Exemplo n.º 1
0
    def __init__(self):
        
        self.pipresents_issue="1.2"
        self.nonfull_window_width = 0.6 # proportion of width
        self.nonfull_window_height= 0.6 # proportion of height
        self.nonfull_window_x = 0 # position of top left corner
        self.nonfull_window_y=0   # position of top left corner
        
        StopWatch.global_enable=False

#****************************************
# Initialisation
# ***************************************
        # get command line options
        self.options=command_options()

        # get pi presents code directory
        pp_dir=sys.path[0]
        self.pp_dir=pp_dir
        
        if not os.path.exists(pp_dir+"/pipresents.py"):
            tkMessageBox.showwarning("Pi Presents","Bad Application Directory")
            exit()

        
        #Initialise logging
        Monitor.log_path=pp_dir
        self.mon=Monitor()
        self.mon.on()
        if self.options['debug']==True:
            Monitor.global_enable=True
        else:
            Monitor.global_enable=False
 
        self.mon.log (self, "Pi Presents is starting")
        self.mon.log (self," OS and separator:" + os.name +'  ' + os.sep)
        self.mon.log(self,"sys.path[0] -  location of code: "+sys.path[0])
        # self.mon.log(self,"os.getenv('HOME') -  user home directory (not used): " + os.getenv('HOME'))
        # self.mon.log(self,"os.path.expanduser('~') -  user home directory: " + os.path.expanduser('~'))

        # optional other classes used
        self.ppio=None
        self.tod=None
         
        #get profile path from -p option
        if self.options['profile']<>"":
            self.pp_profile_path="/pp_profiles/"+self.options['profile']
        else:
            self.pp_profile_path = "/pp_profiles/pp_profile"
        
       #get directory containing pp_home from the command,
        if self.options['home'] =="":
            home = os.path.expanduser('~')+ os.sep+"pp_home"
        else:
            home = self.options['home'] + os.sep+ "pp_home"         
        self.mon.log(self,"pp_home directory is: " + home)
        
        #check if pp_home exists.
        # try for 10 seconds to allow usb stick to automount
        # fall back to pipresents/pp_home
        self.pp_home=pp_dir+"/pp_home"
        found=False
        for i in range (1, 10):
            self.mon.log(self,"Trying pp_home at: " + home +  " (" + str(i)+')')
            if os.path.exists(home):
                found=True
                self.pp_home=home
                break
            time.sleep (1)
        if found==True:
            self.mon.log(self,"Found Requested Home Directory, using pp_home at: " + home)
        else:    
            self.mon.log(self,"FAILED to find requested home directory, using default to display error message: " + self.pp_home)


        #check profile exists, if not default to error profile inside pipresents
        self.pp_profile=self.pp_home+self.pp_profile_path
        if os.path.exists(self.pp_profile):
            self.mon.log(self,"Found Requested profile - pp_profile directory is: " + self.pp_profile)
        else:
            self.pp_profile=pp_dir+"/pp_home/pp_profiles/pp_profile"   
            self.mon.log(self,"FAILED to find requested profile, using default to display error message: pp_profile")
        
        if self.options['verify']==True:
            val =Validator()
            if  val.validate_profile(None,pp_dir,self.pp_home,self.pp_profile,self.pipresents_issue,False) == False:
                tkMessageBox.showwarning("Pi Presents","Validation Failed")
                exit()
                
        # open the resources
        self.rr=ResourceReader()
        # read the file, done once for all the other classes to use.
        if self.rr.read(pp_dir,self.pp_home,self.pp_profile)==False:
            self.end('error','cannot find resources.cfg')            

        #initialise and read the showlist in the profile
        self.showlist=ShowList()
        self.showlist_file= self.pp_profile+ "/pp_showlist.json"
        if os.path.exists(self.showlist_file):
            self.showlist.open_json(self.showlist_file)
        else:
            self.mon.err(self,"showlist not found at "+self.showlist_file)
            self.end('error','showlist not found')

        # check profile and Pi Presents issues are compatible
        if float(self.showlist.sissue())<>float(self.pipresents_issue):
            self.mon.err(self,"Version of profile " + self.showlist.sissue() + " is not  same as Pi Presents, must exit")
            self.end('error','wrong version of profile')
 
        # get the 'start' show from the showlist
        index = self.showlist.index_of_show('start')
        if index >=0:
            self.showlist.select(index)
            self.starter_show=self.showlist.selected_show()
        else:
            self.mon.err(self,"Show [start] not found in showlist")
            self.end('error','start show not found')

        
# ********************
# SET UP THE GUI
# ********************
        #turn off the screenblanking and saver
        if self.options['noblank']==True:
            call(["xset","s", "off"])
            call(["xset","s", "-dpms"])

        self.root=Tk()   
       
        self.title='Pi Presents - '+ self.pp_profile
        self.icon_text= 'Pi Presents'
        self.root.title(self.title)
        self.root.iconname(self.icon_text)
        self.root.config(bg='black')
        
        # get size of the screen
        self.screen_width = self.root.winfo_screenwidth()
        self.screen_height = self.root.winfo_screenheight()

        # set window dimensions and decorations
        if self.options['fullscreen']==True:

            self.root.attributes('-fullscreen', True)
            os.system('unclutter &')
            self.window_width=self.screen_width
            self.window_height=self.screen_height
            self.window_x=0
            self.window_y=0  
            self.root.geometry("%dx%d%+d%+d"  % (self.window_width,self.window_height,self.window_x,self.window_y))
            self.root.attributes('-zoomed','1')
        else:
            self.window_width=int(self.screen_width*self.nonfull_window_width)
            self.window_height=int(self.screen_height*self.nonfull_window_height)
            self.window_x=self.nonfull_window_x
            self.window_y=self.nonfull_window_y
            self.root.geometry("%dx%d%+d%+d" % (self.window_width,self.window_height,self.window_x,self.window_y))

            
        #canvas covers the whole window
        self.canvas_height=self.screen_height
        self.canvas_width=self.screen_width
        
        # make sure focus is set.
        self.root.focus_set()

        #define response to main window closing.
        self.root.protocol ("WM_DELETE_WINDOW", self.exit_pressed)

        #setup a canvas onto which will be drawn the images or text
        self.canvas = Canvas(self.root, bg='black')

        self.canvas.config(height=self.canvas_height,
                                       width=self.canvas_width,
                                       highlightthickness=0)
        # self.canvas.pack()
        self.canvas.place(x=0,y=0)

        self.canvas.focus_set()

                
# ****************************************
# INITIALISE THE INPUT DRIVERS
# ****************************************

        # looks after bindings between symbolic names and internal operations
        controlsmanager=ControlsManager()
        if controlsmanager.read(pp_dir,self.pp_home,self.pp_profile)==False:
                self.end('error','cannot find or error in controls.cfg.cfg')
        else:
            controlsmanager.parse_defaults()

        # each driver takes a set of inputs, binds them to symboic names
        # and sets up a callback which returns the symbolic name when an input event occurs/

        # use keyboard driver to bind keys to symbolic names and to set up callback
        kbd=KbdDriver()
        if kbd.read(pp_dir,self.pp_home,self.pp_profile)==False:
                self.end('error','cannot find or error in keys.cfg')
        kbd.bind_keys(self.root,self.input_pressed)

        self.sr=ScreenDriver()
        # read the screen click area config file
        if self.sr.read(pp_dir,self.pp_home,self.pp_profile)==False:
            self.end('error','cannot find screen.cfg')

