def __init__(self, tkparent, title, objtype, field_content, show_refs):
self.mon = Monitor()
if objtype == SHOW:
self.record_specs = PPdefinitions.show_types
self.field_specs = PPdefinitions.show_field_specs
self.initial_tab = "show"
elif objtype == TRACK:
self.record_specs = PPdefinitions.track_types
self.field_specs = PPdefinitions.track_field_specs
self.initial_tab = "track"
# save the extra arg to instance variable
self.objtype = objtype
self.field_content = field_content # dictionary - the track parameters to be edited
self.show_refs = show_refs
self.show_refs.append("")
self.initial_media_dir = pp_paths.media_dir
self.pp_home_dir = pp_paths.pp_home
# list of stringvars from which to get edited values (for optionmenu only??)
self.entries = []
# lookup for widget when all we have is the field
self.widgets = {}
self.validator = Validator()
self.validator.initialize(scope=objtype)
if objtype == SHOW:
self.mon.log(self, "Editing show '{0} -------------------".format(Validator.get_showref))
self.validator.set_current(show=field_content)
elif objtype == TRACK:
self.mon.log(self, "Editing track '{0} -------------------".format(Validator.get_trackref))
self.validator.set_current(track=field_content)
self.tempcontent = copy.deepcopy(self.field_content)
# and call the base class _init_which calls body immeadiately and apply on OK pressed
ttkSimpleDialog.Dialog.__init__(self, tkparent, title)
def validate_profile(self):
val =Validator()
val.validate_profile(self.root,self.pp_dir,self.pp_home_dir,self.pp_profile_dir,self.editor_issue,True)
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( )
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( )
def __init__(self):
self.pipresents_issue="1.1"
StopWatch.global_enable=False
#****************************************
# INTERPRET COMMAND LINE
# ***************************************
self.options=command_options()
pp_dir=sys.path[0]
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.show=None
# create profile for pp_editor test files if already not there.
if not os.path.exists(pp_dir+"/pp_home/pp_profiles/pp_editor"):
self.mon.log(self,"Making pp_editor directory")
os.makedirs(pp_dir+"/pp_home/pp_profiles/pp_editor")
#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"
#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"
for i in range (1, 10):
self.mon.log(self,"Trying pp_home at: " + home + " " + str(i))
if os.path.exists(home):
self.mon.log(self,"Using pp_home at: " + home)
self.pp_home=home
break
time.sleep (1)
#check profile exists, if not default to error profile inside pipresents
self.pp_profile=self.pp_home+self.pp_profile_path
if not os.path.exists(self.pp_profile):
self.pp_profile=pp_dir+"/pp_home/pp_profiles/pp_profile"
if self.options['verify']==True:
val =Validator()
if val.validate_profile(None,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.
self.rr.read(pp_dir,self.pp_home)
#initialise the showlists and read the showlists
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')
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 starter 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"])
# control display of window decorations
if self.options['fullscreen']<>"partial":
self.root = Tk(className="fspipresents")
os.system('unclutter &')
else:
self.root = Tk(className="pipresents")
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
self.window_height=self.screen_height
self.window_width=self.screen_width
self.window_x=0
self.window_y=0
if self.options['fullscreen']<>"partial":
bar=self.options['fullscreen']
# allow just 2 pixels for the hidden taskbar
if bar in ('left','right'):
self.window_width=self.screen_width-2
else:
self.window_height=self.screen_height-2
if bar =="left":
self.window_x=2
if bar =="top":
self.window_y=2
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=self.screen_width-200
self.window_height=self.screen_height-200
self.window_x=50
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.window_height
self.canvas_width=self.window_width
# make sure focus is set.
self.root.focus_set()
#define response to main window closing.
self.root.protocol ("WM_DELETE_WINDOW", self.on_break_key)
# Always use CTRL-Break key to close the program as a get out of jail
self.root.bind("<Break>",self.e_on_break_key)
#pass all other keys along to 'shows' and hence to 'players'
self.root.bind("<Escape>", self._escape_pressed)
self.root.bind("<Up>", self._up_pressed)
self.root.bind("<Down>", self._down_pressed)
self.root.bind("<Return>", self._return_pressed)
self.root.bind("<space>", self._pause_pressed)
self.root.bind("p", self._pause_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)
#self.canvas.grid(row=1,columnspan=2)
self.canvas.pack()
