frame_right)
        frame_right_1.grid(row=1, column=1)
        frame_right_2 = Frame(frame_right)
        frame_right_2.grid(row=2, column=1)
        frame_right_3 = Frame(frame_right)
        frame_right_3.grid(row=3, column=1)
        frame_right_4 = Frame(frame_right)
        frame_right_4.grid(row=4, column=1)
        frame_right_5 = Frame(frame_right)
        frame_right_5.grid(row=5, column=1)

        #------------------banging---------
        self.canvas = Canvas(frame_left)
        self.canvas["width"] = self.w
        self.canvas["height"] = self.h
        self.canvas.pack()
        self.canvas.bind('<Button-1>', self.Press)
        self.canvas.bind('<B1-Motion>', self.Draw)
        self.canvas.bind('<ButtonRelease-1>', self.Release)
        window.bind('<Key>', self.PressKey)

        #-------------show background picture-----
        self.currentfile.set("ICO/rabbit640480.jpg")
        self.showPicture("ICO/rabbit640480.jpg")

        #--------------show filename
        self.label_filename = Label(frame_bottom,
                                    textvariable=self.currentfile)
        self.label_filename.pack()
        #-------------control button
        Button(frame_right_2, image=leftICO,
               command=self.processLButton).pack(side=LEFT)
        Button(frame_right_2, image=rightICO,
               command=self.processRButton).pack(side=LEFT)
        #-------------show info of inner circle

        self.radio_innerCircle = Radiobutton(frame_right_3,
                                             text="Inner Circle",
                                             command=self.processChooseInner,
                                             variable=self.isInnerCircle,
                                             value=True)
        self.radio_innerCircle.grid(row=1, column=2)
        Label(frame_right_3, text="d").grid(row=2, column=1)
        self.inner_d.set(70)
        self.dr = 102
        self.entry_inner_d = Entry(frame_right_3, textvariable=self.inner_d)
        self.entry_inner_d.grid(row=2, column=2)
        Label(frame_right_3, text="x").grid(row=3, column=1)
        self.entry_inner_x = Entry(frame_right_3, textvariable=self.inner_x)
        self.entry_inner_x.grid(row=3, column=2)
        Label(frame_right_3, text="y").grid(row=4, column=1)
        self.entry_inner_y = Entry(frame_right_3, textvariable=self.inner_y)
        self.entry_inner_y.grid(row=4, column=2)
        #------------show info of outside circle
        self.radio_outsideCircle = Radiobutton(
            frame_right_4,
            text="Outside Circle",
            command=self.processChooseOutside,
            variable=self.isInnerCircle,
            value=False)
        self.radio_outsideCircle.grid(row=1, column=2)
        Label(frame_right_4, text="d").grid(row=2, column=1)
        self.entry_outside_d = Entry(frame_right_4,
                                     textvariable=self.outside_d)
        self.entry_outside_d.grid(row=2, column=2)
        Label(frame_right_4, text="x").grid(row=3, column=1)
        self.entry_outside_x = Entry(frame_right_4,
                                     textvariable=self.outside_x)
        self.entry_outside_x.grid(row=3, column=2)
        Label(frame_right_4, text="y").grid(row=4, column=1)
        self.entry_outside_y = Entry(frame_right_4,
                                     textvariable=self.outside_y)
        self.entry_outside_y.grid(row=4, column=2)
        #-------------Save button

        self.radio_isContrastEnh = Checkbutton(
            frame_right_5, text="Contrast Enhance",
            command=self.ContrastEnh).pack()
        #self.radio_isContrastEnh.deselect()
        Button(frame_right_5, image=SaveICO, command=self.processSave).pack()

        #--------------menubar
        menubar = Menu(window)
        window.config(menu=menubar)
        openMenu = Menu(menubar, tearoff=0)
        menubar.add_cascade(label="Open", menu=openMenu)
        openMenu.add_command(label="Folder", command=self.openFolder)
        openMenu.add_command(label="sqlite3 database",
                             command=self.openDatabase)
        openMenu.add_command(label="csv file", command=self.openCsv)
        AlterMenu = Menu(menubar, tearoff=0)
        menubar.add_cascade(label="Alter", menu=AlterMenu)
        AlterMenu.add_command(label="Alter db fName",
                              command=self.AlterDBFName)
        outputMenu = Menu(menubar, tearoff=0)
        menubar.add_cascade(label="Output", menu=outputMenu)
        outputMenu.add_command(label="csv file", command=self.outputcsv)
        outputMenu.add_command(label="picture", command=self.outputpic)

        #-------------finally---------

        self.radio_innerCircle.select()
        if os.path.exists('output_image') == False:
            os.mkdir('output_image')
        window.mainloop()
Exemplo n.º 32
0
 def __init__(self):
     self._terminate = BooleanVar(False)
     self._id = StringVar(False)
Exemplo n.º 33
0
 def setUpClass(cls):
     cls.tracers = configdialog.VarTrace()
     cls.iv = IntVar(root)
     cls.bv = BooleanVar(root)
Exemplo n.º 34
0
    def init_pf(self):
        def load_file():
            f = filedialog.askopenfilename()
            self.pf_file.set(f)

        def analyze_pf():
            if self.pf_filter.get():
                pf = picketfence.PicketFence(self.pf_file.get(), filter=3)
            else:
                pf = picketfence.PicketFence(self.pf_file.get())
            atol = self.pf_atol.get() if self.pf_atol.get() == 0 else None
            pickets = self.pf_pickets.get() if self.pf_pickets.get(
            ) == 0 else None
            hd = self.pf_hdmlc.get()
            pf.analyze(
                tolerance=self.pf_tol.get(),
                action_tolerance=atol,
                hdmlc=hd,
                num_pickets=pickets,
            )
            fname = osp.join(self.pf_file.get().replace('.dcm', '.pdf'))
            pf.publish_pdf(fname)
            self.pf_pdf.set(fname)
            utilities.open_path(fname)

        self.pf_tab = Frame(self.notebook)
        self.pf_filter = BooleanVar(value=False)
        self.pf_file = StringVar()
        self.pf_tol = DoubleVar(value=0.5)
        self.pf_atol = DoubleVar(value=0.25)
        self.pf_pickets = IntVar(value=10)
        self.pf_hdmlc = BooleanVar(value=False)
        self.pf_pdf = StringVar()
        Checkbutton(self.pf_tab,
                    text='Apply median filter',
                    variable=self.pf_filter).grid(column=1, row=3)
        Button(self.pf_tab, text='Load File...',
               command=load_file).grid(column=1, row=1)
        Label(self.pf_tab, text='File:').grid(column=1, row=2)
        Label(self.pf_tab, textvariable=self.pf_file).grid(column=2, row=3)
        Label(self.pf_tab, text='Tolerance (mm):').grid(column=1, row=4)
        Entry(self.pf_tab, width=7, textvariable=self.pf_tol).grid(column=2,
                                                                   row=4)
        Label(self.pf_tab, text='Action Tolerance (mm):').grid(column=1, row=5)
        Entry(self.pf_tab, width=7, textvariable=self.pf_atol).grid(column=2,
                                                                    row=5)
        Label(self.pf_tab, text='Number of pickets:').grid(column=1, row=6)
        Entry(self.pf_tab, width=7,
              textvariable=self.pf_pickets).grid(column=2, row=6)
        Checkbutton(self.pf_tab, text='HD-MLC?',
                    variable=self.pf_hdmlc).grid(column=1, row=7)
        Button(self.pf_tab, text='Analyze', command=analyze_pf).grid(column=1,
                                                                     row=8)
        Label(
            self.pf_tab,
            text=
            'Analysis will analyze the file according to the settings, \nsave a PDF in the same directory as the original file location and then open it.'
        ).grid(column=1, row=9)
        self.notebook.add(self.pf_tab, text='Picket Fence')
        for child in self.pf_tab.winfo_children():
            child.grid_configure(padx=10, pady=5)
Exemplo n.º 35
0
class EarthquakeGUI:
    def _quit(self):
        # Quit program
        quit()  # win will exist when this function is called
        Tk.destroy(self)
        exit()

    def _refreshData(self):
        logging.debug("")
        t1 = datetime.now()
        JSONdata = getWebData(urlData)
        t2 = datetime.now()
        tdweb = t2 - t1
        if JSONdata:
            hList = loadHeaderInfo(JSONdata)
            logging.info(f"Web Retrieval - {hList['count']:,} "
                         f"records in {tdweb.total_seconds(): .3}s")
            eList = loadList(JSONdata)
            eList = self.sortData(eList)
            self.updateHeaderFields(hList)
            self.updateFields(eList, self.summarySelected.current())
        else:
            messagebox.showerror(
                "USGS File error", "Error retrieving "
                "data from USGS web site. Check console for error.")
            logging.error("Error retrieving file")

    def _comboCallbackFunc(self, event, data):
        logging.debug("")
        # When combo box changes, updated data with new selection
        self.updateFields(data, self.summarySelected.current())

    def _webCallbackFunc(self, data):
        logging.debug("")
        webbrowser.open_new(data)

    def getNewData(self, timeString):
        logging.debug("")
        global urlData
        x = urlData.find("summary/")
        y = urlData.find(".geojson")
        logging.debug(urlData[x + 8:y])
        urlData = str(urlData.replace(urlData[x + 8:y], timeString, 1))
        logging.debug(urlData)
        self._refreshData()
        # When combo box changes, updated data with new selection
        # self.updateFields(data, self.summarySelected.current())
        # return urlData

    def updateComboBoxData(self, data):
        logging.debug("")
        dropdownlist = []
        self.summarySelected.delete(0)
        if len(data) > 0:
            for n, _ in enumerate(data):
                mag = f"{data[n][1]:.1f}"
                mmi = f"{data[n][8]:.3f}"
                dropdownlist.append(mag + "  -  " + mmi + "  -  " +
                                    str(data[n][2]))
            self.summarySelected["values"] = dropdownlist
            self.summarySelected.current(0)
            self.summarySelected.bind(
                "<<ComboboxSelected>>",
                lambda event, arg=data: self._comboCallbackFunc(event, arg),
            )
        else:
            self.summarySelected["values"] = dropdownlist
            self.summarySelected.set("")

    def sortData(self, data):
        logging.debug(f"{self.sortOption.get()}")
        try:
            if self.sortOption.get() == '2':
                s_eList = sorted(data,
                                 key=lambda x: (x[8], x[1], x[7]),
                                 reverse=True)
            else:
                s_eList = sorted(data,
                                 key=lambda x: (x[1], x[7]),
                                 reverse=True)
            eList = s_eList[:]
        except:
            logging.error("Error sorting list - most likely bad data")
        self.updateComboBoxData(eList)
        return eList

    def __init__(self, data, header):
        self.win = Tk()
        self.win.title("USGS Current Earthquake Data")
        self.checked = BooleanVar()
        self.checked.trace("w", self.mark_checked)
        self.sortOption = StringVar()
        self.sortOption.set("1")
        self.sortOption.trace("w", self.mark_sortOption)

        # ----- Menu Bar - Create the Menu Bar -------------------------
        menuBar = Menu()
        self.win.config(menu=menuBar)
        fileMenu = Menu(menuBar, tearoff=False)
        dataMenu = Menu(menuBar, tearoff=False)
        optionsMenu = Menu(menuBar, tearoff=False)
        helpMenu = Menu(menuBar, tearoff=False)
        menuBar.add_cascade(menu=fileMenu, label="File")
        menuBar.add_cascade(menu=dataMenu, label="Data")
        menuBar.add_cascade(menu=optionsMenu, label="Options")
        menuBar.add_cascade(menu=helpMenu, label="Help")
        # ----- Menu Bar - Create the File Menu ------------------------
        fileMenu.add_separator()
        fileMenu.add_command(label="Exit", command=self._quit)
        # ----- Menu Bar - Create the Options Menu ---------------------
        sortSubMenu = Menu(optionsMenu, tearoff=False)
        optionsMenu.add_cascade(menu=sortSubMenu, label="Sort")
        sortSubMenu.add_radiobutton(label="Sort by Magnitude",
                                    value="1",
                                    variable=self.sortOption)
        sortSubMenu.add_radiobutton(
            label="Sort by Predictive damage or Shake(MMI)",
            value="2",
            variable=self.sortOption)
        # ----- Menu Bar - Create the Data Menu-------------------------
        dataMenu.add_command(label="Refresh current Data source",
                             command=self._refreshData)
        dataMenu.add_separator()
        dataSubMenu = Menu(dataMenu, tearoff=False)
        dataMenu.add_cascade(menu=dataSubMenu, label="New Data Source")
        # ----- Menu Bar - Create the Data submenu ---------------------
        d1 = [
            ["Significant", "significant"],
            ["Magnitude 4.5+", "4.5"],
            ["Magnitude 2.5+", "2.5"],
            ["Magnitude 1.0+", "1.0"],
            ["All Earthquakes+", "all"],
        ]
        d2 = [
            ["hour", "hour"],
            ["day", "day"],
            ["7 days", "week"],
            ["30 days", "month"],
        ]
        for i in range(len(d2)):
            for j in range(len(d1)):
                s1 = str(d1[j][0] + ", past " + d2[i][0])
                s2 = str(d1[j][1] + "_" + d2[i][1])
                dataSubMenu.add_command(
                    label=s1,
                    command=lambda widget=s2: self.getNewData(widget))
                if j == (len(d1) - 1) and i != (len(d2) - 1):
                    dataSubMenu.add_separator()
        # ----- Set up frames and subframes to store widgets -----------
        self.mainFrame = ttk.LabelFrame()
        self.headings_frame = ttk.LabelFrame(self.mainFrame)
        self.headings_frame.grid(row=0)
        self.selection_frame = ttk.LabelFrame(self.headings_frame,
                                              text="selection frame")
        self.selection_frame.configure(text=header["title"])
        self.selection_frame.grid(column=0, columnspan=2, row=0, sticky="NW")
        self.file_frame = ttk.LabelFrame(self.headings_frame, text="File Info")
        self.file_frame.grid(column=2, row=0, rowspan=3, sticky="NW")
        self.details_frame = ttk.LabelFrame(self.mainFrame)
        self.details_frame.grid(row=1)
        self.summary_frame = ttk.LabelFrame(self.details_frame,
                                            text="Event Details")
        self.summary_frame.grid(row=0, columnspan=2)
        self.location_frame = ttk.LabelFrame(self.details_frame,
                                             text="Event Location")
        self.location_frame.grid(row=1, column=0, sticky="NW")
        self.time_frame = ttk.LabelFrame(self.details_frame,
                                         text="Time of Event")
        self.time_frame.grid(row=1, column=1, sticky="NW")
        ttk.Label(self.selection_frame).grid(column=0, row=0, sticky="W")
        # ----- Set up combo box and data to populate it ---------------
        self.summarySelected = ttk.Combobox(self.selection_frame,
                                            width=85,
                                            state="readonly")
        self.summarySelected.grid(column=0, row=1)
        self.updateComboBoxData(data)
        # ----- Add File widget - File delta ---------------------------
        self.fileDelta = StringVar()
        fileDeltaEntry = ttk.Label(self.file_frame,
                                   width=25,
                                   textvariable=self.fileDelta,
                                   state="readonly")
        fileDeltaEntry.grid(column=1, row=0, columnspan=2, sticky="W")
        # ----- Add File widget - File Time ----------------------------
        ttk.Label(self.file_frame, text="File Time:").grid(column=0,
                                                           row=1,
                                                           sticky="E")
        self.fileTime = StringVar()
        fileTimeEntry = ttk.Label(self.file_frame,
                                  width=25,
                                  textvariable=self.fileTime,
                                  state="readonly")
        fileTimeEntry.grid(column=1, row=1, sticky="W")
        # ----- Add File widget - Event count --------------------------
        ttk.Label(self.file_frame, text="Count:").grid(column=0,
                                                       row=2,
                                                       sticky="E")
        self.fileCount = StringVar()
        fileCountEntry = ttk.Label(self.file_frame,
                                   width=25,
                                   textvariable=self.fileCount,
                                   state="readonly")
        fileCountEntry.grid(column=1, row=2, sticky="W")
        # ----- Add Summary widget - Magnitude -------------------------
        ttk.Label(self.summary_frame, text="Magnitude:").grid(column=0,
                                                              row=0,
                                                              sticky="E")
        self.mag = StringVar()
        magEntry = ttk.Label(self.summary_frame,
                             width=7,
                             textvariable=self.mag,
                             state="readonly")
        magEntry.grid(column=1, row=0, sticky="W")
        # ----- Add Summary widget - Alert -----------------------------
        ttk.Label(self.summary_frame, text="Alert:").grid(column=2,
                                                          row=0,
                                                          sticky="E")
        self.alert = StringVar()
        alertEntry = ttk.Label(self.summary_frame,
                               width=7,
                               textvariable=self.alert,
                               state="readonly")
        alertEntry.grid(column=3, row=0, sticky="W")
        # ----- Add Summary widget - Shake -----------------------------
        ttk.Label(self.summary_frame, text="Shake (MMI):").grid(column=4,
                                                                row=0,
                                                                sticky="E")
        self.shake = StringVar()
        shakeEntry = ttk.Label(self.summary_frame,
                               width=7,
                               textvariable=self.shake,
                               state="readonly")
        shakeEntry.grid(column=5, row=0, sticky="W")
        # ----- Add Summary widget - Report Felt -----------------------
        ttk.Label(self.summary_frame, text="Reported felt:").grid(column=6,
                                                                  row=0,
                                                                  sticky="E")
        self.felt = StringVar()
        feltEntry = ttk.Label(self.summary_frame,
                              width=7,
                              textvariable=self.felt,
                              state="readonly")
        feltEntry.grid(column=7, row=0, sticky="W")
        # ----- Add Summary widget - Url/More Info ---------------------
        ttk.Label(self.summary_frame, text="More info:").grid(column=0,
                                                              row=1,
                                                              sticky="E")
        self.urlName = StringVar()
        self.urlEntry = ttk.Button(self.summary_frame)
        self.urlEntry.grid(column=1, row=1, columnspan=8, sticky="W")
        # ----- Add Location widget - Place ----------------------------
        ttk.Label(self.location_frame, text="Place:").grid(column=0,
                                                           row=4,
                                                           sticky="E")
        self.place = StringVar()
        locEntry = ttk.Label(self.location_frame,
                             width=45,
                             textvariable=self.place,
                             state="readonly")
        locEntry.grid(column=1, row=4, sticky="W")
        # ----- Add Location widget - Latitude -------------------------
        ttk.Label(self.location_frame, text="Latitude:").grid(column=0,
                                                              row=10,
                                                              sticky="E")
        self.lat = StringVar()
        latEntry = ttk.Label(self.location_frame,
                             width=25,
                             textvariable=self.lat,
                             state="readonly")
        latEntry.grid(column=1, row=10, sticky="W")
        # ----- Add Location widget - Longitude ------------------------
        ttk.Label(self.location_frame, text="Longitude:").grid(column=0,
                                                               row=11,
                                                               sticky="E")
        self.lon = StringVar()
        longEntry = ttk.Label(self.location_frame,
                              width=25,
                              textvariable=self.lon,
                              state="readonly")
        longEntry.grid(column=1, row=11, sticky="W")
        # ----- Add Location widget - Depth ----------------------------
        ttk.Label(self.location_frame, text="Depth:").grid(column=0,
                                                           row=12,
                                                           sticky="E")
        self.depth = StringVar()
        depthEntry = ttk.Label(self.location_frame,
                               width=25,
                               textvariable=self.depth,
                               state="readonly")
        depthEntry.grid(column=1, row=12, sticky="W")
        # ----- Add Time widget - Event delta --------------------------
        self.deltaEntry = StringVar()
        deltaEntry = ttk.Label(self.time_frame,
                               width=25,
                               textvariable=self.deltaEntry,
                               state="readonly")
        deltaEntry.grid(column=1, row=0, sticky="W")
        # ----- Add Time widget - Event Time ---------------------------
        ttk.Label(self.time_frame, text="Time:").grid(column=0,
                                                      row=1,
                                                      sticky="E")
        self.time = StringVar()
        timeEntry = ttk.Label(self.time_frame,
                              width=25,
                              textvariable=self.time,
                              state="readonly")
        timeEntry.grid(column=1, row=1, sticky="W")
        # ----- Add Time widget - Event Local Time ---------------------
        ttk.Label(self.time_frame, text="Your local time:").grid(column=0,
                                                                 row=2,
                                                                 sticky="E")
        self.tz = StringVar()
        tzEntry = ttk.Label(self.time_frame,
                            width=25,
                            textvariable=self.tz,
                            state="readonly")
        tzEntry.grid(column=1, row=2, sticky="W")
        # ----- Add padding around fields
        self.mainFrame.grid_configure(padx=8, pady=4)
        for child in self.mainFrame.winfo_children():
            child.grid_configure(padx=8, pady=4)
            for grandChild in child.winfo_children():
                grandChild.grid_configure(padx=8, pady=4)
                for widget in grandChild.winfo_children():
                    widget.grid_configure(padx=8, pady=4)

        # ----- Call funtion to update fields --------------------------
        data = self.sortData(data)
        self.updateHeaderFields(header)
        self.updateFields(data, self.summarySelected.current())

    def mark_checked(self, *args):
        logging.debug("")
        print(self.checked.get())

    def mark_sortOption(self, *args):
        logging.debug("")
        print(self.sortOption.get())
        JSONdata = getDataFile()
        if not JSONdata:
            self._refreshData()
        else:
            hList = loadHeaderInfo(JSONdata)
            eList = loadList(JSONdata)
            eList = self.sortData(eList)
            self.updateHeaderFields(hList)
            self.updateFields(eList, self.summarySelected.current())

    def updateHeaderFields(self, header):
        # Update header fields for the file
        logging.debug("")
        global urlData
        urlData = header["url"]
        self.selection_frame.configure(text=header["title"])
        self.fileCount.set(header["count"])
        utc_time = datetime.utcfromtimestamp(header["timeStamp"] /
                                             1000).replace(tzinfo=pytz.utc)
        self.fileTime.set(utc_time.strftime("%Y-%m-%d %H:%M:%S %Z"))
        self.fileDelta.set(deltaTime(self, utc_time))

    def updateFields(self, data, rec):
        logging.debug("")
        if len(data) > 0:
            # Update fields in the display from the data record
            self.mag.set(f"{data[rec][1]:.1f}")
            self.place.set(data[rec][2])
            utc_time = datetime.utcfromtimestamp(data[rec][3] /
                                                 1000).replace(tzinfo=pytz.utc)
            self.time.set(utc_time.strftime("%Y-%m-%d %H:%M:%S %Z"))
            current_tz = utc_time.astimezone(get_localzone())
            self.tz.set(current_tz.strftime("%Y-%m-%d %H:%M:%S %Z"))
            self.urlName.set(data[rec][5])
            self.felt.set(data[rec][6])
            self.alert.set(data[rec][7])
            self.shake.set(f"{data[rec][8]:.3f}")
            tmpLat = data[rec][10]
            if tmpLat == 0:
                self.lat.set("{} \xb0".format(tmpLat))
            elif tmpLat > 0:
                self.lat.set("{} \xb0 N".format(tmpLat))
            else:
                tmpLat *= -1
                self.lat.set("{} \xb0 S".format(tmpLat))
            tmpLong = data[rec][9]
            if tmpLong == 0:
                self.lon.set("{} \xb0".format(tmpLong))
            elif tmpLong > 0:
                self.lon.set("{} \xb0 E".format(tmpLong))
            else:
                tmpLong *= -1
                self.lon.set("{} \xb0 W".format(tmpLong))
            self.depth.set("{} km".format(data[rec][11]))
            # self.lon.set(data[rec][5])
            self.deltaEntry.set(deltaTime(self, utc_time))
        else:
            self.mag.set(None)
            self.place.set(None)
            self.time.set(None)
            self.tz.set(None)
            self.urlName.set(None)
            self.felt.set(None)
            self.alert.set(None)
            self.shake.set(None)
            self.lat.set(None)
            self.lon.set(None)
            self.depth.set(None)
            self.deltaEntry.set(None)
        self.urlEntry.config(
            text=self.urlName.get(),
            command=lambda arg=self.urlName.get(): self._webCallbackFunc(arg))
Exemplo n.º 36
0
    def __init__(self, tk, args):
        Frame.__init__(self, tk)
        # empty string for platform's default settings
        locale.setlocale(locale.LC_ALL, '')
        self.master = tk
        tk.title(APP_TITLE)
        tk.resizable(False, False)
        try:
            if WINDOWS:
                tk.iconbitmap("200x200/icon.ico")
            else:
                tk.iconbitmap("@200x200/icon.xbm")
        except Exception as e:
            print(e)
        atexit.register(self.cancel_game)

        # Init class data fields that we use for storing info that we need for using the API
        self.bot_id = None
        self.bot_password = None
        self.logged_in = False
        self.game_style_ids = []
        self.gameChips = 0
        self.gameDeals = 0
        self.gameStake = 0
        self.gamePrize = 0
        self.player_key = None
        self.play_again = BooleanVar()
        self.do_not_play_same_user = BooleanVar()
        self.close_after_game = False
        self.game_cancelled = False
        self.in_game = False

        self.topFrame = Frame(tk, padx=12, pady=12)
        self.middleFrame = Frame(tk, padx=12)
        self.middleFrameLeft = Frame(self.middleFrame)
        self.middleFrameRight = Frame(self.middleFrame)
        self.middleFrameRighter = Frame(self.middleFrame)

        self.topFrame.grid(row=0, sticky=W + E)

        self.middleFrame.grid(row=1, sticky=W)
        self.middleFrameLeft.grid(row=1, column=0)
        self.middleFrameRight.grid(row=1, column=1)
        self.middleFrameRighter.grid(row=1, column=2)

        # ===================================
        # Create form elements

        # Top Frame Elements
        self.botNameLabel = Label(self.topFrame, text="Bot Name:")
        self.bot_id_entry = Entry(self.topFrame)
        self.bot_id_entry.bind('<Return>', self.log_in_if_not)
        self.bot_id_entry.focus()
        self.passwordLabel = Label(self.topFrame, text="Password:"******"Login",
                                        command=self.log_in_out_clicked)

        self.balanceLabel = Label(self.topFrame, text="Bot Balance:")
        self.balance = Label(self.topFrame, text="0")
        self.close_button = Button(self.topFrame,
                                   text="Close",
                                   padx=2,
                                   command=tk.destroy)

        # Middle Frame Elements
        # Middle Frame LEFT Elements
        self.gameStyleLabel = Label(self.middleFrameLeft,
                                    font=(None, 18),
                                    pady=0,
                                    text="Game Style Selection")

        self.opponentLabel = Label(self.middleFrameLeft,
                                   text="Specify Opponent (optional):")
        self.specify_opponent_entry = Entry(self.middleFrameLeft)

        self.do_not_play_same_user_check = Checkbutton(
            self.middleFrameLeft,
            text='Don\'t play another bot in same user account as me',
            var=self.do_not_play_same_user)

        self.game_styles_listbox = Listbox(self.middleFrameLeft,
                                           background='#FFFFFF',
                                           height=8)
        self.game_styles_listbox.bind('<Double-1>',
                                      self.find_game_double_clicked)
        self.game_styles_listbox.bind(
            '<Return>', self.find_game_double_clicked
        )  # Not a double click but we want it to do the same thing

        self.refresh_game_styles_button = Button(
            self.middleFrameLeft,
            text="Refresh Game Styles",
            command=self.refresh_game_styles_clicked)

        self.thinkingTimeLabel = Label(self.middleFrameLeft,
                                       text="Add \"Thinking Time\" (ms):")
        self.thinking_time_entry = Entry(self.middleFrameLeft)

        self.auto_play_next_game_check = Checkbutton(
            self.middleFrameLeft,
            text='Play another game when complete',
            var=self.play_again)

        self.cancel_stop_game_button = Button(
            self.middleFrameLeft,
            text=CANCEL_GAME_TEXT,
            command=self.cancel_stop_game_clicked)
        self.find_game_button = Button(self.middleFrameLeft,
                                       text="Find Game",
                                       command=self.find_game_clicked)

        self.resultText = Message(
            self.middleFrameLeft,
            width=300,
            text="This is where the informational messages will appear")
        self.spacerLabel = Label(self.middleFrameLeft, text=" ")

        # Middle Frame RIGHT Elements

        self.gameTitleLabel = Label(self.middleFrameRight, text="Game Title")
        self.gameTitleText = Text(self.middleFrameRight,
                                  height=3,
                                  background='white',
                                  spacing1=3,
                                  pady=0)

        self.player = battleships_visuals.BattleshipsVisuals(
            self.middleFrameRight)  # Game Display Table
        self.opponent = battleships_visuals.BattleshipsVisuals(
            self.middleFrameRight)  # Game Display Table
        self.gameActionLabel = Label(self.middleFrameRight, text="")

        # ===================================
        # Set initial element states

        self.set_gamestyle_controls_states(DISABLED)
        self.cancel_stop_game_button.config(state=DISABLED)
        self.game_styles_listbox.config(background='white')
        self.thinking_time_entry.insert(0, 100)
        self.gameTitleText.config(state=DISABLED)
        self.set_balance(0)
        self.gameTitleText.tag_configure("center", justify='center')
        self.gameTitleText.tag_configure("bold", font='-weight bold')

        # ===================================
        # Form Layout

        # Top Frame Form Layout
        self.topFrame.grid_rowconfigure(0, weight=1)
        self.botNameLabel.grid(row=0, column=0, sticky=E)
        self.bot_id_entry.grid(row=0, column=1, sticky=W)
        self.passwordLabel.grid(row=0, column=2, sticky=E)
        self.bot_password_entry.grid(row=0, column=3, sticky=W)
        self.log_in_out_button.grid(row=0, column=4, sticky=E)
        self.topFrame.grid_columnconfigure(5, weight=1)
        self.balanceLabel.grid(row=0, column=5, sticky=E)
        self.balance.grid(row=0, column=6, sticky=W)
        self.close_button.grid(row=0, column=7, sticky=E, padx=(50, 0))