        # create click areas on the canvas, must be polygon as outline rectangles are not filled as far as find_closest goes
        reason,message = self.sr.make_click_areas(self.canvas,self.input_pressed)
        if reason=='error':
            self.mon.err(self,message)
            self.end('error',message)


# ****************************************
# INITIALISE THE APPLICATION AND START
# ****************************************
        self.shutdown_required=False
        
        #kick off GPIO if enabled by command line option
        if self.options['gpio']==True:
            from pp_gpio import PPIO
            # initialise the GPIO
            self.ppio=PPIO()
            # PPIO.gpio_enabled=False
            if self.ppio.init(pp_dir,self.pp_home,self.pp_profile,self.canvas,50,self.gpio_pressed)==False:
                self.end('error','gpio error')
                
            # and start polling gpio
            self.ppio.poll()

        #kick off the time of day scheduler
        self.tod=TimeOfDay()
        self.tod.init(pp_dir,self.pp_home,self.canvas,500)
        self.tod.poll()


        # Create list of start shows initialise them and then run them
        self.run_start_shows()

        #start tkinter
        self.root.mainloop( )
Exemplo n.º 2
0
    def __init__(self):
        gc.set_debug(gc.DEBUG_UNCOLLECTABLE|gc.DEBUG_INSTANCES|gc.DEBUG_OBJECTS|gc.DEBUG_SAVEALL)
        self.pipresents_issue="1.3.2"
        self.pipresents_minorissue = '1.3.2a'
        # position and size of window without -f command line option
        self.nonfull_window_width = 0.45 # proportion of width
        self.nonfull_window_height= 0.7 # proportion of height
        self.nonfull_window_x = 0 # position of top left corner
        self.nonfull_window_y=0   # position of top left corner


        StopWatch.global_enable=False

        # set up the handler for SIGTERM
        signal.signal(signal.SIGTERM,self.handle_sigterm)
        

# ****************************************
# Initialisation
# ***************************************
        # get command line options
        self.options=command_options()

        # get Pi Presents code directory
        pp_dir=sys.path[0]
        self.pp_dir=pp_dir
        
        if not os.path.exists(pp_dir+"/pipresents.py"):
            if self.options['manager']  is False:
                tkMessageBox.showwarning("Pi Presents","Bad Application Directory")
            exit(102)

        
        # Initialise logging and tracing
        Monitor.log_path=pp_dir
        self.mon=Monitor()
        # Init in PiPresents only
        self.mon.init()

        # uncomment to enable control of logging from within a class
        # Monitor.enable_in_code = True # enables control of log level in the code for a class  - self.mon.set_log_level()

        
        # make a shorter list to log/trace only some classes without using enable_in_code.
        Monitor.classes  = ['PiPresents',
                            
                            'HyperlinkShow','RadioButtonShow','ArtLiveShow','ArtMediaShow','MediaShow','LiveShow','MenuShow',
                            'GapShow','Show','ArtShow',
                            'AudioPlayer','BrowserPlayer','ImagePlayer','MenuPlayer','MessagePlayer','VideoPlayer','Player',
                            'MediaList','LiveList','ShowList',
                            'PathManager','ControlsManager','ShowManager','PluginManager',
                            'MplayerDriver','OMXDriver','UZBLDriver',
                            'KbdDriver','GPIODriver','TimeOfDay','ScreenDriver','Animate','OSCDriver',
                            'Network','Mailer'
                            ]
        

        # Monitor.classes=['PiPresents','MediaShow','GapShow','Show','VideoPlayer','Player','OMXDriver']
        
        # get global log level from command line
        Monitor.log_level = int(self.options['debug'])
        Monitor.manager = self.options['manager']
        # print self.options['manager']
        self.mon.newline(3)
        self.mon.sched (self, "Pi Presents is starting, Version:"+self.pipresents_minorissue + ' at '+time.strftime("%Y-%m-%d %H:%M.%S"))
        self.mon.log (self, "Pi Presents is starting, Version:"+self.pipresents_minorissue+ ' at '+time.strftime("%Y-%m-%d %H:%M.%S"))
        # self.mon.log (self," OS and separator:" + os.name +'  ' + os.sep)
        self.mon.log(self,"sys.path[0] -  location of code: "+sys.path[0])

        # log versions of Raspbian and omxplayer, and GPU Memory
        with open("/boot/issue.txt") as file:
            self.mon.log(self,'\nRaspbian: '+file.read())

        self.mon.log(self,'\n'+check_output(["omxplayer", "-v"]))
        self.mon.log(self,'\nGPU Memory: '+check_output(["vcgencmd", "get_mem", "gpu"]))
        
        if "DESKTOP_SESSION" not in os.environ:
            print 'Pi Presents must be run from the Desktop'
            self.mon.log(self,'Pi Presents must be run from the Desktop')
            self.mon.finish()
            sys.exit(102)
        else:
            self.mon.log(self,'Desktop is '+ os.environ['DESKTOP_SESSION'])
        
        # optional other classes used
        self.root=None
        self.ppio=None
        self.tod=None
        self.animate=None
        self.gpiodriver=None
        self.oscdriver=None
        self.osc_enabled=False
        self.gpio_enabled=False
        self.tod_enabled=False
        self.email_enabled=False


        if os.geteuid() == 0:
            self.mon.err(self,'Do not run Pi Presents with sudo')
            self.end('error','Do not run Pi Presents with sudo')

        
        user=os.getenv('USER')

        self.mon.log(self,'User is: '+ user)
        # self.mon.log(self,"os.getenv('HOME') -  user home directory (not used): " + os.getenv('HOME')) # does not work
        # self.mon.log(self,"os.path.expanduser('~') -  user home directory: " + os.path.expanduser('~'))   # does not work



        # check network is available
        self.network_connected=False
        self.network_details=False
        self.interface=''
        self.ip=''
        self.unit=''
        
        # sets self.network_connected and self.network_details
        self.init_network()

        
        # start the mailer and send email when PP starts
        self.email_enabled=False
        if self.network_connected is True:
            self.init_mailer()
            if self.email_enabled is True and self.mailer.email_at_start is True:
                subject= '[Pi Presents] ' + self.unit + ': PP Started on ' + time.strftime("%Y-%m-%d %H:%M")
                message = time.strftime("%Y-%m-%d %H:%M") + '\nUnit: ' + self.unit + '   Profile: '+ self.options['profile']+ '\n ' + self.interface + '\n ' + self.ip 
                self.send_email('start',subject,message) 

         
        # get profile path from -p option
        if self.options['profile'] != '':
            self.pp_profile_path="/pp_profiles/"+self.options['profile']
        else:
            self.mon.err(self,"Profile not specified in command ")
            self.end('error','Profile not specified with the commands -p option')
        
       # get directory containing pp_home from the command,
        if self.options['home']  == "":
            home = os.sep+ 'home' + os.sep + user + os.sep+"pp_home"
        else:
            home = self.options['home'] + os.sep+ "pp_home"         
        self.mon.log(self,"pp_home directory is: " + home)