# make sure focus is set on canvas.
self.canvas.focus_set()
# ****************************************
# 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_buttons import Buttons
# initialise the buttons connected to GPIO
self.Buttons=Buttons
self.buttons = Buttons(self.root,20,self.button_pressed)
self.buttons.poll()
# kick off the initial show
self.show=None
# get the start show from the showlist
index = self.showlist.index_of_show(self.starter_show['start-show'])
if index >=0:
self.showlist.select(index)
self.start_show=self.showlist.selected_show()
else:
self.mon.err(self,"Show not found in showlist: "+ self.starter_show['start-show'])
self._end('error','show not found in showlist')
if self.start_show['type']=="mediashow":
self.show= MediaShow(self.start_show,
self.canvas,
self.showlist,
self.pp_home,
self.pp_profile)
self.show.play(self._end_play_show,top=True,command='nil')
self.root.mainloop( )
elif self.start_show['type']=="menu":
self.show= MenuShow(self.start_show,
self.canvas,
self.showlist,
self.pp_home,
self.pp_profile)
self.show.play(self._end_play_show,top=True,command='nil')
self.root.mainloop( )
elif self.start_show['type']=="liveshow":
self.show= LiveShow(self.start_show,
self.canvas,
self.showlist,
self.pp_home,
self.pp_profile)
self.show.play(self._end_play_show,top=True,command='nil')
self.root.mainloop( )
else:
self.mon.err(self,"unknown mediashow type in start show - "+ self.start_show['type'])
self._end('error','unknown mediashow type')
def validate_profile(self):
val = Validator()
val.validate_profile(self.root, self.pp_dir, self.pp_home_dir,
self.pp_profile_dir, self.editor_issue, True)
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( )
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()
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()
class EditItem(ttkSimpleDialog.Dialog):
def __init__(self, tkparent, title, objtype, field_content, show_refs):
self.mon = Monitor()
if objtype == SHOW:
self.record_specs = PPdefinitions.show_types
self.field_specs = PPdefinitions.show_field_specs
self.initial_tab = "show"
elif objtype == TRACK:
self.record_specs = PPdefinitions.track_types
self.field_specs = PPdefinitions.track_field_specs
self.initial_tab = "track"
# save the extra arg to instance variable
self.objtype = objtype
self.field_content = field_content # dictionary - the track parameters to be edited
self.show_refs = show_refs
self.show_refs.append("")
self.initial_media_dir = pp_paths.media_dir
self.pp_home_dir = pp_paths.pp_home
# list of stringvars from which to get edited values (for optionmenu only??)
self.entries = []
# lookup for widget when all we have is the field
self.widgets = {}
self.validator = Validator()
self.validator.initialize(scope=objtype)
if objtype == SHOW:
self.mon.log(self, "Editing show '{0} -------------------".format(Validator.get_showref))
self.validator.set_current(show=field_content)
elif objtype == TRACK:
self.mon.log(self, "Editing track '{0} -------------------".format(Validator.get_trackref))
self.validator.set_current(track=field_content)
self.tempcontent = copy.deepcopy(self.field_content)
# and call the base class _init_which calls body immeadiately and apply on OK pressed
ttkSimpleDialog.Dialog.__init__(self, tkparent, title)
def body(self, root):
self.root = root
bar = TabBar(root, init_name=self.initial_tab)
self.bar = bar
bar.bind("<<NotebookTabChanged>>", self.tab_changed)
self.photo_critical = pp_utils.load_png("critical")
self.photo_error = pp_utils.load_png("error")
self.photo_warning = pp_utils.load_png("warning")
self.photo_check = pp_utils.load_png("check")
self.photo_spacer = pp_utils.load_gif("spacer")
self.body_fields(root, bar)
# bar.config(bd=1, relief=RIDGE) # add some border
bar.show()
