def update(cls):
cls.fps.tick(60)
events = event.get([QUIT, KEYDOWN, KEYUP, MOUSEBUTTONDOWN, MOUSEBUTTONUP, MOUSEMOTION])
event.clear()
for e in events:
if e.type == QUIT or (e.type == KEYDOWN and e.key == K_ESCAPE):
quit()
exit()
elif e.type == MOUSEBUTTONDOWN:
widgets = cls.widgets.get_widgets_at(e.pos)
for widget in widgets:
cls.selected = widget.onmousebuttondown(e.button)
elif e.type == MOUSEBUTTONUP:
widgets = cls.widgets.get_widgets_at(e.pos)
for widget in widgets:
widget.onmousebuttonup(e.button)
elif e.type == MOUSEMOTION:
pass
elif e.type == KEYDOWN:
pass
elif e.type == KEYUP:
pass
pos = mouse.get_pos()
for widget in cls.widgets.widgets():
if widget.rect.collidepoint(pos):
widget.onmouseover()
cls.widgets.update()
def exchangeInput(self):
"""Exchange a round of inputs in a network-safe
manner.
"""
inputs = []
for player in self.playerList:
inp = self.getPlayerInput(player)
debug("Player " + str(player.name) +\
" input: " + inp + "\n")
if self.record and inp != NOOP:
self.playerInputFileList[int(player.name)].write( \
str(self.totalGameLoops) +\
',' + inp + '\n')
# Check players input
if len(inp) != len(UP):
print "Bad input from player",player.getHandle()
inp = DISCONNECT
# Can quit the game from end splash screen
if inp == QUITCOMMAND:
sys.exit()
inputs.append((player.name,inp))
for netplayer in self.playerList:
netplayer.sendCommand(player.getBroadcastable())
self.totalGameLoops += 1
# Clear all useless events
eventsWeWant = events.get([KEYDOWN, KEYUP, JOYBUTTONDOWN,\
JOYAXISMOTION])
events.clear()
for event in eventsWeWant:
events.post(event)
return inputs
def exchangeInput(self):
"""Exchange a round of inputs in a network-safe
manner.
"""
inputs = []
for player in self.playerList:
inp = self.getPlayerInput(player)
debug("Player " + str(player.name) +\
" input: " + inp + "\n")
if self.record and inp != NOOP:
self.playerInputFileList[int(player.name)].write( \
str(self.totalGameLoops) +\
',' + inp + '\n')
# Check players input
if len(inp) != len(UP):
print "Bad input from player", player.getHandle()
inp = DISCONNECT
# Can quit the game from end splash screen
if inp == QUITCOMMAND:
sys.exit()
inputs.append((player.name, inp))
for netplayer in self.playerList:
netplayer.sendCommand(player.getBroadcastable())
self.totalGameLoops += 1
# Clear all useless events
eventsWeWant = events.get([KEYDOWN, KEYUP, JOYBUTTONDOWN,\
JOYAXISMOTION])
events.clear()
for event in eventsWeWant:
events.post(event)
return inputs
def update(self, field):
from pygame.constants import KEYDOWN, MOUSEBUTTONUP, K_EQUALS, K_MINUS, K_ESCAPE
from pygame.event import poll, clear
field.camera.set_lead(self.mob.leads[self.mob.current_lead])
new_event = poll()
if new_event.type == KEYDOWN:
if new_event.key == K_EQUALS:
self.mob.current_lead += 1
self.mob.current_lead %= len(self.mob.leads)
elif new_event.key == K_MINUS:
self.mob.current_lead -= 1
self.mob.current_lead %= len(self.mob.leads)
elif new_event.key == K_ESCAPE:
from bin.Interaction import pause_menu
return pause_menu(field.screen, field)
elif new_event.type == MOUSEBUTTONUP:
if new_event.button == 1:
from bin.Logic import pixel_to_hex, coord_get_offset, coord_available
position = new_event.pos[0] + field.camera.border_pixel[
0], new_event.pos[1] + field.camera.border_pixel[1]
hexagon = pixel_to_hex(position, field.camera.size, field)
coord = coord_get_offset(hexagon, field)
if coord_available(hexagon, field) and field.map[coord[0]][coord[1]][1].exploration and \
field.map[coord[0]][coord[1]][1].passability:
self.hexagon = hexagon
clear()
return True
def update(self, field):
from pygame.constants import KEYDOWN, MOUSEBUTTONUP, K_EQUALS, K_MINUS, K_ESCAPE
from pygame.event import poll, clear
field.camera.set_lead(self.mob.leads[self.mob.current_lead])
new_event = poll()
if new_event.type == KEYDOWN:
if new_event.key == K_EQUALS:
self.mob.current_lead += 1
self.mob.current_lead %= len(self.mob.leads)
elif new_event.key == K_MINUS:
self.mob.current_lead -= 1
self.mob.current_lead %= len(self.mob.leads)
elif new_event.key == K_ESCAPE:
from bin.Interaction import pause_menu
return pause_menu(field.screen, field)
elif new_event.type == MOUSEBUTTONUP:
if new_event.button == 1:
from bin.Logic import pixel_to_hex, coord_get_offset, coord_available
position = new_event.pos[0] + field.camera.border_pixel[0], new_event.pos[1] + field.camera.border_pixel[1]
hexagon = pixel_to_hex(position, field.camera.size, field)
coord = coord_get_offset(hexagon, field)
if coord_available(hexagon, field) and field.map[coord[0]][coord[1]][1].exploration and \
field.map[coord[0]][coord[1]][1].passability:
self.hexagon = hexagon
clear()
return True
def test_post__clear(self):
"""Ensure posted events can be cleared."""