        # Middle Frame Form Layout
        self.middleFrame.grid_rowconfigure(0, weight=1)
        self.gameStyleLabel.grid(row=0, column=0, columnspan=1, sticky=W + E)
        self.spacerLabel.grid(row=0, column=2, sticky=E)

        self.opponentLabel.grid(row=2, column=0, sticky=W, pady=4)
        self.specify_opponent_entry.grid(row=2, column=0, sticky=E, pady=4)

        self.do_not_play_same_user_check.grid(row=3,
                                              column=0,
                                              columnspan=1,
                                              sticky='we',
                                              pady=4)
        self.game_styles_listbox.grid(row=4,
                                      column=0,
                                      columnspan=1,
                                      sticky='we',
                                      pady=4)
        self.find_game_button.grid(row=5, column=0, pady=4, sticky=W)
        self.refresh_game_styles_button.grid(row=5,
                                             column=0,
                                             columnspan=1,
                                             sticky='',
                                             pady=4)
        self.cancel_stop_game_button.grid(row=5, column=0, sticky=E)

        self.thinkingTimeLabel.grid(row=6, column=0, sticky=W, pady=4)
        self.thinking_time_entry.grid(row=6, column=0, sticky=E, pady=4)

        self.auto_play_next_game_check.grid(row=7,
                                            column=0,
                                            columnspan=1,
                                            sticky=W,
                                            pady=4)
        self.resultText.grid(row=9, column=0, columnspan=2, sticky=W, pady=4)
        self.middleFrame.grid_columnconfigure(9, weight=1)

        self.gameTitleLabel.grid(row=0, column=3)
        self.gameTitleText.grid(row=0, column=3, columnspan=2)
        self.player.grid(row=1, column=3)
        self.opponent.grid(row=1, column=4)
        self.gameActionLabel.grid(row=11, column=3, sticky='w')

        if args.botid is not None:
            self.auto_play(args)
Exemplo n.º 37
0
class BattleshipsDemoClient(Frame):
    def __init__(self, tk, args):
        Frame.__init__(self, tk)
        # empty string for platform's default settings
        locale.setlocale(locale.LC_ALL, '')
        self.master = tk
        tk.title(APP_TITLE)
        tk.resizable(False, False)
        try:
            if WINDOWS:
                tk.iconbitmap("200x200/icon.ico")
            else:
                tk.iconbitmap("@200x200/icon.xbm")
        except Exception as e:
            print(e)
        atexit.register(self.cancel_game)

        # Init class data fields that we use for storing info that we need for using the API
        self.bot_id = None
        self.bot_password = None
        self.logged_in = False
        self.game_style_ids = []
        self.gameChips = 0
        self.gameDeals = 0
        self.gameStake = 0
        self.gamePrize = 0
        self.player_key = None
        self.play_again = BooleanVar()
        self.do_not_play_same_user = BooleanVar()
        self.close_after_game = False
        self.game_cancelled = False
        self.in_game = False

        self.topFrame = Frame(tk, padx=12, pady=12)
        self.middleFrame = Frame(tk, padx=12)
        self.middleFrameLeft = Frame(self.middleFrame)
        self.middleFrameRight = Frame(self.middleFrame)
        self.middleFrameRighter = Frame(self.middleFrame)

        self.topFrame.grid(row=0, sticky=W + E)

        self.middleFrame.grid(row=1, sticky=W)
        self.middleFrameLeft.grid(row=1, column=0)
        self.middleFrameRight.grid(row=1, column=1)
        self.middleFrameRighter.grid(row=1, column=2)

        # ===================================
        # Create form elements

        # Top Frame Elements
        self.botNameLabel = Label(self.topFrame, text="Bot Name:")
        self.bot_id_entry = Entry(self.topFrame)
        self.bot_id_entry.bind('<Return>', self.log_in_if_not)
        self.bot_id_entry.focus()
        self.passwordLabel = Label(self.topFrame, text="Password:"******"Login",
                                        command=self.log_in_out_clicked)

        self.balanceLabel = Label(self.topFrame, text="Bot Balance:")
        self.balance = Label(self.topFrame, text="0")
        self.close_button = Button(self.topFrame,
                                   text="Close",
                                   padx=2,
                                   command=tk.destroy)

        # Middle Frame Elements
        # Middle Frame LEFT Elements
        self.gameStyleLabel = Label(self.middleFrameLeft,
                                    font=(None, 18),
                                    pady=0,
                                    text="Game Style Selection")

        self.opponentLabel = Label(self.middleFrameLeft,
                                   text="Specify Opponent (optional):")
        self.specify_opponent_entry = Entry(self.middleFrameLeft)

        self.do_not_play_same_user_check = Checkbutton(
            self.middleFrameLeft,
            text='Don\'t play another bot in same user account as me',
            var=self.do_not_play_same_user)

        self.game_styles_listbox = Listbox(self.middleFrameLeft,
                                           background='#FFFFFF',
                                           height=8)
        self.game_styles_listbox.bind('<Double-1>',
                                      self.find_game_double_clicked)
        self.game_styles_listbox.bind(
            '<Return>', self.find_game_double_clicked
        )  # Not a double click but we want it to do the same thing

        self.refresh_game_styles_button = Button(
            self.middleFrameLeft,
            text="Refresh Game Styles",
            command=self.refresh_game_styles_clicked)

        self.thinkingTimeLabel = Label(self.middleFrameLeft,
                                       text="Add \"Thinking Time\" (ms):")
        self.thinking_time_entry = Entry(self.middleFrameLeft)

        self.auto_play_next_game_check = Checkbutton(
            self.middleFrameLeft,
            text='Play another game when complete',
            var=self.play_again)

        self.cancel_stop_game_button = Button(
            self.middleFrameLeft,
            text=CANCEL_GAME_TEXT,
            command=self.cancel_stop_game_clicked)
        self.find_game_button = Button(self.middleFrameLeft,
                                       text="Find Game",
                                       command=self.find_game_clicked)

        self.resultText = Message(
            self.middleFrameLeft,
            width=300,
            text="This is where the informational messages will appear")
        self.spacerLabel = Label(self.middleFrameLeft, text=" ")

        # Middle Frame RIGHT Elements

        self.gameTitleLabel = Label(self.middleFrameRight, text="Game Title")
        self.gameTitleText = Text(self.middleFrameRight,
                                  height=3,
                                  background='white',
                                  spacing1=3,
                                  pady=0)

        self.player = battleships_visuals.BattleshipsVisuals(
            self.middleFrameRight)  # Game Display Table
        self.opponent = battleships_visuals.BattleshipsVisuals(
            self.middleFrameRight)  # Game Display Table
        self.gameActionLabel = Label(self.middleFrameRight, text="")

        # ===================================
        # Set initial element states

        self.set_gamestyle_controls_states(DISABLED)
        self.cancel_stop_game_button.config(state=DISABLED)
        self.game_styles_listbox.config(background='white')
        self.thinking_time_entry.insert(0, 100)
        self.gameTitleText.config(state=DISABLED)
        self.set_balance(0)
        self.gameTitleText.tag_configure("center", justify='center')
        self.gameTitleText.tag_configure("bold", font='-weight bold')

        # ===================================
        # Form Layout

        # Top Frame Form Layout
        self.topFrame.grid_rowconfigure(0, weight=1)
        self.botNameLabel.grid(row=0, column=0, sticky=E)
        self.bot_id_entry.grid(row=0, column=1, sticky=W)
        self.passwordLabel.grid(row=0, column=2, sticky=E)
        self.bot_password_entry.grid(row=0, column=3, sticky=W)
        self.log_in_out_button.grid(row=0, column=4, sticky=E)
        self.topFrame.grid_columnconfigure(5, weight=1)
        self.balanceLabel.grid(row=0, column=5, sticky=E)
        self.balance.grid(row=0, column=6, sticky=W)
        self.close_button.grid(row=0, column=7, sticky=E, padx=(50, 0))

        # Middle Frame Form Layout
        self.middleFrame.grid_rowconfigure(0, weight=1)
        self.gameStyleLabel.grid(row=0, column=0, columnspan=1, sticky=W + E)
        self.spacerLabel.grid(row=0, column=2, sticky=E)

        self.opponentLabel.grid(row=2, column=0, sticky=W, pady=4)
        self.specify_opponent_entry.grid(row=2, column=0, sticky=E, pady=4)

        self.do_not_play_same_user_check.grid(row=3,
                                              column=0,
                                              columnspan=1,
                                              sticky='we',
                                              pady=4)
        self.game_styles_listbox.grid(row=4,
                                      column=0,
                                      columnspan=1,
                                      sticky='we',
                                      pady=4)
        self.find_game_button.grid(row=5, column=0, pady=4, sticky=W)
        self.refresh_game_styles_button.grid(row=5,
                                             column=0,
                                             columnspan=1,
                                             sticky='',
                                             pady=4)
        self.cancel_stop_game_button.grid(row=5, column=0, sticky=E)

        self.thinkingTimeLabel.grid(row=6, column=0, sticky=W, pady=4)
        self.thinking_time_entry.grid(row=6, column=0, sticky=E, pady=4)

        self.auto_play_next_game_check.grid(row=7,
                                            column=0,
                                            columnspan=1,
                                            sticky=W,
                                            pady=4)
        self.resultText.grid(row=9, column=0, columnspan=2, sticky=W, pady=4)
        self.middleFrame.grid_columnconfigure(9, weight=1)

        self.gameTitleLabel.grid(row=0, column=3)
        self.gameTitleText.grid(row=0, column=3, columnspan=2)
        self.player.grid(row=1, column=3)
        self.opponent.grid(row=1, column=4)
        self.gameActionLabel.grid(row=11, column=3, sticky='w')

        if args.botid is not None:
            self.auto_play(args)

    def auto_play(self, args):
        self.bot_id_entry.insert(0, args.botid)
        self.bot_password_entry.insert(0, args.password)
        self.log_in_out_clicked()
        self.thinking_time_entry.insert(0, args.timeout)
        if args.playanothergame:
            self.auto_play_next_game_check.select()
        if args.dontplaysameuserbot:
            self.do_not_play_same_user_check.select()
        if args.closeaftergame:
            self.close_after_game = True
        i = 0
        for i in range(self.game_styles_listbox.size()):
            if args.gamestyle in str(self.game_styles_listbox.get(i)):
                break
        self.game_styles_listbox.select_set(i, i)
        self.find_game_clicked()

    def log_in_out_clicked(self):
        """Click handler for the 'Login'/'Logout' button."""

        # This means we're logging out
        if self.logged_in:
            self.resultText.config(text='Logged Out')

            self.master.title(APP_TITLE + " (Not Logged In)")

            self.cancel_game()

            self.bot_id = 'housebot-competition'
            self.bot_password = None
            self.clear_game_title_text()
            self.gameActionLabel.config(text="")
            self.reset_game_styles_listbox()
            self.clear_all_boards()
            self.opponent.delete("all")

            self.log_in_out_button.config(text='Login')

            self.set_login_controls_states(ENABLED)
            self.set_gamestyle_controls_states(DISABLED)

            self.logged_in = False
            self.bot_password_entry.delete(0, 'end')
            self.set_balance(0)

        # This means we're logging in
        else:
            self.bot_id = self.bot_id_entry.get()
            self.bot_password = '******'

            res = self.get_list_of_game_styles()
            if res['Result'] == 'SUCCESS':
                self.resultText.config(text='Logged In')

                game_styles = res['GameStyles']
                self.master.title(self.bot_id + " - " + APP_TITLE)

                self.set_login_controls_states(DISABLED)
                self.set_gamestyle_controls_states(ENABLED)

                self.set_game_styles_listbox(game_styles)
                self.set_balance(res['Balance'])

                self.log_in_out_button.config(text='Logout')

                self.logged_in = True

            else:
                messagebox.showerror(
                    'Error',
                    'Invalid login attempt. Please check the username and password entered.'
                )

    def log_in_if_not(self, _):
        if not self.logged_in:
            self.log_in_out_clicked()

    def clear_all_boards(self):
        self.player.delete("all")
        self.opponent.delete("all")
        self.player.myBoard = None
        self.opponent.oppBoard = None

    def set_in_game(self, value):
        self.in_game = value

    def set_game_title_text(self, text, tag):
        self.gameTitleText.config(state=ENABLED)
        self.gameTitleText.insert("end", text, ("center", tag))
        self.gameTitleText.config(state=DISABLED)

    def clear_game_title_text(self):
        self.gameTitleText.config(state=ENABLED)
        self.gameTitleText.delete("1.0", "end")
        self.gameTitleText.config(state=DISABLED)

    def set_login_controls_states(self, state):
        self.bot_id_entry.config(state=state)
        self.bot_password_entry.config(state=state)

    def set_gamestyle_controls_states(self, state):
        self.specify_opponent_entry.config(state=state)
        self.do_not_play_same_user_check.config(state=state)
        self.game_styles_listbox.config(state=state)
        self.find_game_button.config(state=state)
        self.refresh_game_styles_button.config(state=state)
        self.auto_play_next_game_check.config(state=state)
        self.thinking_time_entry.config(state=state)
        self.opponentLabel.config(state=state)
        self.thinkingTimeLabel.config(state=state)
        self.balanceLabel.config(state=state)
        self.balance.config(state=state)
        self.gameStyleLabel.config(state=state)
        self.game_styles_listbox.config(state=state)
        self.player.config(state=state)
        self.opponent.config(state=state)

    def set_balance(self, balance):
        """Set the balance field"""
        self.balance['text'] = int_with_commas(balance)
        self.balance['text'] += ' sat'

    def get_list_of_game_styles(self):
        """Get list of game styles from the server."""

        req = {
            'BotId': self.bot_id,
            'BotPassword': self.bot_password,
            'GameTypeId': BATTLESHIPS_GAME_TYPE_ID
        }

        url = BASE_URL + GET_LIST_OF_GAME_STYLES_EXTENSION

        return BattleshipsDemoClient.make_api_call(url, req)

    def set_game_styles_listbox(self, game_styles):
        """Set the content of the game styles listbox with a list of GameStyle dictionaries.
        Keyword Arguments:
        game_styles -- The list of GameStyle dictionaries, this should be obtained through get_list_of_game_styles().
        """
        self.reset_game_styles_listbox()
        for index, game_style in enumerate(game_styles):
            self.game_styles_listbox.insert(
                index,
                GAME_STYLE_LISTBOX_TEXT.format(
                    game_style['GameStyleId'], game_style['Stake'],
                    game_style['GameTypeSpecificInfo']['Ships'],
                    game_style['GameTypeSpecificInfo']['Board Size'],
                    game_style['GameTypeSpecificInfo']['Timeout ms'],
                    game_style['GameTypeSpecificInfo']['DealsTotal'],
                    game_style['GameTypeSpecificInfo']['PercentageLand'],
                    game_style['GameTypeSpecificInfo']['RandomLand']))
            self.game_style_ids.append(game_style['GameStyleId'])

            # self.game_styles_listbox.select_set(GAME_STYLE_LISTBOX_DEFAULT_SELECTION)

    def reset_game_styles_listbox(self):
        """Clear the content of the game styles listbox."""

        if self.game_styles_listbox.size() != 0:
            self.game_styles_listbox.delete(0, 'end')

            self.game_style_ids = []

    def refresh_game_styles_clicked(self):
        """Click handler for the 'Refresh Game Styles' button."""

        res = self.get_list_of_game_styles()
        game_styles = res['GameStyles']
        self.set_game_styles_listbox(game_styles)

    def find_game_clicked(self):
        """Click handler for the 'Find Game' button"""

        self.find_game_button.config(state=DISABLED)
        self.cancel_stop_game_button.config(state=ENABLED)
        self.clear_all_boards()

        # Here we dispatch the work to a separate thread, to keep the GUI responsive.
        if not MAC:
            threading.Thread(target=self.game_loop, daemon=True).start()
        else:
            self.game_loop()  # Doesn't work on MACs

    def find_game_double_clicked(self, _):
        self.find_game_clicked()

    def game_loop(self):
        """Loop through finding and playing games."""

        while True:
            self.clear_all_boards()
            self.find_game()
            if self.game_cancelled:
                break
            self.play_game()
            if self.close_after_game:
                self.close_button.invoke()
            if self.game_cancelled:
                break
            if not self.play_again.get():
                break

        self.find_game_button.config(state=ENABLED)
        self.cancel_stop_game_button.config(state=DISABLED,
                                            text=CANCEL_GAME_TEXT)
        self.game_cancelled = False

    def find_game(self):
        """Find a game."""

        offer_game_res = self.offer_game()

        if offer_game_res['Result'] == 'INVALID_LOGIN_OR_PASSWORD':
            self.cancel_stop_game_clicked()
            if 'ErrorMessage' in offer_game_res and offer_game_res[
                    'ErrorMessage'] == 'Check of OpponentId failed':
                self.resultText.config(text='Invalid Opponent ID')
            else:
                self.resultText.config(text='Invalid login or password')
        elif offer_game_res['Result'] == 'INSUFFICIENT_BALANCE':
            self.cancel_stop_game_clicked()
            self.resultText.config(text='Insufficient balance')
        elif offer_game_res['Result'] == 'BOT_IS_INACTIVE':
            self.cancel_stop_game_clicked()
            self.resultText.config(text='Bot is inactive')
        else:
            self.player_key = offer_game_res['PlayerKey']
            if offer_game_res['Result'] == 'WAITING_FOR_GAME':
                self.wait_for_game()

    def offer_game(self):
        """Offer a game."""

        opponent_id = self.specify_opponent_entry.get()
        if len(opponent_id) == 0:
            opponent_id = None
        try:
            game_style_id = self.game_style_ids[int(
                self.game_styles_listbox.curselection()[0])]
        except IndexError:
            self.game_styles_listbox.select_set(
                GAME_STYLE_LISTBOX_DEFAULT_SELECTION)
            game_style_id = self.game_style_ids[0]

        req = {
            'BotId': self.bot_id,
            'BotPassword': self.bot_password,
            'MaximumWaitTime': 1000,
            'GameStyleId': game_style_id,
            'DontPlayAgainstSameUser': self.do_not_play_same_user.get(),
            'DontPlayAgainstSameBot': False,
            'OpponentId': opponent_id
        }
        url = BASE_URL + OFFER_GAME_EXTENSION

        return BattleshipsDemoClient.make_api_call(url, req)

    def wait_for_game(self):
        """Wait for game to start."""
        self.resultText.config(text='Waiting for game')
        while True:
            if self.game_cancelled:
                self.cancel_game()
                self.find_game_button.config(state=ENABLED)
                self.cancel_stop_game_button.config(state=DISABLED,
                                                    text=CANCEL_GAME_TEXT)
                break
            poll_results = self.poll_for_game_state()

            if poll_results['Result'] == 'SUCCESS':
                break
            if poll_results['Result'] == 'INVALID_PLAYER_KEY' or poll_results[
                    'Result'] == 'GAME_HAS_ENDED' or poll_results[
                        'Result'] == 'GAME_WAS_STOPPED':
                self.game_cancelled = True
            time.sleep(2)

    def play_game(self):
        """Play a game."""
        self.resultText.config(text='Playing game')
        self.in_game = True

        poll_results = self.poll_for_game_state()

        if poll_results["Result"] != "SUCCESS":
            return

        game_state = poll_results['GameState']

        title = format('Game ID: ' + str(game_state['GameId']))
        game_style_details = self.game_styles_listbox.get('active').split(
            " | ")
        title += format(' / Style: ' + str(self.game_style_ids[int(
            self.game_styles_listbox.curselection()[0])]))
        title += format(' / Land: ' + game_style_details[6].split(" ")[2] +
                        '%')
        title += format(' / Deals: ' + game_style_details[5].split(" ")[1])
        title += format(' / ' + game_style_details[7])
        title += "\n"
        versus = format(self.bot_id + ' vs ' + game_state['OpponentId'])

        self.clear_game_title_text()
        self.set_game_title_text(title, "")
        self.set_game_title_text(versus, "bold")

        self.middleFrame.update()

        while True:
            if self.game_cancelled:
                break

            if game_state['IsMover']:
                self.resultText.config(text='Playing Game - Your Turn')
                move = battleships_move.calculateMove(game_state)
                move_results = self.make_move(move)

                if move_results['Result'] == 'INVALID_MOVE':
                    self.resultText.config(text="Invalid Move")
                elif move_results['Result'] != 'SUCCESS':
                    self.resultText.config(text='Game has ended: ' +
                                           move_results['Result'])
                    print("Game ended")
                    break
                else:
                    game_state = move_results['GameState']
            else:
                self.resultText.config(text="Playing Game - Opponent's Turn")

                # ---- Code here will be called on your opponent's turn ----

                # ----------------------------------------------------------

                poll_results = self.poll_for_game_state()

                if poll_results['Result'] != 'SUCCESS':
                    self.resultText.config(text='Game has ended: ' +
                                           poll_results['Result'])
                    break
                game_state = poll_results['GameState']

            if game_state['GameStatus'] != 'RUNNING':
                break

            self.middleFrameRight.update()

            try:
                if int(self.thinking_time_entry.get()) > 0:
                    time.sleep((int(self.thinking_time_entry.get()) / 1000))
                else:
                    time.sleep(0.1)
            except ValueError:
                time.sleep(0.1)

        self.set_in_game(False)

    def make_move(self, move):
        """Make a move."""

        req = {
            'BotId': self.bot_id,
            'BotPassword': self.bot_password,
            'PlayerKey': self.player_key,
            'Move': move
        }
        url = BASE_URL + MAKE_MOVE_EXTENSION

        result = BattleshipsDemoClient.make_api_call(url, req)

        if result['Result'] == 'SUCCESS' or "GAME_HAS_ENDED" in result[
                'Result']:
            print(result)
            try:
                self.player.draw_game_state(result['GameState'], True)
                self.opponent.draw_game_state(result['GameState'], False)
            except Exception as e:
                print("Gamestate error: " + str(e))

        return result

    def poll_for_game_state(self):
        """Poll the server for the latest GameState."""

        req = {
            'BotId': self.bot_id,
            'BotPassword': self.bot_password,
            'MaximumWaitTime': 1000,
            'PlayerKey': self.player_key
        }
        url = BASE_URL + POLL_FOR_GAME_STATE_EXTENSION

        result = BattleshipsDemoClient.make_api_call(url, req)
        if result['Result'] == 'SUCCESS' or "GAME_HAS_ENDED" in result[
                'Result']:
            self.player.draw_game_state(result['GameState'], True)
            self.opponent.draw_game_state(result['GameState'], False)

        return result

    def cancel_stop_game_clicked(self):
        self.game_cancelled = True
        self.cancel_game()
        self.find_game_button.config(state=ENABLED)
        self.cancel_stop_game_button.config(state=DISABLED,
                                            text=CANCEL_GAME_TEXT)

    def cancel_game(self):
        if self.player_key is None:
            return
        req = {
            'BotId': self.bot_id,
            'BotPassword': self.bot_password,
            'PlayerKey': self.player_key
        }

        url = BASE_URL + CANCEL_GAME_OFFER_EXTENSION
        BattleshipsDemoClient.make_api_call(url, req)
        try:
            self.resultText.config(text='Cancelled game')
        except Exception as e:
            print(str(e) + " -- resultText Message object no longer exists")

    @staticmethod
    def make_api_call(url, req):
        """Make an API call."""
        while True:
            try:
                res = requests.post(url,
                                    json=req,
                                    headers=API_CALL_HEADERS,
                                    timeout=60.0)
                try:
                    jres = res.json()
                    if 'Result' in jres:
                        return jres
                    time.sleep(0.1)
                except ValueError:
                    time.sleep(0.1)
            except requests.ConnectionError:
                time.sleep(0.1)
            except requests.Timeout:
                time.sleep(0.1)
            except requests.HTTPError:
                time.sleep(0.1)
            except BaseException as e:  # Bad code but needed for testing purposes
                print(e)
                time.sleep(0.1)
Exemplo n.º 38
0
class StealerApp:
    def __init__(self):
        self.initial_dir = get_path()
        self.root = Tk(className="osu! Utility Program")
        row_names = ["title_row", "dir_row", "check_row", "mode_row", "button_row"]  # for maintainability
        rows = {row: index for index, row in enumerate(row_names)}
        Label(master=self.root, text="osu! Map Tool", font=("Verdana", 18)).grid(row=rows["title_row"], column=0, columnspan=3, sticky=W + E)

        Label(master=self.root, text="Osu! songs folder:").grid(row=rows["dir_row"], sticky=W)
        self._dir_entry = Entry(master=self.root)
        self._dir_entry.grid(row=rows["dir_row"], column=1)
        Button(self.root, text="Browse...", command=self.select_dir).grid(row=rows["dir_row"], column=2, sticky=W)

        Button(master=self.root, text="Create a shareable beatmap file",
               command=self.create_steal_file).grid(row=rows["button_row"], column=0)
        Button(master=self.root, text="Download from file", command=self.steal_beatmaps).grid(row=rows["button_row"], column=1)
        Button(master=self.root, text="Just Delete", command=self.delete_maps).grid(row=rows["button_row"], column=2)

        Label(master=self.root, text="Download flags:").grid(row=rows["check_row"], column=0, sticky=W)
        self._download_video = BooleanVar(master=self.root, value=False)
        Checkbutton(master=self.root, text="Delete video",
                    variable=self._download_video, onvalue=False, offvalue=True).grid(row=rows["check_row"], column=1, sticky=W)

        Label(master=self.root, text="Game Modes To Download:").grid(row=rows["mode_row"], column=0, sticky=W)
        self.std = BooleanVar(master=self.root, value=True)
        Checkbutton(master=self.root, text="osu! standard",
                    variable=self.std, onvalue=True, offvalue=False).grid(row=rows["mode_row"], column=1, sticky=W)
        self.mania = BooleanVar(master=self.root, value=False)
        Checkbutton(master=self.root, text="Mania",
                    variable=self.mania, onvalue=True, offvalue=False).grid(row=rows["mode_row"], column=2, sticky=W)
        self.ctb = BooleanVar(master=self.root, value=False)
        Checkbutton(master=self.root, text="Catch The Beat",
                    variable=self.ctb, onvalue=True, offvalue=False).grid(row=rows["mode_row"], column=3, sticky=W)
        self.taiko = BooleanVar(master=self.root, value=False)
        Checkbutton(master=self.root, text="Taiko",
                    variable=self.taiko, onvalue=True, offvalue=False).grid(row=rows["mode_row"], column=4, sticky=W)

    @property
    def download_video(self):
        return self._download_video.get()

    def needs_songs_dir(fun):
        @wraps(fun)
        def songs_dir_checked_function(self, *args, **kwargs):
            if check_path(self.songs_dir):
                return fun(self, *args, **kwargs)
            else:
                showinfo(parent=self.root,
                         message="Please enter your osu song folder first!")
        return songs_dir_checked_function

    @property
    def songs_dir(self):
        return self._dir_entry.get()

    @songs_dir.setter
    def songs_dir(self, value):
        self._dir_entry.delete(0, END)
        self._dir_entry.insert(0, value)

    def run(self):
        self.root.mainloop()

    def select_dir(self):
        self.songs_dir = askdirectory(title="Osu! Songs Folder", initialdir=self.initial_dir)

    def button_callback(fun):
        @wraps(fun)
        def on_click(self):
            t = Thread(target=partial(fun, self))
            t.start()

        return on_click

    @button_callback
    @needs_songs_dir
    def create_steal_file(self):
        showinfo(parent=self.root, title="File select",
                 message="Select where to save the beatmap file")
        beatmap_file_path = asksaveasfilename(parent=self.root, filetypes=[("Txt File", "*.txt")],
                                              initialdir=self.initial_dir, title="Your beatmap file", initialfile="beatmaps.txt")
        beatmap_file_path = force_txt_ext(beatmap_file_path)
        if check_path(beatmap_file_path) and path is not '.txt':
            create_steal_file(beatmap_file_path, self.songs_dir)
            showinfo(parent=self.root, title="Done!",
                     message="Finished creating sharable beatmap file, the file should be waiting for you after you close this window\nGive this to other people for them to download your beatmaps!")
            self.root.destroy()

    @button_callback
    @needs_songs_dir
    def steal_beatmaps(self):
        showinfo(parent=self.root, title="beatmap file",
                 message="Please select the file you want to steal from")
        other_beatmap = askopenfilename(parent=self.root, title="Beatmap file to steal from",
                                        initialdir=self.initial_dir, filetypes=[("Txt File", "*.txt")])
        if check_path(other_beatmap):
            my_beatmaps = steal(self.songs_dir)
            try:
                download_beatmaps(my_beatmaps, other_beatmap, self.songs_dir, self.download_video)
                self.delete_maps()
            except ConnectionError:
                showinfo(parent=self.root, title="No internet",
                         message="It seems like you aren't connected to the Internet.\nPlease connect and try again")
                self.root.destroy()
            else:
                showinfo(parent=self.root, title="Done!",
                         message="Finished downloading the beatmaps you didn't already have!")
                self.root.destroy()