def body_fields(self, master, bar):
# get fields for this record using the record type in the loaded record
record_fields = self.record_specs[self.field_content["type"]]
# print "Generating fields: {0} record_fields for {1}".format(len(record_fields), self.field_content['type'])
# init results of building the form
self.tab_row = 1 # row on form
self.fields = [] # generated by body_fields - list of field objects in record fields order, not for sep or tab
self.entries = (
[]
) # generated by body_fields - list of stringvars in record fields order, used option-menus only
# populate the dialog box using the record fields to determine the order
for field in record_fields:
# print "BODY_FIELDS: {0}, {1}".format(field, len(record_fields))
# get list of values where required
values = []
if self.field_specs[field]["shape"] in ("option-menu", "spinbox"):
# print 'should be field name', field
# print 'should be shape',self.field_specs[field]['shape']
if field in ("sub-show", "start-show"):
values = self.show_refs
else:
values = self.field_specs[field]["values"]
else:
values = []
# make the entry
obj = self.make_entry(master, field, self.field_specs[field], values, bar)
if obj is not None:
# print "Making entry row {0}: {1}".format(len(self.fields), field, self.field_specs[field])
self.fields.append(obj)
return None # No initial focus
# create an entry in a dialog box
def make_entry(self, master, field, field_spec, values, bar):
# print 'make entry',len(self.fields),field,field_spec
if field_spec["shape"] == "tab":
self.current_tab = Tab(master, field_spec["name"])
bar.add(self.current_tab, field_spec["text"], sticky="news", compound="left")
self.tab_row = 1
self.current_tab.errors = []
self.current_tab.warnings = []
return None
elif field_spec["shape"] == "sep":
ttkLabel(self.current_tab, text="", anchor=W).grid(row=self.tab_row, column=0, sticky=W)
self.tab_row += 1
return None
else:
# print 'replace param in make entry',field
# print 'content', field, self.field_content[field]
# is it in the field content dictionary
if field not in self.field_content:
self.mon.log(self, "Value for field not found in opened file: " + field)
return None
else:
# write the label
ttkLabel(self.current_tab, text=field_spec["text"], anchor=W).grid(row=self.tab_row, column=0, sticky=W)
# make the editable field
if field_spec["shape"] in ("entry", "colour", "browse", "font"):
obj = ttkEntry(self.current_tab, width=40, font="arial 11")
obj.insert(END, self.field_content[field])
self.add_validation(obj, field)
elif field_spec["shape"] == "text":
obj = ttkScrolledText(self.current_tab, height=8, width=40, font="arial 11")
obj.insert(END, self.field_content[field])
self.add_validation(obj, field)
obj.bind("<Tab>", self.tab)
elif field_spec["shape"] == "spinbox":
obj = ttk.Combobox(master, height=10, textvariable=self._family)
obj.grid(row=theRow, column=0, columnspan=2, sticky=N + S + E + W, padx=10)
# obj=Spinbox(self.current_tab,values=values,wrap=True)
obj.insert(END, self.field_content[field])
self.add_validation(obj, field)
obj.bind("<<ComboboxSelected>>", self.e_validate_widget)
elif field_spec["shape"] == "option-menu":
self.option_val = StringVar(self.current_tab)
self.option_val.set(self.field_content[field])
obj = ttkCombobox(self.current_tab, textvariable=self.option_val)
obj["values"] = values
self.entries.append(self.option_val)
self.add_validation(obj, field)
obj.bind("<<ComboboxSelected>>", self.e_validate_widget)
else:
self.mon.log(self, "Uknown shape for: " + field)
return None
# Read-only items
if field_spec["read-only"] == "yes":
obj.config(state=DISABLED)
# Required-entry items
elif field_spec["must"] == "yes":
print "Found 'must' in {0}".format(field)