        # check if pp_home exists.
        # try for 10 seconds to allow usb stick to automount
        found=False
        for i in range (1, 10):
            self.mon.log(self,"Trying pp_home at: " + home +  " (" + str(i)+')')
            if os.path.exists(home):
                found=True
                self.pp_home=home
                break
            time.sleep (1)
        if found is True:
            self.mon.log(self,"Found Requested Home Directory, using pp_home at: " + home)
        else:
            self.mon.err(self,"Failed to find pp_home directory at " + home)
            self.end('error',"Failed to find pp_home directory at " + home)


        # check profile exists
        self.pp_profile=self.pp_home+self.pp_profile_path
        if os.path.exists(self.pp_profile):
            self.mon.sched(self,"Running profile: " + self.pp_profile_path)
            self.mon.log(self,"Found Requested profile - pp_profile directory is: " + self.pp_profile)
        else:
            self.mon.err(self,"Failed to find requested profile: "+ self.pp_profile)
            self.end('error',"Failed to find requested profile: "+ self.pp_profile)

        self.mon.start_stats(self.options['profile'])
        
        if self.options['verify'] is True:
            val =Validator()
            if  val.validate_profile(None,pp_dir,self.pp_home,self.pp_profile,self.pipresents_issue,False) is  False:
                self.mon.err(self,"Validation Failed")
                self.end('error','Validation Failed')

         
        # initialise and read the showlist in the profile
        self.showlist=ShowList()
        self.showlist_file= self.pp_profile+ "/pp_showlist.json"
        if os.path.exists(self.showlist_file):
            self.showlist.open_json(self.showlist_file)
        else:
            self.mon.err(self,"showlist not found at "+self.showlist_file)
            self.end('error',"showlist not found at "+self.showlist_file)

        # check profile and Pi Presents issues are compatible
        if self.showlist.profile_version() != self.pipresents_version():
            self.mon.err(self,"Version of showlist " + self.showlist.profile_version_string + " is not  same as Pi Presents")
            self.end('error',"Version of showlist " + self.showlist.profile_version_string + " is not  same as Pi Presents")


        # get the 'start' show from the showlist
        index = self.showlist.index_of_show('start')
        if index >=0:
            self.showlist.select(index)
            self.starter_show=self.showlist.selected_show()
        else:
            self.mon.err(self,"Show [start] not found in showlist")
            self.end('error',"Show [start] not found in showlist")


# ********************
# SET UP THE GUI
# ********************
        # turn off the screenblanking and saver
        if self.options['noblank'] is True:
            call(["xset","s", "off"])
            call(["xset","s", "-dpms"])

        self.root=Tk()   
       
        self.title='Pi Presents - '+ self.pp_profile
        self.icon_text= 'Pi Presents'
        self.root.title(self.title)
        self.root.iconname(self.icon_text)
        self.root.config(bg=self.starter_show['background-colour'])

        self.mon.log(self, 'monitor screen dimensions are ' + str(self.root.winfo_screenwidth()) + ' x ' + str(self.root.winfo_screenheight()) + ' pixels')
        if self.options['screensize'] =='':        
            self.screen_width = self.root.winfo_screenwidth()
            self.screen_height = self.root.winfo_screenheight()
        else:
            reason,message,self.screen_width,self.screen_height=self.parse_screen(self.options['screensize'])
            if reason =='error':
                self.mon.err(self,message)
                self.end('error',message)

        self.mon.log(self, 'forced screen dimensions (--screensize) are ' + str(self.screen_width) + ' x ' + str(self.screen_height) + ' pixels')
       
        # set window dimensions and decorations
        if self.options['fullscreen'] is False:
            self.window_width=int(self.root.winfo_screenwidth()*self.nonfull_window_width)
            self.window_height=int(self.root.winfo_screenheight()*self.nonfull_window_height)
            self.window_x=self.nonfull_window_x
            self.window_y=self.nonfull_window_y
            self.root.geometry("%dx%d%+d%+d" % (self.window_width,self.window_height,self.window_x,self.window_y))
        else:
            self.window_width=self.screen_width
            self.window_height=self.screen_height
            self.root.attributes('-fullscreen', True)
            os.system('unclutter &')
            self.window_x=0
            self.window_y=0  
            self.root.geometry("%dx%d%+d%+d"  % (self.window_width,self.window_height,self.window_x,self.window_y))
            self.root.attributes('-zoomed','1')

        # canvas cover the whole screen whatever the size of the window. 
        self.canvas_height=self.screen_height
        self.canvas_width=self.screen_width
  
        # make sure focus is set.
        self.root.focus_set()

        # define response to main window closing.
        self.root.protocol ("WM_DELETE_WINDOW", self.handle_user_abort)

        # setup a canvas onto which will be drawn the images or text
        self.canvas = Canvas(self.root, bg=self.starter_show['background-colour'])


        if self.options['fullscreen'] is True:
            self.canvas.config(height=self.canvas_height,
                               width=self.canvas_width,
                               highlightthickness=0)
        else:
            self.canvas.config(height=self.canvas_height,
                    width=self.canvas_width,
                        highlightthickness=1,
                               highlightcolor='yellow')
            
        self.canvas.place(x=0,y=0)
        # self.canvas.config(bg='black')
        self.canvas.focus_set()


                
# ****************************************
# INITIALISE THE INPUT DRIVERS
# ****************************************

        # each driver takes a set of inputs, binds them to symboic names
        # and sets up a callback which returns the symbolic name when an input event occurs/

        # use keyboard driver to bind keys to symbolic names and to set up callback
        kbd=KbdDriver()
        if kbd.read(pp_dir,self.pp_home,self.pp_profile) is False:
            self.end('error','cannot find, or error in keys.cfg')
        kbd.bind_keys(self.root,self.handle_input_event)

        self.sr=ScreenDriver()
        # read the screen click area config file
        reason,message = self.sr.read(pp_dir,self.pp_home,self.pp_profile)
        if reason == 'error':
            self.end('error','cannot find, or error in screen.cfg')


        # create click areas on the canvas, must be polygon as outline rectangles are not filled as far as find_closest goes
        # click areas are made on the Pi Presents canvas not the show canvases.
        reason,message = self.sr.make_click_areas(self.canvas,self.handle_input_event)
        if reason == 'error':
            self.mon.err(self,message)
            self.end('error',message)


# ****************************************
# INITIALISE THE APPLICATION AND START
# ****************************************
        self.shutdown_required=False
        self.terminate_required=False
        self.exitpipresents_required=False

        # delete omxplayer dbus files
        # if os.path.exists("/tmp/omxplayerdbus.{}".format(user)):
            # os.remove("/tmp/omxplayerdbus.{}".format(user))
        # if os.path.exists("/tmp/omxplayerdbus.{}.pid".format(user)):
            # os.remove("/tmp/omxplayerdbus.{}.pid".format(user))
        
        # kick off GPIO if enabled by command line option
        self.gpio_enabled=False
        if os.path.exists(self.pp_profile + os.sep + 'pp_io_config'+os.sep+ 'gpio.cfg'):
            # initialise the GPIO
            self.gpiodriver=GPIODriver()
            reason,message=self.gpiodriver.init(pp_dir,self.pp_home,self.pp_profile,self.canvas,50,self.handle_input_event)
            if reason == 'error':
                self.end('error',message)
            else:
                self.gpio_enabled=True
                # and start polling gpio
                self.gpiodriver.poll()
            