    @button_callback
    @needs_songs_dir
    def delete_maps(self):
        delete(self.songs_dir, {"std": self.std.get(), "mania": self.mania.get(), "ctb": self.ctb.get(), "taiko": self.taiko.get()}, self.download_video)
        showinfo(parent=self.root, title="Done!",
                 message="Finished removing all videos and other game modes!")
        showinfo(parent=self.root, title="Done!", message="RECOMMENDED: refresh your osu! by clicking F5 while in song selection")
        self.root.destroy()
Exemplo n.º 39
0
 def __init__(self,
              parent,
              master=None,
              title="",
              prompt="",
              opts=None,
              radio=True,
              yesno=True,
              list=False):
     if not opts:
         opts = []
     self.win = Toplevel(parent)
     self.win.protocol("WM_DELETE_WINDOW", self.quit)
     if parent:
         self.win.geometry(
             "+%d+%d" %
             (parent.winfo_rootx() + 50, parent.winfo_rooty() + 50))
     self.parent = parent
     self.master = master
     self.options = opts
     self.radio = radio
     self.win.title(title)
     if list:
         self.win.configure(bg=BGCOLOR)
         tkfixedfont = tkFont.nametofont("TkFixedFont")
         if 'fontsize_fixed' in self.parent.options and self.parent.options[
                 'fontsize_fixed']:
             tkfixedfont.configure(
                 size=self.parent.options['fontsize_fixed'])
         self.content = ReadOnlyText(self.win,
                                     wrap="word",
                                     padx=3,
                                     bd=2,
                                     height=10,
                                     relief="sunken",
                                     font=tkfixedfont,
                                     bg=BGLCOLOR,
                                     highlightbackground=BGLCOLOR,
                                     width=46,
                                     takefocus=False)
         self.content.pack(fill=tkinter.BOTH, expand=1, padx=10, pady=5)
         self.content.insert("1.0", prompt)
     else:
         Label(self.win, text=prompt,
               justify='left').pack(fill=tkinter.BOTH,
                                    expand=1,
                                    padx=10,
                                    pady=5)
         self.sv = StringVar(parent)
     self.sv = IntVar(parent)
     self.sv.set(1)
     if self.options:
         if radio:
             self.value = opts[0]
             for i in range(min(9, len(self.options))):
                 txt = self.options[i]
                 val = i + 1
                 # bind keyboard numbers 1-9 (at most) to options selection, i.e., press 1 to select option 1, 2 to select 2, etc.
                 self.win.bind(str(val), (lambda e, x=val: self.sv.set(x)))
                 Radiobutton(self.win,
                             text="{0}: {1}".format(val, txt),
                             padx=20,
                             indicatoron=True,
                             variable=self.sv,
                             command=self.getValue,
                             value=val).pack(padx=10, anchor=W)
         else:
             self.check_values = {}
             # show 0, check 1, return 2
             for i in range(min(9, len(self.options))):
                 txt = self.options[i][0]
                 self.check_values[i] = BooleanVar(self.parent)
                 self.check_values[i].set(self.options[i][1])
                 Checkbutton(self.win,
                             text=self.options[i][0],
                             padx=20,
                             variable=self.check_values[i]).pack(padx=10,
                                                                 anchor=W)
     box = Frame(self.win)
     if list:
         box.configure(bg=BGCOLOR)
     if yesno:
         YES = _("Yes")
         NO = _("No")
     else:
         YES = _("Ok")
         NO = _("Cancel")
     c = Button(box, text=NO, width=10, command=self.cancel, pady=2)
     c.pack(side=LEFT, padx=5, pady=5)
     o = Button(box,
                text=YES,
                width=10,
                default='active',
                command=self.ok,
                pady=2)
     o.pack(side=LEFT, padx=5, pady=5)
     if list:
         for b in [c, o]:
             b.configure(bg=BGCOLOR, highlightbackground=BGCOLOR)
     box.pack()
     self.win.bind('<Return>', (lambda e, o=o: o.invoke()))
     self.win.bind('<Control-w>', self.Ok)
     self.win.bind('<Escape>', (lambda e, c=c: c.invoke()))
     # self.choice.focus_set()
     logger.debug('parent: {0}'.format(parent))
     self.win.focus_set()
     self.win.transient(parent)
     self.win.wait_window(self.win)
Exemplo n.º 40
0
 def test_set(self):
     true = 1 if self.root.wantobjects() else "1"
     false = 0 if self.root.wantobjects() else "0"
     v = BooleanVar(self.root, name="name")
     v.set(True)
     self.assertEqual(self.root.globalgetvar("name"), true)
     v.set("0")
     self.assertEqual(self.root.globalgetvar("name"), false)
     v.set(42)
     self.assertEqual(self.root.globalgetvar("name"), true)
     v.set(0)
     self.assertEqual(self.root.globalgetvar("name"), false)
     v.set("on")
     self.assertEqual(self.root.globalgetvar("name"), true)
Exemplo n.º 41
0
class ViewRenderedGrid(ViewWinGrid.ViewGrid):
    def __init__(self, modelXbrl, tabWin, lang):
        super(ViewRenderedGrid, self).__init__(modelXbrl, tabWin, "Rendering", True, lang)
        self.newFactItemOptions = ModelInstanceObject.NewFactItemOptions(xbrlInstance=modelXbrl)
        self.factPrototypes = []
        self.zOrdinateChoices = None
        # context menu Boolean vars
        self.options = self.modelXbrl.modelManager.cntlr.config.setdefault("viewRenderedGridOptions", {})
        self.ignoreDimValidity = BooleanVar(value=self.options.setdefault("ignoreDimValidity",True))
        self.xAxisChildrenFirst = BooleanVar(value=self.options.setdefault("xAxisChildrenFirst",True))
        self.yAxisChildrenFirst = BooleanVar(value=self.options.setdefault("yAxisChildrenFirst",False))
            
    def close(self):
        super(ViewRenderedGrid, self).close()
        if self.modelXbrl:
            for fp in self.factPrototypes:
                fp.clear()
            self.factPrototypes = None
        
    def loadTablesMenu(self):
        tblMenuEntries = {}             
        tblRelSet = self.modelXbrl.relationshipSet("Table-rendering")
        for tblLinkroleUri in tblRelSet.linkRoleUris:
            for tableAxisArcrole in (XbrlConst.euTableAxis, XbrlConst.tableBreakdown, XbrlConst.tableBreakdown201301, XbrlConst.tableAxis2011):
                tblAxisRelSet = self.modelXbrl.relationshipSet(tableAxisArcrole, tblLinkroleUri)
                if tblAxisRelSet and len(tblAxisRelSet.modelRelationships) > 0:
                    # table name
                    modelRoleTypes = self.modelXbrl.roleTypes.get(tblLinkroleUri)
                    if modelRoleTypes is not None and len(modelRoleTypes) > 0:
                        roledefinition = modelRoleTypes[0].definition
                        if roledefinition is None or roledefinition == "":
                            roledefinition = os.path.basename(tblLinkroleUri)       
                        for table in tblAxisRelSet.rootConcepts:
                            # add table to menu if there's any entry
                            tblMenuEntries[roledefinition] = tblLinkroleUri
                            break
        self.tablesMenu.delete(0, self.tablesMenuLength)
        self.tablesMenuLength = 0
        self.tblELR = None
        for tblMenuEntry in sorted(tblMenuEntries.items()):
            tbl,elr = tblMenuEntry
            self.tablesMenu.add_command(label=tbl, command=lambda e=elr: self.view(viewTblELR=e))
            self.tablesMenuLength += 1
            if self.tblELR is None: 
                self.tblELR = elr # start viewing first ELR
        
    def viewReloadDueToMenuAction(self, *args):
        if not self.blockMenuEvents:
            # update config (config saved when exiting)
            self.options["ignoreDimValidity"] = self.ignoreDimValidity.get()
            self.options["xAxisChildrenFirst"] = self.xAxisChildrenFirst.get()
            self.options["yAxisChildrenFirst"] = self.yAxisChildrenFirst.get()
            self.view()
        
    def view(self, viewTblELR=None, newInstance=None):
        startedAt = time.time()
        self.blockMenuEvents += 1
        if newInstance is not None:
            self.modelXbrl = newInstance # a save operation has created a new instance to use subsequently
            clearZchoices = False
        if viewTblELR:  # specific table selection
            self.tblELR = viewTblELR
            clearZchoices = True
        else:   # first or subsequenct reloading (language, dimensions, other change)
            clearZchoices = self.zOrdinateChoices is None
            if clearZchoices: # also need first time initialization
                self.loadTablesMenu()  # load menus (and initialize if first time
            viewTblELR = self.tblELR
            
        if not self.tblELR:
            return  # no table to display

        if clearZchoices:
            self.zOrdinateChoices = {}

        # remove old widgets
        self.viewFrame.clearGrid()

        tblAxisRelSet, xTopStructuralNode, yTopStructuralNode, zTopStructuralNode = resolveAxesStructure(self, viewTblELR) 
        
        if tblAxisRelSet:
            #print("tbl hdr width rowHdrCols {0}".format(self.rowHdrColWidth))
            self.gridTblHdr.tblHdrWraplength = 200 # to  adjust dynamically during configure callbacks
            self.gridTblHdr.tblHdrLabel = \
                gridHdr(self.gridTblHdr, 0, 0, 
                        (self.modelTable.genLabel(lang=self.lang, strip=True) or  # use table label, if any 
                         self.roledefinition),
                        anchor="nw",
                        #columnspan=(self.dataFirstCol - 1),
                        #rowspan=(self.dataFirstRow),
                        wraplength=200) # in screen units
                        #wraplength=sum(self.rowHdrColWidth)) # in screen units
            zAspects = defaultdict(set)
            self.zAxis(1, zTopStructuralNode, zAspects, clearZchoices)
            xStructuralNodes = []
            self.xAxis(self.dataFirstCol, self.colHdrTopRow, self.colHdrTopRow + self.colHdrRows - 1, 
                       xTopStructuralNode, xStructuralNodes, self.xAxisChildrenFirst.get(), True, True)
            self.yAxis(1, self.dataFirstRow,
                       yTopStructuralNode, self.yAxisChildrenFirst.get(), True, True)
            for fp in self.factPrototypes: # dereference prior facts
                if fp is not None:
                    fp.clear()
            self.factPrototypes = []
            self.bodyCells(self.dataFirstRow, yTopStructuralNode, xStructuralNodes, zAspects, self.yAxisChildrenFirst.get())
                
            # data cells
            #print("body cells done")
                
        self.modelXbrl.profileStat("viewTable_" + os.path.basename(viewTblELR), time.time() - startedAt)

        #self.gridView.config(scrollregion=self.gridView.bbox(constants.ALL))
        self.blockMenuEvents -= 1

            
    def zAxis(self, row, zStructuralNode, zAspects, clearZchoices):
        if zStructuralNode is not None:
            gridBorder(self.gridColHdr, self.dataFirstCol, row, TOPBORDER, columnspan=2)
            gridBorder(self.gridColHdr, self.dataFirstCol, row, LEFTBORDER)
            gridBorder(self.gridColHdr, self.dataFirstCol, row, RIGHTBORDER, columnspan=2)
            label = zStructuralNode.header(lang=self.lang)
            hdr = gridHdr(self.gridColHdr, self.dataFirstCol, row,
                          label, 
                          anchor="w", columnspan=2,
                          wraplength=200, # in screen units
                          objectId=zStructuralNode.objectId(),
                          onClick=self.onClick)
    
            if zStructuralNode.choiceStructuralNodes: # combo box
                valueHeaders = [''.ljust(zChoiceStructuralNode.indent * 4) + # indent if nested choices 
                                (zChoiceStructuralNode.header(lang=self.lang) or '')
                                for zChoiceStructuralNode in zStructuralNode.choiceStructuralNodes]
                combobox = gridCombobox(
                             self.gridColHdr, self.dataFirstCol + 2, row,
                             values=valueHeaders,
                             selectindex=zStructuralNode.choiceNodeIndex,
                             columnspan=2,
                             comboboxselected=self.onComboBoxSelected)
                combobox.zStructuralNode = zStructuralNode
                combobox.zChoiceOrdIndex = row - 1
                combobox.objectId = hdr.objectId = zStructuralNode.objectId()
                gridBorder(self.gridColHdr, self.dataFirstCol + 3, row, RIGHTBORDER)
    
            if zStructuralNode.childStructuralNodes:
                for zStructuralNode in zStructuralNode.childStructuralNodes:
                    self.zAxis(row + 1, zStructuralNode, zAspects, clearZchoices)
            else: # nested-nost element, aspects process inheritance
                for aspect in aspectModels[self.aspectModel]:
                    for ruleAspect in aspectRuleAspects.get(aspect, (aspect,)):
                        if zStructuralNode.hasAspect(ruleAspect): #implies inheriting from other z axes
                            if ruleAspect == Aspect.DIMENSIONS:
                                for dim in (zStructuralNode.aspectValue(Aspect.DIMENSIONS) or emptyList):
                                    zAspects[dim].add(zStructuralNode)
                            else:
                                zAspects[ruleAspect].add(zStructuralNode)
            
    def onComboBoxSelected(self, *args):
        combobox = args[0].widget
        self.zOrdinateChoices[combobox.zStructuralNode._definitionNode] = \
            combobox.zStructuralNode.choiceNodeIndex = combobox.valueIndex
        self.view() # redraw grid
            
    def xAxis(self, leftCol, topRow, rowBelow, xParentStructuralNode, xStructuralNodes, childrenFirst, renderNow, atTop):
        if xParentStructuralNode is not None:
            parentRow = rowBelow
            noDescendants = True
            rightCol = leftCol
            widthToSpanParent = 0
            sideBorder = not xStructuralNodes
            if atTop and sideBorder and childrenFirst:
                gridBorder(self.gridColHdr, self.dataFirstCol, 1, LEFTBORDER, rowspan=self.dataFirstRow)
            for xStructuralNode in xParentStructuralNode.childStructuralNodes:
                if not xStructuralNode.isRollUp:
                    noDescendants = False
                    rightCol, row, width, leafNode = self.xAxis(leftCol, topRow + 1, rowBelow, xStructuralNode, xStructuralNodes, # nested items before totals
                                                                childrenFirst, childrenFirst, False)
                    if row - 1 < parentRow:
                        parentRow = row - 1
                    #if not leafNode: 
                    #    rightCol -= 1
                    nonAbstract = not xStructuralNode.isAbstract
                    if nonAbstract:
                        width += 100 # width for this label, in screen units
                    widthToSpanParent += width
                    label = xStructuralNode.header(lang=self.lang,
                                                   returnGenLabel=isinstance(xStructuralNode.definitionNode, (ModelClosedDefinitionNode, ModelEuAxisCoord)))
                    if childrenFirst:
                        thisCol = rightCol
                        sideBorder = RIGHTBORDER
                    else:
                        thisCol = leftCol
                        sideBorder = LEFTBORDER
                    if renderNow:
                        columnspan = (rightCol - leftCol + (1 if nonAbstract else 0))
                        gridBorder(self.gridColHdr, leftCol, topRow, TOPBORDER, columnspan=columnspan)
                        gridBorder(self.gridColHdr, leftCol, topRow, 
                                   sideBorder, columnspan=columnspan,
                                   rowspan=(rowBelow - topRow + 1) )
                        gridHdr(self.gridColHdr, leftCol, topRow, 
                                label if label else "         ", 
                                anchor="center",
                                columnspan=(rightCol - leftCol + (1 if nonAbstract else 0)),
                                rowspan=(row - topRow + 1) if leafNode else 1,
                                wraplength=width, # screen units
                                objectId=xStructuralNode.objectId(),
                                onClick=self.onClick)
                        if nonAbstract:
                            for i, role in enumerate(self.colHdrNonStdRoles):
                                gridBorder(self.gridColHdr, thisCol, self.dataFirstRow - len(self.colHdrNonStdRoles) + i, TOPBORDER)
                                gridBorder(self.gridColHdr, thisCol, self.dataFirstRow - len(self.colHdrNonStdRoles) + i, sideBorder)
                                gridHdr(self.gridColHdr, thisCol, self.dataFirstRow - len(self.colHdrNonStdRoles) + i, 
                                        xStructuralNode.header(role=role, lang=self.lang), 
                                        anchor="center",
                                        wraplength=100, # screen units
                                        objectId=xStructuralNode.objectId(),
                                        onClick=self.onClick)
                            ''' was
                            if self.colHdrDocRow:
                                gridBorder(self.gridColHdr, thisCol, self.dataFirstRow - 1 - self.rowHdrCodeCol, TOPBORDER)
                                gridBorder(self.gridColHdr, thisCol, self.dataFirstRow - 1 - self.rowHdrCodeCol, sideBorder)
                                gridHdr(self.gridColHdr, thisCol, self.dataFirstRow - 1 - self.rowHdrCodeCol, 
                                        xStructuralNode.header(role="http://www.xbrl.org/2008/role/documentation",
                                                               lang=self.lang), 
                                        anchor="center",
                                        wraplength=100, # screen units
                                        objectId=xStructuralNode.objectId(),
                                        onClick=self.onClick)
                            if self.colHdrCodeRow:
                                gridBorder(self.gridColHdr, thisCol, self.dataFirstRow - 1, TOPBORDER)
                                gridBorder(self.gridColHdr, thisCol, self.dataFirstRow - 1, sideBorder)
                                gridHdr(self.gridColHdr, thisCol, self.dataFirstRow - 1, 
                                        xStructuralNode.header(role="http://www.eurofiling.info/role/2010/coordinate-code"),
                                        anchor="center",
                                        wraplength=100, # screen units
                                        objectId=xStructuralNode.objectId(),
                                        onClick=self.onClick)
                            '''
                            gridBorder(self.gridColHdr, thisCol, self.dataFirstRow - 1, BOTTOMBORDER)
                            xStructuralNodes.append(xStructuralNode)
                    if nonAbstract:
                        rightCol += 1
                    if renderNow and not childrenFirst:
                        self.xAxis(leftCol + (1 if nonAbstract else 0), topRow + 1, rowBelow, xStructuralNode, xStructuralNodes, childrenFirst, True, False) # render on this pass
                    leftCol = rightCol
            if atTop and sideBorder and not childrenFirst:
                gridBorder(self.gridColHdr, rightCol - 1, 1, RIGHTBORDER, rowspan=self.dataFirstRow)
            return (rightCol, parentRow, widthToSpanParent, noDescendants)
            
    def yAxis(self, leftCol, row, yParentStructuralNode, childrenFirst, renderNow, atLeft):
        if yParentStructuralNode is not None:
            nestedBottomRow = row
            if atLeft:
                gridBorder(self.gridRowHdr, self.rowHdrCols + len(self.rowHdrNonStdRoles), # was: self.rowHdrDocCol + self.rowHdrCodeCol, 
                           self.dataFirstRow, 
                           RIGHTBORDER, 
                           rowspan=self.dataRows)
                gridBorder(self.gridRowHdr, 1, self.dataFirstRow + self.dataRows - 1, 
                           BOTTOMBORDER, 
                           columnspan=(self.rowHdrCols + len(self.rowHdrNonStdRoles))) # was: self.rowHdrDocCol + self.rowHdrCodeCol))
            for yStructuralNode in yParentStructuralNode.childStructuralNodes:
                if not yStructuralNode.isRollUp:
                    nestRow, nextRow = self.yAxis(leftCol + 1, row, yStructuralNode,  # nested items before totals
                                            childrenFirst, childrenFirst, False)
                    
                    isAbstract = (yStructuralNode.isAbstract or 
                                  (yStructuralNode.childStructuralNodes and
                                   not isinstance(yStructuralNode.definitionNode, (ModelClosedDefinitionNode, ModelEuAxisCoord))))
                    isNonAbstract = not isAbstract
                    label = yStructuralNode.header(lang=self.lang,
                                                   returnGenLabel=isinstance(yStructuralNode.definitionNode, (ModelClosedDefinitionNode, ModelEuAxisCoord)))
                    topRow = row
                    if childrenFirst and isNonAbstract:
                        row = nextRow
                    if renderNow:
                        columnspan = self.rowHdrCols - leftCol + 1 if isNonAbstract or nextRow == row else None
                        gridBorder(self.gridRowHdr, leftCol, topRow, LEFTBORDER, 
                                   rowspan=(nestRow - topRow + 1) )
                        gridBorder(self.gridRowHdr, leftCol, topRow, TOPBORDER, 
                                   columnspan=(1 if childrenFirst and nextRow > row else columnspan))
                        if childrenFirst and row > topRow:
                            gridBorder(self.gridRowHdr, leftCol + 1, row, TOPBORDER, 
                                       columnspan=(self.rowHdrCols - leftCol))
                        depth = yStructuralNode.depth
                        gridHdr(self.gridRowHdr, leftCol, row, 
                                label if label is not None else "         ", 
                                anchor=("w" if isNonAbstract or nestRow == row else "center"),
                                columnspan=columnspan,
                                rowspan=(nestRow - row if isAbstract else None),
                                # wraplength is in screen units
                                wraplength=(self.rowHdrColWidth[depth] if isAbstract else
                                            self.rowHdrWrapLength - sum(self.rowHdrColWidth[0:depth])),
                                #minwidth=self.rowHdrColWidth[leftCol],
                                minwidth=(16 if isNonAbstract and nextRow > topRow else None),
                                objectId=yStructuralNode.objectId(),
                                onClick=self.onClick)
                        if isNonAbstract:
                            for i, role in enumerate(self.rowHdrNonStdRoles):
                                isCode = "code" in role
                                docCol = self.dataFirstCol - len(self.rowHdrNonStdRoles) + i
                                gridBorder(self.gridRowHdr, docCol, row, TOPBORDER)
                                gridBorder(self.gridRowHdr, docCol, row, LEFTBORDER)
                                gridHdr(self.gridRowHdr, docCol, row, 
                                        yStructuralNode.header(role=role, lang=self.lang), 
                                        anchor="c" if isCode else "w",
                                        wraplength=40 if isCode else 100, # screen units
                                        objectId=yStructuralNode.objectId(),
                                        onClick=self.onClick)
                            ''' was:
                            if self.rowHdrDocCol:
                                docCol = self.dataFirstCol - 1 - self.rowHdrCodeCol
                                gridBorder(self.gridRowHdr, docCol, row, TOPBORDER)
                                gridBorder(self.gridRowHdr, docCol, row, LEFTBORDER)
                                gridHdr(self.gridRowHdr, docCol, row, 
                                        yStructuralNode.header(role="http://www.xbrl.org/2008/role/documentation",
                                                             lang=self.lang), 
                                        anchor="w",
                                        wraplength=100, # screen units
                                        objectId=yStructuralNode.objectId(),
                                        onClick=self.onClick)
                            if self.rowHdrCodeCol:
                                codeCol = self.dataFirstCol - 1
                                gridBorder(self.gridRowHdr, codeCol, row, TOPBORDER)
                                gridBorder(self.gridRowHdr, codeCol, row, LEFTBORDER)
                                gridHdr(self.gridRowHdr, codeCol, row, 
                                        yStructuralNode.header(role="http://www.eurofiling.info/role/2010/coordinate-code"),
                                        anchor="center",
                                        wraplength=40, # screen units
                                        objectId=yStructuralNode.objectId(),
                                        onClick=self.onClick)
                            # gridBorder(self.gridRowHdr, leftCol, self.dataFirstRow - 1, BOTTOMBORDER)
                            '''
                    if isNonAbstract:
                        row += 1
                    elif childrenFirst:
                        row = nextRow
                    if nestRow > nestedBottomRow:
                        nestedBottomRow = nestRow + (isNonAbstract and not childrenFirst)
                    if row > nestedBottomRow:
                        nestedBottomRow = row
                    #if renderNow and not childrenFirst:
                    #    dummy, row = self.yAxis(leftCol + 1, row, yStructuralNode, childrenFirst, True, False) # render on this pass
                    if not childrenFirst:
                        dummy, row = self.yAxis(leftCol + 1, row, yStructuralNode, childrenFirst, renderNow, False) # render on this pass
            return (nestedBottomRow, row)
    
    def bodyCells(self, row, yParentStructuralNode, xStructuralNodes, zAspects, yChildrenFirst):
        if yParentStructuralNode is not None:
            rendrCntx = getattr(self.modelXbrl, "rendrCntx", None) # none for EU 2010 tables
            dimDefaults = self.modelXbrl.qnameDimensionDefaults
            for yStructuralNode in yParentStructuralNode.childStructuralNodes:
                if yChildrenFirst:
                    row = self.bodyCells(row, yStructuralNode, xStructuralNodes, zAspects, yChildrenFirst)
                if not yStructuralNode.isAbstract:
                    yAspects = defaultdict(set)
                    for aspect in aspectModels[self.aspectModel]:
                        for ruleAspect in aspectRuleAspects.get(aspect, (aspect,)):
                            if yStructuralNode.hasAspect(ruleAspect):
                                if ruleAspect == Aspect.DIMENSIONS:
                                    for dim in (yStructuralNode.aspectValue(Aspect.DIMENSIONS) or emptyList):
                                        yAspects[dim].add(yStructuralNode)
                                else:
                                    yAspects[ruleAspect].add(yStructuralNode)
                        
                    gridSpacer(self.gridBody, self.dataFirstCol, row, LEFTBORDER)
                    # data for columns of row
                    ignoreDimValidity = self.ignoreDimValidity.get()
                    for i, xStructuralNode in enumerate(xStructuralNodes):
                        xAspects = defaultdict(set)
                        for aspect in aspectModels[self.aspectModel]:
                            for ruleAspect in aspectRuleAspects.get(aspect, (aspect,)):
                                if xStructuralNode.hasAspect(ruleAspect):
                                    if ruleAspect == Aspect.DIMENSIONS:
                                        for dim in (xStructuralNode.aspectValue(Aspect.DIMENSIONS) or emptyList):
                                            xAspects[dim].add(xStructuralNode)
                                    else:
                                        xAspects[ruleAspect].add(xStructuralNode)
                        cellAspectValues = {}
                        matchableAspects = set()
                        for aspect in _DICT_SET(xAspects.keys()) | _DICT_SET(yAspects.keys()) | _DICT_SET(zAspects.keys()):
                            aspectValue = inheritedAspectValue(self, aspect, xAspects, yAspects, zAspects, xStructuralNode, yStructuralNode)
                            if dimDefaults.get(aspect) != aspectValue: # don't include defaulted dimensions
                                cellAspectValues[aspect] = aspectValue
                            matchableAspects.add(aspectModelAspect.get(aspect,aspect)) #filterable aspect from rule aspect
                        cellDefaultedDims = _DICT_SET(dimDefaults) - _DICT_SET(cellAspectValues.keys())
                        priItemQname = cellAspectValues.get(Aspect.CONCEPT)
                            
                        concept = self.modelXbrl.qnameConcepts.get(priItemQname)
                        conceptNotAbstract = concept is None or not concept.isAbstract
                        from arelle.ValidateXbrlDimensions import isFactDimensionallyValid
                        value = None
                        objectId = None
                        justify = None
                        fp = FactPrototype(self, cellAspectValues)
                        if conceptNotAbstract:
                            # reduce set of matchable facts to those with pri item qname and have dimension aspects
                            facts = self.modelXbrl.factsByQname[priItemQname] if priItemQname else self.modelXbrl.factsInInstance
                            for aspect in matchableAspects:  # trim down facts with explicit dimensions match or just present
                                if isinstance(aspect, QName):
                                    aspectValue = cellAspectValues.get(aspect, None)
                                    if isinstance(aspectValue, ModelDimensionValue):
                                        if aspectValue.isExplicit:
                                            dimMemQname = aspectValue.memberQname # match facts with this explicit value
                                        else:
                                            dimMemQname = None  # match facts that report this dimension
                                    elif isinstance(aspectValue, QName): 
                                        dimMemQname = aspectValue  # match facts that have this explicit value
                                    else:
                                        dimMemQname = None # match facts that report this dimension
                                    facts = facts & self.modelXbrl.factsByDimMemQname(aspect, dimMemQname)
                            for fact in facts:
                                if (all(aspectMatches(rendrCntx, fact, fp, aspect) 
                                        for aspect in matchableAspects) and
                                    all(fact.context.dimMemberQname(dim,includeDefaults=True) in (dimDefaults[dim], None)
                                        for dim in cellDefaultedDims)):
                                    if yStructuralNode.hasValueExpression(xStructuralNode):
                                        value = yStructuralNode.evalValueExpression(fact, xStructuralNode)
                                    else:
                                        value = fact.effectiveValue
                                    objectId = fact.objectId()
                                    justify = "right" if fact.isNumeric else "left"
                                    break
                        if (conceptNotAbstract and
                            (value is not None or ignoreDimValidity or isFactDimensionallyValid(self, fp))):
                            if objectId is None:
                                objectId = "f{0}".format(len(self.factPrototypes))
                                self.factPrototypes.append(fp)  # for property views
                            gridCell(self.gridBody, self.dataFirstCol + i, row, value, justify=justify, 
                                     width=12, # width is in characters, not screen units
                                     objectId=objectId, onClick=self.onClick)
                        else:
                            fp.clear()  # dereference
                            gridSpacer(self.gridBody, self.dataFirstCol + i, row, CENTERCELL)
                        gridSpacer(self.gridBody, self.dataFirstCol + i, row, RIGHTBORDER)
                        gridSpacer(self.gridBody, self.dataFirstCol + i, row, BOTTOMBORDER)
                    row += 1
                if not yChildrenFirst:
                    row = self.bodyCells(row, yStructuralNode, xStructuralNodes, zAspects, yChildrenFirst)
            return row
    def onClick(self, event):
        objId = event.widget.objectId
        if objId and objId[0] == "f":
            viewableObject = self.factPrototypes[int(objId[1:])]
        else:
            viewableObject = objId
        self.modelXbrl.viewModelObject(viewableObject)
        self.modelXbrl.modelManager.cntlr.currentView = self
            
    def cellEnter(self, *args):
        self.blockSelectEvent = 0
        self.modelXbrl.modelManager.cntlr.currentView = self

    def cellLeave(self, *args):
        self.blockSelectEvent = 1

    def cellSelect(self, *args):
        if self.blockSelectEvent == 0 and self.blockViewModelObject == 0:
            self.blockViewModelObject += 1
            #self.modelXbrl.viewModelObject(self.nodeToObjectId[self.treeView.selection()[0]])
            #self.modelXbrl.viewModelObject(self.treeView.selection()[0])
            self.blockViewModelObject -= 1
        
    def viewModelObject(self, modelObject):
        if self.blockViewModelObject == 0:
            self.blockViewModelObject += 1
            '''
            try:
                if isinstance(modelObject, ModelObject.ModelRelationship):
                    conceptId = modelObject.toModelObject.objectId()
                elif isinstance(modelObject, ModelObject.ModelFact):
                    conceptId = self.modelXbrl.qnameConcepts[modelObject.qname].objectId()
                else:
                    conceptId = modelObject.objectId()
                #node = self.objectIdToNode[conceptId]
                node = conceptId
                if self.treeView.exists(node):
                    self.treeView.see(node)
                    self.treeView.selection_set(node)
            except KeyError:
                    self.treeView.selection_set(())
            '''
            self.blockViewModelObject -= 1
    
    def saveInstance(self, newFilename=None):
        if (not self.newFactItemOptions.entityIdentScheme or  # not initialized yet
            not self.newFactItemOptions.entityIdentValue or
            not self.newFactItemOptions.startDateDate or not self.newFactItemOptions.endDateDate):
            if not getNewFactItemOptions(self.modelXbrl.modelManager.cntlr, self.newFactItemOptions):
                return # new instance not set
        # newFilename = None # only used when a new instance must be created
        if self.modelXbrl.modelDocument.type != ModelDocument.Type.INSTANCE and newFilename is None:
            newFilename = self.modelXbrl.modelManager.cntlr.fileSave(view=self, fileType="xbrl")
            if not newFilename:
                return  # saving cancelled
        # continue saving in background
        thread = threading.Thread(target=lambda: self.backgroundSaveInstance(newFilename))
        thread.daemon = True
        thread.start()

