def on_actionOpenConnection_triggered(self, s):
d = OpenConnection(self)
if d.exec() != OpenConnection.Accepted:
return
t = Terminal(self)
self.mdiArea.addSubWindow(t)
t.show()
def run_iperf_multi(self, obj, packet_type, update_interval, test_time,
address):
"""
TODO
:param obj:
:param packet_type:
:param update_interval:
:return:
"""
self.pool = ThreadPool(1000)
self.printing(True)
if obj is not None:
self.run_packet_script(obj, packet_type)
result = TestResult(update_interval=update_interval,
test_time=test_time,
address=address)
result.run_multi_test()
Terminal.clear_line()
self.printing(True)
return result
def run_test_tcp(self, obj, packet_type):
"""
TODO
This will run packet loss and return values of TCP retransmissions
:param obj:
:param packet_type:
:return:
"""
self.pool = ThreadPool(1000)
self.printing(False)
self.run_packet_script(obj, packet_type)
with self.time_limit(self.MAX_TEST_TIME):
try:
self.tcp_requests()
except Exception:
# If the request timed out
os.system('rm -rf *.tmp')
self.force_print(
'## Timeout occurred! - Accuracy may be compromised')
Terminal.clear_line()
self.printing(True)
def printing(printing_on):
"""Used to stop printing when it isn't needed"""
Terminal.clear_line()
if printing_on:
sys.stdout = sys.__stdout__
else:
sys.stdout = open(os.devnull, 'w')
class Ventana(Gtk.Window):
#__gtype_name__ = 'WindowJAMediaTerminal'
def __init__(self):
Gtk.Window.__init__(self)
self.set_title("JAMediaTerminal")
self.set_icon_from_file(
os.path.join(BASE_PATH,
"Iconos", "jamediaterminal.svg"))
self.set_resizable(True)
self.set_size_request(640, 480)
self.set_border_width(5)
self.set_position(Gtk.WindowPosition.CENTER)
box = Gtk.Box(orientation=Gtk.Orientation.VERTICAL)
toolbar = Toolbar()
paned = Gtk.Paned(orientation=Gtk.Orientation.VERTICAL)
box.pack_start(toolbar, False, False, 0)
box.pack_start(paned, True, True, 0)
self.jamediaterminal = Terminal()
self.jamediamantree = JAMediaManTree()
paned.pack1(self.jamediamantree, resize=True, shrink=False)
paned.pack2(self.jamediaterminal, resize=False, shrink=False)
self.add(box)
self.show_all()
self.jamediamantree.hide()
import sys
toolbar.connect("help", self.__help)
toolbar.connect("salir", sys.exit)
self.connect("destroy", sys.exit)
def __help(self, widget):
"""
Muestra u oculta el manual.
"""
if self.jamediamantree.get_visible():
self.jamediamantree.hide()
else:
self.jamediamantree.show()
self.jamediaterminal.set_size_request(-1, 150)
class Ventana(Gtk.Window):
#__gtype_name__ = 'WindowJAMediaTerminal'
def __init__(self):
Gtk.Window.__init__(self)
self.set_title("JAMediaTerminal")
self.set_icon_from_file(
os.path.join(BASE_PATH, "Iconos", "jamediaterminal.svg"))
self.set_resizable(True)
self.set_size_request(640, 480)
self.set_border_width(5)
self.set_position(Gtk.WindowPosition.CENTER)
box = Gtk.Box(orientation=Gtk.Orientation.VERTICAL)
toolbar = Toolbar()
paned = Gtk.Paned(orientation=Gtk.Orientation.VERTICAL)
box.pack_start(toolbar, False, False, 0)
box.pack_start(paned, True, True, 0)
self.jamediaterminal = Terminal()
self.jamediamantree = JAMediaManTree()
paned.pack1(self.jamediamantree, resize=True, shrink=False)
paned.pack2(self.jamediaterminal, resize=False, shrink=False)
self.add(box)
self.show_all()
self.jamediamantree.hide()
import sys
toolbar.connect("help", self.__help)
toolbar.connect("salir", sys.exit)
self.connect("destroy", sys.exit)
def __help(self, widget):
"""
Muestra u oculta el manual.