        # kick off animation sequencer
        self.animate = Animate()
        self.animate.init(pp_dir,self.pp_home,self.pp_profile,self.canvas,200,self.handle_output_event)
        self.animate.poll()

        #create a showmanager ready for time of day scheduler and osc server
        show_id=-1
        self.show_manager=ShowManager(show_id,self.showlist,self.starter_show,self.root,self.canvas,self.pp_dir,self.pp_profile,self.pp_home)
        # first time through set callback to terminate Pi Presents if all shows have ended.
        self.show_manager.init(self.canvas,self.all_shows_ended_callback,self.handle_command,self.showlist)
        # Register all the shows in the showlist
        reason,message=self.show_manager.register_shows()
        if reason == 'error':
            self.mon.err(self,message)
            self.end('error',message)


        # Init OSCDriver, read config and start OSC server
        self.osc_enabled=False
        if self.network_connected is True:
            if os.path.exists(self.pp_profile + os.sep + 'pp_io_config'+ os.sep + 'osc.cfg'):
                self.oscdriver=OSCDriver()
                reason,message=self.oscdriver.init(self.pp_profile,self.handle_command,self.handle_input_event,self.e_osc_handle_output_event)
                if reason == 'error':
                    self.mon.err(self,message)
                    self.end('error',message)
                else:
                    self.osc_enabled=True
                    self.root.after(1000,self.oscdriver.start_server())

        
        # enable ToD scheduler if schedule exists      
        if os.path.exists(self.pp_profile + os.sep + 'schedule.json'):                
            self.tod_enabled = True
        else:
            self.tod_enabled=False

        # warn if the network not available when ToD required

        if self.tod_enabled is True and self.network_connected is False:
            self.mon.warn(self,'Network not connected  so Time of Day scheduler may be using the internal clock')

        # warn about start shows and scheduler

        if self.starter_show['start-show']=='' and self.tod_enabled is False:
            self.mon.sched(self,"No Start Shows in Start Show and no shows scheduled") 
            self.mon.warn(self,"No Start Shows in Start Show and no shows scheduled")

        if self.starter_show['start-show'] !='' and self.tod_enabled is True:
            self.mon.sched(self,"Start Shows in Start Show and shows scheduled - conflict?") 
            self.mon.warn(self,"Start Shows in Start Show and shows scheduled - conflict?")

        # run the start shows
        self.run_start_shows()           

        # kick off the time of day scheduler which may run additional shows
        if self.tod_enabled is True:
            self.tod=TimeOfDay()
            self.tod.init(pp_dir,self.pp_home,self.pp_profile,self.root,self.handle_command)
            self.tod.poll()            


        # start Tkinters event loop
        self.root.mainloop( )
Exemplo n.º 3
0
    def __init__(self):

        self.pipresents_issue = "1.2"
        self.pipresents_minorissue = '1.2.3f'
        self.nonfull_window_width = 0.5  # proportion of width
        self.nonfull_window_height = 0.6  # proportion of height
        self.nonfull_window_x = 0  # position of top left corner
        self.nonfull_window_y = 0  # position of top left corner

        StopWatch.global_enable = False

        #****************************************
        # Initialisation
        # ***************************************
        # get command line options
        self.options = command_options()

        # get pi presents code directory
        pp_dir = sys.path[0]
        self.pp_dir = pp_dir

        if not os.path.exists(pp_dir + "/pipresents.py"):
            tkMessageBox.showwarning("Pi Presents",
                                     "Bad Application Directory")
            exit()

        #Initialise logging
        Monitor.log_path = pp_dir
        self.mon = Monitor()
        self.mon.on()
        # 0  - errors only
        # 1  - errors and warnings
        # 2  - everything
        if self.options['debug'] == True:
            Monitor.global_enable = 2
        else:
            Monitor.global_enable = 0

        # UNCOMMENT THIS TO LOG WARNINGS AND ERRORS ONLY
        # Monitor.global_enable=1

        self.mon.log(
            self,
            "\n\n\n\n\n*****************\nPi Presents is starting, Version:" +
            self.pipresents_minorissue)
        self.mon.log(self, "Version: " + self.pipresents_minorissue)
        self.mon.log(self, " OS and separator:" + os.name + '  ' + os.sep)
        self.mon.log(self, "sys.path[0] -  location of code: " + sys.path[0])
        # self.mon.log(self,"os.getenv('HOME') -  user home directory (not used): " + os.getenv('HOME'))
        # self.mon.log(self,"os.path.expanduser('~') -  user home directory: " + os.path.expanduser('~'))

        # optional other classes used
        self.ppio = None
        self.tod = None

        #get profile path from -p option
        if self.options['profile'] <> "":
            self.pp_profile_path = "/pp_profiles/" + self.options['profile']
        else:
            self.pp_profile_path = "/pp_profiles/pp_profile"

    #get directory containing pp_home from the command,
        if self.options['home'] == "":
            home = os.path.expanduser('~') + os.sep + "pp_home"
        else:
            home = self.options['home'] + os.sep + "pp_home"
        self.mon.log(self, "pp_home directory is: " + home)

        #check if pp_home exists.
        # try for 10 seconds to allow usb stick to automount
        # fall back to pipresents/pp_home
        self.pp_home = pp_dir + "/pp_home"
        found = False
        for i in range(1, 10):
            self.mon.log(self,
                         "Trying pp_home at: " + home + " (" + str(i) + ')')
            if os.path.exists(home):
                found = True
                self.pp_home = home
                break
            time.sleep(1)
        if found == True:
            self.mon.log(
                self,
                "Found Requested Home Directory, using pp_home at: " + home)
        else:
            self.mon.log(
                self,
                "FAILED to find requested home directory, using default to display error message: "
                + self.pp_home)

        #check profile exists, if not default to error profile inside pipresents
        self.pp_profile = self.pp_home + self.pp_profile_path
        if os.path.exists(self.pp_profile):
            self.mon.log(
                self, "Found Requested profile - pp_profile directory is: " +
                self.pp_profile)
        else:
            self.pp_profile = pp_dir + "/pp_home/pp_profiles/pp_profile"
            self.mon.log(
                self,
                "FAILED to find requested profile, using default to display error message: pp_profile"
            )

        if self.options['verify'] == True:
            val = Validator()
            if val.validate_profile(None, pp_dir, self.pp_home,
                                    self.pp_profile, self.pipresents_issue,
                                    False) == False:
                tkMessageBox.showwarning("Pi Presents", "Validation Failed")
                exit()

        # open the resources
        self.rr = ResourceReader()
        # read the file, done once for all the other classes to use.
        if self.rr.read(pp_dir, self.pp_home, self.pp_profile) == False:
            self.end('error', 'cannot find resources.cfg')

        #initialise and read the showlist in the profile
        self.showlist = ShowList()
        self.showlist_file = self.pp_profile + "/pp_showlist.json"
        if os.path.exists(self.showlist_file):
            self.showlist.open_json(self.showlist_file)
        else:
            self.mon.err(self, "showlist not found at " + self.showlist_file)
            self.end('error', 'showlist not found')

