Exemple #1
0
def guiSetup():
    global bar, operator_id, bdframe
    cfg.print_cfg()

    cfgframe = ConfigFrame(tkroot, cfg)
    cfgframe.grid(padx=3, pady=3)

    bdframe = BoardFrame(tkroot, bd)
    bdframe.grid(padx=3, pady=3)

    max = 6 * 60 + 30
    bar = ProgressFrame(tkroot, max)

    # Center the Window
    tkroot.update_idletasks()
    xp = (tkroot.winfo_screenwidth() / 2) - (tkroot.winfo_width() / 2) - 8
    yp = (tkroot.winfo_screenheight() / 4) - (tkroot.winfo_height() / 2) - 20
    tkroot.geometry('{0}x{1}+{2}+{3}'.format(tkroot.winfo_width(),
                                             tkroot.winfo_height(), xp, yp))

    tkroot.update()

    #   get operator ID
    operator_id = ''
    while len(operator_id) == 0:
        pw = EntryWindow(tkroot, "Scan or Enter Operator ID ",
                         'Scan or Enter Operator ID', '')
        operator_id = pw.answer.get()

    cfgframe.SetOperator(operator_id)
Exemple #2
0
    def __init__( self, title, odo_name = 'GUItest', icon = None ):
        Tk.__init__(self)
    #    tkroot.geometry("1000x500+450+350")
        s = Style()

        s.configure('Title.TLabel', font="ariel 20 bold")
        s.configure('TButton', font="ariel 14 bold")
    #    s.configure('TLabel',font="ariel 10 normal")

        self.option_add("*TButton.Font", "ariel 12 bold")
        self.option_add("*Label.Font", "Helvetica 12 bold")

        self.title(title)
        self.tk.call('wm', 'iconbitmap', self._w, '-default', 'c:/airfiber/airview.ico')

        # init the test  ConfigFrame
        self.cfgframe = ConfigFrame(self, title, odo_name  )
        self.cfgframe.grid(padx=3, pady=3)

        # init Progress Bar
        max = 60 * 12
        self.bar = ProgressFrame(self, max)

        # init board.conf configuration
        self.boardframe = BoardFrame(self)
        self.boardframe.grid(padx=5, pady=5)
#
        # Center the Window
        self.update_idletasks()
        xp = (self.winfo_screenwidth() / 2) - (self.winfo_width() / 2) - 8
        yp = (self.winfo_screenheight() / 4) - (self.winfo_height() / 2) - 20
        self.geometry('{0}x{1}+{2}+{3}'.format(self.winfo_width(), self.winfo_height(), xp, yp))

        self.update()
Exemple #3
0
    def __init__(self, title, odo_name='GUItest', icon=None):
        Tk.__init__(self)
        #    tkroot.geometry("1000x500+450+350")
        s = Style()

        s.configure('Title.TLabel', font="ariel 20 bold")
        s.configure('TButton', font="ariel 14 bold")
        #    s.configure('TLabel',font="ariel 10 normal")

        self.option_add("*TButton.Font", "ariel 12 bold")
        self.option_add("*Label.Font", "Helvetica 12 bold")

        self.title(title)
        self.tk.call('wm', 'iconbitmap', self._w, '-default',
                     'c:/airfiber/airview.ico')

        # init the test  ConfigFrame
        self.cfgframe = ConfigFrame(self, title, odo_name)
        self.cfgframe.grid(padx=3, pady=3)

        # init Progress Bar
        max = 60 * 12
        self.bar = ProgressFrame(self, max)

        # init board.conf configuration
        self.boardframe = BoardFrame(self)
        self.boardframe.grid(padx=5, pady=5)
        #
        # Center the Window
        self.update_idletasks()
        xp = (self.winfo_screenwidth() / 2) - (self.winfo_width() / 2) - 8
        yp = (self.winfo_screenheight() / 4) - (self.winfo_height() / 2) - 20
        self.geometry('{0}x{1}+{2}+{3}'.format(self.winfo_width(),
                                               self.winfo_height(), xp, yp))