"""
if self.jamediamantree.get_visible():
self.jamediamantree.hide()
else:
self.jamediamantree.show()
self.jamediaterminal.set_size_request(-1, 150)
def llamar(self, Terminal, segundosDeLlamada):
Terminal.llama(self, Terminal, segundosDeLlamada)
minutos= segundosDeLlamada/60
#Switch para asociar a cada tarifa su precio correspondiente
if self.tarifa=="rata":
self.totalTarificado+=minutos*0.06
if self.tarifa=="mono":
self.totalTarificado+=minutos*0.12
if self.tarifa=="bisonte":
self.totalTarificado+=minutos*0.30
def get_terminals(self, text):
lexem = ''
for i in text:
letter = i
lexem += i
if self.search_terminal(lexem):
pass
else:
self.list_of_terminals.append(
Terminal(self.search_terminal(lexem[:-1]), lexem[:-1]))
lexem = lexem[-1]
if not lexem == '':
self.list_of_terminals.append(
Terminal(self.search_terminal(lexem), f'{lexem}'))
def __init__(self):
self.pattern_terminals = [
Terminal("K_WHILE", "while"),
Terminal("K_IF", "if"),
Terminal("K_ELSE", "else"),
Terminal("VAR", "[a-zA-Zа-яА-Я]+"),
Terminal("OP", "[-+*/]"),
Terminal("LBreaket", "[(]"),
Terminal("RBreaket", "[)]"),
Terminal("LFBreaket", "[{]"),
Terminal("RFBreaket", "[}]"),
Terminal("WS", r"\s+")
]
self.list_of_terminals = []
def main():
global production_list, t_list, nt_list
ctr = 1
t_regex, nt_regex = r'[a-z\W]', r'[A-Z]'
while True:
production_list.append(input().replace(' ', ''))
if production_list[-1].lower() in ['end', '']:
del production_list[-1]
break
head, body = production_list[ctr - 1].split('->')
if head not in nt_list.keys():
nt_list[head] = NonTerminal(head)
#for all terminals in the body of the production
for i in finditer(
t_regex,
body): #returns an iterator object in the ordered matched.
s = i.group(
) #since the group argument is empty, it'll return whatever it matched completely
if s not in t_list.keys():
t_list[s] = Terminal(s)
#for all non-terminals in the body of the production
for i in finditer(nt_regex, body):
s = i.group()
if s not in nt_list.keys():
nt_list[s] = NonTerminal(s)
ctr += 1
def main():
queue = PriorityQueue()
for x in range(WORKERS):
w = Worker(queue)
w.start()
settings = {"unblock_workers": 5}
Application(settings)
PyMongoDriver(host="127.0.0.1",
port=27017,
user="******",
password="******",
database="pipeline").register()
test = False
if test:
FrameworkTest().run()
# FrameworkTestThread().start()
else:
port = 9999
StreamManagement(port)
web_api = Web(port)
web_api.start()
Terminal().start()
def createTerminal(self, address):
conn = sqlite3.connect(Constants.DATABASE_PATH, detect_types=sqlite3.PARSE_DECLTYPES)
c = conn.cursor()
generatedUUID = uuid.uuid1()
c.execute("INSERT INTO terminals VALUES ('{}', '{}', '0')".format(generatedUUID, address))
conn.commit()
conn.close()
return Terminal(generatedUUID, address)
def user_input_thread(graph_active):
"""This thread is a listener for users input"""
def reset_cursor(msg):
"""Used to stop input from messing up terminal format
and displays what command was entered"""
Terminal.clear_line()
print('[{}]'.format(msg), end='\r', flush=True)
while True:
# HACK: Stops this from looping too fast and soaking up to much performance
# A better solution would be to introduce events
time.sleep(0.01)
try:
if keyboard.is_pressed('g'):