# obj.configure(background='lemon chiffon') # reserve pink for validation errors (future)?
obj.configure(style="required.T" + obj.winfo_name().replace("ttk", "T"))
elif field_spec["shape"] == "text":
s = ttk.Style()
bg = s.lookup("TEntry", option="fieldbackground")
obj.config(background=bg)
obj.grid(row=self.tab_row, column=2, sticky=W)
# display buttons where required
if field_spec["shape"] == "browse":
but = ttkButton(
self.current_tab, width=1, height=1, bg="dark grey", command=(lambda o=obj: self.browse(o))
)
but.grid(row=self.tab_row, column=3, sticky=W)
elif field_spec["shape"] == "colour":
but = ttkButton(
self.current_tab, width=1, height=1, bg="dark grey", command=(lambda o=obj: self.pick_colour(o))
)
but.grid(row=self.tab_row, column=3, sticky=W)
elif field_spec["shape"] == "font":
but = ttkButton(
self.current_tab, width=1, height=1, bg="dark grey", command=(lambda o=obj: self.pick_font(o))
)
but.grid(row=self.tab_row, column=3, sticky=W)
self.tab_row += 1
return obj
def add_validation(self, widget, field):
widget.bind("<FocusOut>", self.validate_field_focusout)
# use key validation to get the new value after a keypress (KeyPress/Release events give the 'before' value)
if isinstance(widget, tk.Entry):
cmd = (self.register(self.validate_field_keypress), "%P", "%W")
widget["validate"] = "key"
widget["validatecommand"] = cmd
icon = ttkLabel(self.current_tab, text="", anchor=W, padding=[10, 0, 0, 0])
icon.grid(row=self.tab_row, column=1, sticky=W)
ttkToolTip.createtip(icon, "")
widget.field = field
widget.icon = icon
widget.tab = self.current_tab
self.tempcontent[field] = self.field_content[field]
self.widgets[field] = widget
self.validate_widget(widget)
def validate_field_keypress(self, p, w):
widget = self.root.nametowidget(w)
self.validate_widget(widget, value=p)
return True
def validate_field_focusout(self, event):
w = event.widget
self.check_tab_errors(w.tab)
def tab(self, event):
event.widget.tk_focusNext().focus()
return "break"
def keypressed(self, event):
try:
w = event.widget
self.check_tab_errors(w.tab)
except AttributeError:
pass
def e_validate_widget(self, event):
self.validate_widget(event.widget)
def validate_widget(self, widget, value=None):
w = widget
try:
icon = w.icon
except AttributeError:
print "This widget doesn't have validation set up: ", w.__class__.__name__
return
# try:
# self.mon.log(self, "Validation set up: ", w.__class__.__name__, w.field)
if value is None:
if isinstance(w, (tk.Text, ScrolledText)):
value = w.get(1.0, END)
else:
value = w.get()
self.tempcontent[w.field] = value
# tab = self.bar.tab(w.tab)
tab = w.tab
result = self.validator.validate_widget(self.objtype, self.tempcontent, w.field)
self.style_widget_background(w, result)
if result.passed is False:
# self.mon.log(self, "Error found: ", result.message)
if result.severity == ERROR:
icon["image"] = self.photo_error
if w not in tab.errors:
tab.errors.append(w)
elif result.severity == WARNING:
icon["image"] = self.photo_warning
if w not in tab.warnings:
tab.warnings.append(w)
icon.tip.settip(result.message)
icon.grid() # redisplay
else:
# print "Result for '", w.field, "': passed=", result.passed, ", blank=", result.blank
if w in tab.errors:
tab.errors.remove(w)
if w in tab.warnings:
tab.warnings.remove(w)
icon["image"] = self.photo_spacer
icon.grid()
# icon.grid_remove() # hide image
icon.tip.cleartip()
self.style_tab(tab)
if result.dependents is not None:
# self.mon.log(self, "result has dependents")
for dep in result.dependents:
if dep in self.widgets:
self.mon.log(self, "Processing dependent: ", dep, "--------------")
if self.validate_widget(self.widgets[dep]) is False:
return False
return result.passed
# except Exception as e:
# print "Validation failed for ", w.field, ": ", e
return False
def style_tab(self, tab):
if len(tab.errors) > 0:
self.bar.tab(tab, image=self.photo_error, compound="left")
elif len(tab.warnings) > 0:
self.bar.tab(tab, image=self.photo_warning, compound="left")
else:
self.bar.tab(tab, compound="text")
def style_widget_background(self, widget, result):
s = ttk.Style()
w = widget
name = w.__class__.__name__.replace("ttk", "")
name = "T" + name
if result.passed is False:
if name in ("TScrolledText"):
# set background directly
if result.severity == ERROR:
bg = tkconversions.ERROR_COLOR
else:
bg = tkconversions.WARNING_COLOR
w.configure(background=bg)
else:
# use the style that has the background defined
if result.severity == ERROR:
w.configure(style="error." + name)
else:
w.configure(style="warning." + name)
else:
if name in ("TScrolledText"):
w.configure(background=s.lookup("TEntry", option="fieldbackground"))
else:
w.configure(style=name)
def check_tab_errors(self, tab):
errors = 0