for _ in range(10):
fastevent.post(event.Event(pygame.USEREVENT))
event.clear()
self.assertListEqual(fastevent.get(), [])
self.assertListEqual(event.get(), [])
def run_trial(trial_pars, subj_info, data_file):
''' Run a single trial.
trial_pars -- a list specifying trial parameters,
[cue_pos, tar_pos, isi, cueing, cor_key]
subj_info -- info about the subject [id, name, age]
data_file -- an open file to save the trial data.'''
# Show the fixation then wait for 1000 ms
draw_frame('fix', trial_pars)
time.wait(1000)
# Show the cue for 100 ms
draw_frame('cue', trial_pars)
time.wait(100)
# Inter-stimulus interval (ISI)
draw_frame('fix', trial_pars)
time.wait(trial_pars[2])
# Show the target and register a keypress response
draw_frame('target', trial_pars)
tar_onset = time.get_ticks()
tar_resp = -32768 # response time
resp_key = -32768 # key pressed
# Check for key presses
time_out = False
got_key = False
event.clear() # clear bufferred events
while not (time_out or got_key):
# Cehck for time out (1500 ms)
if time.get_ticks() - tar_onset > 1500:
time_out = True
# Check if any key has been pressed
for ev in event.get():
if ev.type == KEYDOWN:
if ev.key in [K_z, K_SLASH]:
tar_resp = time.get_ticks()
resp_key = key.name(ev.key)
got_key = True
# write data to file
trial_data = subj_info + trial_pars + [tar_onset, tar_resp, resp_key]
trial_data = map(str, trial_data)
data_file.write(','.join(trial_data) + '\n')
# ITI (inter-trial_interval)
draw_frame('fix', trial_pars)
time.wait(1500)
def show(self, text):
self.box(text)
while 1:
if self.cb and self.cbargs:
self.cb(*self.cbargs)
sleep(0.01)
events = event.get((KEYDOWN, MOUSEBUTTONDOWN, QUIT))
if not events:
event.clear()
continue
if QUIT in [e.type for e in events]:
return e
else:
sleep(0.1)
return
def show(self, text):
self.box(text)
while 1:
if self.cb and self.cbargs:
self.cb(*self.cbargs)
sleep(0.01)
events = event.get((KEYDOWN, MOUSEBUTTONDOWN, QUIT))
if not events:
event.clear()
continue
if QUIT in [e.type for e in events]:
return e
else:
sleep(0.1)
return
def update(cls):
cls.clock.tick(30)
events = event.get([KEYDOWN, MOUSEBUTTONDOWN, QUIT])
event.clear()
for e in events:
if e.type == QUIT or (e.type == KEYDOWN and e.key == K_ESCAPE):
EventHandler.trigger('salir', 'engine', {'mensaje': 'normal'})
elif e.type == KEYDOWN:
if cls.active is not None:
cls.active.on_keydown(e.key)
elif e.type == KEYUP:
if cls.active is not None:
cls.active.on_keyup(e.key)
elif e.type == MOUSEBUTTONDOWN:
for wig in cls.contents:
wig.active = False
widgets = [
i for i in cls.contents.sprites()
if i.rect.collidepoint(e.pos)
]
for w in widgets:
w.on_mousebuttondown(e.button)
cls.active = w
elif e.type == MOUSEBUTTONUP:
pass
elif e.tyoe == MOUSEMOTION:
pass
x, y = mouse.get_pos()
for widget in cls.contents.sprites():
if widget.rect.collidepoint((x, y)):
widget.on_mouseover()
cls.contents.update()
def reset(cls):
display.set_icon(
image.load(os.path.join(os.getcwd(), 'data', 'favicon.png')))
display.set_caption("WorldBuilding")
display.set_mode((ANCHO, ALTO), SCALED)
event.clear()
def graph_loop(mass_lower_limit=0.0,
mass_upper_limit=0.0,
radius_lower_limit=0.0,
radius_upper_limit=0.0,
is_gas_drwaf=False):
m_lo_l = mass_lower_limit
m_hi_l = mass_upper_limit
r_lo_l = radius_lower_limit
r_hi_l = radius_upper_limit
fondo = display.set_mode((witdh, height), SCALED)
rect = Rect(60, 2, 529, 476)
lineas = LayeredUpdates()
linea_h = Linea(rect, rect.x, rect.centery, rect.w, 1, lineas)
linea_v = Linea(rect, rect.centerx, rect.y, 1, rect.h, lineas)
punto = Punto(rect, rect.centerx, rect.centery, lineas)
data = {}
if any([
mass_lower_limit < 0, mass_upper_limit < 0, radius_lower_limit < 0,
radius_upper_limit < 0
]):
raise ValueError()
lim_mass_a = int(find_and_interpolate(m_lo_l, mass_keys,
exes)) if m_lo_l else 0
lim_mass_b = int(find_and_interpolate(m_hi_l, mass_keys,
exes)) if m_hi_l else 0
lim_radius_a = int(find_and_interpolate(r_lo_l, radius_keys,
yes)) if r_lo_l else 0
lim_radius_b = int(find_and_interpolate(r_hi_l, radius_keys,
yes)) if r_hi_l else 0
move_x, move_y = True, True
lockx, locky = False, False
mass_value = 0
radius_value = 0
mass_color = negro
radius_color = negro
mouse.set_pos(rect.center)
event.clear()
done = False
composition_text_comp = None
while not done:
for e in event.get():
if e.type == QUIT:
py_quit()
if __name__ == '__main__':
sys.exit()
elif e.type == MOUSEBUTTONDOWN:
if e.button == 1:
if (not lockx) or (not locky):
if (not lockx) and (not move_x):
lockx = True
elif (not locky) and (not move_y):
locky = True
elif not punto.disabled:
data['mass'] = round(mass_value, 3)
data['radius'] = round(radius_value, 3)
data['gravity'] = round(
mass_value / (radius_value**2), 3)
data['density'] = round(
mass_value / (radius_value**3), 3)
done = True
else:
data = {}
done = True
elif e.button == 3:
if lockx:
lockx = False
move_x = not lockx
if locky:
locky = False
move_y = not locky
elif e.type == MOUSEMOTION:
px, py = e.pos
if move_y:
linea_h.move_y(py)
punto.move_y(py)
if move_x:
linea_v.move_x(px)
punto.move_x(px)
point_x, point_y = punto.rect.center
if rect.collidepoint(point_x, point_y) and (move_x or move_y):
if mascara.get_at((point_x, point_y)):
punto.select()
for name in _lineas:
if [point_x, point_y] in _lineas[name]:
composition_text_comp = name
break
else:
punto.deselect()
elif e.type == KEYDOWN:
if e.key == K_ESCAPE:
py_quit()
sys.exit()
if e.key == K_LSHIFT:
move_x = False
elif e.key == K_LCTRL:
move_y = False
elif e.key == K_SPACE:
data['mass'] = round(mass_value, 3)
data['radius'] = round(radius_value, 3)
data['gravity'] = round(mass_value / (radius_value**2), 3)
data['density'] = round(mass_value / (radius_value**3), 3)
done = True
elif e.type == KEYUP:
if e.key == K_LSHIFT:
if not lockx:
move_x = True
elif e.key == K_LCTRL:
if not locky:
move_y = True
px, py = punto.rect.center
alto, bajo = 0, 0
if rect.collidepoint((px, py)):
for _y in reversed(range(0, py)):
if mascara.get_at((px, _y)):
alto = _y
break
for _y in range(py, 476):
if mascara.get_at((px, _y)):
bajo = _y
break
a, b = 0, 0
# creo que esto se puede escribir con oneliners.
for name in _lineas:
if [px, alto] in _lineas[name]:
a = name
break
for name in _lineas:
if [px, bajo] in _lineas[name]:
b = name
break
if a and b:
c = composiciones
silicates = interpolate(py, alto, bajo, c[a]['silicates'],
c[b]['silicates'])
hydrogen = interpolate(py, alto, bajo, c[a]['hydrogen'],
c[b]['hydrogen'])
helium = interpolate(py, alto, bajo, c[a]['helium'],
c[b]['helium'])
iron = interpolate(py, alto, bajo, c[a]['iron'], c[b]['iron'])
water_ice = interpolate(py, alto, bajo, c[a]['water ice'],
c[b]['water ice'])
values = [
i for i in [silicates, hydrogen, helium, iron, water_ice]
if i != 0
]
# sólo mostramos los valores mayores a 0%
keys, compo = [], []
if silicates:
compo.append(str(round(silicates, 2)) + '% silicates')
keys.append('silicates')
if hydrogen:
compo.append(str(round(hydrogen, 2)) + '% hydrogen')
keys.append('hydrogen')
if helium:
compo.append(str(round(helium, 2)) + '% helium')
keys.append('helium')
if iron:
compo.append(str(round(iron, 2)) + '% iron')
keys.append('iron')
if water_ice:
compo.append(str(round(water_ice, 2)) + '% water ice')
keys.append('water ice')
composition_text_comp = ', '.join(compo)
data['composition'] = dict(zip(keys, values))
if hydrogen or helium:
data['clase'] = 'Gas Dwarf'
data['albedo'] = 30
else:
data['clase'] = 'Terrestial Planet'
data['albedo'] = 25
else:
data = {}
mass_value = find_and_interpolate(linea_v.rect.x, exes, mass_keys)
radius_value = find_and_interpolate_flipped(linea_h.rect.y, yes,
radius_keys)
block = Surface(rect.size, SRCALPHA)
block_mask = mask.from_surface(block)
if any([lim_mass_b, lim_mass_a, lim_radius_a, lim_radius_b]):
block_rect = block.get_rect(topleft=rect.topleft)
alpha = 150
if lim_mass_a:
block.fill([0] * 3 + [alpha],
(0, rect.y - 2, lim_mass_a - rect.x, rect.h))
if lim_mass_b:
block.fill([0] * 3 + [alpha],
(lim_mass_b - rect.x, rect.y - 2, rect.w, rect.h))
if lim_radius_a:
block.fill([0] * 3 + [alpha],
(0, lim_radius_a, rect.w, rect.h - lim_radius_a))
if lim_radius_b:
block.fill([0] * 3 + [alpha],
(0, rect.y - 2, rect.w, lim_radius_b))
if is_gas_drwaf:
block.blit(gas_drawf, (0, 0))
block_mask = mask.from_surface(block)
point_x, point_y = punto.rect.center
if block_rect.collidepoint((point_x, point_y)):
if block_mask.get_at((point_x - rect.x, point_y - rect.y)):
punto.disable()
radius_color = rojo
mass_color = rojo
else:
punto.enable()
mass_color = negro
radius_color = negro
mass_text = 'Mass:' + str(round(mass_value, 3))