        # check profile and Pi Presents issues are compatible
        if float(self.showlist.sissue()) <> float(self.pipresents_issue):
            self.mon.err(
                self, "Version of profile " + self.showlist.sissue() +
                " is not  same as Pi Presents, must exit")
            self.end('error', 'wrong version of profile')

        # get the 'start' show from the showlist
        index = self.showlist.index_of_show('start')
        if index >= 0:
            self.showlist.select(index)
            self.starter_show = self.showlist.selected_show()
        else:
            self.mon.err(self, "Show [start] not found in showlist")
            self.end('error', 'start show not found')

# ********************
# SET UP THE GUI
# ********************
#turn off the screenblanking and saver
        if self.options['noblank'] == True:
            call(["xset", "s", "off"])
            call(["xset", "s", "-dpms"])

        self.root = Tk()

        self.title = 'Pi Presents - ' + self.pp_profile
        self.icon_text = 'Pi Presents'
        self.root.title(self.title)
        self.root.iconname(self.icon_text)
        self.root.config(bg='black')

        # get size of the screen
        self.screen_width = self.root.winfo_screenwidth()
        self.screen_height = self.root.winfo_screenheight()

        # set window dimensions and decorations
        if self.options['fullscreen'] == True:

            self.root.attributes('-fullscreen', True)
            os.system('unclutter &')
            self.window_width = self.screen_width
            self.window_height = self.screen_height
            self.window_x = 0
            self.window_y = 0
            self.root.geometry("%dx%d%+d%+d" %
                               (self.window_width, self.window_height,
                                self.window_x, self.window_y))
            self.root.attributes('-zoomed', '1')
        else:
            self.window_width = int(self.screen_width *
                                    self.nonfull_window_width)
            self.window_height = int(self.screen_height *
                                     self.nonfull_window_height)
            self.window_x = self.nonfull_window_x
            self.window_y = self.nonfull_window_y
            self.root.geometry("%dx%d%+d%+d" %
                               (self.window_width, self.window_height,
                                self.window_x, self.window_y))

        #canvas covers the whole window
        self.canvas_height = self.screen_height
        self.canvas_width = self.screen_width

        # make sure focus is set.
        self.root.focus_set()

        #define response to main window closing.
        self.root.protocol("WM_DELETE_WINDOW", self.exit_pressed)

        #setup a canvas onto which will be drawn the images or text
        self.canvas = Canvas(self.root, bg='black')

        self.canvas.config(height=self.canvas_height,
                           width=self.canvas_width,
                           highlightthickness=0)
        # self.canvas.pack()
        self.canvas.place(x=0, y=0)

        self.canvas.focus_set()

        # ****************************************
        # INITIALISE THE INPUT DRIVERS
        # ****************************************

        # looks after bindings between symbolic names and internal operations
        controlsmanager = ControlsManager()
        if controlsmanager.read(pp_dir, self.pp_home,
                                self.pp_profile) == False:
            self.end('error', 'cannot find or error in controls.cfg.cfg')
        else:
            controlsmanager.parse_defaults()

        # each driver takes a set of inputs, binds them to symboic names
        # and sets up a callback which returns the symbolic name when an input event occurs/

        # use keyboard driver to bind keys to symbolic names and to set up callback
        kbd = KbdDriver()
        if kbd.read(pp_dir, self.pp_home, self.pp_profile) == False:
            self.end('error', 'cannot find or error in keys.cfg')
        kbd.bind_keys(self.root, self.input_pressed)

        self.sr = ScreenDriver()
        # read the screen click area config file
        if self.sr.read(pp_dir, self.pp_home, self.pp_profile) == False:
            self.end('error', 'cannot find screen.cfg')

        # create click areas on the canvas, must be polygon as outline rectangles are not filled as far as find_closest goes
        reason, message = self.sr.make_click_areas(self.canvas,
                                                   self.input_pressed)
        if reason == 'error':
            self.mon.err(self, message)
            self.end('error', message)

# ****************************************
# INITIALISE THE APPLICATION AND START
# ****************************************
        self.shutdown_required = False

        #kick off GPIO if enabled by command line option
        if self.options['gpio'] == True:
            from pp_gpio import PPIO
            # initialise the GPIO
            self.ppio = PPIO()
            # PPIO.gpio_enabled=False
            if self.ppio.init(pp_dir, self.pp_home, self.pp_profile,
                              self.canvas, 50, self.gpio_pressed) == False:
                self.end('error', 'gpio error')

            # and start polling gpio
            self.ppio.poll()

        #kick off the time of day scheduler
        self.tod = TimeOfDay()
        self.tod.init(pp_dir, self.pp_home, self.canvas, 500)
        self.tod.poll()

        # Create list of start shows initialise them and then run them
        self.run_start_shows()

        #start tkinter
        self.root.mainloop()
Exemplo n.º 4
0
    def __init__(self):
        gc.set_debug(gc.DEBUG_UNCOLLECTABLE|gc.DEBUG_INSTANCES|gc.DEBUG_OBJECTS|gc.DEBUG_SAVEALL)
        self.pipresents_issue="1.3"
        self.pipresents_minorissue = '1.3.1g'
        # position and size of window without -f command line option
        self.nonfull_window_width = 0.45 # proportion of width
        self.nonfull_window_height= 0.7 # proportion of height
        self.nonfull_window_x = 0 # position of top left corner
        self.nonfull_window_y=0   # position of top left corner
        self.pp_background='black'

        StopWatch.global_enable=False

        # set up the handler for SIGTERM
        signal.signal(signal.SIGTERM,self.handle_sigterm)
        

# ****************************************
# Initialisation
# ***************************************
        # get command line options
        self.options=command_options()

        # get Pi Presents code directory
        pp_dir=sys.path[0]
        self.pp_dir=pp_dir
        
        if not os.path.exists(pp_dir+"/pipresents.py"):
            if self.options['manager']  is False:
                tkMessageBox.showwarning("Pi Presents","Bad Application Directory:\n{0}".format(pp_dir))
            exit(103)

        
        # Initialise logging and tracing
        Monitor.log_path=pp_dir
        self.mon=Monitor()
        # Init in PiPresents only
        self.mon.init()

        # uncomment to enable control of logging from within a class
        # Monitor.enable_in_code = True # enables control of log level in the code for a class  - self.mon.set_log_level()
        
        # make a shorter list to log/trace only some classes without using enable_in_code.
        Monitor.classes  = ['PiPresents', 'pp_paths',
                            
                            'HyperlinkShow','RadioButtonShow','ArtLiveShow','ArtMediaShow','MediaShow','LiveShow','MenuShow',
                            'PathManager','ControlsManager','ShowManager','PluginManager',
                            'MplayerDriver','OMXDriver','UZBLDriver',
                            'KbdDriver','GPIODriver','TimeOfDay','ScreenDriver','Animate','OSCDriver'
                            ]

        # Monitor.classes=['PiPresents','ArtMediaShow','VideoPlayer','OMXDriver']
        
        # get global log level from command line
        Monitor.log_level = int(self.options['debug'])
        Monitor.manager = self.options['manager']
        # print self.options['manager']
        self.mon.newline(3)    
        self.mon.log (self, "Pi Presents is starting, Version:"+self.pipresents_minorissue)
        # self.mon.log (self," OS and separator:" + os.name +'  ' + os.sep)
        self.mon.log(self,"sys.path[0] -  location of code: "+sys.path[0])
        if os.geteuid() !=0:
            user=os.getenv('USER')
        else:
            user = os.getenv('SUDO_USER')
        self.mon.log(self,'User is: '+ user)
        # self.mon.log(self,"os.getenv('HOME') -  user home directory (not used): " + os.getenv('HOME')) # does not work
        # self.mon.log(self,"os.path.expanduser('~') -  user home directory: " + os.path.expanduser('~'))   # does not work

