class EscapeCommands(object):
def __init__(self, poke, envia_comando, cierra_por_esc, get_img):
self.poke = poke
self.cierra_por_esc = cierra_por_esc
self.envia_comando = envia_comando
self.get_img = get_img
self.char_table = CharTable()
self.command_mode =False
def run(self, key):
if not self.command_mode:
if key != ESCAPE:
return key
else:
return self.first_escape()
return self.command(key)
def command(self, key):
if key == ESCAPE:
self.cierra_por_esc()
elif key == S_KEY: # Take screenshot
self.screenshot()
else:
self.command_mode = False
return None
def first_escape(self):
self.msg(ESC_MESSAGE)
self.command_mode = True
return None
def screenshot(self):
self.del_msg(ESC_MESSAGE)
self.command_mode = False
img = self.get_img()
fileName = "{}.png".format(name_of_project[0:-3])
img.SaveFile(fileName, wx.BITMAP_TYPE_PNG)
def msg(self, msg):
color_c = colors.get_color(INIT_BG_COLOR)
color_b = colors.get_color(INIT_FM_COLOR)
for i, ch in enumerate(msg):
char_id = self.char_table.get_code(ch)
self.poke(0+i, -2, char_id, color_c, color_b)
def del_msg(self, msg):
color_b = colors.get_color(INIT_BG_COLOR)
color_c = colors.get_color(INIT_FM_COLOR)
for i, ch in enumerate(msg):
char_id = self.char_table.get_code(u'█')
self.poke(0+i, -2, char_id, color_c, color_b)
def __init__(self, poke, envia_comando, cierra_por_esc, get_img):
self.poke = poke
self.cierra_por_esc = cierra_por_esc
self.envia_comando = envia_comando
self.get_img = get_img
self.char_table = CharTable()
self.command_mode =False
def __init__(self, queue_to_view, queue_from_view):
self.map = ScreenMap()
self.char_table = CharTable()
self.printmap = PrintMap(self.clear_screen)
self.fm_color = colors.get_color(INIT_FM_COLOR)
self.bg_color = colors.get_color(INIT_BG_COLOR)
self.ch_color = colors.get_color(INIT_CH_COLOR)
self.last_comm_time = time()
self.comm_to_view = CommToView(queue_to_view, queue_from_view)
self.key = PressedKey(self._receive_from_view)
self._reset_canvas()
self.printf(INIT_MSG)
class Control(object):
def __init__(self, queue_to_view, queue_from_view):
self.map = ScreenMap()
self.char_table = CharTable()
self.printmap = PrintMap(self.clear_screen)
self.fm_color = colors.get_color(INIT_FM_COLOR)
self.bg_color = colors.get_color(INIT_BG_COLOR)
self.ch_color = colors.get_color(INIT_CH_COLOR)
self.last_comm_time = time()
self.comm_to_view = CommToView(queue_to_view, queue_from_view)
self.key = PressedKey(self._receive_from_view)
self._reset_canvas()
self.printf(INIT_MSG)
def poke(self, x, y, code, color = None, reverse=False):
if color:
color_c = colors.get_color(color)
self.ch_color = color_c
if isinstance(code, int):
char_id = self.char_table.get_code(code)
self.set_char_in_screen(char_id, x, y, reverse)
else:
char_id = 31
self.set_char_in_screen(char_id, x, y)
# c stands for corrected
def xyprintf(self, x, y, *args):
string = u''
for to_chain in args:
if isinstance(to_chain, str):
to_chain=to_chain.decode('utf-8')
to_chain=unicode(to_chain)
string += to_chain
for i, ch in enumerate(string):
if ch == u'\n':
continue
char_id = self.char_table.get_code(ch)
self.set_char_in_screen(char_id, x, y)
x=x+1
sleep(TIME_BETWEEN_XYPRINT)
def peek(self, x, y):
char_id, color = self.map.get_poked(x, y)
return char_id
def printf(self, to_print='', color=None, stay=False, reverse=False, iscode=False, carriage_back=False):
self.set_color(color)
if carriage_back:
self.printmap.go_first_x()
if to_print == '' or to_print is None:
self.printmap.next_line()
return
if isinstance(to_print, int) and iscode:
x, y = self.printmap.next_x()
self.set_char_in_screen(to_print, x, y, reverse)
return
elif isinstance(to_print, str):
to_print=to_print.decode('utf-8')
string=unicode(to_print)
for i, ch in enumerate(string):
if ch == u'\n':
self.printmap.next_line()
continue
x, y = self.printmap.get_next_pos()
char_id = self.char_table.get_code(ch)
self.set_char_in_screen(char_id, x, y, reverse)
if not stay:
self.printmap.next_line()
def set_color(self, color):
if color is not None:
color_c = colors.get_color(color)
self.ch_color = color_c
def set_char_in_screen(self, char_id, x, y, reverse=False):
if not reverse:
cx, cy = self.map.set_poked(x, y, char_id, self.ch_color)
self._send_to_view('poke', cx, cy, char_id, self.ch_color, self.bg_color)
else:
cx, cy = self.map.set_poked(x, y, char_id, self.bg_color)
self._send_to_view('poke', cx, cy, char_id, self.bg_color, self.ch_color)
def set_bg_color(self, color):
if color is None:
return
color_c = colors.get_color(color)
self.bg_color = color_c
self._reset_canvas()
self._write_all_chars()
def set_fm_color(self, color):
if color is None:
return
color_c = colors.get_color(color)
self.fm_color = color_c
self._reset_canvas()
self._write_all_chars()
def clear_screen(self):
self._reset_canvas()
self.printmap.go_init_scr()
self.map.clear(self.bg_color)
def stop(self):
sleep(1)
self._send_to_view('close_window')
def wait_key(self):
key = self.key.wait_for_key()
return key
def check_key(self):
key = self.key.check_for_key()
return key
def input(self, message = '', color=None):
self.set_color(color)
self.printf(message, stay=True)
input = ''
key = 0
while key != ENTER:
key = self.key.wait_for_key()
char=self.char_table.get_unicode(key)
print char
if key==BACKSPACE:
input = input[0:-1]
l = len(message)+len(input)+1
self.printf(' ' * l, stay=True, carriage_back=True)
self.printf(message, stay=True, carriage_back=True)
self.printf(input, stay=True)
elif char:
input +=char
self.printf(char, stay=True)
try:
input=int(input)
except:
try:
input=float(input)
except:
pass
self.printf()
return input
def mapa(self):
MapaDeCaracteres(self)
def colors(self):
ListaDeColores(self)
def keys(self):
ListOfKeys(self)
def _reset_canvas(self):
self._send_to_view('reset_canvas', self.fm_color, self.bg_color)
def _write_all_chars(self):
for poked in self.map.written:
self._send_to_view('poke', poked.x, poked.y, poked.code, poked.color, self.bg_color)
def _send_to_view(self, *args):
self.comm_to_view.send(*args)
self._check_comm_time()
def _receive_from_view(self):
msg = self.comm_to_view.receive()
if msg:
self.last_comm_time = time()
self._check_comm_time()
return msg
def _check_comm_time(self):
elapsed = time() - self.last_comm_time
if elapsed > LIMIT_WO_KEYSTROKE:
print 'stop por tiempo'
self.stop()