radius_text = 'Radius:' + str(round(radius_value, 3))
gravity_text = 'Density:' + str(
round(mass_value / (radius_value**3), 3))
density_text = 'Gravity:' + str(
round(mass_value / (radius_value**2), 3))
if not done:
fondo.fill(blanco)
fondo.blit(graph, (0, 0))
if block_mask.count() != 0:
fondo.blit(block, rect)
if punto.disabled:
fondo.blit(texto3, rectT3)
else:
fondo.blit(fuente1.render(mass_text, True, mass_color),
(5, rect.bottom + 43))
fondo.blit(fuente1.render(radius_text, True, radius_color),
(140, rect.bottom + 43))
fondo.blit(fuente1.render(density_text, True, negro),
(130 * 2 - 5, rect.bottom + 43))
fondo.blit(fuente1.render(gravity_text, True, negro),
(140 * 3, rect.bottom + 43))
if composition_text_comp is not None:
composition_text = 'Composition:' + composition_text_comp
fondo.blit(
fuente1.render(composition_text, True, negro, blanco),
(5, rect.bottom + 64))
fondo.blit(texto1, rectT1)
fondo.blit(texto2, rectT2)
punto.update()
lineas.update()
lineas.draw(fondo)
display.update()
display.quit()
return data
def __init__(self):
parser = OptionParser(
usage="Usage: %prog [OPTIONS] [HOST]",
version="NATOcubes 0.5",
epilog="If HOST is not specified, the game will start in local mode. Otherwise it will start in client mode, with HOST as server.")
parser.add_option('-s', '--server', action="store_true", dest="server", default=False, help="server mode")
parser.add_option('-p', '--port', type="int", dest="port", default=12345, help="set port (client & server mode) [default: %default]")
parser.add_option('-x', type="int", dest="x", default=5, help="field width (server & local mode) [default: %default]")
parser.add_option('-y', type="int", dest="y", default=5, help="field height (server & local mode) [default: %default]")
parser.add_option('-z', '--size', type="int", dest="size", default=75, help="size of one field [default: %default]")
parser.add_option('-l', '--player', type="int", dest="numplayers", default=2, help="number of players (local mode) [default: %default]")
options, args = parser.parse_args()
self.xsize, self.ysize, self.fieldsize = options.x, options.y, options.size
if options.server:
self.handler = server('', options.port, options.x, options.y)
else:
if len(args) > 0:
self.handler = client(args[0], options.port)
self.xsize, self.ysize = self.handler.getsize()
else:
self.handler = local(options.numplayers)
self.player, self.localplayer, self.numplayers = self.handler.getopts()
self.counts = []
self.f = Field(self.xsize, self.ysize, self.fieldsize)
display.set_mode(((self.xsize * (self.fieldsize + 1) - 1), 18 + (self.ysize * (self.fieldsize + 1) - 1)))
display.set_caption('NATOcubes')
surf = self.f.render()
self.handler.surface(surf, self.player, self.fieldsize)
display.get_surface().blit(surf, (0, 0))
display.update()
ev = event.wait()
while ev.type != QUIT:
event.clear()
display.update()
if self.player == self.localplayer or self.localplayer == -1:
ev = event.wait()
if ev.type == MOUSEBUTTONDOWN:
px, py = ev.pos
x = px / (self.fieldsize + 1)
y = (py - 18) / (self.fieldsize + 1)
if self.f.turn(self.player, x, y):
self.handler.onTurn(x, y)
surf = self.f.render(x, y)
self.handler.surface(surf, self.newplayer(), self.fieldsize)
display.get_surface().blit(surf, (0, 0))
display.update()
if self.after_turn():
return
else:
recv = self.handler.recv_data()
if recv and len(recv) == 2:
x = ord(recv[0])
y = ord(recv[1])
if self.f.turn(self.player, x, y):
self.handler.distribute_data(x, y)
surf = self.f.render(x, y)
self.handler.surface(surf, self.newplayer(), self.fieldsize)
display.get_surface().blit(surf, (0,0))
display.update()
if self.after_turn():
return
else:
self.handler.failed_turn()
elif recv == '\x00':
s = smallfont.render('Lost Connection', True, Color('#FFFFFF'), Color('#000000'))
sw, sh = s.get_size()
display.get_surface().blit(s, (((self.xsize * self.fieldsize) - sw) / 2, ((self.ysize * self.fieldsize) - sh) / 2 + 18))
display.update()
while event.wait().type != QUIT:
pass
return
else:
sleep(0.1)
ev = event.poll()
def Lobby():
title = FONT_TITLE.render('KnatanK', True, RED, YELLOW)
start_button = FONT_TITLE.render(' Start! ', True, WHITE, RED)
start_button = ( start_button
, Rect(60, SCREEN_HEIGHT-60-FONT_TITLE.get_height()
, *start_button.get_size()))
info = "Waiting for players..."