        # optional other classes used
        self.root=None
        self.ppio=None
        self.tod=None
        self.animate=None
        self.gpiodriver=None
        self.oscdriver=None
        self.osc_enabled=False
        self.gpio_enabled=False
        self.tod_enabled=False
         
        # get home path from -o option
        self.pp_home = pp_paths.get_home(self.options['home'])
        if self.pp_home is None:
            self.end('error','Failed to find pp_home')

        # get profile path from -p option
        # pp_profile is the full path to the directory that contains 
        # pp_showlist.json and other files for the profile
        self.pp_profile = pp_paths.get_profile_dir(self.pp_home, self.options['profile'])
        if self.pp_profile is None:
            self.end('error','Failed to find profile')

        # check profile exists
        if os.path.exists(self.pp_profile):
            self.mon.log(self,"Found Requested profile - pp_profile directory is: " + self.pp_profile)
        else:
            self.mon.err(self,"Failed to find requested profile: "+ self.pp_profile)
            self.end('error','Failed to find profile')

        self.mon.start_stats(self.options['profile'])
        
        # check 'verify' option
        if self.options['verify'] is True:
            val =Validator()
            if  val.validate_profile(None,pp_dir,self.pp_home,self.pp_profile,self.pipresents_issue,False) is  False:
                self.mon.err(self,"Validation Failed")
                self.end('error','Validation Failed')

        # initialise and read the showlist in the profile
        self.showlist=ShowList()
        self.showlist_file= self.pp_profile+ "/pp_showlist.json"
        if os.path.exists(self.showlist_file):
            self.showlist.open_json(self.showlist_file)
        else:
            self.mon.err(self,"showlist not found at "+self.showlist_file)
            self.end('error','showlist not found')

        # check profile and Pi Presents issues are compatible
        if float(self.showlist.sissue()) != float(self.pipresents_issue):
            self.mon.err(self,"Version of profile " + self.showlist.sissue() + " is not  same as Pi Presents, must exit")
            self.end('error','wrong version of profile')


        # get the 'start' show from the showlist
        index = self.showlist.index_of_show('start')
        if index >=0:
            self.showlist.select(index)
            self.starter_show=self.showlist.selected_show()
        else:
            self.mon.err(self,"Show [start] not found in showlist")
            self.end('error','start show not found')

        if self.starter_show['start-show']=='':
             self.mon.warn(self,"No Start Shows in Start Show")       

# ********************
# SET UP THE GUI
# ********************
        # turn off the screenblanking and saver
        if self.options['noblank'] is True:
            call(["xset","s", "off"])
            call(["xset","s", "-dpms"])

        self.root=Tk()   
       
        self.title='Pi Presents - '+ self.pp_profile
        self.icon_text= 'Pi Presents'
        self.root.title(self.title)
        self.root.iconname(self.icon_text)
        self.root.config(bg=self.pp_background)

        self.mon.log(self, 'native screen dimensions are ' + str(self.root.winfo_screenwidth()) + ' x ' + str(self.root.winfo_screenheight()) + ' pixcels')
        if self.options['screensize'] =='':        
            self.screen_width = self.root.winfo_screenwidth()
            self.screen_height = self.root.winfo_screenheight()
        else:
            reason,message,self.screen_width,self.screen_height=self.parse_screen(self.options['screensize'])
            if reason =='error':
                self.mon.err(self,message)
                self.end('error',message)

        self.mon.log(self, 'commanded screen dimensions are ' + str(self.screen_width) + ' x ' + str(self.screen_height) + ' pixcels')
       
        # set window dimensions and decorations
        if self.options['fullscreen'] is False:
            self.window_width=int(self.root.winfo_screenwidth()*self.nonfull_window_width)
            self.window_height=int(self.root.winfo_screenheight()*self.nonfull_window_height)
            self.window_x=self.nonfull_window_x
            self.window_y=self.nonfull_window_y
            self.root.geometry("%dx%d%+d%+d" % (self.window_width,self.window_height,self.window_x,self.window_y))
        else:
            self.window_width=self.screen_width
            self.window_height=self.screen_height
            self.root.attributes('-fullscreen', True)
            os.system('unclutter 1>&- 2>&- &') # Suppress 'someone created a subwindow' complaints from unclutter
            self.window_x=0
            self.window_y=0  
            self.root.geometry("%dx%d%+d%+d"  % (self.window_width,self.window_height,self.window_x,self.window_y))
            self.root.attributes('-zoomed','1')

        # canvs cover the whole screen whatever the size of the window. 
        self.canvas_height=self.screen_height
        self.canvas_width=self.screen_width
  
        # make sure focus is set.
        self.root.focus_set()

        # define response to main window closing.
        self.root.protocol ("WM_DELETE_WINDOW", self.handle_user_abort)

        # setup a canvas onto which will be drawn the images or text
        self.canvas = Canvas(self.root, bg=self.pp_background)


        if self.options['fullscreen'] is True:
            self.canvas.config(height=self.canvas_height,
                               width=self.canvas_width,
                               highlightthickness=0)
        else:
            self.canvas.config(height=self.canvas_height,
                    width=self.canvas_width,
                        highlightthickness=1,
                               highlightcolor='yellow')
            
        self.canvas.place(x=0,y=0)
        # self.canvas.config(bg='black')
        self.canvas.focus_set()


                
# ****************************************
# INITIALISE THE INPUT DRIVERS
# ****************************************

        # each driver takes a set of inputs, binds them to symboic names
        # and sets up a callback which returns the symbolic name when an input event occurs/

        # use keyboard driver to bind keys to symbolic names and to set up callback
        kbd=KbdDriver()
        if kbd.read(pp_dir,self.pp_home,self.pp_profile) is False:
            self.end('error','cannot find or error in keys.cfg')
        kbd.bind_keys(self.root,self.handle_input_event)

        self.sr=ScreenDriver()
        # read the screen click area config file
        reason,message = self.sr.read(pp_dir,self.pp_home,self.pp_profile)
        if reason == 'error':
            self.end('error','cannot find screen.cfg')


        # create click areas on the canvas, must be polygon as outline rectangles are not filled as far as find_closest goes
        # click areas are made on the Pi Presents canvas not the show canvases.
        reason,message = self.sr.make_click_areas(self.canvas,self.handle_input_event)
        if reason == 'error':
            self.mon.err(self,message)
            self.end('error',message)


# ****************************************
# INITIALISE THE APPLICATION AND START
# ****************************************
        self.shutdown_required=False
        self.exitpipresents_required=False
        
        # kick off GPIO if enabled by command line option
        self.gpio_enabled=False
        if os.path.exists(self.pp_profile + os.sep + 'pp_io_config'+os.sep+ 'gpio.cfg'):
            # initialise the GPIO
            self.gpiodriver=GPIODriver()
            reason,message=self.gpiodriver.init(pp_dir,self.pp_home,self.pp_profile,self.canvas,50,self.handle_input_event)
            if reason == 'error':
                self.end('error',message)
            else:
                self.gpio_enabled=True
                # and start polling gpio
                self.gpiodriver.poll()
            