    def backgroundSaveInstance(self, newFilename=None):
        cntlr = self.modelXbrl.modelManager.cntlr
        if newFilename and self.modelXbrl.modelDocument.type != ModelDocument.Type.INSTANCE:
            self.modelXbrl.modelManager.showStatus(_("creating new instance {0}").format(os.path.basename(newFilename)))
            self.modelXbrl.modelManager.cntlr.waitForUiThreadQueue() # force status update
            self.modelXbrl.createInstance(newFilename) # creates an instance as this modelXbrl's entrypoing
        instance = self.modelXbrl
        cntlr.showStatus(_("Saving {0}").format(instance.modelDocument.basename))
        cntlr.waitForUiThreadQueue() # force status update
        newCntx = ModelXbrl.AUTO_LOCATE_ELEMENT
        newUnit = ModelXbrl.AUTO_LOCATE_ELEMENT
        # check user keyed changes
        for bodyCell in self.gridBody.winfo_children():
            if isinstance(bodyCell, gridCell) and bodyCell.isChanged:
                value = bodyCell.value
                objId = bodyCell.objectId
                if objId:
                    if objId[0] == "f":
                        factPrototypeIndex = int(objId[1:])
                        factPrototype = self.factPrototypes[factPrototypeIndex]
                        concept = factPrototype.concept
                        entityIdentScheme = self.newFactItemOptions.entityIdentScheme
                        entityIdentValue = self.newFactItemOptions.entityIdentValue
                        periodType = factPrototype.concept.periodType
                        periodStart = self.newFactItemOptions.startDateDate if periodType == "duration" else None
                        periodEndInstant = self.newFactItemOptions.endDateDate
                        qnameDims = factPrototype.context.qnameDims
                        prevCntx = instance.matchContext(
                             entityIdentScheme, entityIdentValue, periodType, periodStart, periodEndInstant, 
                             qnameDims, [], [])
                        if prevCntx is not None:
                            cntxId = prevCntx.id
                        else: # need new context
                            newCntx = instance.createContext(entityIdentScheme, entityIdentValue, 
                                          periodType, periodStart, periodEndInstant, 
                                          concept.qname, qnameDims, [], [],
                                          afterSibling=newCntx)
                            cntxId = newCntx.id
                            # new context
                        if concept.isNumeric:
                            if concept.isMonetary:
                                unitMeasure = qname(XbrlConst.iso4217, self.newFactItemOptions.monetaryUnit)
                                unitMeasure.prefix = "iso4217"  # want to save with a recommended prefix
                                decimals = self.newFactItemOptions.monetaryDecimals
                            elif concept.isShares:
                                unitMeasure = XbrlConst.qnXbrliShares
                                decimals = self.newFactItemOptions.nonMonetaryDecimals
                            else:
                                unitMeasure = XbrlConst.qnXbrliPure
                                decimals = self.newFactItemOptions.nonMonetaryDecimals
                            prevUnit = instance.matchUnit([unitMeasure],[])
                            if prevUnit is not None:
                                unitId = prevUnit.id
                            else:
                                newUnit = instance.createUnit([unitMeasure],[], afterSibling=newUnit)
                                unitId = newUnit.id
                        attrs = [("contextRef", cntxId)]
                        if concept.isNumeric:
                            attrs.append(("unitRef", unitId))
                            attrs.append(("decimals", decimals))
                            value = Locale.atof(self.modelXbrl.locale, value, str.strip)
                        newFact = instance.createFact(concept.qname, attributes=attrs, text=value)
                        bodyCell.objectId = newFact.objectId()  # switch cell to now use fact ID
                        if self.factPrototypes[factPrototypeIndex] is not None:
                            self.factPrototypes[factPrototypeIndex].clear()
                        self.factPrototypes[factPrototypeIndex] = None #dereference fact prototype
                    else: # instance fact, not prototype
                        fact = self.modelXbrl.modelObject(objId)
                        if fact.concept.isNumeric:
                            value = Locale.atof(self.modelXbrl.locale, value, str.strip)
                        if fact.value != value:
                            if fact.concept.isNumeric and fact.isNil != (not value):
                                fact.isNil = not value
                                if value: # had been nil, now it needs decimals
                                    fact.decimals = (self.newFactItemOptions.monetaryDecimals
                                                     if fact.concept.isMonetary else
                                                     self.newFactItemOptions.nonMonetaryDecimals)
                            fact.text = value
                            XmlValidate.validate(instance, fact)
                    bodyCell.isChanged = False  # clear change flag
        instance.saveInstance(newFilename) # may override prior filename for instance from main menu
        cntlr.showStatus(_("Saved {0}").format(instance.modelDocument.basename), clearAfter=3000)
            
Exemplo n.º 42
0
def queryContainers():
    containers = []
    
    bgC = "lavender"
    top = Tk()
    top.config(bg = bgC)
    L1 = Label(top, text="Please enter the containers to run on, and\nwhat day their current RVs are", bg = bgC, padx = 20)
    L1.config(font=("serif", 16))
    L1.grid(row=0, column=0, sticky=constants.W+constants.E)
    
    S1=Scrollbar(top, orient='vertical')
    S1.grid(row=1, column=1, sticky=constants.N + constants.S)
    S2=Scrollbar(top, orient='horizontal')
    S2.grid(row=2, column=0, sticky=constants.E + constants.W)
    
    T1 = Text(top, height = 20, width = 97, xscrollcommand = S2.set, yscrollcommand=S1.set, wrap = constants.NONE)
    T1.grid(row=1, column=0)
    T1.insert("end", "ALL")
    
    f1 = Frame(top)
    f1.grid(row=4, column=0) 
    
    checkHeadless = BooleanVar()
    checkHeadless.set(True)
    cb = Checkbutton(f1, text="Run in background?", variable=checkHeadless, bg="brown1", font=("serif", 12))
    cb.grid(row=0, column=0, pady=(10,0), padx = 20)
    
    checkDelivery = BooleanVar()
    cb = Checkbutton(f1, text="Delivery RVs?", variable=checkDelivery, bg="brown1", font=("serif", 12))
    cb.grid(row=0, column=1, pady=(10,0), padx = 20)
    
    checkallowSameDayAsETA = BooleanVar()
    cb = Checkbutton(f1, text="Try for RVs for the same\nday as ETA?", variable=checkallowSameDayAsETA, bg="brown1", font=("serif", 12))
    cb.grid(row=0, column=2, pady=(10,0), padx = 20)
    
    checkMalport = BooleanVar()
    cb = Checkbutton(f1, text="Malport?", variable=checkMalport, bg="brown1", font=("serif", 12))
    cb.grid(row=0, column=3, pady=(10,0), padx = 20)
    
    def callbackCont():
        if date.get()=="":
            popUpOKLeft("Please select the day the current RV is on")
        else:
            if T1.get("1.0", constants.END).strip()=="":
                popUpOKLeft("Please list the target containers or RV #s (for deliveries)")
            else:
                containers.append(T1.get("1.0", constants.END).splitlines())
                top.destroy()
        
    dates=[]
            
    daysForward = ""
    
    if datetime.now().weekday()<2:
        daysForward = 3
    else:
        daysForward = 5

    if (datetime.now().hour>7 and datetime.now().minute>46) or datetime.now().hour>8:
        daysForward+=1
    for i in range(daysForward):
        dates.append(getDaysForward(i, True))    
    
    date=StringVar()
    f = Frame(top)
    f.grid(row=3, column=0)
    for dateStr in dates:
        Radiobutton(f, text=dateStr, variable=date, value=dateStr, indicatoron=0, bg="royal blue", font = ("serif", 16)).pack(side="left")
    
    MyButton = Button(top, text="OK", command=callbackCont)
    MyButton.grid(row=5, column=0, sticky=constants.W+constants.E, padx = 20, pady = 10)
    MyButton.config(font=("serif", 30), bg="green")
      
    top.update()
    
    w = top.winfo_width() # width for the Tk root
    h = top.winfo_height() # height for the Tk root
       
    ws = top.winfo_screenwidth() # width of the screen
    hs = top.winfo_screenheight() # height of the screen
    x = (ws/2) - (w/2)
    y = (hs/2) - (h/2)
    
    top.geometry('%dx%d+%d+%d' % (w, h, x, y))
    top.update()
    top.lift()
    top.attributes('-topmost',True)
    top.after_idle(top.attributes,'-topmost',False)
    moveTo(MyButton.winfo_width()/2 + MyButton.winfo_rootx(), MyButton.winfo_height()/2 + MyButton.winfo_rooty())
    
    top.mainloop()
    
    return containers[0], date.get(), checkHeadless.get(), checkDelivery.get(), checkallowSameDayAsETA.get(), checkMalport.get()
Exemplo n.º 43
0
 def BooleanVar(self, value):
     return BooleanVar(self.root, value=value)
Exemplo n.º 44
0
def queryDatesAndTimes(allConts, malport):
    dates=[]
    returnDates = []
    dateButtons = []
    dateValues=[]
    returnTimes = []
    timeButtons = []
    timeValues=[]
    today = datetime.now()
    
    
    daysForward = ""
    
    if today.weekday()<2:
        daysForward = 3
    else:
        daysForward = 5

    for i in range(daysForward+1):
        thisDay = getDaysForward(i, True)
        if thisDay:
            dates.append(thisDay)
    
    bgC = "lavender"
    top = Tk()
    top.config(bg = bgC)
    L1 = Label(top, text="Please select the acceptable dates/times\nfor the new RVs\n(Hold shift to select all since last selection)", bg = bgC, padx = 20)
    L1.config(font=("serif", 16))
    L1.grid(row=0, column=0, sticky=constants.W+constants.E, columnspan = 2)
    
    start = [0]
    
    i=1

    def selectstart(start, chkbuttons, event):
        start[0]= chkbuttons.index(event.widget)
        
    def selectrange(start, chkbuttons, event):
            startLocal = start[0]
            end = chkbuttons.index(event.widget)
            sl = slice(min(startLocal, end)+1, max(startLocal, end))
            for cb in chkbuttons[sl]:
                cb.toggle()
            start[0] = startLocal
    
    for date in dates:
        check = BooleanVar()
        checkButton = Checkbutton(top, text=date, variable=check, bg="royal blue", font=("serif", 12))
        checkButton.grid(row=i, column=0, sticky=constants.W+constants.E, pady=0)
#         if malport:
#             checkButton.grid(columnspan=2)
        if i>1 and allConts:
            check.set(True)
        i+=1
        checkButton.bind("<Button-1>", lambda event: selectstart(start, dateButtons, event))
        checkButton.bind("<Shift-Button-1>", lambda event: selectrange(start, dateButtons, event))
        dateButtons.append(checkButton)
        dateValues.append((check, date))
    
    if not malport:
        time_Order = ["04", "05","06","07","08","09","10","11","12","13","14","16","18","19","20", "00"]
    else:
#         time_Order = ["06","11","14","16","18", "00"]
#         f=open(r"C:\Automation\CNPort.txt", 'r')
        time_Order=[]
#         f=open(r"J:\LOCAL DEPARTMENT\Automation - DO NOT MOVE\Malport Hours.txt", 'r')
        f=open(r"C:\Automation\Malport Hours.txt", 'r')
        #     read = f.readline()
        #     m = re.search("username: *", read)
        #     username = read[m.end():].rstrip()
        
        read = f.readline()
        while read != "":
            if read == "\n":
                continue
            else:
                read = read.strip()
                if len(read)==1:
                    read = "0"+read
                if len(read)==2:
                    read+=":00"
                if len(read)==4 and not ":" in read:
                    read=read[:2]+":"+read[2:]
                elif len(read)==4:
                    read = "0"+read
            time_Order.append(read)
            read = f.readline()
        f.close()
#         time_Order = ["06","08","10","12","14","16","18","20", "00"]

        
    for i in range(len(time_Order)):
        check=BooleanVar()
        if len(time_Order[i])==2:
            cb = Checkbutton(text=time_Order[i]+":00",padx=0,pady=0,bd=0, variable=check, bg="dark violet", font=("serif", 12))
        else:
            cb = Checkbutton(text=time_Order[i],padx=0,pady=0,bd=0, variable=check, bg="dark violet", font=("serif", 12))
        cb.grid(row = i+1, column = 1, sticky=constants.W+constants.E+constants.N+constants.S)
        cb.bind("<Button-1>", lambda event: selectstart(start, timeButtons, event))
        cb.bind("<Shift-Button-1>", lambda event: selectrange(start, timeButtons, event))
        timeValues.append((check, time_Order[i]))
        timeButtons.append(cb)
        
        
        
    def callbackDates():
        for button, date in dateValues:
            if button.get():
                returnDates.append(date)
        if len(returnDates)<1:
            popUpOKLeft("Please select target dates for the new RV(s)")
        for button, time in timeValues:
            if button.get():
                returnTimes.append(time)  
        
        top.destroy()
        
    
        
    MyButton = Button(top, text="OK", command=callbackDates)
    MyButton.grid(row=i+2, column=0, sticky=constants.W+constants.E, padx = 20, pady = (0,20), columnspan = 2)
    MyButton.config(font=("serif", 30), bg="green")
      
    top.update()
    
    w = top.winfo_width() # width for the Tk root
    h = top.winfo_height() # height for the Tk root
       
    ws = top.winfo_screenwidth() # width of the screen
    hs = top.winfo_screenheight() # height of the screen
    x = (ws/2) - (w/2)
    y = (hs/2) - (h/2)
    
    top.geometry('%dx%d+%d+%d' % (w, h, x, y))
    top.update()
    
    top.lift()
    top.attributes('-topmost',True)
    top.after_idle(top.attributes,'-topmost',False)
    if not malport:
        moveTo(MyButton.winfo_width()/2 + MyButton.winfo_rootx(), MyButton.winfo_height()/2 + MyButton.winfo_rooty())
    
    top.mainloop()
#     if not malport:
    if len(returnTimes)<1:
        returnTimes = ["04", "05","06","07","08","09","10","11","12","13","14","16"]
#     else:
#         if len(returnTimes)<1:
#             returnTimes = ["06","08","10","12","14","16"]
#     else:
#         returnTimes = ["00"]
    
    return returnDates, returnTimes
Exemplo n.º 45
0
    def __init__(self):

        self.myio = None
        self.isContrastEnh = False
        window = Tk()
        window.title("Assist Tool")
        leftICO = PhotoImage(file="ICO/left.gif")
        rightICO = PhotoImage(file="ICO/right.gif")
        SaveICO = PhotoImage(file="ICO/Save.gif")
        self.inner_x = IntVar()
        self.inner_y = IntVar()
        self.inner_d = IntVar()
        self.outside_x = IntVar()
        self.outside_y = IntVar()
        self.outside_d = IntVar()
        self.currentfile = StringVar()
        self.variable_list = [
            self.currentfile, self.inner_d, self.inner_x, self.inner_y,
            self.outside_d, self.outside_x, self.outside_y
        ]
        self.h = 480
        self.w = 640
        self.isInnerCircle = BooleanVar()
        self.isInnerCircle.set(True)

        frame_left = Frame(window)
        frame_left.grid(row=1, column=1)
        frame_right = Frame(window)
        frame_right.grid(row=1, column=2)
        frame_bottom = Frame(window)
        frame_bottom.grid(row=2, column=1)
        frame_right_1 = Frame(frame_right)
        frame_right_1.grid(row=1, column=1)
        frame_right_2 = Frame(frame_right)
        frame_right_2.grid(row=2, column=1)
        frame_right_3 = Frame(frame_right)
        frame_right_3.grid(row=3, column=1)
        frame_right_4 = Frame(frame_right)
        frame_right_4.grid(row=4, column=1)
        frame_right_5 = Frame(frame_right)
        frame_right_5.grid(row=5, column=1)

        #------------------banging---------
        self.canvas = Canvas(frame_left)
        self.canvas["width"] = self.w
        self.canvas["height"] = self.h
        self.canvas.pack()
        self.canvas.bind('<Button-1>', self.Press)
        self.canvas.bind('<B1-Motion>', self.Draw)
        self.canvas.bind('<ButtonRelease-1>', self.Release)
        window.bind('<Key>', self.PressKey)

        #-------------show background picture-----
        self.currentfile.set("ICO/rabbit640480.jpg")
        self.showPicture("ICO/rabbit640480.jpg")

        #--------------show filename
        self.label_filename = Label(frame_bottom,
                                    textvariable=self.currentfile)
        self.label_filename.pack()
        #-------------control button
        Button(frame_right_2, image=leftICO,
               command=self.processLButton).pack(side=LEFT)
        Button(frame_right_2, image=rightICO,
               command=self.processRButton).pack(side=LEFT)
        #-------------show info of inner circle

        self.radio_innerCircle = Radiobutton(frame_right_3,
                                             text="Inner Circle",
                                             command=self.processChooseInner,
                                             variable=self.isInnerCircle,
                                             value=True)
        self.radio_innerCircle.grid(row=1, column=2)
        Label(frame_right_3, text="d").grid(row=2, column=1)
        self.inner_d.set(70)
        self.dr = 102
        self.entry_inner_d = Entry(frame_right_3, textvariable=self.inner_d)
        self.entry_inner_d.grid(row=2, column=2)
        Label(frame_right_3, text="x").grid(row=3, column=1)
        self.entry_inner_x = Entry(frame_right_3, textvariable=self.inner_x)
        self.entry_inner_x.grid(row=3, column=2)
        Label(frame_right_3, text="y").grid(row=4, column=1)
        self.entry_inner_y = Entry(frame_right_3, textvariable=self.inner_y)
        self.entry_inner_y.grid(row=4, column=2)
        #------------show info of outside circle
        self.radio_outsideCircle = Radiobutton(
            frame_right_4,
            text="Outside Circle",
            command=self.processChooseOutside,
            variable=self.isInnerCircle,
            value=False)
        self.radio_outsideCircle.grid(row=1, column=2)
        Label(frame_right_4, text="d").grid(row=2, column=1)
        self.entry_outside_d = Entry(frame_right_4,
                                     textvariable=self.outside_d)
        self.entry_outside_d.grid(row=2, column=2)
        Label(frame_right_4, text="x").grid(row=3, column=1)
        self.entry_outside_x = Entry(frame_right_4,
                                     textvariable=self.outside_x)
        self.entry_outside_x.grid(row=3, column=2)
        Label(frame_right_4, text="y").grid(row=4, column=1)
        self.entry_outside_y = Entry(frame_right_4,
                                     textvariable=self.outside_y)
        self.entry_outside_y.grid(row=4, column=2)
        #-------------Save button

        self.radio_isContrastEnh = Checkbutton(
            frame_right_5, text="Contrast Enhance",
            command=self.ContrastEnh).pack()
        #self.radio_isContrastEnh.deselect()
        Button(frame_right_5, image=SaveICO, command=self.processSave).pack()

        #--------------menubar
        menubar = Menu(window)
        window.config(menu=menubar)
        openMenu = Menu(menubar, tearoff=0)
        menubar.add_cascade(label="Open", menu=openMenu)
        openMenu.add_command(label="Folder", command=self.openFolder)
        openMenu.add_command(label="sqlite3 database",
                             command=self.openDatabase)
        openMenu.add_command(label="csv file", command=self.openCsv)
        AlterMenu = Menu(menubar, tearoff=0)
        menubar.add_cascade(label="Alter", menu=AlterMenu)
        AlterMenu.add_command(label="Alter db fName",
                              command=self.AlterDBFName)
        outputMenu = Menu(menubar, tearoff=0)
        menubar.add_cascade(label="Output", menu=outputMenu)
        outputMenu.add_command(label="csv file", command=self.outputcsv)
        outputMenu.add_command(label="picture", command=self.outputpic)

        #-------------finally---------

        self.radio_innerCircle.select()
        if os.path.exists('output_image') == False:
            os.mkdir('output_image')
        window.mainloop()
Exemplo n.º 46
0
    def __init__(self, data, header):
        self.win = Tk()
        self.win.title("USGS Current Earthquake Data")
        self.checked = BooleanVar()
        self.checked.trace("w", self.mark_checked)
        self.sortOption = StringVar()
        self.sortOption.set("1")
        self.sortOption.trace("w", self.mark_sortOption)

        # ----- Menu Bar - Create the Menu Bar -------------------------
        menuBar = Menu()
        self.win.config(menu=menuBar)
        fileMenu = Menu(menuBar, tearoff=False)
        dataMenu = Menu(menuBar, tearoff=False)
        optionsMenu = Menu(menuBar, tearoff=False)
        helpMenu = Menu(menuBar, tearoff=False)
        menuBar.add_cascade(menu=fileMenu, label="File")
        menuBar.add_cascade(menu=dataMenu, label="Data")
        menuBar.add_cascade(menu=optionsMenu, label="Options")
        menuBar.add_cascade(menu=helpMenu, label="Help")
        # ----- Menu Bar - Create the File Menu ------------------------
        fileMenu.add_separator()
        fileMenu.add_command(label="Exit", command=self._quit)
        # ----- Menu Bar - Create the Options Menu ---------------------
        sortSubMenu = Menu(optionsMenu, tearoff=False)
        optionsMenu.add_cascade(menu=sortSubMenu, label="Sort")
        sortSubMenu.add_radiobutton(label="Sort by Magnitude",
                                    value="1",
                                    variable=self.sortOption)
        sortSubMenu.add_radiobutton(
            label="Sort by Predictive damage or Shake(MMI)",
            value="2",
            variable=self.sortOption)
        # ----- Menu Bar - Create the Data Menu-------------------------
        dataMenu.add_command(label="Refresh current Data source",
                             command=self._refreshData)
        dataMenu.add_separator()
        dataSubMenu = Menu(dataMenu, tearoff=False)
        dataMenu.add_cascade(menu=dataSubMenu, label="New Data Source")
        # ----- Menu Bar - Create the Data submenu ---------------------
        d1 = [
            ["Significant", "significant"],
            ["Magnitude 4.5+", "4.5"],
            ["Magnitude 2.5+", "2.5"],
            ["Magnitude 1.0+", "1.0"],
            ["All Earthquakes+", "all"],
        ]
        d2 = [
            ["hour", "hour"],
            ["day", "day"],
            ["7 days", "week"],
            ["30 days", "month"],
        ]
        for i in range(len(d2)):
            for j in range(len(d1)):
                s1 = str(d1[j][0] + ", past " + d2[i][0])
                s2 = str(d1[j][1] + "_" + d2[i][1])
                dataSubMenu.add_command(
                    label=s1,
                    command=lambda widget=s2: self.getNewData(widget))
                if j == (len(d1) - 1) and i != (len(d2) - 1):
                    dataSubMenu.add_separator()
        # ----- Set up frames and subframes to store widgets -----------
        self.mainFrame = ttk.LabelFrame()
        self.headings_frame = ttk.LabelFrame(self.mainFrame)
        self.headings_frame.grid(row=0)
        self.selection_frame = ttk.LabelFrame(self.headings_frame,
                                              text="selection frame")
        self.selection_frame.configure(text=header["title"])
        self.selection_frame.grid(column=0, columnspan=2, row=0, sticky="NW")
        self.file_frame = ttk.LabelFrame(self.headings_frame, text="File Info")
        self.file_frame.grid(column=2, row=0, rowspan=3, sticky="NW")
        self.details_frame = ttk.LabelFrame(self.mainFrame)
        self.details_frame.grid(row=1)
        self.summary_frame = ttk.LabelFrame(self.details_frame,
                                            text="Event Details")
        self.summary_frame.grid(row=0, columnspan=2)
        self.location_frame = ttk.LabelFrame(self.details_frame,
                                             text="Event Location")
        self.location_frame.grid(row=1, column=0, sticky="NW")
        self.time_frame = ttk.LabelFrame(self.details_frame,
                                         text="Time of Event")
        self.time_frame.grid(row=1, column=1, sticky="NW")
        ttk.Label(self.selection_frame).grid(column=0, row=0, sticky="W")
        # ----- Set up combo box and data to populate it ---------------
        self.summarySelected = ttk.Combobox(self.selection_frame,
                                            width=85,
                                            state="readonly")
        self.summarySelected.grid(column=0, row=1)
        self.updateComboBoxData(data)
        # ----- Add File widget - File delta ---------------------------
        self.fileDelta = StringVar()
        fileDeltaEntry = ttk.Label(self.file_frame,
                                   width=25,
                                   textvariable=self.fileDelta,
                                   state="readonly")
        fileDeltaEntry.grid(column=1, row=0, columnspan=2, sticky="W")
        # ----- Add File widget - File Time ----------------------------
        ttk.Label(self.file_frame, text="File Time:").grid(column=0,
                                                           row=1,
                                                           sticky="E")
        self.fileTime = StringVar()
        fileTimeEntry = ttk.Label(self.file_frame,
                                  width=25,
                                  textvariable=self.fileTime,
                                  state="readonly")
        fileTimeEntry.grid(column=1, row=1, sticky="W")
        # ----- Add File widget - Event count --------------------------
        ttk.Label(self.file_frame, text="Count:").grid(column=0,
                                                       row=2,
                                                       sticky="E")
        self.fileCount = StringVar()
        fileCountEntry = ttk.Label(self.file_frame,
                                   width=25,
                                   textvariable=self.fileCount,
                                   state="readonly")
        fileCountEntry.grid(column=1, row=2, sticky="W")
        # ----- Add Summary widget - Magnitude -------------------------
        ttk.Label(self.summary_frame, text="Magnitude:").grid(column=0,
                                                              row=0,
                                                              sticky="E")
        self.mag = StringVar()
        magEntry = ttk.Label(self.summary_frame,
                             width=7,
                             textvariable=self.mag,
                             state="readonly")
        magEntry.grid(column=1, row=0, sticky="W")
        # ----- Add Summary widget - Alert -----------------------------
        ttk.Label(self.summary_frame, text="Alert:").grid(column=2,
                                                          row=0,
                                                          sticky="E")
        self.alert = StringVar()
        alertEntry = ttk.Label(self.summary_frame,
                               width=7,
                               textvariable=self.alert,
                               state="readonly")
        alertEntry.grid(column=3, row=0, sticky="W")
        # ----- Add Summary widget - Shake -----------------------------
        ttk.Label(self.summary_frame, text="Shake (MMI):").grid(column=4,
                                                                row=0,
                                                                sticky="E")
        self.shake = StringVar()
        shakeEntry = ttk.Label(self.summary_frame,
                               width=7,
                               textvariable=self.shake,
                               state="readonly")
        shakeEntry.grid(column=5, row=0, sticky="W")
        # ----- Add Summary widget - Report Felt -----------------------
        ttk.Label(self.summary_frame, text="Reported felt:").grid(column=6,
                                                                  row=0,
                                                                  sticky="E")
        self.felt = StringVar()
        feltEntry = ttk.Label(self.summary_frame,
                              width=7,
                              textvariable=self.felt,
                              state="readonly")
        feltEntry.grid(column=7, row=0, sticky="W")
        # ----- Add Summary widget - Url/More Info ---------------------
        ttk.Label(self.summary_frame, text="More info:").grid(column=0,
                                                              row=1,
                                                              sticky="E")
        self.urlName = StringVar()
        self.urlEntry = ttk.Button(self.summary_frame)
        self.urlEntry.grid(column=1, row=1, columnspan=8, sticky="W")
        # ----- Add Location widget - Place ----------------------------
        ttk.Label(self.location_frame, text="Place:").grid(column=0,
                                                           row=4,
                                                           sticky="E")
        self.place = StringVar()
        locEntry = ttk.Label(self.location_frame,
                             width=45,
                             textvariable=self.place,
                             state="readonly")
        locEntry.grid(column=1, row=4, sticky="W")
        # ----- Add Location widget - Latitude -------------------------
        ttk.Label(self.location_frame, text="Latitude:").grid(column=0,
                                                              row=10,
                                                              sticky="E")
        self.lat = StringVar()
        latEntry = ttk.Label(self.location_frame,
                             width=25,
                             textvariable=self.lat,
                             state="readonly")
        latEntry.grid(column=1, row=10, sticky="W")
        # ----- Add Location widget - Longitude ------------------------
        ttk.Label(self.location_frame, text="Longitude:").grid(column=0,
                                                               row=11,
                                                               sticky="E")
        self.lon = StringVar()
        longEntry = ttk.Label(self.location_frame,
                              width=25,
                              textvariable=self.lon,
                              state="readonly")
        longEntry.grid(column=1, row=11, sticky="W")
        # ----- Add Location widget - Depth ----------------------------
        ttk.Label(self.location_frame, text="Depth:").grid(column=0,
                                                           row=12,
                                                           sticky="E")
        self.depth = StringVar()
        depthEntry = ttk.Label(self.location_frame,
                               width=25,
                               textvariable=self.depth,
                               state="readonly")
        depthEntry.grid(column=1, row=12, sticky="W")
        # ----- Add Time widget - Event delta --------------------------
        self.deltaEntry = StringVar()
        deltaEntry = ttk.Label(self.time_frame,
                               width=25,
                               textvariable=self.deltaEntry,
                               state="readonly")
        deltaEntry.grid(column=1, row=0, sticky="W")
        # ----- Add Time widget - Event Time ---------------------------
        ttk.Label(self.time_frame, text="Time:").grid(column=0,
                                                      row=1,
                                                      sticky="E")
        self.time = StringVar()
        timeEntry = ttk.Label(self.time_frame,
                              width=25,
                              textvariable=self.time,
                              state="readonly")
        timeEntry.grid(column=1, row=1, sticky="W")
        # ----- Add Time widget - Event Local Time ---------------------
        ttk.Label(self.time_frame, text="Your local time:").grid(column=0,
                                                                 row=2,
                                                                 sticky="E")
        self.tz = StringVar()
        tzEntry = ttk.Label(self.time_frame,
                            width=25,
                            textvariable=self.tz,
                            state="readonly")
        tzEntry.grid(column=1, row=2, sticky="W")
        # ----- Add padding around fields
        self.mainFrame.grid_configure(padx=8, pady=4)
        for child in self.mainFrame.winfo_children():
            child.grid_configure(padx=8, pady=4)
            for grandChild in child.winfo_children():
                grandChild.grid_configure(padx=8, pady=4)
                for widget in grandChild.winfo_children():
                    widget.grid_configure(padx=8, pady=4)