# Waits until the key is released
while keyboard.is_pressed('g'):
pass
if graph_active:
# Clears any fragments from the screen including the button pressed
Terminal.clear_line()
affect_all_objects('graph')
reset_cursor('Show graph')
# More degradation
elif keyboard.is_pressed('e'):
# Waits until the key is released
while keyboard.is_pressed('e'):
pass
affect_all_objects('increase')
reset_cursor('Increase Effect')
# Less degradation
elif keyboard.is_pressed('q'):
# Waits until the key is released
while keyboard.is_pressed('q'):
pass
affect_all_objects('decrease')
reset_cursor('Decrease Effect')
except RuntimeError:
pass
def append_message_service(cls, message_service_string):
if (message_service_string.lower() == 'twilio'):
cls.__return_bot = Twilio(cls.__return_bot)
elif (message_service_string.lower() == 'terminal'):
cls.__return_bot = Terminal(cls.__return_bot)
elif (message_service_string.lower() == 'email'):
cls.__return_bot = Email(cls.__return_bot)
else:
raise ValueError
class PARDg5VPlatform(Platform):
type = 'PARDg5VPlatform'
cxx_header = "hyper/dev/pardg5v/platform.hh"
system = Param.System(Parent.any, "system")
pciconfig = PciConfigAll()
south_bridge = PARDg5VSouthBridge()
# "Non-existant" port used for timing purposes by the linux kernel
i_dont_exist = IsaFake(pio_addr=x86IOAddress(0x80), pio_size=1)
# Ports behind the pci config and data regsiters. These don't do anything,
# but the linux kernel fiddles with them anway.
behind_pci = IsaFake(pio_addr=x86IOAddress(0xcf8), pio_size=8)
# Serial port and terminal
com_1 = Uart8250P5V()
com_1.pio_addr = x86IOAddress(0x3f8)
com_1.terminal = Terminal()
# Serial port#2 and terminal
com_2 = Uart8250P5V()
com_2.pio_addr = x86IOAddress(0x2f8)
com_2.terminal = Terminal()
# Devices to catch access to non-existant serial ports.
com_3 = Uart8250P5V(pio_addr=x86IOAddress(0x3e8), terminal=Terminal())
com_4 = Uart8250P5V(pio_addr=x86IOAddress(0x2e8), terminal=Terminal())
# A device to catch accesses to the non-existant floppy controller.
fake_floppy = IsaFake(pio_addr=x86IOAddress(0x3f2), pio_size=2)
def attachIO(self, bus, dma_ports=[]):
self.south_bridge.attachIO(bus, dma_ports)
self.i_dont_exist.pio = bus.master
self.behind_pci.pio = bus.master
self.com_1.pio = bus.master
self.com_2.pio = bus.master
self.com_3.pio = bus.master
self.com_4.pio = bus.master
self.fake_floppy.pio = bus.master
self.pciconfig.pio = bus.default
bus.use_default_range = True
def __init__(self, proyecto_path):
Gtk.EventBox.__init__(self)
archivo = os.path.join(proyecto_path, "proyecto.ide")
arch = open(archivo, "r")
self.proyecto = json.load(arch, "utf-8")
arch.close()
vbox = Gtk.Box(orientation=Gtk.Orientation.VERTICAL)
self.install_path = os.path.join(CONFPATH, self.proyecto["nombre"])
self.widgeticon = WidgetIcon("python", self.install_path)
self.notebook = Notebook(proyecto_path)
self.terminal = Terminal()
label = Gtk.Label(u"Instalador python para: %s versión: %s" %
(self.proyecto["nombre"], self.proyecto["version"]))
label.modify_font(Pango.FontDescription("%s %s" % ("Monospace", 12)))
label.modify_fg(0, Gdk.Color(0, 0, 65000))
hbox = Gtk.Box(orientation=Gtk.Orientation.HORIZONTAL)
image = Gtk.Image()