        # kick off animation sequencer
        self.animate = Animate()
        self.animate.init(pp_dir,self.pp_home,self.pp_profile,self.canvas,200,self.handle_output_event)
        self.animate.poll()

        #create a showmanager ready for time of day scheduler and osc server
        show_id=-1
        self.show_manager=ShowManager(show_id,self.showlist,self.starter_show,self.root,self.canvas,self.pp_dir,self.pp_profile,self.pp_home)
        # first time through set callback to terminate Pi Presents if all shows have ended.
        self.show_manager.init(self.canvas,self.all_shows_ended_callback,self.handle_command,self.showlist)
        # Register all the shows in the showlist
        reason,message=self.show_manager.register_shows()
        if reason == 'error':
            self.mon.err(self,message)
            self.end('error',message)

        # Init OSCDriver, read config and start OSC server
        self.osc_enabled=False
        if os.path.exists(self.pp_profile + os.sep + 'pp_io_config'+ os.sep + 'osc.cfg'):
            self.oscdriver=OSCDriver()
            reason,message=self.oscdriver.init(self.pp_profile,self.handle_command,self.handle_input_event,self.e_osc_handle_output_event)
            if reason == 'error':
                self.end('error',message)
            else:
                self.osc_enabled=True
                self.root.after(1000,self.oscdriver.start_server())

        # and run the start shows
        self.run_start_shows()

       # set up the time of day scheduler including catchup         
        self.tod_enabled=False
        if os.path.exists(self.pp_profile + os.sep + 'schedule.json'):
            # kick off the time of day scheduler which may run additional shows
            self.tod=TimeOfDay()
            self.tod.init(pp_dir,self.pp_home,self.pp_profile,self.root,self.handle_command)
            self.tod_enabled = True


        # then start the time of day scheduler
        if self.tod_enabled is True:
            self.tod.poll()

        # start Tkinters event loop
        self.root.mainloop( )
Exemplo n.º 5
0
    def __init__(self):
        gc.set_debug(gc.DEBUG_UNCOLLECTABLE | gc.DEBUG_INSTANCES
                     | gc.DEBUG_OBJECTS | gc.DEBUG_SAVEALL)
        self.pipresents_issue = "1.3"
        self.pipresents_minorissue = '1.3.1g'
        # position and size of window without -f command line option
        self.nonfull_window_width = 0.45  # proportion of width
        self.nonfull_window_height = 0.7  # proportion of height
        self.nonfull_window_x = 0  # position of top left corner
        self.nonfull_window_y = 0  # position of top left corner
        self.pp_background = 'black'

        StopWatch.global_enable = False

        # set up the handler for SIGTERM
        signal.signal(signal.SIGTERM, self.handle_sigterm)

        # ****************************************
        # Initialisation
        # ***************************************
        # get command line options
        self.options = command_options()

        # get Pi Presents code directory
        pp_dir = sys.path[0]
        self.pp_dir = pp_dir

        if not os.path.exists(pp_dir + "/pipresents.py"):
            if self.options['manager'] is False:
                tkMessageBox.showwarning(
                    "Pi Presents",
                    "Bad Application Directory:\n{0}".format(pp_dir))
            exit(103)

        # Initialise logging and tracing
        Monitor.log_path = pp_dir
        self.mon = Monitor()
        # Init in PiPresents only
        self.mon.init()

        # uncomment to enable control of logging from within a class
        # Monitor.enable_in_code = True # enables control of log level in the code for a class  - self.mon.set_log_level()

        # make a shorter list to log/trace only some classes without using enable_in_code.
        Monitor.classes = [
            'PiPresents', 'pp_paths', 'HyperlinkShow', 'RadioButtonShow',
            'ArtLiveShow', 'ArtMediaShow', 'MediaShow', 'LiveShow', 'MenuShow',
            'PathManager', 'ControlsManager', 'ShowManager', 'PluginManager',
            'MplayerDriver', 'OMXDriver', 'UZBLDriver', 'KbdDriver',
            'GPIODriver', 'TimeOfDay', 'ScreenDriver', 'Animate', 'OSCDriver'
        ]

        # Monitor.classes=['PiPresents','ArtMediaShow','VideoPlayer','OMXDriver']

        # get global log level from command line
        Monitor.log_level = int(self.options['debug'])
        Monitor.manager = self.options['manager']
        # print self.options['manager']
        self.mon.newline(3)
        self.mon.log(
            self,
            "Pi Presents is starting, Version:" + self.pipresents_minorissue)
        # self.mon.log (self," OS and separator:" + os.name +'  ' + os.sep)
        self.mon.log(self, "sys.path[0] -  location of code: " + sys.path[0])
        if os.geteuid() != 0:
            user = os.getenv('USER')
        else:
            user = os.getenv('SUDO_USER')
        self.mon.log(self, 'User is: ' + user)
        # self.mon.log(self,"os.getenv('HOME') -  user home directory (not used): " + os.getenv('HOME')) # does not work
        # self.mon.log(self,"os.path.expanduser('~') -  user home directory: " + os.path.expanduser('~'))   # does not work

        # optional other classes used
        self.root = None
        self.ppio = None
        self.tod = None
        self.animate = None
        self.gpiodriver = None
        self.oscdriver = None
        self.osc_enabled = False
        self.gpio_enabled = False
        self.tod_enabled = False

        # get home path from -o option
        self.pp_home = pp_paths.get_home(self.options['home'])
        if self.pp_home is None:
            self.end('error', 'Failed to find pp_home')

        # get profile path from -p option
        # pp_profile is the full path to the directory that contains
        # pp_showlist.json and other files for the profile
        self.pp_profile = pp_paths.get_profile_dir(self.pp_home,
                                                   self.options['profile'])
        if self.pp_profile is None:
            self.end('error', 'Failed to find profile')

        # check profile exists
        if os.path.exists(self.pp_profile):
            self.mon.log(
                self, "Found Requested profile - pp_profile directory is: " +
                self.pp_profile)
        else:
            self.mon.err(
                self, "Failed to find requested profile: " + self.pp_profile)
            self.end('error', 'Failed to find profile')

        self.mon.start_stats(self.options['profile'])

        # check 'verify' option
        if self.options['verify'] is True:
            val = Validator()
            if val.validate_profile(None, pp_dir, self.pp_home,
                                    self.pp_profile, self.pipresents_issue,
                                    False) is False:
                self.mon.err(self, "Validation Failed")
                self.end('error', 'Validation Failed')

        # initialise and read the showlist in the profile
        self.showlist = ShowList()
        self.showlist_file = self.pp_profile + "/pp_showlist.json"
        if os.path.exists(self.showlist_file):
            self.showlist.open_json(self.showlist_file)
        else:
            self.mon.err(self, "showlist not found at " + self.showlist_file)
            self.end('error', 'showlist not found')

        # check profile and Pi Presents issues are compatible
        if float(self.showlist.sissue()) != float(self.pipresents_issue):
            self.mon.err(
                self, "Version of profile " + self.showlist.sissue() +
                " is not  same as Pi Presents, must exit")
            self.end('error', 'wrong version of profile')