warnings = 0
# for w in self.tab_children[tab]:
for w in tab.errors:
result = self.validate_widget(w)
if result is False:
errors += 1
for w in tab.warnings:
result = self.validate_widget(w)
if result is False:
warnings += 1
if errors > 0:
self.bar.tab(w.tab, image=self.photo_error, compound="left")
elif warnings > 0:
self.bar.tab(w.tab, image=self.photo_warning, compound="left")
else:
self.bar.tab(tab, compound="text")
def tab_changed(self, event):
bar = event.widget
tabname = bar.select()
tab = self.root.nametowidget(tabname)
self.check_tab_errors(tab)
def apply(self):
# get list of fields in the record in the same order as the form was generated
record_fields = self.record_specs[self.field_content["type"]]
field_index = 0 # index to self.fields - not incremented for tab and sep
entry_index = 0 # index of stringvars for option_menu
# print "-------------------------------------"
for field in record_fields:
# print field
# get the details of this field
field_spec = self.field_specs[field]
# print 'reading row',field_index,field_spec['shape']
# and get the value
if field_spec["shape"] not in ("sep", "tab"):
# print "Applying row {0} '{1}' ({2}, {3}). {4} entries".format(field_index, field, self.field_content[field],
# field_spec['shape'], len(self.entries))
if field_spec["shape"] == "text":
# print "Applying ", field
self.field_content[field] = self.fields[field_index].get(1.0, END).rstrip("\n")
elif field_spec["shape"] == "option-menu":
self.field_content[field] = self.entries[entry_index].get()
entry_index += 1
else:
self.field_content[field] = self.fields[field_index].get().strip()
# print self.field_content[field]
field_index += 1
self.result = True
return self.result
def pick_colour(self, obj):
rgb, colour = askcolor()
# print rgb,colour
if colour is not None:
obj.delete(0, END)
obj.insert(END, colour)
def pick_font(self, obj):
font = askChooseFont(self.root)
# print font
if font is not None:
obj.delete(0, END)
obj.insert(END, font)
def browse(self, obj):
# print "initial directory ", self.options.initial_media_dir
file_path = tkFileDialog.askopenfilename(initialdir=self.initial_media_dir, multiple=False)
if file_path == "":
return
file_path = os.path.normpath(file_path)
# print "file path ", file_path
relpath = os.path.relpath(file_path, self.pp_home_dir)
# print "relative path ",relpath
common = os.path.commonprefix([file_path, self.pp_home_dir])
# print "common ",common
if common.endswith("pp_home") is False:
obj.delete(0, END)
obj.insert(END, file_path)
else:
location = "+" + os.sep + relpath
location = string.replace(location, "\\", "/")
# print "location ",location
obj.delete(0, END)
obj.insert(END, location)
def kpenter_keypressed(self, event=None):
# need to insert newline programmatically
ctl = self.focus_get()
if isinstance(ctl, Text) or isinstance(ctl, ScrolledText):
event.widget.insert(INSERT, "\n")
return "break"
else:
return self.ok(event)
def enter_keypressed(self, event=None):
""" Check what control has focus. If it's not a text widget, close (accept) the window.
(Enter key is needed by text widget to enter a new line)
The dropdown widget handles and consumes enter key to close its dropdown (accept).
"""
ctl = self.focus_get()
if isinstance(ctl, Text) or isinstance(ctl, ScrolledText):
return
else:
# return ttkSimpleDialog.Dialog.ok(self, event)
return self.ok(event)
def escape_keypressed(self, event=None):
""" Check what control has focus. If it's not a text widget, close (cancel) the window.
(Actually, I'm not sure what the issue is with the text widget with regards to the
Escape key, so we'll comment out the special handling for now.)
The dropdown widget handles and consumes escape key to close its dropdown (cancel).
"""
# ctl = self.focus_get()
# if isinstance(ctl, Text) or isinstance(ctl, ScrolledText):
# return
# else:
# return self.cancel()
return self.cancel(event)
def buttonbox(self):
"""add modified button box.
This function was originally here to 'override the standard [buttonbox] to get rid of
key bindings which cause trouble with text widget'.
My opinion (drewkeller) is Escape-to-close and Enter-to-accept are the standard GUI
expectations of a dialog like this, so they would be correct.
Issues with the text widget can be handled in keypress handlers.
"""
box = ttkFrame(self)
w = ttkButton(box, text="OK", width=10, command=self.ok, default=ACTIVE)
w.pack(side=LEFT, padx=5, pady=5)
w = ttkButton(box, text="Cancel", width=10, command=self.cancel)
w.pack(side=LEFT, padx=5, pady=5)
self.bind("<KP_Enter>", self.kpenter_keypressed) # Enter on num pad
self.bind("<Return>", self.enter_keypressed)
self.bind("<Escape>", self.escape_keypressed)
self.bind("<Key>", self.keypressed)
box.pack()