arch = os.path.join(BASEPATH, "Iconos", "gandalftux.png")
pixbuf = GdkPixbuf.Pixbuf.new_from_file_at_size(arch, 100, 100)
image.set_from_pixbuf(pixbuf)
hbox.pack_start(image, False, False, 0)
vbox2 = Gtk.Box(orientation=Gtk.Orientation.VERTICAL)
vbox2.pack_start(label, False, False, 0)
vbox2.pack_start(self.widgeticon, False, False, 0)
hbox.pack_start(vbox2, True, True, 0)
vbox.pack_start(hbox, False, False, 0)
vbox.pack_start(self.notebook, True, True, 0)
vbox.pack_start(self.terminal, True, True, 5)
self.add(vbox)
self.connect("realize", self.__realize)
self.show_all()
self.widgeticon.connect("iconpath", self.__set_iconpath)
self.widgeticon.connect("make", self.__make)
def create_full_tree(depth):
if depth == 0:
terminal = Terminal.random_terminal()
node = Node("terminal", terminal)
return Tree(node)
else:
function = Function.random_function()
root_node = Node("function", function)
result = Tree(root_node)
for i in range(2): #function.arity()
result.add_child(Initializer.create_full_tree(depth - 1))
return result
def create_full_tree(depth):
if depth == 0:
terminal = Terminal.random_terminal()
node = Node("terminal", terminal)
return Tree(node)
else:
function = Function.random_function()
root_node = Node("function", function)
result = Tree(root_node)
for i in range(2): #function.arity()
result.add_child(Initializer.create_full_tree(depth - 1))
return result
def start_parsing(file_name, table, first_production):
file = open(file_name, 'r')
data = file.read()
data += '\nepsilon'
data = data.split('\n')
stack = [Terminal('epsilon', None), NonTerminal(first_production, None)]
i = 0
while i <= len(data):
if data[i] == '' or data[i] == ' ':
continue
if len(stack) == 0 and i == len(data) - 1:
print('Accept')
return
elif len(stack) == 0 and i < len(data) or len(stack) > 0 and i == len(
data):
print('Reject')
return
if top(stack).type == 'T':
if top(stack).value == 'epsilon':
stack.pop()
continue
if top(stack).value == data[i]:
stack.pop()
print('Matched {}'.format(data[i]))
i += 1
else:
print('Error: missing {}, inserted'.format(top(stack).value))
stack.pop()
elif top(stack).type == 'N':
if isinstance(table[top(stack).value][data[i]], Node):
# pop that node and reverse its production
top_node = stack.pop()
production_array = make_array(table[top_node.value][data[i]])
while len(production_array):
stack.append(production_array.pop())
elif table[top(stack).value][data[i]] == 'synch':
print('synch found poping {}'.format(top(stack).value))
stack.pop()
else:
print('Error: (illegal {}), discarding {}'.format(
top(stack).value, data[i]))
i += 1
if len(stack) == 0 and i == len(data) - 1:
print('Accept')
return
elif len(stack) == 0 and i < len(data) or len(
stack) > 0 and i == len(data):
print('Reject')
return
def start(self):
# Test with a new packet value
for effect_value in range(self.START_EFFECT_VALUE,
self.MAX_EFFECT_VALUE + 1, self.EFFECT_STEP):
test_data = []
# Repeats for that percentage values
for x in range(0, self.REPEAT_TESTS):
Terminal.clear_line()
print('\n## Starting test {}'.format(x))
# CUSTOM BEHAVIOUR
self.custom_test_behavior(effect_value, test_data)
self.stop_pool()
if test_data is not None:
test_data.insert(0, effect_value)
self.save_csv(test_data)
print('## Tests done!')