        self.update()
Exemple #4
0
class GUI(Tk):
    def __init__(self, title, odo_name='GUItest', icon=None):
        Tk.__init__(self)
        #    tkroot.geometry("1000x500+450+350")
        s = Style()

        s.configure('Title.TLabel', font="ariel 20 bold")
        s.configure('TButton', font="ariel 14 bold")
        #    s.configure('TLabel',font="ariel 10 normal")

        self.option_add("*TButton.Font", "ariel 12 bold")
        self.option_add("*Label.Font", "Helvetica 12 bold")

        self.title(title)
        self.tk.call('wm', 'iconbitmap', self._w, '-default',
                     'c:/airfiber/airview.ico')

        # init the test  ConfigFrame
        self.cfgframe = ConfigFrame(self, title, odo_name)
        self.cfgframe.grid(padx=3, pady=3)

        # init Progress Bar
        max = 60 * 12
        self.bar = ProgressFrame(self, max)

        # init board.conf configuration
        self.boardframe = BoardFrame(self)
        self.boardframe.grid(padx=5, pady=5)
        #
        # Center the Window
        self.update_idletasks()
        xp = (self.winfo_screenwidth() / 2) - (self.winfo_width() / 2) - 8
        yp = (self.winfo_screenheight() / 4) - (self.winfo_height() / 2) - 20
        self.geometry('{0}x{1}+{2}+{3}'.format(self.winfo_width(),
                                               self.winfo_height(), xp, yp))

        self.update()

    #====================================================================
    #     Progress bar update routines
    #====================================================================
    basetime = 0.0

    def elapsedTime(self, flag):
        if flag == 0:
            self.basetime = clock()
        now = clock()
        return (now - self.basetime)

    def updProgressBar(self, msg=''):
        elapsed = self.elapsedTime(1)
        self.bar.settime(elapsed)
        if msg != '':
            self.bar.activity.set(msg)
        self.bar.update()

    def closeProgressBar(self):
        self.bar.config(text='Test Progress ')
        self.bar.settime(0)
        self.elapsedTime(0)
        self.bar.activity.set(" ")
        self.bar.update()

    def setProgressBarTitle(self, title):
        self.bar.config(text='Test Progress ' + title)
        self.bar.update()

    def completeProgressBar(self):
        elapsed = self.elapsedTime(1)
        self.bar.settimecomplete(elapsed)
        self.bar.activity.set("Test Complete")
        self.bar.update()

    #====================================================================
    #     bump odometer count
    #====================================================================
    def BumpOdometer(self):
        self.cfgframe.BumpOdometer()

    def openOdometer(self, odo_name):
        self.cfgframe.openOdometer(odo_name)

    #====================================================================
    #     Prompt Window
    #====================================================================
    def Prompt_Window(self, title, question, yestxt="Yes", notxt='No'):
        pw = PromptWindow(self, title, question, yestxt=yestxt, notxt=notxt)
        return pw.answer.get()

    #====================================================================
    #     INFO Window
    #====================================================================
    def Info_Window(self, title, info_text):
        pw = InfoWindow(self, title, info_text)
        return pw.answer.get()

    #====================================================================
    #     Scan or Enter Operator ID
    #====================================================================
    def EnterOperatorID(self):
        operator_id = ''
        while len(operator_id) == 0:
            pw = EntryWindow(self, "Scan or Enter Operator ID ",
                             'Scan or Enter Operator ID', '')
            operator_id = pw.answer.get()

        self.cfgframe.SetOperator(operator_id)
        return operator_id

    #====================================================================
    #     scan part number
    #
    #   return
    #       PartNumber:  13-00218-XX CCC
    #       HWREV:       XX
    #       CCODE:       CCC
    #====================================================================
    def scan_part_number(self):
        default_pn = '13-02042-'  #'13-00218-'
        default_field1 = '13'
        default_field2 = '00218'
        raw_input = ''

        while True:
            pw = EntryWindow(self, "Scan Part Number barcode ",
                             'Enter UUT Part Number', '')
            raw_input = pw.answer.get()
            if raw_input == '':
                print "Null imput"
                continue