event.set_allowed((pygame.MOUSEBUTTONDOWN, pygame.KEYDOWN, pygame.QUIT))
event.clear()
players = {}
import uuid
my_id = uuid.uuid4().get_hex()
I_am_ready = False
all_ready = False
while not all_ready:
for e in event.get():
if((e.type == pygame.MOUSEBUTTONDOWN
and start_button[1].collidepoint(e.pos))
or (e.type == pygame.KEYDOWN and e.key == pygame.K_SPACE) ):
I_am_ready = True
elif( e.type == pygame.QUIT
or (e.type == pygame.KEYDOWN and e.key == pygame.K_ESCAPE) ):
print "User quit."
pygame.quit()
exit()
from cPickle import dumps, loads
SEND(b'KL' + dumps((my_id, I_am_ready)))
for msg, address in RECVFROM():
if msg.startswith(b'KL'):
player = loads(msg[2:])
players[player[0]] = player
info = str(len(players)) + ' players connected.'
if player[0] not in players:
print "New player from", address, ":", player, ".", info
print players
FILL(YELLOW, Rect(40, 40, SCREEN_WIDTH-80, SCREEN_HEIGHT-80))
xy = XY(50, 50)
BLIT(title, xy)
xy = xy + XY(0, FONT_TITLE.get_linesize())
BLIT(FONT_MENU.render(info, True, BLACK, YELLOW), xy)
xy = xy + XY(0, FONT_MENU.get_height()*2)
# Brief up all players:
playerlist = sorted(players.itervalues())
for p, tank, player in zip(xrange(1,99), TANKS, playerlist):
tank.render(xy)
BLIT(FONT_MENU.render("Player " + str(p)
+ (" (you!)" if player[0] == my_id else "")
+ (" READY!" if player[1] else "")
, True, BLACK, YELLOW)
, xy + XY(tank.sx+10, (tank.sy-FONT_MENU.get_height())/2))
xy += XY(0, tank.sy)
BLIT(*start_button)
all_ready = players and all(p[1] for p in playerlist)
pygame.display.flip()
time.sleep(1)
nplayers = len(playerlist)
for tn, tank in enumerate(TANKS,1):
if tn > nplayers:
game.AIControl(tn, tank)
elif playerlist[tn-1][0] == my_id:
game.LocalControl(tn, tank)
else:
game.RemoteControl(tn, tank)
Game(nplayers)
print "Game Over."
def update(cls):
cls.clock.tick(60)
events = event.get(
[KEYDOWN, MOUSEBUTTONDOWN, MOUSEBUTTONUP, QUIT, MOUSEMOTION])
event.clear()
for e in events:
if e.type == QUIT or (e.type == KEYDOWN and e.key == K_ESCAPE):
EventHandler.trigger('salir', 'engine', {'mensaje': 'normal'})
elif e.type == KEYDOWN and not cls.locked:
if e.key in (K_KP_ENTER, K_KP_EQUALS):
EventHandler.trigger('Fin', cls.origin)
elif e.key == K_BACKSPACE:
EventHandler.trigger('BackSpace', cls.origin)
elif e.key == K_UP:
EventHandler.trigger('Arrow', cls.origin, {
'word': 'arriba',
'delta': -1
})
elif e.key == K_DOWN:
EventHandler.trigger('Arrow', cls.origin, {
'word': 'abajo',
'delta': +1
})
else:
name = key.name(e.key).strip('[]')
if len(
name
) == 1: # single character, excludes "space" and things like that.
if name == '.': # bc there's not other way to identifying it.