Terminal.clear_line()
def run_iperf_local(self, obj, packet_type):
"""
Runs a iperf test on the localhost. Iperf sends a huge amount of TCP packets and measures
transfer rate
:param update_interval: The amount of updates the iperf script gives per time, default 0 is off
:param obj: - The script object
:param packet_type: - The target packet
:return:
"""
self.pool = ThreadPool(1000)
self.printing(False)
self.run_packet_script(obj, packet_type)
result = TestResult()
result.run_single_test()
self.pool.close()
Terminal.clear_line()
self.printing(True)
return result
def _parsePrimitive(self, source):
f = source.peek()
if f == "ε":
return Epsilon.parse(source)
elif f == "<":
return NonTerminal.parse(source)
elif f == "(":
source.read()
e = GrammarExpression.parse(source)
source.match(")")
return e
else:
return Terminal.parse(source)
def __init__(self):
self.quit_game = False
self.end_game = False
self.pause_game = True
self.screen_dimensions = \
[screen_resolution['w'], screen_resolution['h']]
pygame.init()
self.display = pygame.display.set_mode(self.screen_dimensions)
pygame.display.set_caption('PyMan Game')
self.clock = pygame.time.Clock()
self.map = Map()
self.map_view = MapView(self.map, self.display)
self.score = 0
self.level = 0
self.lives = 3
self.decision_cycles = 20
self.current_cycle = 0
self.terminal = Terminal(0, 800, 800, 100, liberation_serif,
colors['white'], 20, colors['black'],
self.display)
def __init__( self, parent ): wx.Dialog.__init__ ( self, parent, id = wx.ID_ANY, title = wx.EmptyString, pos = wx.DefaultPosition, size = wx.Size( 700,500 ), style = wx.DEFAULT_DIALOG_STYLE ) self.SetSizeHintsSz( wx.DefaultSize, wx.DefaultSize ) bSizer1 = wx.BoxSizer( wx.VERTICAL ) self.m_panel1 = Terminal( self, wx.ID_ANY, wx.DefaultPosition, wx.DefaultSize, wx.TAB_TRAVERSAL|wx.WANTS_CHARS ) bSizer1.Add( self.m_panel1, 1, wx.EXPAND |wx.ALL, 5 ) self.SetSizer( bSizer1 ) self.Layout() self.Centre( wx.BOTH )
class Pc(Platform):
type = 'Pc'
cxx_header = "dev/x86/pc.hh"
system = Param.System(Parent.any, "system")
south_bridge = SouthBridge()
pci_host = PcPciHost()
# "Non-existant" ports used for timing purposes by the linux kernel
i_dont_exist1 = IsaFake(pio_addr=x86IOAddress(0x80), pio_size=1)
i_dont_exist2 = IsaFake(pio_addr=x86IOAddress(0xed), pio_size=1)
# Ports behind the pci config and data regsiters. These don't do anything,
# but the linux kernel fiddles with them anway.
behind_pci = IsaFake(pio_addr=x86IOAddress(0xcf8), pio_size=8)
# Serial port and terminal
com_1 = Uart8250()
com_1.pio_addr = x86IOAddress(0x3f8)
com_1.device = Terminal()
# Devices to catch access to non-existant serial ports.
fake_com_2 = IsaFake(pio_addr=x86IOAddress(0x2f8), pio_size=8)
fake_com_3 = IsaFake(pio_addr=x86IOAddress(0x3e8), pio_size=8)
fake_com_4 = IsaFake(pio_addr=x86IOAddress(0x2e8), pio_size=8)