            valid, pn, hwrev, ssid, ccode = PartNumber(raw_input)
            if valid == False:
                continue

            print "PartNumber: %s" % pn
            print "HWREV       %s" % hwrev
            print "CCODE       %s" % ccode
            print "SSID        %s" % ssid
            self.boardframe.set_ccode(ccode)
            self.boardframe.set_hwrev(hwrev)
            self.boardframe.set_ssid(ssid)
            break

        return pn, hwrev, ccode, ssid

    def InputWindow(self, title, prompt):
        pw = EntryWindow(self, title, prompt)
        return rw.answer.get()

    def set_ccode(self, ccode):
        self.boardframe.set_ccode(ccode)

    def set_hwrev(self, hwrev):
        self.boardframe.set_hwrev(hwrev)

    def set_ssid(self, ssid):
        self.boardframe.set_ssid(ssid)

    #====================================================================
    #     get MAC address and generate MAC0 and MAC1 addresses
    #====================================================================
    def input_mac(self):
        default_mac = '002722DA0000'
        rawmac = default_mac

        while rawmac == default_mac or len(rawmac) != 12 or rawmac.isalnum(
        ) == False:
            pw = EntryWindow(self, "Scan Serial Number ",
                             'Enter UUT serial number', default_mac)
            rawmac = pw.answer.get()

        rawmac = rawmac.upper()

        print rawmac

        mac0 = \
            rawmac[0:2] + ":" +\
            rawmac[2:4] + ":" +\
            rawmac[4:6] + ":" +\
            rawmac[6:8] + ":" +\
            rawmac[8:10] + ":" + \
            rawmac[10:12]

        hex = int(rawmac[0:2], 16)
        hex = hex | 0x02
        mac1 = \
            '%02X:' % hex +\
            rawmac[2:4] + ":" +\
            rawmac[4:6] + ":" +\
            rawmac[6:8] + ":" +\
            rawmac[8:10] + ":" + \
            rawmac[10:12]
        return mac0, mac1
Exemple #5
0
class   GUI( Tk ):

    def __init__( self, title, odo_name = 'GUItest', icon = None ):
        Tk.__init__(self)
    #    tkroot.geometry("1000x500+450+350")
        s = Style()

        s.configure('Title.TLabel', font="ariel 20 bold")
        s.configure('TButton', font="ariel 14 bold")
    #    s.configure('TLabel',font="ariel 10 normal")

        self.option_add("*TButton.Font", "ariel 12 bold")
        self.option_add("*Label.Font", "Helvetica 12 bold")

        self.title(title)
        self.tk.call('wm', 'iconbitmap', self._w, '-default', 'c:/airfiber/airview.ico')

        # init the test  ConfigFrame
        self.cfgframe = ConfigFrame(self, title, odo_name  )
        self.cfgframe.grid(padx=3, pady=3)

        # init Progress Bar
        max = 60 * 12
        self.bar = ProgressFrame(self, max)

        # init board.conf configuration
        self.boardframe = BoardFrame(self)
        self.boardframe.grid(padx=5, pady=5)
#
        # Center the Window
        self.update_idletasks()
        xp = (self.winfo_screenwidth() / 2) - (self.winfo_width() / 2) - 8
        yp = (self.winfo_screenheight() / 4) - (self.winfo_height() / 2) - 20
        self.geometry('{0}x{1}+{2}+{3}'.format(self.winfo_width(), self.winfo_height(), xp, yp))

        self.update()

    #====================================================================
    #     Progress bar update routines           
    #====================================================================
    basetime = 0.0

    def elapsedTime( self, flag ):
        if flag == 0:
            self.basetime = clock()
        now = clock()
        return (now - self.basetime)

    def updProgressBar( self, msg=''):
        elapsed = self.elapsedTime(1)
        self.bar.settime( elapsed )
        if msg != '':
            self.bar.activity.set(msg)
        self.bar.update()

    def closeProgressBar( self ):
        self.bar.config( text='Test Progress ')
        self.bar.settime(0)
        self.elapsedTime(0)
        self.bar.activity.set(" ")
        self.bar.update()

    def setProgressBarTitle( self, title ):
        self.bar.config( text='Test Progress ' + title)
        self.bar.update()
        
    def completeProgressBar( self ):
        elapsed = self.elapsedTime(1)
        self.bar.settimecomplete( elapsed )
        self.bar.activity.set("Test Complete")
        self.bar.update()
        