EventHandler.trigger('Key', cls.origin,
{'value': '.'})
elif name.isdigit():
EventHandler.trigger('Key', cls.origin,
{'value': name})
elif name.isalpha():
if e.mod & KMOD_LSHIFT or e.mod & KMOD_RSHIFT:
name = name.capitalize()
EventHandler.trigger('Typed', cls.origin,
{'value': name})
elif name == 'space':
EventHandler.trigger('Typed', cls.origin,
{'value': ' '})
elif e.type == MOUSEBUTTONDOWN:
widgets = [
i for i in cls.contents.sprites()
if i.rect.collidepoint(e.pos)
]
widgets.sort(key=lambda o: o.layer, reverse=True)
if not cls.locked or widgets[0] is cls.the_one:
cls.origin = widgets[0].on_mousebuttondown(e)
else:
cls.the_one.blink()
elif e.type == MOUSEBUTTONUP:
widgets = [
i for i in cls.contents.sprites()
if i.rect.collidepoint(e.pos)
]
widgets.sort(key=lambda o: o.layer, reverse=True)
widgets[0].on_mousebuttonup(e)
elif e.type == MOUSEMOTION:
x, y = e.pos
for widget in cls.contents.sprites():
if widget.rect.collidepoint((x, y)):
widget.on_mousemotion(e.rel)
x, y = mouse.get_pos()
for widget in cls.contents.sprites():
if widget.rect.collidepoint(
(x, y)) and (not cls.locked or widget is cls.the_one):
widget.on_mouseover()
cls.contents.update()
def setUp(self):
pygame.display.init()
fastevent.init()
event.clear()
self.assert_(not event.get())
fuente = font.SysFont('verdana',16,bold=True)
txt1 = fuente.render('Average', 1, (0,0,0),(125,125,125))
txt2 = fuente.render('Luminosity', 1, (0,0,0),(125,125,125))
txt3 = fuente.render('Lightness', 1, (0,0,0),(125,125,125))
text_rect1 = txt1.get_rect(centerx=rect0.centerx)
text_rect2 = txt2.get_rect(centerx=rect1.centerx)
text_rect3 = txt3.get_rect(centerx=rect2.centerx)
text_rect1.bottom = fondorect.bottom
text_rect2.bottom = fondorect.bottom
text_rect3.bottom = fondorect.bottom
while True:
events = Event.get(KEYDOWN)
Event.clear()
fondo.fill((0,0,0))
for event in events:
if event.type == KEYDOWN:
py_quit()
sys.exit()
fondo.blit(rendera,rect0)
fondo.blit(renderb,rect1)
fondo.blit(rendera,rect2)
fondo.blit(txt1,text_rect1)
fondo.blit(txt2,text_rect2)
fondo.blit(txt3,text_rect3)
pantalla.flip()
def rotation_loop():
display.quit()
fps = time.Clock()
rect_a = rect_top
rect_b = rect_mid
screen = display.set_mode((400, 440))
rotation_delta = 0
text = render_text_b
actual_rotation = 0
instruction = instruction1
running = True
rot = []
rotation = 270
while running:
fps.tick(60)
events = event.get([QUIT, KEYDOWN, KEYUP])
event.clear()
for ev in events:
if (ev.type == QUIT) or (ev.type == KEYDOWN
and ev.key == K_ESCAPE):
quit()
exit()
elif ev.type == KEYDOWN:
if ev.key == K_UP:
rotation_delta = -1
elif ev.key == K_DOWN:
rotation_delta = +1
elif ev.key == K_SPACE:
if rect_a == rect_top:
rect_a = rect_mid
rect_b = rect_top
text = render_text_a
instruction = instruction2
else:
running = False
rot.append(q(actual_rotation, 'degree'))
rotation = 270
elif ev.type == KEYUP:
rotation_delta = 0
if -90 <= rotation + rotation_delta <= 270:
rotation += rotation_delta
actual_rotation = round(abs(rotation - 270), 3)
canvas = draw_ellipse(rotation)
screen.fill(Color('grey'))
screen.blit(canvas, (0, 0))
screen.blit(render_x, rect_x)
screen.blit(render_y, rect_a)
screen.blit(render_z, rect_b)
screen.blit(text, rect_text)
screen.blit(instruction, rect_instruction)
screen.blit(render_rotation, rect_rotation)
screen.blit(
fuente2.render(str(actual_rotation) + '°', 1, Color('black')),
rect_rotation.topright)
display.update()
return rot
def update(cls):
events = event.get([
KEYDOWN, KEYUP, MOUSEBUTTONDOWN, MOUSEBUTTONUP, MOUSEMOTION, QUIT
])
event.clear()