# A device to catch accesses to the non-existant floppy controller.
fake_floppy = IsaFake(pio_addr=x86IOAddress(0x3f2), pio_size=2)
# NVMe Interface
nvme = NVMeInterface(pci_func=0, pci_dev=5, pci_bus=0)
def attachIO(self, bus, dma_ports=[]):
self.south_bridge.attachIO(bus, dma_ports)
self.i_dont_exist1.pio = bus.master
self.i_dont_exist2.pio = bus.master
self.behind_pci.pio = bus.master
self.com_1.pio = bus.master
self.fake_com_2.pio = bus.master
self.fake_com_3.pio = bus.master
self.fake_com_4.pio = bus.master
self.fake_floppy.pio = bus.master
self.pci_host.pio = bus.default
self.nvme.pio = bus.master
if dma_ports.count(self.nvme.dma) == 0:
self.nvme.dma = bus.slave
def getAllTerminals(cls):
try:
with CursorPool() as cursor:
terminals:list = []
cursor.execute(cls._SELECT)
registers:tuple = cursor.fetchall()
for register in registers:
terminal:Terminal = Terminal(
idTerminal=register[0],
name=register[1],
place=register[2],
number=register[3]
)
terminals.append(terminal)
log.debug(terminal)
log.debug("Getting Terminals Succesfully")
return terminals
except Exception as e:
log.error(f"Error while getting terminals: {e}")
def main():
"""
This method creates the terminal
"""
# initial user input
inputs = ["Dummy variable"]
terminal = Terminal()
while (inputs[0] != "exit"):
cwd = os.getcwd()
inputs = user_input()
if inputs[0] in terminal.dic:
command = inputs[0]
terminal.dic[command]()
elif inputs[0] in terminal.dic_args_1:
if len(inputs) == 2:
command, arg = inputs
terminal.dic_args_1[command](arg)
def __init__(self, proyecto_path):
Gtk.EventBox.__init__(self)
archivo = os.path.join(proyecto_path, "proyecto.ide")
arch = open(archivo, "r")
self.proyecto = json.load(arch, "utf-8")
arch.close()
vbox = Gtk.Box(orientation=Gtk.Orientation.VERTICAL)
self.install_path = os.path.join(CONFPATH, self.proyecto["nombre"])
self.widgeticon = WidgetIcon("python", self.install_path)
self.notebook = Notebook(proyecto_path)
self.terminal = Terminal()
label = Gtk.Label(u"Instalador python para: %s versión: %s" % (
self.proyecto["nombre"], self.proyecto["version"]))
label.modify_font(Pango.FontDescription("%s %s" % ("Monospace", 12)))
label.modify_fg(0, Gdk.Color(0, 0, 65000))
hbox = Gtk.Box(orientation=Gtk.Orientation.HORIZONTAL)
image = Gtk.Image()
arch = os.path.join(BASEPATH, "Iconos", "gandalftux.png")
pixbuf = GdkPixbuf.Pixbuf.new_from_file_at_size(arch, 100, 100)
image.set_from_pixbuf(pixbuf)
hbox.pack_start(image, False, False, 0)
vbox2 = Gtk.Box(orientation=Gtk.Orientation.VERTICAL)
vbox2.pack_start(label, False, False, 0)
vbox2.pack_start(self.widgeticon, False, False, 0)
hbox.pack_start(vbox2, True, True, 0)
vbox.pack_start(hbox, False, False, 0)
vbox.pack_start(self.notebook, True, True, 0)
vbox.pack_start(self.terminal, True, True, 5)
self.add(vbox)
self.connect("realize", self.__realize)
self.show_all()
self.widgeticon.connect("iconpath", self.__set_iconpath)
self.widgeticon.connect("make", self.__make)
class Pc(Platform):
type = 'Pc'
system = Param.System(Parent.any, "system")
pciconfig = PciConfigAll()
south_bridge = SouthBridge()
# "Non-existant" port used for timing purposes by the linux kernel
i_dont_exist = IsaFake(pio_addr=x86IOAddress(0x80), pio_size=1)
# Ports behind the pci config and data regsiters. These don't do anything,
# but the linux kernel fiddles with them anway.
behind_pci = IsaFake(pio_addr=x86IOAddress(0xcf8), pio_size=8)
# Serial port and terminal
terminal = Terminal()
com_1 = Uart8250()
com_1.pio_addr = x86IOAddress(0x3f8)