    #====================================================================
    #     bump odometer count          
    #====================================================================
    def BumpOdometer( self ):
        self.cfgframe.BumpOdometer()
    
    def openOdometer( self, odo_name):
        self.cfgframe.openOdometer( odo_name )
        
        
    #====================================================================
    #     Prompt Window           
    #====================================================================
    def Prompt_Window( self, title, question , yestxt = "Yes", notxt = 'No' ):
        pw = PromptWindow( self, title, question , yestxt = yestxt, notxt = notxt);
        return pw.answer.get()


    #====================================================================
    #     INFO Window           
    #====================================================================
    def Info_Window( self, title, info_text ):
        pw = InfoWindow( self, title, info_text);
        return pw.answer.get()


    #====================================================================
    #     Scan or Enter Operator ID           
    #====================================================================
    def EnterOperatorID( self ):
        operator_id = ''
        while len(operator_id) == 0:
            pw = EntryWindow( self, "Scan or Enter Operator ID ", 'Scan or Enter Operator ID','')
            operator_id = pw.answer.get()
            
        self.cfgframe.SetOperator(operator_id)
        return operator_id
    #====================================================================
    #     scan part number
    #
    #   return 
    #       PartNumber:  13-00218-XX CCC
    #       HWREV:       XX
    #       CCODE:       CCC         
    #====================================================================
    def scan_part_number( self ):
        default_pn  = '13-02042-'    #'13-00218-'
        default_field1 = '13'
        default_field2 = '00218'
        raw_input = ''
        
        while True:
            pw = EntryWindow( self, "Scan Part Number barcode ", 'Enter UUT Part Number', '')
            raw_input = pw.answer.get()
            if raw_input == '':
                print "Null imput"
                continue
                
            valid, pn, hwrev, ssid, ccode = PartNumber( raw_input )
            if valid == False:
                continue
                
            print "PartNumber: %s" % pn
            print "HWREV       %s" % hwrev
            print "CCODE       %s" % ccode
            print "SSID        %s" % ssid
            self.boardframe.set_ccode(ccode)
            self.boardframe.set_hwrev(hwrev)
            self.boardframe.set_ssid(ssid)
            break
            
        return pn, hwrev, ccode, ssid


    def InputWindow( self, title, prompt ):
        pw = EntryWindow( self, title, prompt );
        return rw.answer.get()
    
    def set_ccode(self, ccode):
        self.boardframe.set_ccode(ccode)
        
    def set_hwrev( self, hwrev):
        self.boardframe.set_hwrev(hwrev)
        
    def set_ssid( self, ssid ):
        self.boardframe.set_ssid(ssid)
        
    #====================================================================
    #     get MAC address and generate MAC0 and MAC1 addresses           
    #====================================================================
    def input_mac( self ):
        default_mac = '002722DA0000'
        rawmac = default_mac

        while rawmac == default_mac or len(rawmac) != 12 or rawmac.isalnum() == False:
            pw = EntryWindow( self, "Scan Serial Number ", 'Enter UUT serial number', default_mac)
            rawmac = pw.answer.get()

        rawmac = rawmac.upper()

        print rawmac

        mac0 = \
            rawmac[0:2] + ":" +\
            rawmac[2:4] + ":" +\
            rawmac[4:6] + ":" +\
            rawmac[6:8] + ":" +\
            rawmac[8:10] + ":" + \
            rawmac[10:12]

        hex = int(rawmac[0:2],16)
        hex = hex | 0x02
        mac1 = \
            '%02X:' % hex +\
            rawmac[2:4] + ":" +\
            rawmac[4:6] + ":" +\
            rawmac[6:8] + ":" +\
            rawmac[8:10] + ":" + \
            rawmac[10:12]
        return mac0,mac1