# esto es para que se pueda reemplazar un locutor sin tener que reseleccionarlo.
cls.selected.add([
i for i in cls.widgets.widgets()
if i.is_selected and (i not in cls.selected)
])
for e in events:
mods = key.get_mods()
ctrl = mods & KMOD_CTRL
shift = mods & KMOD_SHIFT
if e.type == QUIT or (e.type == KEYDOWN and e.key == K_ESCAPE):
salir()
elif e.type == KEYDOWN:
widgets = cls.selected.widgets()
if System.type_mode:
if e.key == K_F3:
System.toggle_typemode('MainTB')
else:
EventHandler.trigger('Key', cls.name, {
'key': e.key,
'mod': e.mod
})
elif e.key == K_c:
if len(widgets) == 2 and all(
[o.numerable for o in widgets]):
widgets.sort(
key=lambda o: o.idx) # lower idx's go first
if not shift:
widgets[0].connect(widgets[1])
else:
widgets[0].disconnect(widgets[1])
elif e.key == K_a and len(widgets) == 2:
base, other = widgets
EventHandler.trigger('AddMidPoint', 'System', {
'base': base,
'other': other
})
elif e.key == K_RETURN:
EventHandler.trigger('CreateDialog', cls.name,
{'nodes': cls.numerable})
elif e.key == K_F3:
if any([o.order == 'b' for o in widgets]):
System.toggle_typemode('MainTB')
else:
for widget in widgets:
widget.on_keydown(e)
elif e.key == K_s:
x, y = mouse.get_pos()
color, text = None, None
if any([o.order == 'a' for o in widgets]):
color = [i for i in widgets if i.order == 'a'][0].color
text = [i for i in widgets if i.order == 'a'][0].text
if System.area_nodos.collidepoint(x,
y) and text is not None:
EventHandler.trigger('AddNode', cls.name, {
'text': text,
'pos': [x, y],
'color': color
})
elif e.key == K_d and any([o.order == 'a' for o in widgets]):
widgets.sort(key=lambda o: o.order)
color_namer = widgets.pop(0)
for other in widgets:
other.colorize(color_namer)
elif len(cls.selected):
for widget in cls.selected.widgets():
widget.on_keydown(e)
elif e.type == KEYUP:
if len(cls.selected):
for widget in cls.selected.widgets():
widget.on_keyup(e)
elif e.type == MOUSEBUTTONDOWN: # pos, button
widgets = [
w for w in cls.widgets.widgets()
if w.selectable and w.rect.collidepoint(e.pos)
]
if not len(
widgets
) and e.button == 1 and cls.active_area.collidepoint(e.pos):
if not shift and not System.type_mode:
cls.selected.empty()
if not ctrl:
EventHandler.trigger('AddSelection', cls.name, {
"pos": e.pos,
'value': True
})
elif len(widgets) and not len(cls.selected):
cls.selected.sumar([w for w in widgets if w.selectable])
elif not cls.selected.has(widgets) and e.button == 1 and len(
widgets):
order_c = [i for i in widgets if i.order == 'c']
if not ctrl and not System.type_mode and not len(order_c):
cls.selected.empty()
cls.selected.sumar(widgets)
if len(widgets):
for widget in cls.selected.widgets():
if widget is not cls.selection:
widget.on_mousedown(e)
elif e.button != 1:
widgets = [w for w in cls.widgets.widgets() if w.numerable]
if ctrl and not shift:
dx, dy = 1, 0
elif shift and not ctrl:
dx, dy = 0, 5
elif ctrl and shift:
dx, dy = 5, 0
else:
dx, dy = 0, 1
for widget in widgets:
if e.button == 4:
dx *= -1
dy *= -1
elif e.button == 5:
dx *= 1
dy *= 1
widget.rect.move_ip(dx, dy)
elif e.type == MOUSEBUTTONUP: # pos, button
if cls.on_selection and e.button == 1:
cls.selection.on_mouseup(e)
selected = [
i for i in cls.widgets
if cls.selection.rect.contains(i.rect)
]
cls.selected.sumar(selected)
elif e.type == MOUSEMOTION: # pos, rel, buttons
if e.buttons[0] and len(
cls.selected) and not shift and not System.type_mode:
for widget in [
i for i in cls.selected.widgets()
if i.draggable is True
]:
widget.on_mousemotion(e)
elif cls.on_selection and e.buttons[0]:
cls.selection.on_mousemotion(e)
elif ctrl and e.buttons[0]:
widgets = [
w for w in cls.widgets.widgets()
if w.selectable and w.draggable
]
for widget in widgets:
widget.on_mousemotion(e)
cls.widgets.update()
def update(cls):
cls.clock.tick(60)
events = event.get(
[KEYDOWN, MOUSEBUTTONDOWN, MOUSEBUTTONUP, QUIT, MOUSEMOTION])
event.clear()
for e in events:
if e.type == QUIT or (e.type == KEYDOWN and e.key == K_ESCAPE):
EventHandler.trigger('salir', 'engine', {'mensaje': 'normal'})
elif e.type == KEYDOWN:
numbers = [
K_KP0, K_KP1, K_KP2, K_KP3, K_KP4, K_KP5, K_KP6, K_KP7,
K_KP8, K_KP9
]
if e.key in numbers:
digit = numbers.index(e.key)
EventHandler.trigger('Key', cls.origin,
{'value': str(digit)})
elif e.key == K_KP_PERIOD:
EventHandler.trigger('Key', cls.origin, {'value': '.'})