com_1.terminal = terminal
# Devices to catch access to non-existant serial ports.
fake_com_2 = IsaFake(pio_addr=x86IOAddress(0x2f8), pio_size=8)
fake_com_3 = IsaFake(pio_addr=x86IOAddress(0x3e8), pio_size=8)
fake_com_4 = IsaFake(pio_addr=x86IOAddress(0x2e8), pio_size=8)
# A device to catch accesses to the non-existant floppy controller.
fake_floppy = IsaFake(pio_addr=x86IOAddress(0x3f2), pio_size=2)
def attachIO(self, bus):
self.south_bridge.attachIO(bus)
self.i_dont_exist.pio = bus.port
self.behind_pci.pio = bus.port
self.com_1.pio = bus.port
self.fake_com_2.pio = bus.port
self.fake_com_3.pio = bus.port
self.fake_com_4.pio = bus.port
self.fake_floppy.pio = bus.port
self.pciconfig.pio = bus.default
bus.responder_set = True
bus.responder = self.pciconfig
class SimpleBoard(Platform):
type = 'SimpleBoard'
cxx_header = 'dev/riscv/simpleboard.hh'
system = Param.System(Parent.any, 'system')
timer_cpu = TimerCpu(pio_addr=0x02000000)
term = Terminal()
uart = Uart8250(pio_addr=0x10013000)
cust_regs = CustomRegs(pio_addr=0x90000000,
regs=[0x90000000,
0x90000004,
0x90000008,
0x9000000c])
# attach I/O devices to bus
# call this method after bus is defined at system level
def attachIO(self, bus):
self.cust_regs.pio = bus.master
self.timer_cpu.pio = bus.master
self.uart.device = self.term
self.uart.pio = bus.master
"""
maxIndex = len(posts) - 1
self.__menu__.clearMenu()
if (index + POSTPERPAGE > maxIndex):
for post in posts[index:]:
if isinstance(post, QuestionQuery):
self.__menu__.addMenuItem(
str(post.title) + " | " + str(post.voteCount) + " | " +
str(post.answerCount))
else:
self.__menu__.addMenuItem(
str(post.title) + " | " + str(post.voteCount))
return False
else:
for i in range(index, index + POSTPERPAGE):
if isinstance(posts[i], QuestionQuery):
self.__menu__.addMenuItem(
str(posts[i].title) + " | " + str(posts[i].voteCount) +
" | " + str(posts[i].answerCount))
else:
self.__menu__.addMenuItem(
str(posts[i].title) + " | " + str(posts[i].voteCount))
return True
if __name__ == "__main__":
from Terminal import Terminal
searchPostScreen = SearchForPostsScreen(Terminal())
searchPostScreen.printScreen()
def __str__(self):
Terminal.__str__(self)
print("Nº ",self.getNumero()," - ",self.getTiempoDeConversacion(),"s de conversación - tarificados",self.totalTarificado, " euros")
def __init__(self, numero, tarifa):
Terminal.__init__(self, numero)
self.tarifa=tarifa
self.totalTarificado=0
class PythonWidget(Gtk.EventBox):
__gtype_name__ = 'JAMediaEditorPythonWidget'
def __init__(self, proyecto_path):
Gtk.EventBox.__init__(self)
archivo = os.path.join(proyecto_path, "proyecto.ide")
arch = open(archivo, "r")
self.proyecto = json.load(arch, "utf-8")
arch.close()
vbox = Gtk.Box(orientation=Gtk.Orientation.VERTICAL)
self.install_path = os.path.join(CONFPATH, self.proyecto["nombre"])
self.widgeticon = WidgetIcon("python", self.install_path)
self.notebook = Notebook(proyecto_path)
self.terminal = Terminal()
label = Gtk.Label(u"Instalador python para: %s versión: %s" % (
self.proyecto["nombre"], self.proyecto["version"]))
label.modify_font(Pango.FontDescription("%s %s" % ("Monospace", 12)))
label.modify_fg(0, Gdk.Color(0, 0, 65000))
hbox = Gtk.Box(orientation=Gtk.Orientation.HORIZONTAL)
image = Gtk.Image()
arch = os.path.join(BASEPATH, "Iconos", "gandalftux.png")
pixbuf = GdkPixbuf.Pixbuf.new_from_file_at_size(arch, 100, 100)
image.set_from_pixbuf(pixbuf)
hbox.pack_start(image, False, False, 0)
vbox2 = Gtk.Box(orientation=Gtk.Orientation.VERTICAL)
vbox2.pack_start(label, False, False, 0)
vbox2.pack_start(self.widgeticon, False, False, 0)
hbox.pack_start(vbox2, True, True, 0)
vbox.pack_start(hbox, False, False, 0)
vbox.pack_start(self.notebook, True, True, 0)
vbox.pack_start(self.terminal, True, True, 5)
self.add(vbox)
self.connect("realize", self.__realize)
self.show_all()
self.widgeticon.connect("iconpath", self.__set_iconpath)
self.widgeticon.connect("make", self.__make)
def __realize(self, widget):
self.terminal.hide()
def __make(self, widget):
t = "Construyendo el Instalador."