        # get the 'start' show from the showlist
        index = self.showlist.index_of_show('start')
        if index >= 0:
            self.showlist.select(index)
            self.starter_show = self.showlist.selected_show()
        else:
            self.mon.err(self, "Show [start] not found in showlist")
            self.end('error', 'start show not found')

        if self.starter_show['start-show'] == '':
            self.mon.warn(self, "No Start Shows in Start Show")

# ********************
# SET UP THE GUI
# ********************
# turn off the screenblanking and saver
        if self.options['noblank'] is True:
            call(["xset", "s", "off"])
            call(["xset", "s", "-dpms"])

        self.root = Tk()

        self.title = 'Pi Presents - ' + self.pp_profile
        self.icon_text = 'Pi Presents'
        self.root.title(self.title)
        self.root.iconname(self.icon_text)
        self.root.config(bg=self.pp_background)

        self.mon.log(
            self, 'native screen dimensions are ' +
            str(self.root.winfo_screenwidth()) + ' x ' +
            str(self.root.winfo_screenheight()) + ' pixcels')
        if self.options['screensize'] == '':
            self.screen_width = self.root.winfo_screenwidth()
            self.screen_height = self.root.winfo_screenheight()
        else:
            reason, message, self.screen_width, self.screen_height = self.parse_screen(
                self.options['screensize'])
            if reason == 'error':
                self.mon.err(self, message)
                self.end('error', message)

        self.mon.log(
            self, 'commanded screen dimensions are ' + str(self.screen_width) +
            ' x ' + str(self.screen_height) + ' pixcels')

        # set window dimensions and decorations
        if self.options['fullscreen'] is False:
            self.window_width = int(self.root.winfo_screenwidth() *
                                    self.nonfull_window_width)
            self.window_height = int(self.root.winfo_screenheight() *
                                     self.nonfull_window_height)
            self.window_x = self.nonfull_window_x
            self.window_y = self.nonfull_window_y
            self.root.geometry("%dx%d%+d%+d" %
                               (self.window_width, self.window_height,
                                self.window_x, self.window_y))
        else:
            self.window_width = self.screen_width
            self.window_height = self.screen_height
            self.root.attributes('-fullscreen', True)
            os.system(
                'unclutter 1>&- 2>&- &'
            )  # Suppress 'someone created a subwindow' complaints from unclutter
            self.window_x = 0
            self.window_y = 0
            self.root.geometry("%dx%d%+d%+d" %
                               (self.window_width, self.window_height,
                                self.window_x, self.window_y))
            self.root.attributes('-zoomed', '1')

        # canvs cover the whole screen whatever the size of the window.
        self.canvas_height = self.screen_height
        self.canvas_width = self.screen_width

        # make sure focus is set.
        self.root.focus_set()

        # define response to main window closing.
        self.root.protocol("WM_DELETE_WINDOW", self.handle_user_abort)

        # setup a canvas onto which will be drawn the images or text
        self.canvas = Canvas(self.root, bg=self.pp_background)

        if self.options['fullscreen'] is True:
            self.canvas.config(height=self.canvas_height,
                               width=self.canvas_width,
                               highlightthickness=0)
        else:
            self.canvas.config(height=self.canvas_height,
                               width=self.canvas_width,
                               highlightthickness=1,
                               highlightcolor='yellow')

        self.canvas.place(x=0, y=0)
        # self.canvas.config(bg='black')
        self.canvas.focus_set()

        # ****************************************
        # INITIALISE THE INPUT DRIVERS
        # ****************************************

        # each driver takes a set of inputs, binds them to symboic names
        # and sets up a callback which returns the symbolic name when an input event occurs/

        # use keyboard driver to bind keys to symbolic names and to set up callback
        kbd = KbdDriver()
        if kbd.read(pp_dir, self.pp_home, self.pp_profile) is False:
            self.end('error', 'cannot find or error in keys.cfg')
        kbd.bind_keys(self.root, self.handle_input_event)

        self.sr = ScreenDriver()
        # read the screen click area config file
        reason, message = self.sr.read(pp_dir, self.pp_home, self.pp_profile)
        if reason == 'error':
            self.end('error', 'cannot find screen.cfg')

        # create click areas on the canvas, must be polygon as outline rectangles are not filled as far as find_closest goes
        # click areas are made on the Pi Presents canvas not the show canvases.
        reason, message = self.sr.make_click_areas(self.canvas,
                                                   self.handle_input_event)
        if reason == 'error':
            self.mon.err(self, message)
            self.end('error', message)

# ****************************************
# INITIALISE THE APPLICATION AND START
# ****************************************
        self.shutdown_required = False
        self.exitpipresents_required = False

        # kick off GPIO if enabled by command line option
        self.gpio_enabled = False
        if os.path.exists(self.pp_profile + os.sep + 'pp_io_config' + os.sep +
                          'gpio.cfg'):
            # initialise the GPIO
            self.gpiodriver = GPIODriver()
            reason, message = self.gpiodriver.init(pp_dir, self.pp_home,
                                                   self.pp_profile,
                                                   self.canvas, 50,
                                                   self.handle_input_event)
            if reason == 'error':
                self.end('error', message)
            else:
                self.gpio_enabled = True
                # and start polling gpio
                self.gpiodriver.poll()

        # kick off animation sequencer
        self.animate = Animate()
        self.animate.init(pp_dir, self.pp_home, self.pp_profile, self.canvas,
                          200, self.handle_output_event)
        self.animate.poll()

        #create a showmanager ready for time of day scheduler and osc server
        show_id = -1
        self.show_manager = ShowManager(show_id, self.showlist,
                                        self.starter_show, self.root,
                                        self.canvas, self.pp_dir,
                                        self.pp_profile, self.pp_home)
        # first time through set callback to terminate Pi Presents if all shows have ended.
        self.show_manager.init(self.canvas, self.all_shows_ended_callback,
                               self.handle_command, self.showlist)
        # Register all the shows in the showlist
        reason, message = self.show_manager.register_shows()
        if reason == 'error':
            self.mon.err(self, message)
            self.end('error', message)

        # Init OSCDriver, read config and start OSC server
        self.osc_enabled = False
        if os.path.exists(self.pp_profile + os.sep + 'pp_io_config' + os.sep +
                          'osc.cfg'):
            self.oscdriver = OSCDriver()
            reason, message = self.oscdriver.init(
                self.pp_profile, self.handle_command, self.handle_input_event,
                self.e_osc_handle_output_event)
            if reason == 'error':
                self.end('error', message)
            else:
                self.osc_enabled = True
                self.root.after(1000, self.oscdriver.start_server())

        # and run the start shows
        self.run_start_shows()

        # set up the time of day scheduler including catchup
        self.tod_enabled = False
        if os.path.exists(self.pp_profile + os.sep + 'schedule.json'):
            # kick off the time of day scheduler which may run additional shows
            self.tod = TimeOfDay()
            self.tod.init(pp_dir, self.pp_home, self.pp_profile, self.root,
                          self.handle_command)
            self.tod_enabled = True

        # then start the time of day scheduler
        if self.tod_enabled is True:
            self.tod.poll()

        # start Tkinters event loop
        self.root.mainloop()