        # ----- Call funtion to update fields --------------------------
        data = self.sortData(data)
        self.updateHeaderFields(header)
        self.updateFields(data, self.summarySelected.current())
Exemplo n.º 47
0
    def __init__(self,
                 screenName=None,
                 baseName=None,
                 useTk=1,
                 sync=0,
                 use=None):
        super().__init__(screenName=screenName,
                         baseName=baseName,
                         useTk=useTk,
                         sync=sync,
                         use=use)

        #######################################################################
        # Attributes ----------------------------------------------------------
        self.age = ['User', 'User']
        self.sex = ['User', 'User']
        self.height = ['User', 'User']
        self.weight = ['User', 'User']
        self.is_streaming = False
        self.is_displaying = False

        self.frame_count = 0
        self.time_stamp_tmp = 0
        self.depth_frame_tmp = 0
        self.rgb_frame_tmp = 0

        self.activity = StringVar()
        self.activity1 = StringVar()
        self.sensor_ignore = BooleanVar()
        self.buffer_ignore = BooleanVar()
        self.debug_mode = BooleanVar()

        # Clients
        self.kinect_client = PahoMqtt(BROKER, "KINECT", c_msg="kinect")
        self.kinect_client.loop_start()
        self.sound_client = PahoMqtt(BROKER, "SOUND", c_msg="sound")
        self.sound_client.loop_start()
        self.clients = list()
        dis = 0
        for i, item in enumerate(SENSORS):
            if item[2]:
                self.clients.append(
                    PahoMqtt(BROKER, f"{item[1]}", c_msg=item[0]))
                self.clients[i - dis].subscribe(item[0])
                self.clients[i - dis].loop_start()
            else:
                dis += 1

        # Attributes ----------------------------------------------------------
        #######################################################################
        # Tk widgets ----------------------------------------------------------

        self.title("Control")
        self.resizable(0, 0)
        self.configure(bg='white')

        # Sensor Frame 1
        self.sensor_frame1 = LabelFrame(self,
                                        text="Sensor control",
                                        background='white')
        self.sensor_frame1.pack(side=LEFT, fill="y")

        self.sensor_state = list()
        for item in self.clients:
            self.sensor_state.append(
                Label(self.sensor_frame1,
                      text=f"SENSOR {item.info}",
                      background='white',
                      font=("default", 15, 'bold')))
            self.sensor_state[-1].grid(row=len(self.sensor_state), column=0)

        self.start_btn = ttk.Button(self.sensor_frame1,
                                    text="Refresh",
                                    command=self.refresh)
        self.start_btn.grid(row=len(self.clients) + 1, column=0)

        # Stream Frame 2
        self.sensor_frame2 = LabelFrame(self,
                                        text="Person 1",
                                        background='white')
        self.sensor_frame2.pack(side=LEFT, fill="y")
        self.user_age = Label(self.sensor_frame2,
                              text="Age",
                              background='white',
                              font=("default", 10, 'bold'))
        self.user_age.grid(row=0, column=0)
        self.age_label = Label(self.sensor_frame2,
                               text=self.age[0],
                               background='white',
                               font=("default", 10, 'bold'))
        self.age_label.grid(row=0, column=1)
        self.user_sex = Label(self.sensor_frame2,
                              text="Sex",
                              background='white',
                              font=("default", 10, 'bold'))
        self.user_sex.grid(row=1, column=0)
        self.sex_label = Label(self.sensor_frame2,
                               text=self.sex[0],
                               background='white',
                               font=("default", 10, 'bold'))
        self.sex_label.grid(row=1, column=1)
        self.user_height = Label(self.sensor_frame2,
                                 text="Height",
                                 background='white',
                                 font=("default", 10, 'bold'))
        self.user_height.grid(row=2, column=0)
        self.height_label = Label(self.sensor_frame2,
                                  text=self.height[0],
                                  background='white',
                                  font=("default", 10, 'bold'))
        self.height_label.grid(row=2, column=1)
        self.user_weight = Label(self.sensor_frame2,
                                 text="Weight",
                                 background='white',
                                 font=("default", 10, 'bold'))
        self.user_weight.grid(row=3, column=0)
        self.weight_label = Label(self.sensor_frame2,
                                  text=self.weight[0],
                                  background='white',
                                  font=("default", 10, 'bold'))
        self.weight_label.grid(row=3, column=1)

        self.activity_menu = ttk.Combobox(self.sensor_frame2,
                                          value=ACTIVITIES,
                                          textvariable=self.activity)
        self.activity_menu.current(0)
        self.activity_menu.config(state="readonly", width=15)
        self.activity_menu.bind("<<ComboboxSelected>>")
        self.activity_menu.grid(row=4, column=0, columnspan=2, pady=5)

        self.stream_start_btn = ttk.Button(self.sensor_frame2,
                                           text="Stream start",
                                           command=self.stream_start,
                                           width=11)
        self.stream_start_btn.grid(row=5, column=0, padx=2, pady=2)
        self.stream_stop_btn = ttk.Button(self.sensor_frame2,
                                          text="Stream stop",
                                          command=self.stream_stop,
                                          width=11)
        self.stream_stop_btn["state"] = DISABLED
        self.stream_stop_btn.grid(row=5, column=1, padx=2, pady=2)

        self.stream_reset_btn = ttk.Button(
            self.sensor_frame2,
            text="Stream reset",
            command=lambda: self.stream_reset(delete=True),
            width=11)
        self.stream_reset_btn["state"] = DISABLED
        self.stream_reset_btn.grid(row=7, column=1, padx=2, pady=2)

        self.stream_save_btn = ttk.Button(self.sensor_frame2,
                                          text="Stream save",
                                          command=self.stream_save,
                                          width=11)
        self.stream_save_btn["state"] = DISABLED
        self.stream_save_btn.grid(row=7, column=0, padx=2, pady=2)

        self.act_start_btn = ttk.Button(self.sensor_frame2,
                                        text="Activity start",
                                        command=lambda: self.activity_start(0),
                                        width=11)
        self.act_start_btn["state"] = DISABLED
        self.act_start_btn.grid(row=6, column=0, padx=2, pady=5)

        self.act_end_btn = ttk.Button(self.sensor_frame2,
                                      text="Activity end",
                                      command=lambda: self.activity_end(0),
                                      width=11)
        self.act_end_btn["state"] = DISABLED
        self.act_end_btn.grid(row=6, column=1, padx=2, pady=5)

        ###################################################################################
        # Stream Frame 3
        self.sensor_frame3 = LabelFrame(self,
                                        text="Person 2",
                                        background='white')
        self.sensor_frame3.pack(side=LEFT, fill="y")
        self.user1_age = Label(self.sensor_frame3,
                               text="Age",
                               background='white',
                               font=("default", 10, 'bold'))
        self.user1_age.grid(row=0, column=0)
        self.age1_label = Label(self.sensor_frame3,
                                text=self.age[1],
                                background='white',
                                font=("default", 10, 'bold'))
        self.age1_label.grid(row=0, column=1)
        self.user1_sex = Label(self.sensor_frame3,
                               text="Sex",
                               background='white',
                               font=("default", 10, 'bold'))
        self.user1_sex.grid(row=1, column=0)
        self.sex1_label = Label(self.sensor_frame3,
                                text=self.sex[1],
                                background='white',
                                font=("default", 10, 'bold'))
        self.sex1_label.grid(row=1, column=1)
        self.user1_height = Label(self.sensor_frame3,
                                  text="Height",
                                  background='white',
                                  font=("default", 10, 'bold'))
        self.user1_height.grid(row=2, column=0)
        self.height1_label = Label(self.sensor_frame3,
                                   text=self.height[1],
                                   background='white',
                                   font=("default", 10, 'bold'))
        self.height1_label.grid(row=2, column=1)
        self.user1_weight = Label(self.sensor_frame3,
                                  text="Weight",
                                  background='white',
                                  font=("default", 10, 'bold'))
        self.user1_weight.grid(row=3, column=0)
        self.weight1_label = Label(self.sensor_frame3,
                                   text=self.weight[1],
                                   background='white',
                                   font=("default", 10, 'bold'))
        self.weight1_label.grid(row=3, column=1)

        self.activity1_menu = ttk.Combobox(self.sensor_frame3,
                                           value=ACTIVITIES1,
                                           textvariable=self.activity1)
        self.activity1_menu.current(0)
        self.activity1_menu.config(state="readonly", width=15)
        self.activity1_menu.bind("<<ComboboxSelected>>")
        self.activity1_menu.grid(row=4, column=0, columnspan=2, pady=5)

        self.act_start_btn1 = ttk.Button(
            self.sensor_frame3,
            text="Activity start",
            command=lambda: self.activity_start(1),
            width=11)
        self.act_start_btn1["state"] = DISABLED
        self.act_start_btn1.grid(row=5, column=0, padx=2, pady=5)

        self.act_end_btn1 = ttk.Button(self.sensor_frame3,
                                       text="Activity end",
                                       command=lambda: self.activity_end(1),
                                       width=11)
        self.act_end_btn1["state"] = DISABLED
        self.act_end_btn1.grid(row=5, column=1, padx=2, pady=5)
        ###################################################################################

        # Menu
        menubar = Menu(self)
        tool = Menu(menubar, tearoff=0)
        tool.add_command(label="Insert user info", command=self.user_info)
        tool.add_command(label="Display kinect", command=self.disp_kinect)
        tool.add_checkbutton(label="Ignore sensor error",
                             onvalue=1,
                             offvalue=0,
                             variable=self.sensor_ignore)
        tool.add_checkbutton(label="Ignore buffer error",
                             onvalue=1,
                             offvalue=0,
                             variable=self.buffer_ignore)
        tool.add_checkbutton(label="debug mode",
                             onvalue=1,
                             offvalue=0,
                             variable=self.debug_mode)
        tool.add_command(label="Close sensors", command=self.close)
        menubar.add_cascade(label="Tools", menu=tool)
        self.config(menu=menubar)

        # Tk widgets ----------------------------------------------------------
        #######################################################################
        # Sensor controls -----------------------------------------------------

        self.azure = PyK4A()
        self.azure.start()

        self.stream_reset()
        self.get_video()
        self.stream_video()
        self.stream_depth()

        self.set_state()
        self.refresh()

        # Main loop -----------------------------------------------------------
        self.mainloop()
Exemplo n.º 48
0
class MainGUI:
    def __init__(self):
        self.view_bool = False
        self.get_data(False)
        self.main_init()

    def main_init(self):
        self.gui_main()

    def main_refresh(self, all=False):
        self.get_data(all)
        if self.order_details == {}:
            self.listbox.delete(*self.listbox.get_children())
            self.listbox.insert("",
                                "end",
                                text="--",
                                values=("All orders cleared!", ))
        else:
            simple_details = []
            for id in self.order_ids:
                string = ""
                for item in self.order_details.get(id):
                    string += f"{item[1]} {item[0]}, "
                simple_details.append([
                    id, string[:40] +
                    "..." if len(string) > 40 else string[:len(string) - 2]
                ])

            self.listbox.delete(*self.listbox.get_children())
            for simple_detail in simple_details:
                self.listbox.insert("",
                                    "end",
                                    text=simple_detail[0],
                                    values=(simple_detail[1], ))

    def gui_main(self):
        # Root Window Init
        self.window = ThemedTk(theme="radiance")
        self.window.geometry("435x340")
        self.window.title("Restaurant Management System")
        self.window.configure(background="#F6F4F2")
        self.window.resizable(0, 0)

        self.view_var = BooleanVar()

        # Heading
        ttk.Label(self.window,
                  font=("default", 19, "bold"),
                  text="Kitchen Manager").grid(row=0,
                                               column=0,
                                               sticky="w",
                                               padx=15)
        ttk.Separator(self.window, orient="horizontal").grid(row=1,
                                                             columnspan=2,
                                                             sticky="ew")

        # Tree View
        self.listbox = ttk.Treeview(self.window)
        self.listbox["columns"] = ("Details")
        self.listbox.heading("#0", text="Order No")
        self.listbox.heading("#1", text="Details")
        self.listbox.column("#0", minwidth=0, width=100)
        self.listbox.column("#1", minwidth=0, width=300)
        self.listbox.bind('<Double-1>', self.selectItem)
        ttk.Style().configure("Treeview",
                              fieldbackground="#FEFEFE",
                              background="#FEFEFE")

        self.main_refresh(self.view_bool)
        self.listbox.grid(row=2, column=0, sticky="nse", padx=15, pady=10)

        self.view_all = ttk.Checkbutton(self.window,
                                        text="View all orders",
                                        variable=self.view_var,
                                        command=self.cb).grid(row=3,
                                                              column=0,
                                                              sticky="w",
                                                              padx=15)
        ttk.Button(self.window, text="Quit",
                   command=self.window.destroy).grid(row=3,
                                                     column=0,
                                                     sticky="e",
                                                     padx=15)
        self.window.mainloop()

    def cb(self):
        if self.view_var.get() == True:
            self.view_bool = True
        else:
            self.view_bool = False
        self.main_refresh(self.view_bool)

    def gui_details(self, id):
        # Open Details Window
        self.detail = ThemedTk(theme="radiance")
        self.detail.geometry("335x410")
        self.detail.title("Details")
        self.detail.configure(background="#F6F4F2")
        self.detail.resizable(0, 0)
        self.id = id

        # Heading
        ttk.Label(self.detail, font=("default", 19, "bold"),
                  text="Orders").grid(row=0, column=0, sticky="w", padx=15)
        ttk.Separator(self.detail, orient="horizontal").grid(row=1,
                                                             columnspan=2,
                                                             sticky="ew",
                                                             pady=(0, 5))

        # Create Default Lables
        ttk.Label(self.detail,
                  font=("default", 10, "bold"),
                  anchor="e",
                  width=18,
                  text="Order ID             : ").grid(row=2, column=0)
        ttk.Label(self.detail,
                  font=("default", 10, "bold"),
                  anchor="e",
                  width=18,
                  text="Customer Name : ").grid(row=3, column=0)

        # Create Buttons
        ttk.Button(self.detail,
                   text="Mark Done",
                   command=lambda: self.mark_done(self.id),
                   width=33).grid(row=5, column=0, columnspan=2)
        ttk.Button(
            self.detail,
            text="Previous",
            command=lambda: self.refresh(self.detail, "prev", self.id)).grid(
                row=6, column=0, sticky="w", padx=15)
        ttk.Button(
            self.detail,
            text="Next",
            command=lambda: self.refresh(self.detail, "next", self.id)).grid(
                row=6, column=1, sticky="e", padx=15)

        self.tree = ttk.Treeview(self.detail)
        self.tree["columns"] = ("Quantity")
        self.tree.heading("#0", text="Name")
        self.tree.heading("#1", text="Quantity")
        self.tree.column("#0", minwidth=0, width=230)
        self.tree.column("#1", minwidth=0, width=70)

    def mark_done(self, id):
        conn = sqlite3.connect("login_db.db")
        query = f"UPDATE orders SET delivered=1 WHERE order_no={id};"
        conn.execute(query)
        conn.commit()
        self.detail.destroy()
        self.main_refresh(self.view_bool)

    def selectItem(self, a):
        curItem = self.listbox.focus()
        id = self.listbox.item(curItem).get("text")
        if id == "--":
            pass
        else:
            self.gui_details(id)
            self.refresh(self.detail, None, id)

    def refresh(self, detail, fun, id):
        # Determine Function of Refresh else do nothing
        orders = self.order_ids
        if fun == "next":
            # When at end, loop back to start
            if orders.index(id) + 1 == len(orders):
                id = orders[0]
            else:
                id = orders[orders.index(id) + 1]

        elif fun == "prev":
            id = orders[orders.index(id) - 1]
        self.id = id

        # Create Changing Value Lables
        conn = sqlite3.connect("login_db.db")
        query = f"SELECT * FROM orders WHERE order_no={id}"
        items = conn.execute(query)
        converted_item = tuple(items)[0]
        ttk.Label(self.detail,
                  anchor="w",
                  width=18,
                  text=f"{converted_item[0]}").grid(row=2, column=1, padx=3)
        ttk.Label(self.detail,
                  anchor="w",
                  width=18,
                  text=f"{converted_item[1]}").grid(row=3, column=1, padx=3)

        self.tree.delete(*self.tree.get_children())
        for item in self.order_details.get(id):
            self.tree.insert("", "end", text=item[0], values=(item[1], ))

        for i in range(10):
            self.tree.insert("", "end", text="", values=("", ))

        self.tree.grid(row=4, column=0, columnspan=2, padx=15, pady=10)
        self.detail.mainloop()

    def get_data(self, all):
        self.order_details = km.db_retrieve(all)
        self.order_ids = km.order_ids(all)
Exemplo n.º 49
0
 def var(self):
     if self._var is None:
         self._var = BooleanVar()
         self._var.set(self._default)
     else:
         return self._var
Exemplo n.º 50
0
viewmenu = Menu(menubar, tearoff=0)

#viewmenu variables and adding commands
show_line_no = IntVar()
show_line_no.set(1)
viewmenu.add_checkbutton(label="Show Line Numbers",
                         variable=show_line_no,
                         command=Updatelineno)

show_cursor_info = IntVar()
show_cursor_info.set(1)
viewmenu.add_checkbutton(label="Show Cursor Location at Bottom",
                         variable=show_cursor_info,
                         command=Showcursorinfobar)

to_highlight_line = BooleanVar()
viewmenu.add_checkbutton(label="Highlight Current Line",
                         onvalue=1,
                         offvalue=0,
                         variable=to_highlight_line,
                         command=Tohighlightline)

themesmenu = Menu(viewmenu, tearoff=0)
viewmenu.add_cascade(label="Themes", menu=themesmenu)
color_schemes = {
    'Day Light': '#000000.#FFFFFF',
    'Greygarious': '#83406A.#D1D4D1',
    'Aquamarine': '#5B8340.#D1E7E0',
    'Bold Beige': '#4B4620.#FFF0E1',
    'Cobalt Blue': '#ffffBB.#3333aa',
    'Olive Green': '#D1E7E0.#5B8340',
Exemplo n.º 51
0
    def build_parsing_book_by_groups(self):
        """
        Наполнение подвкладки "По критериям" вкладки "Парсинг"
        :return:
        """
        ################-------------PARSING_BOOK-------------################
        left_frame = ttk.Frame(self.parsing_book_by_groups,
                               relief='solid',
                               borderwidth=1,
                               padding=3)
        right_frame = ttk.Frame(self.parsing_book_by_groups, padding=5)
        left_frame.grid(row=0, column=0, sticky='NSWE')
        right_frame.grid(row=0, column=1, sticky='NSWE')

        progressbar = ttk.Progressbar(self.parsing_book_by_groups,
                                      orient='horizontal',
                                      mode='determinate',
                                      maximum=PROGRESSBAR_MAX,
                                      value=0)
        lbl_progress = ttk.Label(self.parsing_book_by_groups,
                                 text='',
                                 font=fonts.H5_FONT)

        lbl_progress.grid(row=1, column=0, columnspan=2, pady=5, sticky='SWE')
        progressbar.grid(row=2, column=0, columnspan=2, sticky='SWE')

        #################-------------LEFT_FRAME-------------#################
        #  row 0
        var_need_country = BooleanVar()

        var_need_city_region = BooleanVar()

        var_city_region = BooleanVar()

        var_need_country.set(0)
        var_need_city_region.set(0)
        var_city_region.set(0)

        country_frame = ttk.Frame(left_frame, padding=4)
        chk_country_frame = ttk.Checkbutton(country_frame,
                                            text='',
                                            variable=var_need_country,
                                            onvalue=1,
                                            offvalue=0)

        lbl_country = ttk.Label(country_frame,
                                text='Страна',
                                font=fonts.H6_FONT,
                                foreground=styles.NOTABLE_LABEL_FONT)
        __var_country__ = list(LIST_COUNTRIES.keys())
        var_country = ttk.Combobox(country_frame,
                                   font=fonts.COMBOBOX_FONT,
                                   width=36,
                                   state='readonly')
        var_country['values'] = __var_country__
        var_country.set(__var_country__[0])

        chk_city_region = ttk.Checkbutton(country_frame,
                                          variable=var_need_city_region,
                                          onvalue=1,
                                          offvalue=0,
                                          text='')
        lbl_city_region = ttk.Label(country_frame,
                                    text='Город/Регион',
                                    font=fonts.H6_FONT,
                                    foreground=styles.NOTABLE_LABEL_FONT)
        rdb_city = ttk.Radiobutton(country_frame,
                                   text='Город',
                                   value=0,
                                   variable=var_city_region)
        rdb_region = ttk.Radiobutton(country_frame,
                                     text='Регион',
                                     value=1,
                                     variable=var_city_region)
        cmb_city_region = ttk.Combobox(country_frame,
                                       font=fonts.COMBOBOX_FONT,
                                       width=36,
                                       state='readonly')
        cmb_city_region.set('Нажмите "Настройка"')

        #  row 1
        var_need_relationship = BooleanVar()

        var_need_relationship.set(0)

        relationship_frame = ttk.Frame(left_frame, padding=4)

        chk_relationship_has_photo_frame = ttk.Checkbutton(
            relationship_frame,
            variable=var_need_relationship,
            text='',
            onvalue=1,
            offvalue=0)
        lbl_relationship = ttk.Label(relationship_frame,
                                     text='Семейное положение',
                                     font=fonts.H6_FONT,
                                     foreground=styles.NOTABLE_LABEL_FONT)
        var_relationship = ttk.Combobox(relationship_frame,
                                        font=fonts.COMBOBOX_FONT,
                                        width=30,
                                        state='readonly')
        __var_relationship__ = list(STATUS_VK_PERSON.keys())
        var_relationship['values'] = __var_relationship__
        var_relationship.set(__var_relationship__[0])

        #  row 2
        var_has_photo = BooleanVar()

        var_photo_from = IntVar()
        var_photo_to = IntVar()

        has_photo_frame = ttk.Frame(left_frame, padding=4)

        lbl_has_photo = ttk.Label(has_photo_frame,
                                  text='Фотографии',
                                  font=fonts.H6_FONT,
                                  foreground=styles.NOTABLE_LABEL_FONT)
        rdb_not_has_photo = ttk.Radiobutton(has_photo_frame,
                                            variable=var_has_photo,
                                            text='Неважно',
                                            value=0)
        rdb_has_photo = ttk.Radiobutton(has_photo_frame,
                                        variable=var_has_photo,
                                        text='Есть фото',
                                        value=1)

        #  row 3
        var_need_old = BooleanVar()
        var_old_from = IntVar()
        var_old_to = IntVar()

        var_need_old.set(0)
        var_old_from.set(18)
        var_old_to.set(40)

        var_need_count_followers = BooleanVar()
        var_followers_from = IntVar()
        var_followers_to = IntVar()

        var_need_count_followers.set(0)
        var_followers_from.set(0)
        var_followers_to.set(50)

        count_followers_old_frame = ttk.Frame(left_frame, padding=4)

        chk_old = ttk.Checkbutton(count_followers_old_frame,
                                  variable=var_need_old,
                                  onvalue=1,
                                  offvalue=0,
                                  text='')
        lbl_old = ttk.Label(count_followers_old_frame,
                            font=fonts.H6_FONT,
                            text='Возраст',
                            foreground=styles.NOTABLE_LABEL_FONT)
        spn_old_from = ttk.Spinbox(count_followers_old_frame,
                                   width=5,
                                   font=fonts.SPINBOX_FONT,
                                   from_=18,
                                   to=99,
                                   textvariable=var_old_from,
                                   state='readonly')
        lbl_old_to = ttk.Label(count_followers_old_frame,
                               text='--',
                               font=fonts.H6_FONT)
        spn_old_to = ttk.Spinbox(count_followers_old_frame,
                                 width=5,
                                 font=fonts.SPINBOX_FONT,
                                 from_=19,
                                 to=100,
                                 textvariable=var_old_to,
                                 state='readonly')

        chk_need_followers = ttk.Checkbutton(count_followers_old_frame,
                                             variable=var_need_count_followers,
                                             onvalue=1,
                                             offvalue=0)
        lbl_followers = ttk.Label(count_followers_old_frame,
                                  text='Подписчиков',
                                  font=fonts.H6_FONT,
                                  foreground=styles.NOTABLE_LABEL_FONT)
        spn_followers_from = ttk.Spinbox(count_followers_old_frame,
                                         from_=0,
                                         to=FOLLOWERS_MAX,
                                         font=fonts.SPINBOX_FONT,
                                         textvariable=var_followers_from)
        lbl_followers_to = ttk.Label(count_followers_old_frame,
                                     text='--',
                                     font=fonts.H6_FONT)
        spn_followers_to = ttk.Spinbox(count_followers_old_frame,
                                       from_=1,
                                       to=FOLLOWERS_MAX,
                                       font=fonts.SPINBOX_FONT,
                                       textvariable=var_followers_to)
        #  row 4
        var_need_last_seen = BooleanVar()

        var_only = BooleanVar()

        var_last_seen_from = IntVar()
        var_last_seen_to = IntVar()

        var_need_last_seen.set(0)
        var_only.set(0)
        var_last_seen_from.set(5)
        var_last_seen_to.set(10)

        only_last_seen_frame = ttk.Frame(left_frame, padding=4)

        lbl_only = ttk.Label(only_last_seen_frame,
                             text='Онлайн',
                             font=fonts.H6_FONT,
                             foreground=styles.NOTABLE_LABEL_FONT)
        rdb_not_only = ttk.Radiobutton(only_last_seen_frame,
                                       text='Неважно',
                                       variable=var_only,
                                       value=0)
        rdb_only = ttk.Radiobutton(only_last_seen_frame,
                                   text='Онлайн сейчас',
                                   variable=var_only,
                                   value=1)

        chk_need_last_seen = ttk.Checkbutton(only_last_seen_frame,
                                             variable=var_need_last_seen,
                                             onvalue=1,
                                             offvalue=0)
        lbl_last_seen = ttk.Label(only_last_seen_frame,
                                  text='Последний раз в сети',
                                  font=fonts.H6_FONT,
                                  foreground=styles.NOTABLE_LABEL_FONT)
        spn_last_seen_from = ttk.Spinbox(only_last_seen_frame,
                                         from_=0,
                                         to=LAST_SEEN_MAX,
                                         font=fonts.SPINBOX_FONT,
                                         textvariable=var_last_seen_from,
                                         width=5)
        lbl_last_seen_to = ttk.Label(only_last_seen_frame,
                                     text='--',
                                     font=fonts.H6_FONT)
        spn_last_seen_to = ttk.Spinbox(only_last_seen_frame,
                                       from_=2,
                                       to=LAST_SEEN_MAX,
                                       font=fonts.SPINBOX_FONT,
                                       textvariable=var_last_seen_to,
                                       width=5)
        lbl_last_seen_day = ttk.Label(only_last_seen_frame,
                                      text='дней назад',
                                      font=fonts.H6_FONT)

        #  row 5
        var_sex = IntVar()
        var_sex.set(0)

        var_can_send_message = BooleanVar()
        var_can_send_message.set(0)

        send_message_sex_frame = ttk.Frame(left_frame, padding=4)

        lbl_sex = ttk.Label(send_message_sex_frame,
                            text='Пол',
                            font=fonts.H6_FONT,
                            foreground=styles.NOTABLE_LABEL_FONT)
        rdb_no_sex = ttk.Radiobutton(send_message_sex_frame,
                                     variable=var_sex,
                                     value=0,
                                     text='Неважно')
        rdb_female = ttk.Radiobutton(send_message_sex_frame,
                                     variable=var_sex,
                                     value=1,
                                     text='Женский')
        rdb_male = ttk.Radiobutton(send_message_sex_frame,
                                   variable=var_sex,
                                   value=2,
                                   text='Мужской')

        lbl_send_message = ttk.Label(send_message_sex_frame,
                                     text='Можно отправить сообщение',
                                     font=fonts.H6_FONT,
                                     foreground=styles.NOTABLE_LABEL_FONT)
        rdb_no_matter_send_message = ttk.Radiobutton(
            send_message_sex_frame,
            variable=var_can_send_message,
            value=0,
            text='Неважно')
        rdb_can_send_message = ttk.Radiobutton(send_message_sex_frame,
                                               variable=var_can_send_message,
                                               value=1,
                                               text='Можно')

        #  row 6
        var_need_political = BooleanVar()
        var_need_political.set(0)

        var_need_life_main = BooleanVar()
        var_need_life_main.set(0)

        political_life_main_frame = ttk.Frame(left_frame, padding=4)

        chk_political = ttk.Checkbutton(political_life_main_frame,
                                        variable=var_need_political,
                                        onvalue=1,
                                        offvalue=0,
                                        text='')
        lbl_political = ttk.Label(political_life_main_frame,
                                  text='Политические предпочтения',
                                  font=fonts.H6_FONT,
                                  foreground=styles.NOTABLE_LABEL_FONT)
        __var_political__ = list(POLITICAL.keys())
        var_political = ttk.Combobox(political_life_main_frame,
                                     font=fonts.COMBOBOX_FONT,
                                     width=25,
                                     state='readonly')
        var_political['value'] = __var_political__
        var_political.set(__var_political__[0])

        chk_life_main = ttk.Checkbutton(political_life_main_frame,
                                        variable=var_need_life_main,
                                        onvalue=1,
                                        offvalue=0,
                                        text='')
        lbl_life_main = ttk.Label(political_life_main_frame,
                                  text='Главное в жизни',
                                  font=fonts.H6_FONT,
                                  foreground=styles.NOTABLE_LABEL_FONT)
        __var_life_main__ = list(LIFE_MAIN.keys())
        var_life_main = ttk.Combobox(political_life_main_frame,
                                     font=fonts.COMBOBOX_FONT,
                                     width=25,
                                     state='readonly')
        var_life_main['value'] = __var_life_main__
        var_life_main.set(__var_life_main__[0])