elif e.key in (K_KP_ENTER, K_KP_EQUALS):
EventHandler.trigger('Fin', cls.origin)
elif e.key == K_BACKSPACE:
EventHandler.trigger('BackSpace', cls.origin)
elif e.key == K_UP:
EventHandler.trigger('Arrow', cls.origin, {
'word': 'arriba',
'delta': -1
})
elif e.key == K_DOWN:
EventHandler.trigger('Arrow', cls.origin, {
'word': 'abajo',
'delta': +1
})
elif e.type == MOUSEBUTTONDOWN:
widgets = [
i for i in cls.contents.sprites()
if i.rect.collidepoint(e.pos)
]
widgets.sort(key=lambda o: o.layer, reverse=True)
cls.origin = widgets[0].on_mousebuttondown(e)
elif e.type == MOUSEBUTTONUP:
widgets = [
i for i in cls.contents.sprites()
if i.rect.collidepoint(e.pos)
]
widgets.sort(key=lambda o: o.layer, reverse=True)
widgets[0].on_mousebuttonup(e)
elif e.type == MOUSEMOTION:
x, y = e.pos
for widget in cls.contents.sprites():
if widget.rect.collidepoint((x, y)):
widget.on_mousemotion(e.rel)
x, y = mouse.get_pos()
for widget in cls.contents.sprites():
if widget.rect.collidepoint((x, y)):
widget.on_mouseover()
cls.contents.update()
def setUp(self):
pygame.display.init()
fastevent.init()
event.clear()
def __init__(self):
parser = OptionParser(
usage="Usage: %prog [OPTIONS] [HOST]",
version="NATOcubes 0.5",
epilog=
"If HOST is not specified, the game will start in local mode. Otherwise it will start in client mode, with HOST as server."
)
parser.add_option('-s',
'--server',
action="store_true",
dest="server",
default=False,
help="server mode")
parser.add_option(
'-p',
'--port',
type="int",
dest="port",
default=12345,
help="set port (client & server mode) [default: %default]")
parser.add_option(
'-x',
type="int",
dest="x",
default=5,
help="field width (server & local mode) [default: %default]")
parser.add_option(
'-y',
type="int",
dest="y",
default=5,
help="field height (server & local mode) [default: %default]")
parser.add_option('-z',
'--size',
type="int",
dest="size",
default=75,
help="size of one field [default: %default]")
parser.add_option(
'-l',
'--player',
type="int",
dest="numplayers",
default=2,
help="number of players (local mode) [default: %default]")
options, args = parser.parse_args()
self.xsize, self.ysize, self.fieldsize = options.x, options.y, options.size
if options.server:
self.handler = server('', options.port, options.x, options.y)
else:
if len(args) > 0:
self.handler = client(args[0], options.port)
self.xsize, self.ysize = self.handler.getsize()
else:
self.handler = local(options.numplayers)
self.player, self.localplayer, self.numplayers = self.handler.getopts()
self.counts = []
self.f = Field(self.xsize, self.ysize, self.fieldsize)
display.set_mode(((self.xsize * (self.fieldsize + 1) - 1),
18 + (self.ysize * (self.fieldsize + 1) - 1)))
display.set_caption('NATOcubes')
surf = self.f.render()
self.handler.surface(surf, self.player, self.fieldsize)
display.get_surface().blit(surf, (0, 0))
display.update()
ev = event.wait()
while ev.type != QUIT:
event.clear()
display.update()
if self.player == self.localplayer or self.localplayer == -1:
ev = event.wait()
if ev.type == MOUSEBUTTONDOWN:
px, py = ev.pos
x = px / (self.fieldsize + 1)
y = (py - 18) / (self.fieldsize + 1)
if self.f.turn(self.player, x, y):
self.handler.onTurn(x, y)
surf = self.f.render(x, y)
self.handler.surface(surf, self.newplayer(),
self.fieldsize)
display.get_surface().blit(surf, (0, 0))
display.update()
if self.after_turn():
return
else:
recv = self.handler.recv_data()
if recv and len(recv) == 2:
x = ord(recv[0])
y = ord(recv[1])
if self.f.turn(self.player, x, y):
self.handler.distribute_data(x, y)
surf = self.f.render(x, y)
self.handler.surface(surf, self.newplayer(),
self.fieldsize)
display.get_surface().blit(surf, (0, 0))
display.update()
if self.after_turn():
return
else:
self.handler.failed_turn()
elif recv == '\x00':
s = smallfont.render('Lost Connection', True,
Color('#FFFFFF'), Color('#000000'))
sw, sh = s.get_size()
display.get_surface().blit(
s, (((self.xsize * self.fieldsize) - sw) / 2,
((self.ysize * self.fieldsize) - sh) / 2 + 18))
display.update()
while event.wait().type != QUIT:
pass
return
else:
sleep(0.1)
ev = event.poll()
def setUp(self):
pygame.display.init()
fastevent.init()
event.clear()
self.assert_(not event.get())
def clear(self):
self._last_press = [None, None]
self._last_press_start = [0, 0]
self._last_press_times = [0, 0]
event.clear()