t = "%s\n%s" % (t, "Por favor espera un momento . . .")
dialogo = DialogoLoad(self.get_toplevel(), t)
dialogo.connect("running", self.__run_make)
dialogo.run()
def __run_make(self, dialogo):
self.terminal.reset()
self.notebook.guardar()
desktop = os.path.join(self.install_path,
"%s.desktop" % self.proyecto["nombre"])
lanzador = os.path.join(self.install_path,
self.proyecto["nombre"].lower())
setup = os.path.join(self.install_path, "setup.py")
for path in [setup, desktop, lanzador]:
os.chmod(path, 0755)
python_path = "/usr/bin/python"
if os.path.exists(os.path.join("/bin", "python")):
python_path = os.path.join("/bin", "python")
elif os.path.exists(os.path.join("/usr/bin", "python")):
python_path = os.path.join("/usr/bin", "python")
elif os.path.exists(os.path.join("/sbin", "python")):
python_path = os.path.join("/sbin", "python")
elif os.path.exists(os.path.join("/usr/local", "python")):
python_path = os.path.join("/usr/local", "python")
self.terminal.show_all()
self.terminal.connect("reset", self.__Informar, dialogo)
self.terminal.ejecute_script(self.install_path,
python_path, setup, "sdist")
def __Informar(self, terminal, dialogo):
origen = os.path.join(self.install_path, "dist")
for f in os.listdir(origen):
arch = os.path.join(origen, f)
commands.getoutput('mv %s %s' % (arch, CONFPATH))
destino = os.path.join(CONFPATH, f)
os.chmod(destino, 0755)
if os.path.exists(origen):
shutil.rmtree(origen)
dialogo.destroy()
t = "Proceso Concluido."
t = "%s\n%s" % (t, "El instalador se encuentra en")
t = "%s: %s" % (t, CONFPATH)
# FIXME: Pedir para borrar directorio temporal ?
dialogo = DialogoInformar(self.get_toplevel(), t)
dialogo.run()
dialogo.destroy()
self.terminal.disconnect_by_func(self.__Informar)
def __set_iconpath(self, widget, iconpath):
new = iconpath
if not self.install_path in iconpath:
new = os.path.join(self.install_path, os.path.basename(iconpath))
shutil.copyfile(iconpath, new)
self.notebook.set_icon(new)
def __init__(self, terminal, posts):
"""
Creates an instance of PostMenuScreen
Parameters:
terminal:
A Terminal object allowing the module to interface
with the OS terminal
Returns:
An instance of Tag
"""
self.__menu__ = Menu(terminal)
for post in posts:
self.__menu__.addMenuItem(post)
def printScreen(self):
"""
Prints the menu options of the module
"""
self.__menu__.printScreen()
if __name__ == "__main__":
from Terminal import Terminal
posts = [
"How do I make eggs?", "Hello anyone out there?", "Yes I am Here!",
"Just google it 4head"
]
postScreen = PostMenuScreen(Terminal(), posts)
postScreen.printScreen()