        #  row 7
        var_need_people_main = BooleanVar()
        var_need_people_main.set(0)

        var_need_smoking = BooleanVar()
        var_need_smoking.set(0)

        people_main_smoking_frame = ttk.Frame(left_frame, padding=4)

        chk_people_main = ttk.Checkbutton(people_main_smoking_frame,
                                          variable=var_need_people_main,
                                          onvalue=1,
                                          offvalue=0,
                                          text='')
        lbl_people_main = ttk.Label(people_main_smoking_frame,
                                    font=fonts.H6_FONT,
                                    foreground=styles.NOTABLE_LABEL_FONT,
                                    text='Главное в людях')
        __var_people_main__ = list(PEOPLE_MAIN.keys())
        var_people_main = ttk.Combobox(people_main_smoking_frame,
                                       font=fonts.COMBOBOX_FONT,
                                       state='readonly')
        var_people_main['value'] = __var_people_main__
        var_people_main.set(__var_people_main__[0])
        chk_smoking = ttk.Checkbutton(people_main_smoking_frame,
                                      variable=var_need_smoking,
                                      onvalue=1,
                                      offvalue=0,
                                      text='')
        lbl_smoking = ttk.Label(people_main_smoking_frame,
                                font=fonts.H6_FONT,
                                foreground=styles.NOTABLE_LABEL_FONT,
                                text='Отношение к курению')
        __var_smoking__ = list(SMOKING.keys())
        var_smoking = ttk.Combobox(people_main_smoking_frame,
                                   font=fonts.COMBOBOX_FONT,
                                   state='readonly')
        var_smoking['value'] = __var_smoking__
        var_smoking.set(__var_smoking__[0])

        #  row 8
        var_need_alcohol = BooleanVar()
        var_need_alcohol.set(0)

        alcohol_frame = ttk.Frame(left_frame, padding=4)

        chk_alcohol = ttk.Checkbutton(alcohol_frame,
                                      variable=var_need_alcohol,
                                      onvalue=1,
                                      offvalue=0,
                                      text='')
        lbl_alcohol = ttk.Label(alcohol_frame,
                                font=fonts.H6_FONT,
                                foreground=styles.NOTABLE_LABEL_FONT,
                                text='Отношение к алкоголю')
        __var_alcohol__ = list(ALCOHOL.keys())
        var_alcohol = ttk.Combobox(alcohol_frame,
                                   font=fonts.COMBOBOX_FONT,
                                   state='readonly')
        var_alcohol['value'] = __var_alcohol__
        var_alcohol.set(__var_alcohol__[0])

        #  row 9
        var_need_entry_status = BooleanVar()
        var_need_entry_status.set(0)

        entry_status_frame = ttk.Frame(left_frame, padding=4)

        chk_entry_status = ttk.Checkbutton(entry_status_frame,
                                           variable=var_need_entry_status,
                                           onvalue=1,
                                           offvalue=0,
                                           text='')
        lbl_entry_status = ttk.Label(entry_status_frame,
                                     text='Ключевое слово в статусе',
                                     font=fonts.H6_FONT,
                                     foreground=styles.NOTABLE_LABEL_FONT)
        var_entry_status = ttk.Entry(entry_status_frame, font=fonts.INPUT_FONT)

        #  row 10
        var_need_entry_about = BooleanVar()
        var_need_entry_about.set(0)

        entry_about_frame = ttk.Frame(left_frame, padding=4)

        chk_entry_about = ttk.Checkbutton(entry_about_frame,
                                          variable=var_need_entry_about,
                                          onvalue=1,
                                          offvalue=0,
                                          text='')
        lbl_entry_about = ttk.Label(entry_about_frame,
                                    font=fonts.H6_FONT,
                                    text='Ключевое слово в "О себе"',
                                    foreground=styles.NOTABLE_LABEL_FONT)
        var_entry_about = ttk.Entry(entry_about_frame, font=fonts.INPUT_FONT)
        #  row 11
        var_deactivate = BooleanVar()
        var_deactivate.set(1)

        deactivate_frame = ttk.Frame(left_frame, padding=4)
        lbl_deactivate = ttk.Label(deactivate_frame,
                                   text='Заблокированные аккаунты',
                                   font=fonts.H6_FONT,
                                   foreground=styles.NOTABLE_LABEL_FONT)
        rdb_not_deactivate = ttk.Radiobutton(
            deactivate_frame,
            variable=var_deactivate,
            value=0,
            text='Оставить',
        )
        rdb_deactivate = ttk.Radiobutton(deactivate_frame,
                                         variable=var_deactivate,
                                         value=1,
                                         text='Убрать')

        # right_frame
        btn_parse = ttk.Button(right_frame, text='Парсить')
        btn_choose_record = ttk.Button(right_frame, text='Выбрать')
        btn_settings = ttk.Button(right_frame, text='Настройка')
        btn_all_record = ttk.Button(right_frame, text='Все записи')

        entry_pk = ttk.Entry(right_frame)

        widgets = {
            'left_frame': left_frame,
            'right_frame': right_frame,
            'var_need_country': var_need_country,
            'var_need_relationship': var_need_relationship,
            'var_need_old': var_need_old,
            'var_need_city_region': var_need_city_region,
            'var_need_count_followers': var_need_count_followers,
            'var_need_last_seen': var_need_last_seen,
            'var_need_political': var_need_political,
            'var_need_people_main': var_need_people_main,
            'var_need_life_main': var_need_life_main,
            'var_need_smoking': var_need_smoking,
            'var_need_alcohol': var_need_alcohol,
            'var_need_entry_status': var_need_entry_status,
            'var_need_entry_about': var_need_entry_about,
            'var_country': var_country,
            'var_city_region': var_city_region,
            'cmb_city_region': cmb_city_region,
            'var_can_send_message': var_can_send_message,
            'var_relationship': var_relationship,
            'var_has_photo': var_has_photo,
            'var_photo_from': var_photo_from,
            'var_photo_to': var_photo_to,
            'var_followers_from': var_followers_from,
            'var_followers_to': var_followers_to,
            'var_last_seen_from': var_last_seen_from,
            'var_last_seen_to': var_last_seen_to,
            'var_only': var_only,
            'var_sex': var_sex,
            'var_entry_about': var_entry_about,
            'var_entry_status': var_entry_status,
            'var_political': var_political,
            'var_life_main': var_life_main,
            'var_people_main': var_people_main,
            'var_smoking': var_smoking,
            'var_alcohol': var_alcohol,
            'var_old_from': var_old_from,
            'var_old_to': var_old_to,
            'lbl_progress': lbl_progress,
            'progressbar': progressbar,
            'lbl_last_seen': lbl_last_seen,
            'lbl_last_seen_to': lbl_last_seen_to,
            'spn_last_seen_from': spn_last_seen_from,
            'spn_last_seen_to': spn_last_seen_to,
            'chk_need_last_seen': chk_need_last_seen,
            'var_deactivate': var_deactivate,
            'lbl_last_seen_day': lbl_last_seen_day,
            'entry_pk': entry_pk,
        }
        ####################-------------GRID-------------####################
        #  row 0
        country_frame.grid(row=0, column=0, sticky='NSWE', pady=6)
        chk_country_frame.grid(row=0, column=0, padx=5, sticky='SW')
        lbl_country.grid(row=0, column=1, sticky='SW')
        var_country.grid(row=0, column=2, sticky='SWE', padx=7)
        chk_city_region.grid(row=0, column=3, sticky='SW', padx=15)
        lbl_city_region.grid(row=0, column=4, sticky='SW')
        rdb_city.grid(row=0, column=5, sticky='SW', padx=5)
        rdb_region.grid(row=0, column=6, sticky='SW')
        cmb_city_region.grid(row=0, column=7, sticky='SWE', padx=5)
        #  row 1
        count_followers_old_frame.grid(row=1, column=0, sticky='NSWE')
        chk_old.grid(row=0, column=0, sticky='SW', padx=5)
        lbl_old.grid(row=0, column=1, sticky='SW')
        spn_old_from.grid(row=0, column=2, sticky='SW', padx=2)
        lbl_old_to.grid(row=0, column=3, sticky='SW', padx=5)
        spn_old_to.grid(row=0, column=4, sticky='SW', padx=2)
        chk_need_followers.grid(row=0, column=5, sticky='SW', padx=15)
        lbl_followers.grid(row=0, column=6, sticky='SW')
        spn_followers_from.grid(row=0, column=7, sticky='SW', padx=2)
        lbl_followers_to.grid(row=0, column=8, sticky='SW', padx=5)
        spn_followers_to.grid(row=0, column=9, sticky='SW', padx=2)
        #  row 2
        relationship_frame.grid(row=2, column=0, sticky='NSWE', pady=7)
        chk_relationship_has_photo_frame.grid(row=0,
                                              column=0,
                                              sticky='SW',
                                              padx=5)
        lbl_relationship.grid(row=0, column=1, sticky='SW')
        var_relationship.grid(row=0, column=2, sticky='SWE', padx=10)
        #  row 3
        send_message_sex_frame.grid(row=3, column=0, sticky='NSWE')
        lbl_sex.grid(row=0, column=0, sticky='SW', padx=5)
        rdb_no_sex.grid(row=0, column=1, sticky='SW')
        rdb_female.grid(row=0, column=2, sticky='SW', padx=2)
        rdb_male.grid(row=0, column=3, sticky='SW')
        lbl_send_message.grid(row=0, column=4, sticky='SW', padx=10)
        rdb_no_matter_send_message.grid(row=0, column=5, sticky='SW')
        rdb_can_send_message.grid(row=0, column=6, sticky='SW', padx=2)
        #  row 4
        only_last_seen_frame.grid(row=4, column=0, sticky='NSWE')
        lbl_only.grid(row=0, column=0, sticky='SW', padx=5)
        rdb_not_only.grid(row=0, column=1, sticky='SW')
        rdb_only.grid(row=0, column=2, sticky='SW', padx=3)
        chk_need_last_seen.grid(row=0, column=3, sticky='SW', padx=5)
        lbl_last_seen.grid(row=0, column=4, sticky='SW', padx=5)
        spn_last_seen_from.grid(row=0, column=5, sticky='SW')
        lbl_last_seen_to.grid(row=0, column=6, sticky='SW', padx=5)
        spn_last_seen_to.grid(row=0, column=7, sticky='SW')
        lbl_last_seen_day.grid(row=0, column=8, sticky='SW', padx=2)
        #  row 5
        has_photo_frame.grid(row=5, column=0, sticky='NSWE', pady=6)
        lbl_has_photo.grid(row=0, column=0, sticky='SW', padx=5)
        rdb_not_has_photo.grid(row=0, column=1, sticky='SW')
        rdb_has_photo.grid(row=0, column=2, sticky='SW', padx=3)
        #  row 6
        political_life_main_frame.grid(row=6, column=0, sticky='NSWE', pady=6)
        chk_political.grid(row=0, column=0, sticky='SW', padx=5)
        lbl_political.grid(row=0, column=1, sticky='SW')
        var_political.grid(row=0, column=2, sticky='SW', padx=3)
        chk_life_main.grid(row=0, column=3, sticky='SW', padx=10)
        lbl_life_main.grid(row=0, column=4, sticky='SW')
        var_life_main.grid(row=0, column=5, sticky='SW', padx=3)
        #  row 7
        people_main_smoking_frame.grid(row=7, column=0, sticky='NSWE', pady=6)
        chk_people_main.grid(row=0, column=0, sticky='SW', padx=5)
        lbl_people_main.grid(row=0, column=1, sticky='SW')
        var_people_main.grid(row=0, column=2, sticky='SW', padx=3)
        chk_smoking.grid(row=0, column=3, sticky='SW', padx=10)
        lbl_smoking.grid(row=0, column=4, sticky='SW')
        var_smoking.grid(row=0, column=5, sticky='SW', padx=3)
        #  row 8
        alcohol_frame.grid(row=8, column=0, sticky='NSWE', pady=6)
        chk_alcohol.grid(row=0, column=0, sticky='SW', padx=5)
        lbl_alcohol.grid(row=0, column=1, sticky='SW')
        var_alcohol.grid(row=0, column=2, sticky='SW', padx=3)
        #  row 9
        entry_status_frame.grid(row=9, column=0, sticky='NSWE', pady=6)
        chk_entry_status.grid(row=0, column=0, sticky='SW', padx=5)
        lbl_entry_status.grid(row=0, column=1, sticky='SW')
        var_entry_status.grid(row=0, column=2, sticky='SWE', padx=3)
        #  row 10
        entry_about_frame.grid(row=10, column=0, sticky='NSWE', pady=6)
        chk_entry_about.grid(row=0, column=0, sticky='SW', padx=5)
        lbl_entry_about.grid(row=0, column=1, sticky='SW')
        var_entry_about.grid(row=0, column=2, sticky='SWE')
        #  row 11
        deactivate_frame.grid(row=11, column=0, sticky='NSWE')
        lbl_deactivate.grid(row=0, column=0, sticky='SW', padx=5)
        rdb_not_deactivate.grid(row=0, column=1, sticky='SW')
        rdb_deactivate.grid(row=0, column=2, sticky='SW')

        btn_parse.grid(row=0, column=0, sticky='SWE', pady=5)
        btn_choose_record.grid(row=1, column=0, sticky='SWE')
        btn_settings.grid(row=2, column=0, sticky='SWE', pady=5)
        btn_all_record.grid(row=3, column=0, sticky='SWE')

        self.parsing_book_by_groups.columnconfigure(0, weight=9)
        self.parsing_book_by_groups.columnconfigure(1, weight=1)
        self.parsing_book_by_groups.rowconfigure(0, weight=1)

        left_frame.columnconfigure(0, weight=1)

        entry_status_frame.columnconfigure(2, weight=1)
        entry_about_frame.columnconfigure(2, weight=1)

        btn_all_record.bind('<Button-1>', lambda event: TreeViewWindow())
        btn_choose_record.bind(
            '<Button-1>', lambda event: TreeViewWindow(
                method='parse',
                completion_name=NAME_PARSING['by_groups'],
                entry_pk=entry_pk))
        rdb_city.bind(
            '<Button-1>',
            lambda event: FunctionsForWindows.setting_region_city(widgets))
        rdb_region.bind(
            '<Button-1>',
            lambda event: FunctionsForWindows.setting_region_city(widgets))
        rdb_not_only.bind(
            '<Button-1>',
            lambda event: FunctionsForWindows.setting_only(widgets))
        rdb_only.bind('<Button-1>',
                      lambda event: FunctionsForWindows.setting_only(widgets))
        btn_settings.bind(
            '<Button-1>', lambda event: self.function_windows.
            setting_before_parsing(widgets))
        btn_parse.bind(
            '<Button-1>',
            lambda event: self.function_windows.parsing_by_groups(widgets))
Exemplo n.º 52
0
class Dialogue(Frame):
    def __init__(self):
        super().__init__()
        self.initUI()

    def initUI(self):
        self.style = Style()
        self.style.theme_use("default")
        self.master.title("LineChart")

        self.pack(fill=BOTH, expand=True)

        self.SSU = BooleanVar()
        self.SSU.set(1)
        self.COX1 = BooleanVar()
        self.COX1.set(1)
        self.EF1A = BooleanVar()
        self.EF1A.set(1)
        self.EF1A_variants = BooleanVar()
        self.EF1A_variants.set(1)
        self.filelabel = StringVar(self, "File not chosen")
        self.filename = ""
        self.var = IntVar()
        self.var.set(1)
        self.clades = IntVar()
        self.clades.set(0)

        # self.columnconfigure(2, weight=1)
        # self.rowconfigure(2, weight=1)

        cbSSU = Checkbutton(self,
                            text="SSU",
                            variable=self.SSU,
                            state=DISABLED,
                            onvalue=1,
                            offvalue=0)
        cbSSU.select()
        cbSSU.grid(sticky=W, padx=5, pady=5)
        cbCOX1 = Checkbutton(self,
                             text="COX1",
                             variable=self.COX1,
                             onvalue=1,
                             offvalue=0)
        cbCOX1.select()
        cbCOX1.grid(sticky=W, row=1, padx=5, pady=5)
        cbEF1A = Checkbutton(self,
                             text="EF1A",
                             variable=self.EF1A,
                             onvalue=1,
                             offvalue=0)
        cbEF1A.select()
        cbEF1A.grid(sticky=W, row=2, padx=5, pady=5)
        cbEcomb = Checkbutton(self,
                              text="EF1A combinations",
                              variable=self.EF1A_variants,
                              onvalue=1,
                              offvalue=0)
        cbEcomb.select()
        cbEcomb.grid(sticky=W, row=3, padx=5, pady=5)

        openButton = Button(self, text="Choose file", command=self.onOpen)
        openButton.grid(sticky=W, row=0, column=1, padx=5, pady=5)

        labFile = Label(self, textvariable=self.filelabel)
        labFile.grid(sticky=W, row=0, column=2, columnspan=2, padx=5, pady=5)

        closeButton = Button(self, text="Exit", command=self.quit)
        closeButton.grid(sticky=E, row=4, column=3, padx=5, pady=5)

        okButton = Button(self, text="OK", command=self.onOK)
        okButton.grid(sticky=W, row=4, column=0, padx=5, pady=5)

    def onOpen(self):
        ftypes = [('Excel files', '*.xls, *.xlsx'), ('All files', '*')]
        dlg = filedialog.Open(self, filetypes=ftypes)
        file = dlg.show()
        if file != '':
            self.filelabel.set("Current file: " + file)
            self.filename = file
            self.readExcel(self.filename)

        self.columns = BooleanVar()
        self.columns.set(1)

        if self.filelabel.get() != "File not chosen":
            rboneColumn = Radiobutton(self,
                                      text="Arrange in 1 column",
                                      variable=self.columns,
                                      value=1,
                                      command=self.onClick)
            rboneColumn.grid(sticky=W, row=2, column=1, padx=5, pady=5)

            rb2Columns = Radiobutton(self,
                                     text="Arrange in 2 columns",
                                     variable=self.columns,
                                     value=0,
                                     command=self.onClick)
            rb2Columns.grid(sticky=W, row=3, column=1, padx=5, pady=5)

    def readExcel(self, filename):
        self.dataframe = read_excel(filename, index_col="Specimen")

        if self.clades.get() != 0:
            self.labClades.grid_remove()

        self.clades.set(len(set(self.dataframe.loc[:, "Clade"])))

        self.labClades = Label(self,
                               text="Number of clades: " +
                               str(self.clades.get()))
        self.labClades.grid(sticky=W, row=1, column=1, padx=5, pady=5)

    def onClick(self):
        if self.columns.get() == 0:
            self.scale = Scale(self,
                               from_=1,
                               to=self.clades.get() - 1,
                               command=self.onScale,
                               orient=HORIZONTAL)
            self.scale.grid(sticky=W, row=3, column=2)

            self.labScale = Label(
                self, text="Number of clades in the first column: ")
            self.labScale.grid(sticky=W, row=2, column=2)

            self.ScaleVal = Label(self, textvariable=self.var)
            self.ScaleVal.grid(sticky=E, row=2, column=2)

        else:
            self.scale.grid_remove()
            self.labScale.grid_remove()
            self.ScaleVal.grid_remove()

    def onScale(self, val):
        v = int(float(val))
        self.var.set(v)
        # print(self.var.get())

    def onOK(self):
        dataframe = self.dataframe
        SSU = self.SSU.get()
        COX1 = self.COX1.get()
        EF1A = self.EF1A.get()
        EF1A_combinations = self.EF1A_variants.get()
        change = self.var.get()
        onecolumn = self.columns.get()

        # graphical parameters: distance between columns and lines of variants, total height etc.
        top = 200  # uppermost position
        xS = 1  # X position of SSU column on the graph
        xE = 2  # X position of EF1A column on the graph
        xC = 0  # X position of COX1 column on the graph
        cladeX = 3.3  # X position of clade names on the graph
        distance = 5  # distance between lines
        shift = 5  # distance between two columns

        vardict = {}
        ssu_set = set()
        ef1a_set = set()
        cox1_set = set()

        # Count the number of specimens for each clade that have a valid SSU and at least one other valid gene variant
        countdict = {}
        for specimen in dataframe.index.values:
            valid = 0
            if findall("[A-Za-z]", str(dataframe.loc[specimen, "SSU"])) == []:
                if EF1A and COX1:
                    if findall("[A-Za-z]", str(
                            dataframe.loc[specimen, "EF1A"])) == [] or findall(
                                "[A-Za-z]", str(dataframe.loc[specimen,
                                                              "COX1"])) == []:
                        valid = 1
                elif EF1A:
                    if findall("[A-Za-z]", str(dataframe.loc[specimen,
                                                             "EF1A"])) == []:
                        valid = 1
                elif COX1:
                    if findall("[A-Za-z]", str(dataframe.loc[specimen,
                                                             "COX1"])) == []:
                        valid = 1
            if dataframe.loc[specimen, "Clade"] not in countdict:
                countdict[dataframe.loc[specimen, "Clade"]] = valid
            else:
                countdict[dataframe.loc[specimen, "Clade"]] += valid

        # build a dict of connections for every SSU variant, regardless of clades
        for i in dataframe.index.values:
            if findall("[A-Za-z]", str(dataframe.loc[
                    i, "SSU"])) == []:  # choosing ony valid SSU variants
                if dataframe.loc[i, "SSU"] not in vardict:
                    vardict[dataframe.loc[i, "SSU"]] = {
                        "SSU_count": 1,
                        "EF1A": {},
                        "COX1": {}
                    }  # adding new SSU variant into dictionary
                    ssu_set.add(dataframe.loc[i, "SSU"])
                else:
                    vardict[dataframe.loc[i, "SSU"]][
                        "SSU_count"] += 1  # increasing SSU variant count
                if COX1:
                    if findall("[A-Za-z]", str(dataframe.loc[i, "COX1"])
                               ) == []:  # choosing ony valid COX1 variants
                        if dataframe.loc[i, "COX1"] not in vardict[
                                dataframe.loc[i, "SSU"]]["COX1"]:
                            vardict[dataframe.loc[i, "SSU"]]["COX1"][
                                dataframe.loc[
                                    i, "COX1"]] = 1  # adding new COX1 variant
                            cox1_set.add(dataframe.loc[i, "COX1"])
                        else:
                            vardict[dataframe.loc[i, "SSU"]]["COX1"][
                                dataframe.loc[
                                    i,
                                    "COX1"]] += 1  # increasing COX1 variant count
                if EF1A and EF1A_combinations:
                    if "homozygous" in str(dataframe.loc[i, "EF1A_combinations"]) \
                            or "both" in str(dataframe.loc[i, "EF1A_combinations"]) \
                            and findall("[A-Za-z]", str(dataframe.loc[
                                                            i, "EF1A"])) == []:  # choosing ony homozygous EF1A variants or unique unknown heterozygous
                        if dataframe.loc[i, "EF1A"] not in vardict[
                                dataframe.loc[i, "SSU"]]["EF1A"]:
                            vardict[dataframe.loc[i, "SSU"]]["EF1A"][
                                dataframe.loc[
                                    i, "EF1A"]] = 1  # adding new EF1A variant
                            ef1a_set.add(dataframe.loc[i, "EF1A"])
                        else:
                            vardict[dataframe.loc[i, "SSU"]]["EF1A"][
                                dataframe.loc[
                                    i,
                                    "EF1A"]] += 1  # increasing EF1A variant count

                    elif "+" in str(dataframe.loc[i, "EF1A_combinations"]
                                    ):  # choosing known heterozygous variants
                        for var in findall(
                                "[0-9]+",
                                str(dataframe.loc[i, "EF1A_combinations"])):
                            if var not in vardict[dataframe.loc[
                                    i, "SSU"]]["EF1A"]:
                                vardict[dataframe.loc[i, "SSU"]]["EF1A"][
                                    var] = 1  # adding new EF1A variant
                                ef1a_set.add(int(var))
                            else:
                                vardict[dataframe.loc[i, "SSU"]]["EF1A"][
                                    var] += 1  # increasing EF1A variant count
                elif EF1A and findall("[A-Za-z]", str(
                        dataframe.loc[i, "EF1A"])) == []:
                    if dataframe.loc[i, "EF1A"] not in vardict[dataframe.loc[
                            i, "SSU"]]["EF1A"]:
                        vardict[dataframe.loc[i, "SSU"]]["EF1A"][dataframe.loc[
                            i, "EF1A"]] = 1  # adding new EF1A variant
                        ef1a_set.add(dataframe.loc[i, "EF1A"])
                    else:
                        vardict[dataframe.loc[i, "SSU"]]["EF1A"][dataframe.loc[
                            i, "EF1A"]] += 1  # increasing EF1A variant count

        # print(vardict)

        # # modify dataframe by adding known heterozygous variants into EF1A column.

        new_dataframe = dataframe

        if EF1A_combinations:
            for i in range(len(new_dataframe["EF1A_combinations"])):
                if "+" in str(new_dataframe["EF1A_combinations"][i]):
                    if len(
                            findall("[0-9]+",
                                    str(new_dataframe["EF1A_combinations"]
                                        [i]))) == 1:
                        new_dataframe.loc[
                            new_dataframe.index.values[i], "EF1A"] = int(
                                findall(
                                    "[0-9]+",
                                    str(new_dataframe["EF1A_combinations"][i]))
                                [0])
                    elif len(
                            findall("[0-9]+",
                                    str(new_dataframe["EF1A_combinations"]
                                        [i]))) == 2:
                        new_dataframe.loc[
                            new_dataframe.index.values[i], "EF1A"] = int(
                                findall(
                                    "[0-9]+",
                                    str(new_dataframe["EF1A_combinations"][i]))
                                [0])
                        new_dataframe = new_dataframe.append(
                            new_dataframe.iloc[i], ignore_index=True)
                        new_dataframe.loc[
                            new_dataframe.index.values[-1], "EF1A"] = int(
                                findall(
                                    "[0-9]+",
                                    str(new_dataframe["EF1A_combinations"][i]))
                                [1])
                        new_dataframe.loc[new_dataframe.index.values[-1],
                                          "COX1"] = ""

        grouping_columns = ["Clade", "SSU"]
        if COX1:
            grouping_columns.append("COX1")
        if EF1A:
            grouping_columns.append("EF1A")

        grouped = new_dataframe.groupby(grouping_columns).aggregate(
            {"SSU": "count"})
        # print(grouped)

        # starting Y coordinates
        yS = top
        yE = top
        yC = top

        # dictionaries with pairs of coordinates for every variant of every gene
        ssu_coo = {}
        cox1_coo = {}
        ef1a_coo = {}
        clade_coo = {}

        # sets of clades and variants that were catalogued already to avoid duplicates
        clade_done = set()
        ssu_done = set()
        cox1_done = set()
        ef1a_done = set()

        # Gives XY coordinates to every genetic variant iterating through clades.
        # Variants are sorted acending; clades are sorted alphabetically
        counter = 0

        # adjusting distance between columns by adding the size of the longest clade name length
        shift_adj = 0.1 * max(
            [len(i) for i in grouped.index.get_level_values("Clade")]) + 0.3
        shift += shift_adj

        for clade in grouped.index.get_level_values("Clade"):
            if clade not in clade_done:
                if not onecolumn and counter == change:  # if a specified change value is reached, starts the second column with a specified shift
                    xS += shift
                    yS = top
                    if COX1:
                        xC += shift
                        yC = top
                    if EF1A:
                        xE += shift
                        yE = top
                    cladeX += shift

                counter += 1

                yS -= distance
                if COX1:
                    yC -= distance
                if EF1A:
                    yE -= distance

                # add coordinates of the clade name and vertical line at the side
                ssuvalid = set([
                    i
                    for i in grouped.loc[(clade)].index.get_level_values("SSU")
                    if findall("[A-Za-z]", str(i)) == [] and str(i) != ""
                ])
                if COX1:
                    cox1valid = set([
                        i for i in grouped.loc[(
                            clade)].index.get_level_values("COX1")
                        if findall("[A-Za-z]", str(i)) == [] and str(i) != ""
                    ])

                if EF1A:
                    ef1avalid = set([
                        i for i in grouped.loc[(
                            clade)].index.get_level_values("EF1A")
                        if findall("[A-Za-z]", str(i)) == [] and str(i) != ""
                    ])

                genelenlist = [len(ssuvalid)]
                if COX1:
                    genelenlist.append(len(cox1valid))
                if EF1A:
                    genelenlist.append(len(ef1avalid))

                cladeY = yS - (max(genelenlist) - 1) * distance * 0.5
                linestart = yS + 0.5 * distance
                lineend = yS - (max(genelenlist) -
                                1) * distance - 0.5 * distance
                clade_coo[clade] = [
                    cladeX, cladeY, cladeX - 0.2, linestart, lineend,
                    countdict[clade]
                ]

                # within-clade vertical position adjustments
                if COX1 and not EF1A:
                    if len(ssuvalid) - len(cox1valid) >= 2:
                        yC -= distance * (len(ssuvalid) - len(cox1valid)) // 2
                    elif len(cox1valid) - len(ssuvalid) >= 2:
                        yS -= distance * (len(cox1valid) - len(ssuvalid)) // 2

                elif EF1A and COX1:
                    if len(ssuvalid) - len(cox1valid) >= 2:
                        yC -= distance * (len(ssuvalid) - len(cox1valid)) // 2
                        if len(ssuvalid) - len(ef1avalid) >= 2:
                            yE -= distance * (len(ssuvalid) -
                                              len(ef1avalid)) // 2
                        elif len(ef1avalid) - len(ssuvalid) >= 2:
                            yS -= distance * (len(ef1avalid) -
                                              len(ssuvalid)) // 2
                            yC -= distance * (len(ef1avalid) -
                                              len(ssuvalid)) // 2

                    elif len(cox1valid) - len(ssuvalid) >= 2:
                        yS -= distance * (len(cox1valid) - len(ssuvalid)) // 2
                        if len(cox1valid) - len(ef1avalid) >= 2:
                            yE -= distance * (len(cox1valid) -
                                              len(ef1avalid)) // 2
                        elif len(ef1avalid) - len(cox1valid) >= 2:
                            yC -= distance * (len(ef1avalid) -
                                              len(cox1valid)) // 2
                            yS -= distance * (len(ef1avalid) -
                                              len(cox1valid)) // 2

                    elif len(ef1avalid) - len(ssuvalid) >= 2:
                        yS -= distance * (len(ef1avalid) - len(ssuvalid)) // 2
                        yC -= distance * (len(ef1avalid) - len(cox1valid)) // 2

                    elif len(ssuvalid) - len(ef1avalid) >= 2:
                        yE -= distance * (len(ssuvalid) - len(ef1avalid)) // 2

                elif EF1A:
                    if len(ssuvalid) - len(ef1avalid) >= 2:
                        yE -= distance * (len(ssuvalid) - len(ef1avalid)) // 2
                    elif len(ef1avalid) - len(ssuvalid) >= 2:
                        yS -= distance * (len(ef1avalid) - len(ssuvalid)) // 2

                # finally, assign coordinates
                for ssu in grouped.loc[(clade)].index.get_level_values("SSU"):
                    if findall("[A-Za-z]", str(ssu)) == [] and str(
                            ssu
                    ) != "":  # choose only valid genetic variants (no text, only numbers)
                        if ssu not in ssu_done:
                            ssu_coo[ssu] = [xS, yS]
                            yS -= distance

                        ssu_done.add(ssu)
                if COX1:
                    for cox1 in grouped.loc[(
                            clade)].index.get_level_values("COX1"):
                        if findall("[A-Za-z]", str(cox1)) == [] and str(
                                cox1
                        ) != "":  # choose only valid genetic variants (no text, only numbers)
                            if cox1 not in cox1_done:
                                cox1_coo[cox1] = [xC, yC]
                                yC -= distance
                            cox1_done.add(cox1)
                if EF1A:
                    for ef1a in grouped.loc[(
                            clade)].index.get_level_values("EF1A"):
                        if findall("[A-Za-z]", str(ef1a)) == [] and str(
                                ef1a
                        ) != "":  # choose only valid genetic variants (no text, only numbers)
                            if ef1a not in ef1a_done:
                                ef1a_coo[ef1a] = [xE, yE]
                                yE -= distance
                            ef1a_done.add(ef1a)

            clade_done.add(clade)

            geneXlist = [xS]
            geneYlist = [yS]
            if COX1:
                geneXlist.append(xC)
                geneYlist.append(yC)
            if EF1A:
                geneXlist.append(xE)
                geneYlist.append(yE)

            lowest = min(geneYlist)

            yS = lowest
            yC = lowest
            yE = lowest

        # print(grouped)

        # Building a plot

        def choose_line(size):  # a rule for choosing line width for the plot
            size = int(size)
            if size in (1, 2):
                width = 1
            elif size == 3:
                width = 1.5
            elif size < 6:
                width = 2
            elif size < 11:
                width = 2.5
            else:
                width = 3
            return width

        # remove axes
        ax1 = axes(frameon=False)
        ax1.set_frame_on(False)
        ax1.get_xaxis().set_visible(False)
        ax1.get_yaxis().set_visible(False)

        # build the lines between genetic variants
        for ssu in vardict:
            if EF1A:
                for ef1a in vardict[ssu]["EF1A"]:
                    if findall("[A-Za-z]", str(ef1a)) == []:
                        size = vardict[ssu]["EF1A"][ef1a]
                        plot([
                            ef1a_coo[int(ef1a)][0] + 0.4, ssu_coo[ssu][0] + 0.5
                        ], [ef1a_coo[int(ef1a)][1], ssu_coo[ssu][1]],
                             linestyle="dashed" if size == 1 else "solid",
                             linewidth=choose_line(size),
                             color="black")
                        text(ef1a_coo[int(ef1a)][0] + 0.7,
                             ef1a_coo[int(ef1a)][1],
                             ef1a,
                             ha="center",
                             va="center")
            if COX1:
                for cox1 in vardict[ssu]["COX1"]:
                    if findall("[A-Za-z]", str(cox1)) == []:
                        size = vardict[ssu]["COX1"][cox1]
                        plot([cox1_coo[cox1][0], ssu_coo[ssu][0]],
                             [cox1_coo[cox1][1], ssu_coo[ssu][1]],
                             linestyle="dashed" if size == 1 else "solid",
                             linewidth=choose_line(vardict[ssu]["COX1"][cox1]),
                             color="black")
                        text(cox1_coo[cox1][0] - 0.3,
                             cox1_coo[cox1][1],
                             cox1,
                             ha="center",
                             va="center")
            text(ssu_coo[ssu][0] + 0.25,
                 ssu_coo[ssu][1],
                 ssu,
                 ha="center",
                 va="center")

        # add gene names above the variants for the second column

        if not onecolumn:
            text(xS - shift + 0.25, top + distance + 0.2, "SSU", ha="center")
            text(xS + 0.25, top + distance + 0.2, "SSU", ha="center")
            if EF1A:
                text(xE - shift + 0.7,
                     top + distance + 0.2,
                     "EF1A",
                     ha="center")
                text(xE + 0.7, top + distance + 0.2, "EF1A", ha="center")
            if COX1:
                text(xC - shift - 0.3,
                     top + distance + 0.2,
                     "COI",
                     ha="center")
                text(xC - 0.3, top + distance + 0.2, "COI", ha="center")
        else:
            text(xS + 0.25, top + distance + 0.2, "SSU", ha="center")
            if EF1A:
                text(xE + 0.7, top + distance + 0.2, "EF1A", ha="center")
            if COX1:
                text(xC - 0.3, top + distance + 0.2, "COI", ha="center")

        # add clade names and vertical lines to the right of the column
        for clade in clade_coo:
            if EF1A:
                text(clade_coo[clade][0],
                     clade_coo[clade][1],
                     "%s (%d)" % (clade, clade_coo[clade][5]),
                     ha="left",
                     va="center")

                plot([clade_coo[clade][2], clade_coo[clade][2]],
                     [clade_coo[clade][3], clade_coo[clade][4]],
                     linewidth=2,
                     color="black")
            else:
                text(clade_coo[clade][0] - shift * 0.5 + shift_adj + 0.65,
                     clade_coo[clade][1],
                     "%s (%d)" % (clade, clade_coo[clade][5]),
                     ha="left",
                     va="center")

                plot([
                    clade_coo[clade][2] - shift * 0.5 + shift_adj + 0.7,
                    clade_coo[clade][2] - shift * 0.5 + shift_adj + 0.7
                ], [clade_coo[clade][3], clade_coo[clade][4]],
                     linewidth=2,
                     color="black")

        # set limits for X axis to avoid overlapping with legend
        if not onecolumn and EF1A:
            xlim(0, 14)
        elif not onecolumn:
            xlim(0, 12)
        elif onecolumn and EF1A:
            xlim(0, 7)
        elif onecolumn:
            xlim(0, 5)

        # produce lines for a legend
        leg_lines = [
            Line2D([0], [0], color="black", linestyle="dashed", linewidth=1),
            Line2D([0], [0], color="black", linewidth=1),
            Line2D([0], [0], color="black", linewidth=1.5),
            Line2D([0], [0], color="black", linewidth=2),
            Line2D([0], [0], color="black", linewidth=2.5),
            Line2D([0], [0], color="black", linewidth=3)
        ]

        # plot legend
        legend(leg_lines, ["1", "2", "3", "4-5", "6-10", "11-20"],
               loc="upper right")

        # show the plot
        show()
Exemplo n.º 53
0
 def __init__(self):
   self._terminate = BooleanVar(False)
   self._id = StringVar(False)
Exemplo n.º 54
0
    def initUI(self):
        self.style = Style()
        self.style.theme_use("default")
        self.master.title("LineChart")

        self.pack(fill=BOTH, expand=True)

        self.SSU = BooleanVar()
        self.SSU.set(1)
        self.COX1 = BooleanVar()
        self.COX1.set(1)
        self.EF1A = BooleanVar()
        self.EF1A.set(1)
        self.EF1A_variants = BooleanVar()
        self.EF1A_variants.set(1)
        self.filelabel = StringVar(self, "File not chosen")
        self.filename = ""
        self.var = IntVar()
        self.var.set(1)
        self.clades = IntVar()
        self.clades.set(0)

        # self.columnconfigure(2, weight=1)
        # self.rowconfigure(2, weight=1)

        cbSSU = Checkbutton(self,
                            text="SSU",
                            variable=self.SSU,
                            state=DISABLED,
                            onvalue=1,
                            offvalue=0)
        cbSSU.select()
        cbSSU.grid(sticky=W, padx=5, pady=5)
        cbCOX1 = Checkbutton(self,
                             text="COX1",
                             variable=self.COX1,
                             onvalue=1,
                             offvalue=0)
        cbCOX1.select()
        cbCOX1.grid(sticky=W, row=1, padx=5, pady=5)
        cbEF1A = Checkbutton(self,
                             text="EF1A",
                             variable=self.EF1A,
                             onvalue=1,
                             offvalue=0)
        cbEF1A.select()
        cbEF1A.grid(sticky=W, row=2, padx=5, pady=5)
        cbEcomb = Checkbutton(self,
                              text="EF1A combinations",
                              variable=self.EF1A_variants,
                              onvalue=1,
                              offvalue=0)
        cbEcomb.select()
        cbEcomb.grid(sticky=W, row=3, padx=5, pady=5)

        openButton = Button(self, text="Choose file", command=self.onOpen)
        openButton.grid(sticky=W, row=0, column=1, padx=5, pady=5)

        labFile = Label(self, textvariable=self.filelabel)
        labFile.grid(sticky=W, row=0, column=2, columnspan=2, padx=5, pady=5)

        closeButton = Button(self, text="Exit", command=self.quit)
        closeButton.grid(sticky=E, row=4, column=3, padx=5, pady=5)

        okButton = Button(self, text="OK", command=self.onOK)
        okButton.grid(sticky=W, row=4, column=0, padx=5, pady=5)
Exemplo n.º 55
0
class FrameSearch(EasyTkObject):
    

    def __init__(self,root_controller,root,widget):
        super(FrameSearch,self).__init__()
        self.easy.add_complete_widget(root)
        self.easy.add_complete_widget(widget)
        self.controller = root_controller
        self.init_variables_and_methods()
        
        self.import_variables(
            {"sort_by_var":self.sort_by_var,"sort_by_range":self.sort_by_range,
            "or_vertical":self.or_vertical,"or_horizontal":self.or_horizontal,
            "or_square":self.or_square,"img_res":self.img_res,"search_btn":self.search_btn})
        self.import_modules([Checkbutton,])

    def init_variables_and_methods(self):
        self.sort_by_var = StringVar()
        self.sort_by_var.set(None)

        self.sort_by_range = StringVar()
        self.sort_by_range.set(None)

        self.or_vertical = BooleanVar()
        self.or_horizontal = BooleanVar()
        self.or_square = BooleanVar()
        self.orPanoramicHorizontal = BooleanVar()

        self.img_res = StringVar()
        self.img_res.set(None)

    def create_widgets(self):
        self.open_file("view/json/FrameSearch.json")
        self.reading_from_json()
    
    def tkraise(self):
        """ print(self.get("FrameSearch")) """
        self.controller.geometry = "1280x250"
        self.get("FrameSearch").tkraise()  
    
    def set_models(self,models):
        self.search_details = models["SearchDetails"]
        self.current_page = models["CurrentPage"]
        self.getty_pictures = models["GettyPictures"]
        self.selected_pictures = models["SelectedPictures"]
    
    def search_btn(self):
        self.search_details.entry = self.get("EntrySearch").get()
        self.search_details.sort = self.sort_by_var.get()
        self.search_details.datum_range = self.sort_by_range.get()
        self.search_details.is_vertical = self.or_vertical.get()
        self.search_details.is_horizontal = self.or_horizontal.get()
        self.search_details.is_square = self.or_square.get()
        self.search_details.resolution = self.img_res.get()
        self.search_details.search()
        self.controller.switch_window("FramePictures")

    def reset_search(self):
        self.getty_pictures.reset_all()
        self.current_page.original_page_url = ""
        self.current_page.reset_page_number()
Exemplo n.º 56
0
class Example(Frame):
    def __init__(self, parent):
        Frame.__init__(self, parent, name="frame")
        self.parent = parent
        self.initUI()

    def initUI(self):
        gui_style = Style()
        gui_style.configure('My.TRadioButton', foreground='#334353')
        gui_style.configure('My.TFrame', columnspan=4)

        self.parent.title("Commands")
        self.pack(fill=BOTH, expand=True)

        self.btn = tk.Button(self, text="Button", command=self.onButton1Click)
        self.btn.grid(row=0, column=0, padx=15)
        ##self.btn.config(foreground = 'green')
        self.btn['fg'] = 'dark green'

        ##cb = Checkbutton(self , text="Checkbutton", command=self.onButton2Click)
        ##cb.pack(side=LEFT)
        self.parent.bind("<Escape>", self.quitApp)

        self.var = BooleanVar()
        cb = Checkbutton(self,
                         text="Bind event",
                         variable=self.var,
                         command=lambda: self.onBind(self.btn))
        cb.grid(row=0, column=1)

        self.rbvar = IntVar()
        self.rbvar.set(1)
        self._1 = 5
        self._2 = 10
        self._3 = 15
        btnFrame = tk.Frame(self)
        self.rb0 = tk.Radiobutton(btnFrame,
                                  text="On",
                                  variable=self.rbvar,
                                  value=self._1,
                                  foreground='red',
                                  background='light gray',
                                  command=self.rbSelected)
        self.rb1 = tk.Radiobutton(btnFrame,
                                  text="Off",
                                  variable=self.rbvar,
                                  value=self._2,
                                  background='light gray',
                                  command=self.rbSelected)
        self.rb2 = tk.Radiobutton(btnFrame,
                                  text="Limbo",
                                  variable=self.rbvar,
                                  value=self._3,
                                  background='light gray',
                                  command=self.rbSelected)
        self.rb0.grid(row=0, column=0)
        self.rb1.grid(row=0, column=1)
        self.rb2.grid(row=0, column=2)
        btnFrame.grid(row=1, column=0, sticky='news', padx=6, pady=12)

    def rbSelected(self):
        self.btn['fg'] = self.rb0['fg'] = self.rb1['fg'] = self.rb2[
            'fg'] = 'black'
        if self.rbvar.get() == self._1:
            print('Radio button 1')
            self.btn['fg'] = self.rb0['fg'] = 'green'
        elif self.rbvar.get() == self._2:
            print('Radio button 2')
            self.btn['fg'] = self.rb1['fg'] = 'red'
        elif self.rbvar.get() == self._3:
            print('Radio button 3')
            self.btn['fg'] = self.rb2['fg'] = 'cyan'
        else:
            MB.showinfo(title='Tilt!!',
                        message='Something went wrong. rbvar is: ' +
                        str(self.rbvar))

    def onBind(self, w):
        if (self.var.get() == True):
            w.bind("<Button-1>", self.onButton1Click)
            print('the BIND')
        else:
            print('the unbind')
            w.unbind("<Button-1>")

    def quitApp(self, e):
        ret = MB.askquestion("Question",
                             "Are you sure you wish to quit?",
                             default=MB.NO)
        if (ret == "yes"):
            self.quit()
        else:
            return

    def onButton1Click(self):
        print("Push Button clicked")

    def onButton2Click(self):
        print("Checkbutton clicked")
Exemplo n.º 57
0
class ViewRenderedGrid(ViewWinGrid.ViewGrid):
    def __init__(self, modelXbrl, tabWin, lang):
        super(ViewRenderedGrid, self).__init__(modelXbrl, tabWin, "Rendering",
                                               True, lang)
        self.newFactItemOptions = ModelInstanceObject.NewFactItemOptions(
            xbrlInstance=modelXbrl)
        self.factPrototypes = []
        self.zOrdinateChoices = None
        # context menu Boolean vars
        self.options = self.modelXbrl.modelManager.cntlr.config.setdefault(
            "viewRenderedGridOptions", {})
        self.ignoreDimValidity = BooleanVar(
            value=self.options.setdefault("ignoreDimValidity", True))
        self.xAxisChildrenFirst = BooleanVar(
            value=self.options.setdefault("xAxisChildrenFirst", True))
        self.yAxisChildrenFirst = BooleanVar(
            value=self.options.setdefault("yAxisChildrenFirst", False))

    def close(self):
        super(ViewRenderedGrid, self).close()
        if self.modelXbrl:
            for fp in self.factPrototypes:
                fp.clear()
            self.factPrototypes = None

    def loadTablesMenu(self):
        tblMenuEntries = {}
        tblRelSet = self.modelXbrl.relationshipSet("Table-rendering")
        for tblLinkroleUri in tblRelSet.linkRoleUris:
            for tableAxisArcrole in (XbrlConst.euTableAxis,
                                     XbrlConst.tableBreakdown,
                                     XbrlConst.tableBreakdown201301,
                                     XbrlConst.tableAxis2011):
                tblAxisRelSet = self.modelXbrl.relationshipSet(
                    tableAxisArcrole, tblLinkroleUri)
                if tblAxisRelSet and len(tblAxisRelSet.modelRelationships) > 0:
                    # table name
                    modelRoleTypes = self.modelXbrl.roleTypes.get(
                        tblLinkroleUri)
                    if modelRoleTypes is not None and len(modelRoleTypes) > 0:
                        roledefinition = modelRoleTypes[0].definition
                        if roledefinition is None or roledefinition == "":
                            roledefinition = os.path.basename(tblLinkroleUri)
                        for table in tblAxisRelSet.rootConcepts:
                            # add table to menu if there's any entry
                            tblMenuEntries[roledefinition] = tblLinkroleUri
                            break
        self.tablesMenu.delete(0, self.tablesMenuLength)
        self.tablesMenuLength = 0
        self.tblELR = None
        for tblMenuEntry in sorted(tblMenuEntries.items()):
            tbl, elr = tblMenuEntry
            self.tablesMenu.add_command(
                label=tbl, command=lambda e=elr: self.view(viewTblELR=e))
            self.tablesMenuLength += 1
            if self.tblELR is None:
                self.tblELR = elr  # start viewing first ELR

    def viewReloadDueToMenuAction(self, *args):
        if not self.blockMenuEvents:
            # update config (config saved when exiting)
            self.options["ignoreDimValidity"] = self.ignoreDimValidity.get()
            self.options["xAxisChildrenFirst"] = self.xAxisChildrenFirst.get()
            self.options["yAxisChildrenFirst"] = self.yAxisChildrenFirst.get()
            self.view()

    def view(self, viewTblELR=None, newInstance=None):
        startedAt = time.time()
        self.blockMenuEvents += 1
        if newInstance is not None:
            self.modelXbrl = newInstance  # a save operation has created a new instance to use subsequently
            clearZchoices = False
        if viewTblELR:  # specific table selection
            self.tblELR = viewTblELR
            clearZchoices = True
        else:  # first or subsequenct reloading (language, dimensions, other change)
            clearZchoices = self.zOrdinateChoices is None
            if clearZchoices:  # also need first time initialization
                self.loadTablesMenu(
                )  # load menus (and initialize if first time
            viewTblELR = self.tblELR

        if not self.tblELR:
            return  # no table to display

        if clearZchoices:
            self.zOrdinateChoices = {}

        # remove old widgets
        self.viewFrame.clearGrid()

        tblAxisRelSet, xTopStructuralNode, yTopStructuralNode, zTopStructuralNode = resolveAxesStructure(
            self, viewTblELR)

        if tblAxisRelSet:
            #print("tbl hdr width rowHdrCols {0}".format(self.rowHdrColWidth))
            self.gridTblHdr.tblHdrWraplength = 200  # to  adjust dynamically during configure callbacks
            self.gridTblHdr.tblHdrLabel = \
                gridHdr(self.gridTblHdr, 0, 0,
                        (self.modelTable.genLabel(lang=self.lang, strip=True) or  # use table label, if any 
                         self.roledefinition),
                        anchor="nw",
                        #columnspan=(self.dataFirstCol - 1),
                        #rowspan=(self.dataFirstRow),
                        wraplength=200) # in screen units
            #wraplength=sum(self.rowHdrColWidth)) # in screen units
            zAspects = defaultdict(set)
            self.zAxis(1, zTopStructuralNode, zAspects, clearZchoices)
            xStructuralNodes = []
            self.xAxis(self.dataFirstCol, self.colHdrTopRow,
                       self.colHdrTopRow + self.colHdrRows - 1,
                       xTopStructuralNode, xStructuralNodes,
                       self.xAxisChildrenFirst.get(), True, True)
            self.yAxis(1, self.dataFirstRow, yTopStructuralNode,
                       self.yAxisChildrenFirst.get(), True, True)
            for fp in self.factPrototypes:  # dereference prior facts
                if fp is not None:
                    fp.clear()
            self.factPrototypes = []
            self.bodyCells(self.dataFirstRow, yTopStructuralNode,
                           xStructuralNodes, zAspects,
                           self.yAxisChildrenFirst.get())

            # data cells
            #print("body cells done")

        self.modelXbrl.profileStat("viewTable_" + os.path.basename(viewTblELR),
                                   time.time() - startedAt)

        #self.gridView.config(scrollregion=self.gridView.bbox(constants.ALL))
        self.blockMenuEvents -= 1

    def zAxis(self, row, zStructuralNode, zAspects, clearZchoices):
        if zStructuralNode is not None:
            gridBorder(self.gridColHdr,
                       self.dataFirstCol,
                       row,
                       TOPBORDER,
                       columnspan=2)
            gridBorder(self.gridColHdr, self.dataFirstCol, row, LEFTBORDER)
            gridBorder(self.gridColHdr,
                       self.dataFirstCol,
                       row,
                       RIGHTBORDER,
                       columnspan=2)
            label = zStructuralNode.header(lang=self.lang)
            hdr = gridHdr(
                self.gridColHdr,
                self.dataFirstCol,
                row,
                label,
                anchor="w",
                columnspan=2,
                wraplength=200,  # in screen units
                objectId=zStructuralNode.objectId(),
                onClick=self.onClick)

            if zStructuralNode.choiceStructuralNodes:  # combo box
                valueHeaders = [
                    ''.ljust(zChoiceStructuralNode.indent * 4)
                    +  # indent if nested choices 
                    (zChoiceStructuralNode.header(lang=self.lang) or '')
                    for zChoiceStructuralNode in
                    zStructuralNode.choiceStructuralNodes
                ]
                combobox = gridCombobox(
                    self.gridColHdr,
                    self.dataFirstCol + 2,
                    row,
                    values=valueHeaders,
                    selectindex=zStructuralNode.choiceNodeIndex,
                    columnspan=2,
                    comboboxselected=self.onComboBoxSelected)
                combobox.zStructuralNode = zStructuralNode
                combobox.zChoiceOrdIndex = row - 1
                combobox.objectId = hdr.objectId = zStructuralNode.objectId()
                gridBorder(self.gridColHdr, self.dataFirstCol + 3, row,
                           RIGHTBORDER)

            if zStructuralNode.childStructuralNodes:
                for zStructuralNode in zStructuralNode.childStructuralNodes:
                    self.zAxis(row + 1, zStructuralNode, zAspects,
                               clearZchoices)
            else:  # nested-nost element, aspects process inheritance
                for aspect in aspectModels[self.aspectModel]:
                    for ruleAspect in aspectRuleAspects.get(
                            aspect, (aspect, )):
                        if zStructuralNode.hasAspect(
                                ruleAspect
                        ):  #implies inheriting from other z axes
                            if ruleAspect == Aspect.DIMENSIONS:
                                for dim in (zStructuralNode.aspectValue(
                                        Aspect.DIMENSIONS) or emptyList):
                                    zAspects[dim].add(zStructuralNode)
                            else:
                                zAspects[ruleAspect].add(zStructuralNode)

    def onComboBoxSelected(self, *args):
        combobox = args[0].widget
        self.zOrdinateChoices[combobox.zStructuralNode._definitionNode] = \
            combobox.zStructuralNode.choiceNodeIndex = combobox.valueIndex
        self.view()  # redraw grid

    def xAxis(self, leftCol, topRow, rowBelow, xParentStructuralNode,
              xStructuralNodes, childrenFirst, renderNow, atTop):
        if xParentStructuralNode is not None:
            parentRow = rowBelow
            noDescendants = True
            rightCol = leftCol
            widthToSpanParent = 0
            sideBorder = not xStructuralNodes
            if atTop and sideBorder and childrenFirst:
                gridBorder(self.gridColHdr,
                           self.dataFirstCol,
                           1,
                           LEFTBORDER,
                           rowspan=self.dataFirstRow)
            for xStructuralNode in xParentStructuralNode.childStructuralNodes:
                if not xStructuralNode.isRollUp:
                    noDescendants = False
                    rightCol, row, width, leafNode = self.xAxis(
                        leftCol,
                        topRow + 1,
                        rowBelow,
                        xStructuralNode,
                        xStructuralNodes,  # nested items before totals
                        childrenFirst,
                        childrenFirst,
                        False)
                    if row - 1 < parentRow:
                        parentRow = row - 1
                    #if not leafNode:
                    #    rightCol -= 1
                    nonAbstract = not xStructuralNode.isAbstract
                    if nonAbstract:
                        width += 100  # width for this label, in screen units
                    widthToSpanParent += width
                    label = xStructuralNode.header(
                        lang=self.lang,
                        returnGenLabel=isinstance(
                            xStructuralNode.definitionNode,
                            (ModelClosedDefinitionNode, ModelEuAxisCoord)))
                    if childrenFirst:
                        thisCol = rightCol
                        sideBorder = RIGHTBORDER
                    else:
                        thisCol = leftCol
                        sideBorder = LEFTBORDER
                    if renderNow:
                        columnspan = (rightCol - leftCol +
                                      (1 if nonAbstract else 0))
                        gridBorder(self.gridColHdr,
                                   leftCol,
                                   topRow,
                                   TOPBORDER,
                                   columnspan=columnspan)
                        gridBorder(self.gridColHdr,
                                   leftCol,
                                   topRow,
                                   sideBorder,
                                   columnspan=columnspan,
                                   rowspan=(rowBelow - topRow + 1))
                        gridHdr(
                            self.gridColHdr,
                            leftCol,
                            topRow,
                            label if label else "         ",
                            anchor="center",
                            columnspan=(rightCol - leftCol +
                                        (1 if nonAbstract else 0)),
                            rowspan=(row - topRow + 1) if leafNode else 1,
                            wraplength=width,  # screen units
                            objectId=xStructuralNode.objectId(),
                            onClick=self.onClick)
                        if nonAbstract:
                            for i, role in enumerate(self.colHdrNonStdRoles):
                                gridBorder(
                                    self.gridColHdr, thisCol,
                                    self.dataFirstRow -
                                    len(self.colHdrNonStdRoles) + i, TOPBORDER)
                                gridBorder(
                                    self.gridColHdr, thisCol,
                                    self.dataFirstRow -
                                    len(self.colHdrNonStdRoles) + i,
                                    sideBorder)
                                gridHdr(
                                    self.gridColHdr,
                                    thisCol,
                                    self.dataFirstRow -
                                    len(self.colHdrNonStdRoles) + i,
                                    xStructuralNode.header(role=role,
                                                           lang=self.lang),
                                    anchor="center",
                                    wraplength=100,  # screen units
                                    objectId=xStructuralNode.objectId(),
                                    onClick=self.onClick)
                            ''' was
                            if self.colHdrDocRow:
                                gridBorder(self.gridColHdr, thisCol, self.dataFirstRow - 1 - self.rowHdrCodeCol, TOPBORDER)
                                gridBorder(self.gridColHdr, thisCol, self.dataFirstRow - 1 - self.rowHdrCodeCol, sideBorder)
                                gridHdr(self.gridColHdr, thisCol, self.dataFirstRow - 1 - self.rowHdrCodeCol, 
                                        xStructuralNode.header(role="http://www.xbrl.org/2008/role/documentation",
                                                               lang=self.lang), 
                                        anchor="center",
                                        wraplength=100, # screen units
                                        objectId=xStructuralNode.objectId(),
                                        onClick=self.onClick)
                            if self.colHdrCodeRow:
                                gridBorder(self.gridColHdr, thisCol, self.dataFirstRow - 1, TOPBORDER)
                                gridBorder(self.gridColHdr, thisCol, self.dataFirstRow - 1, sideBorder)
                                gridHdr(self.gridColHdr, thisCol, self.dataFirstRow - 1, 
                                        xStructuralNode.header(role="http://www.eurofiling.info/role/2010/coordinate-code"),
                                        anchor="center",
                                        wraplength=100, # screen units
                                        objectId=xStructuralNode.objectId(),
                                        onClick=self.onClick)
                            '''
                            gridBorder(self.gridColHdr, thisCol,
                                       self.dataFirstRow - 1, BOTTOMBORDER)
                            xStructuralNodes.append(xStructuralNode)
                    if nonAbstract:
                        rightCol += 1
                    if renderNow and not childrenFirst:
                        self.xAxis(leftCol + (1 if nonAbstract else 0),
                                   topRow + 1, rowBelow, xStructuralNode,
                                   xStructuralNodes, childrenFirst, True,
                                   False)  # render on this pass
                    leftCol = rightCol
            if atTop and sideBorder and not childrenFirst:
                gridBorder(self.gridColHdr,
                           rightCol - 1,
                           1,
                           RIGHTBORDER,
                           rowspan=self.dataFirstRow)
            return (rightCol, parentRow, widthToSpanParent, noDescendants)

    def yAxis(self, leftCol, row, yParentStructuralNode, childrenFirst,
              renderNow, atLeft):
        if yParentStructuralNode is not None:
            nestedBottomRow = row
            if atLeft:
                gridBorder(
                    self.gridRowHdr,
                    self.rowHdrCols +
                    len(self.rowHdrNonStdRoles
                        ),  # was: self.rowHdrDocCol + self.rowHdrCodeCol, 
                    self.dataFirstRow,
                    RIGHTBORDER,
                    rowspan=self.dataRows)
                gridBorder(self.gridRowHdr,
                           1,
                           self.dataFirstRow + self.dataRows - 1,
                           BOTTOMBORDER,
                           columnspan=(
                               self.rowHdrCols + len(self.rowHdrNonStdRoles)
                           ))  # was: self.rowHdrDocCol + self.rowHdrCodeCol))
            for yStructuralNode in yParentStructuralNode.childStructuralNodes:
                if not yStructuralNode.isRollUp:
                    nestRow, nextRow = self.yAxis(
                        leftCol + 1,
                        row,
                        yStructuralNode,  # nested items before totals
                        childrenFirst,
                        childrenFirst,
                        False)

                    isAbstract = (
                        yStructuralNode.isAbstract or
                        (yStructuralNode.childStructuralNodes
                         and not isinstance(
                             yStructuralNode.definitionNode,
                             (ModelClosedDefinitionNode, ModelEuAxisCoord))))
                    isNonAbstract = not isAbstract
                    label = yStructuralNode.header(
                        lang=self.lang,
                        returnGenLabel=isinstance(
                            yStructuralNode.definitionNode,
                            (ModelClosedDefinitionNode, ModelEuAxisCoord)))
                    topRow = row
                    if childrenFirst and isNonAbstract:
                        row = nextRow
                    if renderNow:
                        columnspan = self.rowHdrCols - leftCol + 1 if isNonAbstract or nextRow == row else None
                        gridBorder(self.gridRowHdr,
                                   leftCol,
                                   topRow,
                                   LEFTBORDER,
                                   rowspan=(nestRow - topRow + 1))
                        gridBorder(
                            self.gridRowHdr,
                            leftCol,
                            topRow,
                            TOPBORDER,
                            columnspan=(1 if childrenFirst and nextRow > row
                                        else columnspan))
                        if childrenFirst and row > topRow:
                            gridBorder(self.gridRowHdr,
                                       leftCol + 1,
                                       row,
                                       TOPBORDER,
                                       columnspan=(self.rowHdrCols - leftCol))
                        depth = yStructuralNode.depth
                        gridHdr(
                            self.gridRowHdr,
                            leftCol,
                            row,
                            label if label is not None else "         ",
                            anchor=("w" if isNonAbstract or nestRow == row else
                                    "center"),
                            columnspan=columnspan,
                            rowspan=(nestRow - row if isAbstract else None),
                            # wraplength is in screen units
                            wraplength=(self.rowHdrColWidth[depth] if
                                        isAbstract else self.rowHdrWrapLength -
                                        sum(self.rowHdrColWidth[0:depth])),
                            #minwidth=self.rowHdrColWidth[leftCol],
                            minwidth=(16 if isNonAbstract and nextRow > topRow
                                      else None),
                            objectId=yStructuralNode.objectId(),
                            onClick=self.onClick)
                        if isNonAbstract:
                            for i, role in enumerate(self.rowHdrNonStdRoles):
                                isCode = "code" in role
                                docCol = self.dataFirstCol - len(
                                    self.rowHdrNonStdRoles) + i
                                gridBorder(self.gridRowHdr, docCol, row,
                                           TOPBORDER)
                                gridBorder(self.gridRowHdr, docCol, row,
                                           LEFTBORDER)
                                gridHdr(
                                    self.gridRowHdr,
                                    docCol,
                                    row,
                                    yStructuralNode.header(role=role,
                                                           lang=self.lang),
                                    anchor="c" if isCode else "w",
                                    wraplength=40
                                    if isCode else 100,  # screen units
                                    objectId=yStructuralNode.objectId(),
                                    onClick=self.onClick)
                            ''' was:
                            if self.rowHdrDocCol:
                                docCol = self.dataFirstCol - 1 - self.rowHdrCodeCol
                                gridBorder(self.gridRowHdr, docCol, row, TOPBORDER)
                                gridBorder(self.gridRowHdr, docCol, row, LEFTBORDER)
                                gridHdr(self.gridRowHdr, docCol, row, 
                                        yStructuralNode.header(role="http://www.xbrl.org/2008/role/documentation",
                                                             lang=self.lang), 
                                        anchor="w",
                                        wraplength=100, # screen units
                                        objectId=yStructuralNode.objectId(),
                                        onClick=self.onClick)
                            if self.rowHdrCodeCol:
                                codeCol = self.dataFirstCol - 1
                                gridBorder(self.gridRowHdr, codeCol, row, TOPBORDER)
                                gridBorder(self.gridRowHdr, codeCol, row, LEFTBORDER)
                                gridHdr(self.gridRowHdr, codeCol, row, 
                                        yStructuralNode.header(role="http://www.eurofiling.info/role/2010/coordinate-code"),
                                        anchor="center",
                                        wraplength=40, # screen units
                                        objectId=yStructuralNode.objectId(),
                                        onClick=self.onClick)
                            # gridBorder(self.gridRowHdr, leftCol, self.dataFirstRow - 1, BOTTOMBORDER)
                            '''
                    if isNonAbstract:
                        row += 1
                    elif childrenFirst:
                        row = nextRow
                    if nestRow > nestedBottomRow:
                        nestedBottomRow = nestRow + (isNonAbstract
                                                     and not childrenFirst)
                    if row > nestedBottomRow:
                        nestedBottomRow = row
                    #if renderNow and not childrenFirst:
                    #    dummy, row = self.yAxis(leftCol + 1, row, yStructuralNode, childrenFirst, True, False) # render on this pass
                    if not childrenFirst:
                        dummy, row = self.yAxis(leftCol + 1, row,
                                                yStructuralNode, childrenFirst,
                                                renderNow,
                                                False)  # render on this pass
            return (nestedBottomRow, row)

    def bodyCells(self, row, yParentStructuralNode, xStructuralNodes, zAspects,
                  yChildrenFirst):
        if yParentStructuralNode is not None:
            rendrCntx = getattr(self.modelXbrl, "rendrCntx",
                                None)  # none for EU 2010 tables
            dimDefaults = self.modelXbrl.qnameDimensionDefaults
            for yStructuralNode in yParentStructuralNode.childStructuralNodes:
                if yChildrenFirst:
                    row = self.bodyCells(row, yStructuralNode,
                                         xStructuralNodes, zAspects,
                                         yChildrenFirst)
                if not yStructuralNode.isAbstract:
                    yAspects = defaultdict(set)
                    for aspect in aspectModels[self.aspectModel]:
                        for ruleAspect in aspectRuleAspects.get(
                                aspect, (aspect, )):
                            if yStructuralNode.hasAspect(ruleAspect):
                                if ruleAspect == Aspect.DIMENSIONS:
                                    for dim in (yStructuralNode.aspectValue(
                                            Aspect.DIMENSIONS) or emptyList):
                                        yAspects[dim].add(yStructuralNode)
                                else:
                                    yAspects[ruleAspect].add(yStructuralNode)

                    gridSpacer(self.gridBody, self.dataFirstCol, row,
                               LEFTBORDER)
                    # data for columns of row
                    ignoreDimValidity = self.ignoreDimValidity.get()
                    for i, xStructuralNode in enumerate(xStructuralNodes):
                        xAspects = defaultdict(set)
                        for aspect in aspectModels[self.aspectModel]:
                            for ruleAspect in aspectRuleAspects.get(
                                    aspect, (aspect, )):
                                if xStructuralNode.hasAspect(ruleAspect):
                                    if ruleAspect == Aspect.DIMENSIONS:
                                        for dim in (
                                                xStructuralNode.aspectValue(
                                                    Aspect.DIMENSIONS)
                                                or emptyList):
                                            xAspects[dim].add(xStructuralNode)
                                    else:
                                        xAspects[ruleAspect].add(
                                            xStructuralNode)
                        cellAspectValues = {}
                        matchableAspects = set()
                        for aspect in _DICT_SET(xAspects.keys()) | _DICT_SET(
                                yAspects.keys()) | _DICT_SET(zAspects.keys()):
                            aspectValue = inheritedAspectValue(
                                self, aspect, xAspects, yAspects, zAspects,
                                xStructuralNode, yStructuralNode)
                            if dimDefaults.get(
                                    aspect
                            ) != aspectValue:  # don't include defaulted dimensions
                                cellAspectValues[aspect] = aspectValue
                            matchableAspects.add(
                                aspectModelAspect.get(aspect, aspect)
                            )  #filterable aspect from rule aspect
                        cellDefaultedDims = _DICT_SET(dimDefaults) - _DICT_SET(
                            cellAspectValues.keys())
                        priItemQname = cellAspectValues.get(Aspect.CONCEPT)

                        concept = self.modelXbrl.qnameConcepts.get(
                            priItemQname)
                        conceptNotAbstract = concept is None or not concept.isAbstract
                        from arelle.ValidateXbrlDimensions import isFactDimensionallyValid
                        value = None
                        objectId = None
                        justify = None
                        fp = FactPrototype(self, cellAspectValues)
                        if conceptNotAbstract:
                            # reduce set of matchable facts to those with pri item qname and have dimension aspects
                            facts = self.modelXbrl.factsByQname[
                                priItemQname] if priItemQname else self.modelXbrl.factsInInstance
                            for aspect in matchableAspects:  # trim down facts with explicit dimensions match or just present
                                if isinstance(aspect, QName):
                                    aspectValue = cellAspectValues.get(
                                        aspect, None)
                                    if isinstance(aspectValue,
                                                  ModelDimensionValue):
                                        if aspectValue.isExplicit:
                                            dimMemQname = aspectValue.memberQname  # match facts with this explicit value
                                        else:
                                            dimMemQname = None  # match facts that report this dimension
                                    elif isinstance(aspectValue, QName):
                                        dimMemQname = aspectValue  # match facts that have this explicit value
                                    else:
                                        dimMemQname = None  # match facts that report this dimension
                                    facts = facts & self.modelXbrl.factsByDimMemQname(
                                        aspect, dimMemQname)
                            for fact in facts:
                                if (all(
                                        aspectMatches(rendrCntx, fact, fp,
                                                      aspect)
                                        for aspect in matchableAspects)
                                        and all(
                                            fact.context.dimMemberQname(
                                                dim, includeDefaults=True) in (
                                                    dimDefaults[dim], None)
                                            for dim in cellDefaultedDims)):
                                    if yStructuralNode.hasValueExpression(
                                            xStructuralNode):
                                        value = yStructuralNode.evalValueExpression(
                                            fact, xStructuralNode)
                                    else:
                                        value = fact.effectiveValue
                                    objectId = fact.objectId()
                                    justify = "right" if fact.isNumeric else "left"
                                    break
                        if (conceptNotAbstract
                                and (value is not None or ignoreDimValidity
                                     or isFactDimensionallyValid(self, fp))):
                            if objectId is None:
                                objectId = "f{0}".format(
                                    len(self.factPrototypes))
                                self.factPrototypes.append(
                                    fp)  # for property views
                            gridCell(
                                self.gridBody,
                                self.dataFirstCol + i,
                                row,
                                value,
                                justify=justify,
                                width=
                                12,  # width is in characters, not screen units
                                objectId=objectId,
                                onClick=self.onClick)
                        else:
                            fp.clear()  # dereference
                            gridSpacer(self.gridBody, self.dataFirstCol + i,
                                       row, CENTERCELL)
                        gridSpacer(self.gridBody, self.dataFirstCol + i, row,
                                   RIGHTBORDER)
                        gridSpacer(self.gridBody, self.dataFirstCol + i, row,
                                   BOTTOMBORDER)
                    row += 1
                if not yChildrenFirst:
                    row = self.bodyCells(row, yStructuralNode,
                                         xStructuralNodes, zAspects,
                                         yChildrenFirst)
            return row

    def onClick(self, event):
        objId = event.widget.objectId
        if objId and objId[0] == "f":
            viewableObject = self.factPrototypes[int(objId[1:])]
        else:
            viewableObject = objId
        self.modelXbrl.viewModelObject(viewableObject)

    def cellEnter(self, *args):
        self.blockSelectEvent = 0

    def cellLeave(self, *args):
        self.blockSelectEvent = 1

    def cellSelect(self, *args):
        if self.blockSelectEvent == 0 and self.blockViewModelObject == 0:
            self.blockViewModelObject += 1
            #self.modelXbrl.viewModelObject(self.nodeToObjectId[self.treeView.selection()[0]])
            #self.modelXbrl.viewModelObject(self.treeView.selection()[0])
            self.blockViewModelObject -= 1

    def viewModelObject(self, modelObject):
        if self.blockViewModelObject == 0:
            self.blockViewModelObject += 1
            '''
            try:
                if isinstance(modelObject, ModelObject.ModelRelationship):
                    conceptId = modelObject.toModelObject.objectId()
                elif isinstance(modelObject, ModelObject.ModelFact):
                    conceptId = self.modelXbrl.qnameConcepts[modelObject.qname].objectId()
                else:
                    conceptId = modelObject.objectId()
                #node = self.objectIdToNode[conceptId]
                node = conceptId
                if self.treeView.exists(node):
                    self.treeView.see(node)
                    self.treeView.selection_set(node)
            except KeyError:
                    self.treeView.selection_set(())
            '''
            self.blockViewModelObject -= 1

    def saveInstance(self):
        if (not self.newFactItemOptions.entityIdentScheme
                or  # not initialized yet
                not self.newFactItemOptions.entityIdentValue or
                not self.newFactItemOptions.startDateDate or
                not self.newFactItemOptions.endDateDate):
            if not getNewFactItemOptions(self.modelXbrl.modelManager.cntlr,
                                         self.newFactItemOptions):
                return  # new instance not set
        newFilename = None  # only used when a new instance must be created
        if self.modelXbrl.modelDocument.type != ModelDocument.Type.INSTANCE:
            newFilename = self.modelXbrl.modelManager.cntlr.fileSave(
                view=self, fileType="xbrl")
            if not newFilename:
                return  # saving cancelled
        # continue saving in background
        thread = threading.Thread(
            target=lambda: self.backgroundSaveInstance(newFilename))
        thread.daemon = True
        thread.start()

    def backgroundSaveInstance(self, newFilename=None):
        cntlr = self.modelXbrl.modelManager.cntlr
        if newFilename:
            self.modelXbrl.modelManager.showStatus(
                _("creating new instance {0}").format(
                    os.path.basename(newFilename)))
            self.modelXbrl.modelManager.cntlr.waitForUiThreadQueue(
            )  # force status update
            self.modelXbrl.createInstance(
                newFilename
            )  # creates an instance as this modelXbrl's entrypoing
        instance = self.modelXbrl
        cntlr.showStatus(
            _("Saving {0}").format(instance.modelDocument.basename))
        cntlr.waitForUiThreadQueue()  # force status update
        newCntx = ModelXbrl.AUTO_LOCATE_ELEMENT
        newUnit = ModelXbrl.AUTO_LOCATE_ELEMENT
        # check user keyed changes
        for bodyCell in self.gridBody.winfo_children():
            if isinstance(bodyCell, gridCell) and bodyCell.isChanged:
                value = bodyCell.value
                objId = bodyCell.objectId
                if objId:
                    if objId[0] == "f":
                        factPrototypeIndex = int(objId[1:])
                        factPrototype = self.factPrototypes[factPrototypeIndex]
                        concept = factPrototype.concept
                        entityIdentScheme = self.newFactItemOptions.entityIdentScheme
                        entityIdentValue = self.newFactItemOptions.entityIdentValue
                        periodType = factPrototype.concept.periodType
                        periodStart = self.newFactItemOptions.startDateDate if periodType == "duration" else None
                        periodEndInstant = self.newFactItemOptions.endDateDate
                        qnameDims = factPrototype.context.qnameDims
                        prevCntx = instance.matchContext(
                            entityIdentScheme, entityIdentValue, periodType,
                            periodStart, periodEndInstant, qnameDims, [], [])
                        if prevCntx is not None:
                            cntxId = prevCntx.id
                        else:  # need new context
                            newCntx = instance.createContext(
                                entityIdentScheme,
                                entityIdentValue,
                                periodType,
                                periodStart,
                                periodEndInstant,
                                concept.qname,
                                qnameDims, [], [],
                                afterSibling=newCntx)
                            cntxId = newCntx.id
                            # new context
                        if concept.isNumeric:
                            if concept.isMonetary:
                                unitMeasure = qname(
                                    XbrlConst.iso4217,
                                    self.newFactItemOptions.monetaryUnit)
                                unitMeasure.prefix = "iso4217"  # want to save with a recommended prefix
                                decimals = self.newFactItemOptions.monetaryDecimals
                            elif concept.isShares:
                                unitMeasure = XbrlConst.qnXbrliShares
                                decimals = self.newFactItemOptions.nonMonetaryDecimals
                            else:
                                unitMeasure = XbrlConst.qnXbrliPure
                                decimals = self.newFactItemOptions.nonMonetaryDecimals
                            prevUnit = instance.matchUnit([unitMeasure], [])
                            if prevUnit is not None:
                                unitId = prevUnit.id
                            else:
                                newUnit = instance.createUnit(
                                    [unitMeasure], [], afterSibling=newUnit)
                                unitId = newUnit.id
                        attrs = [("contextRef", cntxId)]
                        if concept.isNumeric:
                            attrs.append(("unitRef", unitId))
                            attrs.append(("decimals", decimals))
                            value = Locale.atof(self.modelXbrl.locale, value,
                                                str.strip)
                        newFact = instance.createFact(concept.qname,
                                                      attributes=attrs,
                                                      text=value)
                        bodyCell.objectId = newFact.objectId(
                        )  # switch cell to now use fact ID
                        if self.factPrototypes[factPrototypeIndex] is not None:
                            self.factPrototypes[factPrototypeIndex].clear()
                        self.factPrototypes[
                            factPrototypeIndex] = None  #dereference fact prototype
                    else:  # instance fact, not prototype
                        fact = self.modelXbrl.modelObject(objId)
                        if fact.concept.isNumeric:
                            value = Locale.atof(self.modelXbrl.locale, value,
                                                str.strip)
                        if fact.value != value:
                            fact.text = value
                            XmlValidate.validate(instance, fact)
                    bodyCell.isChanged = False  # clear change flag
        instance.saveInstance()
        cntlr.showStatus(_("Saved {0}").format(
            instance.modelDocument.basename),
                         clearAfter=3000)
Exemplo n.º 58
0
class GrepDialog(SearchDialogBase):
    "Dialog for searching multiple files."

    title = "Find in Files Dialog"
    icon = "Grep"
    needwrapbutton = 0

    def __init__(self, root, engine, flist):
        """Create search dialog for searching for a phrase in the file system.

        Uses SearchDialogBase as the basis for the GUI and a
        searchengine instance to prepare the search.

        Attributes:
            globvar: Value of Text Entry widget for path to search.
            recvar: Boolean value of Checkbutton widget
                    for traversing through subdirectories.
        """
        SearchDialogBase.__init__(self, root, engine)
        self.flist = flist
        self.globvar = StringVar(root)
        self.recvar = BooleanVar(root)

    def open(self, text, searchphrase, io=None):
        "Make dialog visible on top of others and ready to use."
        SearchDialogBase.open(self, text, searchphrase)
        if io:
            path = io.filename or ""
        else:
            path = ""
        dir, base = os.path.split(path)
        head, tail = os.path.splitext(base)
        if not tail:
            tail = ".py"
        self.globvar.set(os.path.join(dir, "*" + tail))

    def create_entries(self):
        "Create base entry widgets and add widget for search path."
        SearchDialogBase.create_entries(self)
        self.globent = self.make_entry("In files:", self.globvar)[0]

    def create_other_buttons(self):
        "Add check button to recurse down subdirectories."
        btn = Checkbutton(
                self.make_frame()[0], variable=self.recvar,
                text="Recurse down subdirectories")
        btn.pack(side="top", fill="both")

    def create_command_buttons(self):
        "Create base command buttons and add button for search."
        SearchDialogBase.create_command_buttons(self)
        self.make_button("Search Files", self.default_command, 1)

    def default_command(self, event=None):
        """Grep for search pattern in file path. The default command is bound
        to <Return>.

        If entry values are populated, set OutputWindow as stdout
        and perform search.  The search dialog is closed automatically
        when the search begins.
        """
        prog = self.engine.getprog()
        if not prog:
            return
        path = self.globvar.get()
        if not path:
            self.top.bell()
            return
        from idlelib.outwin import OutputWindow  # leave here!
        save = sys.stdout
        try:
            sys.stdout = OutputWindow(self.flist)
            self.grep_it(prog, path)
        finally:
            sys.stdout = save

    def grep_it(self, prog, path):
        """Search for prog within the lines of the files in path.

        For the each file in the path directory, open the file and
        search each line for the matching pattern.  If the pattern is
        found,  write the file and line information to stdout (which
        is an OutputWindow).
        """
        dir, base = os.path.split(path)
        list = self.findfiles(dir, base, self.recvar.get())
        list.sort()
        self.close()
        pat = self.engine.getpat()
        print(f"Searching {pat!r} in {path} ...")
        hits = 0
        try:
            for fn in list:
                try:
                    with open(fn, errors='replace') as f:
                        for lineno, line in enumerate(f, 1):
                            if line[-1:] == '\n':
                                line = line[:-1]
                            if prog.search(line):
                                sys.stdout.write(f"{fn}: {lineno}: {line}\n")
                                hits += 1
                except OSError as msg:
                    print(msg)
            print(f"Hits found: {hits}\n(Hint: right-click to open locations.)"
                  if hits else "No hits.")
        except AttributeError:
            # Tk window has been closed, OutputWindow.text = None,
            # so in OW.write, OW.text.insert fails.
            pass

    def findfiles(self, dir, base, rec):
        """Return list of files in the dir that match the base pattern.

        If rec is True, recursively iterate through subdirectories.
        """
        try:
            names = os.listdir(dir or os.curdir)
        except OSError as msg:
            print(msg)
            return []
        list = []
        subdirs = []
        for name in names:
            fn = os.path.join(dir, name)
            if os.path.isdir(fn):
                subdirs.append(fn)
            else:
                if fnmatch.fnmatch(name, base):
                    list.append(fn)
        if rec:
            for subdir in subdirs:
                list.extend(self.findfiles(subdir, base, rec))
        return list
Exemplo n.º 59
0
class Example(Frame):
    def __init__(self, parent):
        Frame.__init__(self, parent)
        super().__init__()
        self.parent = parent
        self.pack(fill=BOTH, expand=1)
        self.centerWindow()
        self.initUI()

    def centerWindow(self):
        w = 300
        h = 380
        sw = self.parent.winfo_screenwidth()
        sh = self.parent.winfo_screenheight()
        x = (sw - w) / 2
        y = (sh - h) / 2
        self.parent.geometry('%dx%d+%d+%d' % (w, h, x, y))

    def initUI(self):
      #  self.master.title('Выберите параметры для анализа')
        self.pack(fill=BOTH, expand=True)
        #self.var = BooleanVar()
        self.parent.title('Выберите параметры для анализа')
        #self.style = Style()
        #self.style.theme_use("default")
        #names = ['Выравнивание абзаца', 'Отступ перед абзацем(см)', 'Отступ после абзаца(см)', 'Отступ слева(см)',
              #      'Отступ справа(см)', 'Отступ первой строки абзаца(см)', 'Не отрывать от следующего абзаца',
               #  'Не разрывать абзац', 'Абзац с новой страницы', 'Запрет висячих строк', 'Курсивный текст',
               #  'Полужирный текст', 'Подчёркнутый текст', 'Название шрифта', 'Размер шрифта(кегль)',
               #  'Цвет текста, RGB', 'Цвет заливки текста', 'Начать анализ']

        self.var1 = BooleanVar()
        cb1 = Checkbutton(self, text='Выравнивание абзаца', variable=self.var1)
        cb1.place(x=20, y=20)
        self.var2 = BooleanVar()
        cb1 = Checkbutton(self, text='Отступ перед абзацем(см)', variable=self.var2)
        cb1.place(x=20, y=40)
        self.var3 = BooleanVar()
        cb1 = Checkbutton(self, text='Отступ после абзаца(см)', variable=self.var3)
        cb1.place(x=20, y=60)
        self.var4 = BooleanVar()
        cb1 = Checkbutton(self, text='Отступ слева(см)', variable=self.var4)
        cb1.place(x=20, y=80)
        self.var5 = BooleanVar()
        cb1 = Checkbutton(self, text='Отступ справа(см)', variable=self.var5)
        cb1.place(x=20, y=100)
        self.var6 = BooleanVar()
        cb1 = Checkbutton(self, text='Отступ первой строки абзаца(см)', variable=self.var6)
        cb1.place(x=20, y=120)
        self.var7 = BooleanVar()
        cb1 = Checkbutton(self, text='Не отрывать от следующего абзаца', variable=self.var7)
        cb1.place(x=20, y=140)
        self.var8 = BooleanVar()
        cb1 = Checkbutton(self, text='Не разрывать абзац', variable=self.var8)
        cb1.place(x=20, y=160)
        self.var9 = BooleanVar()
        cb1 = Checkbutton(self, text='Абзац с новой страницы', variable=self.var9)
        cb1.place(x=20, y=180)
        self.var10 = BooleanVar()
        cb1 = Checkbutton(self, text='Запрет висячих строк', variable=self.var10)
        cb1.place(x=20, y=200)
        self.var11 = BooleanVar()
        cb1 = Checkbutton(self, text='Курсивный текст', variable=self.var11)
        cb1.place(x=20, y=220)
        self.var12 = BooleanVar()
        cb1 = Checkbutton(self, text='Полужирный текст', variable=self.var12)
        cb1.place(x=20, y=240)
        self.var13 = BooleanVar()
        cb1 = Checkbutton(self, text='Подчёркнутый текст', variable=self.var13)
        cb1.place(x=20, y=260)
        self.var14 = BooleanVar()
        cb1 = Checkbutton(self, text='Название шрифта', variable=self.var14)
        cb1.place(x=20, y=280)
        self.var15 = BooleanVar()
        cb1 = Checkbutton(self, text='Размер шрифта(кегль)', variable=self.var15)
        cb1.place(x=20, y=300)
        self.var16 = BooleanVar()
        cb1 = Checkbutton(self, text='Цвет текста, RGB', variable=self.var16)
        cb1.place(x=20, y=320)
        self.var17 = BooleanVar()
        cb1 = Checkbutton(self, text='Цвет заливки текста', variable=self.var17)
        cb1.place(x=20, y=340)
        self.var18 = BooleanVar()


        #cb[i] = Checkbutton(self, text=names[i], variable=self.var, command=self.onClick)
        #cb1.place(x=50, y=50)

        self.pack(fill=BOTH, expand=1)

        quitButton = Button(self, text='Начать анализ', command=self.quit)
        quitButton.place(x=200, y=200)

        print(self.var1.get())
        print(self.var2.get())
        print(self.var3.get())
        print(self.var4.get())
        print(self.var5.get())
        print(self.var6.get())
        print(self.var7.get())
        print(self.var8.get())
        print(self.var9.get())
        print(self.var10.get())
        print(self.var11.get())
        print(self.var12.get())
        print(self.var13.get())
        print(self.var14.get())
        print(self.var15.get())
        print(self.var16.get())
        print(self.var17.get())
Exemplo n.º 60
0
    def run(self):
        root = Tk()

        icon_path = path.join(path.dirname(path.abspath(__file__)),
                              "./logo.png")
        root.iconphoto(True, PhotoImage(file=icon_path))

        root.title("VirxEC/VirxERLU")

        root.geometry("255x250")

        title = ttk.Label(root, text=f"{self.agent.name} hosted by VirxERLU")
        title.pack()

        author = ttk.Label(root, text=f"Bot by BotMaker (BotMaker/githubRepo)")
        author.pack()

        # Disable driving

        drive_bool = BooleanVar()
        drive_bool.set(self.agent.disable_driving)

        def set_drive():
            self.agent.disable_driving = drive_bool.get()

        drive_btn = ttk.Checkbutton(root,
                                    text='Disable driving',
                                    variable=drive_bool,
                                    command=set_drive)
        drive_btn.pack()

        # Debugging

        debug_bool = BooleanVar()
        debug_bool.set(self.agent.debugging)

        def set_debug():
            self.agent.debugging = debug_bool.get()

        debug_btn = ttk.Checkbutton(root,
                                    text='Debugging',
                                    variable=debug_bool,
                                    command=set_debug)
        debug_btn.pack()

        # Debug 2D

        debug_2d_bool = BooleanVar()
        debug_2d_bool.set(self.agent.debug_2d_bool)

        def set_debug_2d():
            self.agent.debug_2d_bool = debug_2d_bool.get()

        debug_2d = ttk.Checkbutton(root,
                                   text='Debug 2D',
                                   variable=debug_2d_bool,
                                   command=set_debug_2d)
        debug_2d.pack()

        # Location

        show_coords_bool = BooleanVar()
        show_coords_bool.set(self.agent.show_coords)

        def set_show_coords():
            self.agent.show_coords = show_coords_bool.get()

        show_coords_btn = ttk.Checkbutton(root,
                                          text='Show Car Info (2D/Lines)',
                                          variable=show_coords_bool,
                                          command=set_show_coords)
        show_coords_btn.pack()

        # Debug 3D

        debug_3d_bool = BooleanVar()
        debug_3d_bool.set(self.agent.debug_3d_bool)

        def set_debug_3d():
            self.agent.debug_3d = debug_3d_bool.get()

        debug_3d = ttk.Checkbutton(root,
                                   text='Debug 3D',
                                   variable=debug_3d_bool,
                                   command=set_debug_3d)
        debug_3d.pack()

        # Debug Stack

        debug_stack_bool = BooleanVar()
        debug_stack_bool.set(self.agent.debug_stack_bool)

        def set_debug_stack():
            self.agent.debug_stack_bool = debug_stack_bool.get()

        debug_stack = ttk.Checkbutton(root,
                                      text='Debug Stack (3D)',
                                      variable=debug_stack_bool,
                                      command=set_debug_stack)
        debug_stack.pack()

        # Debug Lines

        debug_lines_bool = BooleanVar()
        debug_lines_bool.set(self.agent.debug_lines)

        def set_debug_lines():
            self.agent.debug_lines = debug_lines_bool.get()

        debug_lines = ttk.Checkbutton(root,
                                      text='Debug Lines',
                                      variable=debug_lines_bool,
                                      command=set_debug_lines)
        debug_lines.pack()

        # Debug ball prediction

        debug_ball_path_bool = BooleanVar()
        debug_ball_path_bool.set(self.agent.debug_ball_path)

        def set_debug_ball_path():
            self.agent.debug_ball_path = debug_ball_path_bool.get()

        debug_ball_path = ttk.Checkbutton(root,
                                          text='Debug Ball Path (Lines)',
                                          variable=debug_ball_path_bool,
                                          command=set_debug_ball_path)
        debug_ball_path.pack()

        # Debug ball prediction precision

        debug_ball_path_precision_str = StringVar()
        debug_ball_path_precision_str.set(
            "Precision: " + str(self.agent.debug_ball_path_precision))
        debug_ball_path_precision_label = ttk.Label(
            root, textvariable=debug_ball_path_precision_str)
        debug_ball_path_precision_label.pack()

        def set_debug_ball_path_precision(value):
            value = round(float(value))
            self.agent.debug_ball_path_precision = value
            debug_ball_path_precision_str.set("Precision: " + str(value))

        debug_ball_path_precision = ttk.Scale(
            root,
            orient=HORIZONTAL,
            from_=2,
            to=20,
            command=set_debug_ball_path_precision)
        debug_ball_path_precision.set(self.agent.debug_ball_path_precision)
        debug_ball_path_precision.pack()

        self.stop = root.destroy

        try:
            root.mainloop()
        except Exception:
            print_exc()