Esempio n. 1
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 def godowninflames(self, hit_by_plane=None):
     if hit_by_plane and hit_by_plane in self.shotlist:
         hittime = self.shotlist[hit_by_plane]
         if BubPlayer.FrameCounter < hittime + 60:
             del self.shotlist[hit_by_plane]
             scoreboard()
     self.seticon(self.getico())
     self.gen.append(self.fly())
     trail = [(self.x, self.y)] * 7
     ico = images.sprget(PlayerBubbles.explosion[0])
     s = ActiveSprite(ico, self.x + self.ico.w // 2 - CELL,
                      self.y + self.ico.h // 2 - CELL)
     s.gen.append(s.die(PlayerBubbles.explosion))
     self.bubber.emotic(self, 4)
     while True:
         yield None
         if random.random() < 0.37:
             ico = images.sprget(Bubble.exploding_bubbles[0])
             x, y = random.choice(trail)
             x += random.randint(-10, 10)
             y += random.randint(-10, 10)
             s = ActiveSprite(ico, x + 2, y + 2)
             s.gen.append(s.die(Bubble.exploding_bubbles))
         if random.random() < 0.5:
             yield None
             if 90 <= self.angle < 270:
                 lst = [0, 0, 0, 0, -1, -1, -1, 1, 1]
             else:
                 lst = [0, 0, 0, 0, -1, -1, 1, 1, 1]
             self.turn(random.choice(lst))
         trail.pop(0)
         trail.append((self.x, self.y))
Esempio n. 2
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 def __init__(self, pacman, bubber, x, y, dcap):
     ico = GreenAndBlue.normal_bubbles[bubber.pn][1]
     PacSprite.__init__(self, images.sprget(('eyes', 0, 0)), x, y)
     self.bubble = ActiveSprite(images.sprget(ico), x, y)
     self.bubber = bubber
     self.pacman = pacman
     self.ready = 0
     self.gen.append(self.playing())
     self.pacman.pacs.append(self)
     self.dcap = dcap
Esempio n. 3
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 def __init__(self, dragon, target, timeout):
     img = images.sprget(PlayerBubbles.explosion[2])
     ActiveSprite.__init__(self, img, -img.w, 0)
     self.dragon = dragon
     self.target = target
     self.timeout = timeout
     self.gen.append(self.follow())
     self.recenter(PlayerBubbles.explosion[2])
     for imgnum, delay in self.numlist:
         images.sprget(imgnum)  # preload
Esempio n. 4
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def extra_aquarium():
    from mnstrmap import Flood
    from player import BubPlayer
    for i in range(200):
        if 'flood' not in curboard.sprites:  # only one flooding at a time
            break
        yield 0
        if curboard.cleaning_gen_state:
            return
    else:
        return
    curboard.sprites['flood'] = []
    gl = curboard.sprites.setdefault('background', [])
    curboard.holes = True     # so that random PlainBubbles show up anyway
    walls = curboard.sprites['walls']
    seen = {}

    def newsprite(ico, x, y):
        s = gamesrv.Sprite(ico, x, y)
        s.to_back(walls[0])
        gl.append(s)
        return s

    def fishplayers(ymin):
        for d in BubPlayer.DragonList:
            if d not in seen and d.y >= ymin:
                seen[d] = True
                d.become_fish()
                d.bubber.emotic(d, 4)

    waves_icons = [images.sprget(n) for n in Flood.waves]
    fill_icon = images.sprget(Flood.fill)
    waves_sprites = [newsprite(waves_icons[0], x, bheight-CELL)
                     for x in range(2*CELL + HALFCELL, bwidth - 2*CELL, CELL)]
    while waves_sprites[0].y > -fill_icon.h:
        fishplayers(waves_sprites[0].y)
        yield 0
        waves_icons.append(waves_icons.pop(0))
        for s in waves_sprites:
            s.seticon(waves_icons[0])
        fishplayers(waves_sprites[0].y)
        yield 0
        for s in waves_sprites:
            newsprite(fill_icon, s.x, s.y)
        for s in waves_sprites:
            s.step(0, -16)
    for s in waves_sprites:
        s.kill()
    BubPlayer.SuperFish = True
    fishplayers(-sys.maxint)
Esempio n. 5
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 def falling(self):
     bubber = getattr(self, 'bubber', None)
     while not onground(self.x, self.y):
         yield None
         ny = self.y + 3
         if (ny & 15) > 14:
             ny = (ny // 16 + 1) * 16
         elif (ny & 15) < 3:
             ny = (ny // 16) * 16
         nx = self.x
         if nx < 32:
             nx += 1 + (self.vx - 1) * (bubber is not None)
         elif nx > boards.bwidth - 64:
             nx -= 1 + (self.vx - 1) * (bubber is not None)
         elif bubber:
             dx = bubber.wannago(self.dcap)
             if dx and dx != self.dir:
                 self.dir = dx
                 self.resetimages()
                 self.setimages(None)
             if dx and not self.blocked():
                 nx += self.vx * dx
                 self.seticon(images.sprget(self.imgrange1()))
         self.move(nx, ny)
         if self.y >= boards.bheight:
             self.vertical_warp()
     if bubber:
         nextgen = self.playing_monster
     else:
         nextgen = self.walking
     self.gen.append(nextgen())
Esempio n. 6
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 def __init__(self, text):
     RPicture.__init__(self)
     x = 0
     for c in text:
         ico = images.sprget(self.map[c])
         self.put(ico, dx=x)
         x += ico.w + 1
Esempio n. 7
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def screen_bonus():
    pairs = []
    for p in BubPlayer.PlayerList:
        catch = p.stats.get('bonus', {})
        for p2, count in catch.items():
            if count > 1:
                pairs.append((count, p, p2))
    random.shuffle(pairs)
    pairs.sort()
    pairs.reverse()
    seen = {}
    npairs = []
    for count, p, p2 in pairs:
        if p2 not in seen:
            npairs.append((count, p, p2))
            seen[p2] = 1
    pairs = npairs
    del pairs[5:]
    lines = []
    if pairs:
        lines.append([RText('Best Bonus Catchers')])
        for count, p, p2 in pairs:
            pic = RPicture()
            pic.put(p.icons[1, +1], 0)
            pic.put(images.sprget(p2), 44)
            lines.append([pic, RNumber(str(count))])
    return lines
Esempio n. 8
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 def __init__(self, pn, nimages=None, top=None):
     if nimages is None:
         nimages = self.nimages[pn]
     b = boards.curboard
     if top is None:
         top = b.top
     if top == 0:
         testline = b.walls[-1]
         x, y = self.findhole(testline), boards.bheight
         dx, dy = 0, -1
     elif top == 1:
         testline = b.walls[0]
         x, y = self.findhole(testline), -2 * CELL
         dx, dy = 0, 1
     elif top == 2:
         x, y = -2 * CELL, random.randint(2 * CELL,
                                          boards.bheight - 4 * CELL)
         dx, dy = 1, 0
     else:  # top == 3:
         x, y = (boards.bwidth - CELL,
                 random.randint(2 * CELL, boards.bheight - 4 * CELL))
         dx, dy = -1, 0
     Bubble.__init__(self, images.sprget((self.flip, nimages[0])), x, y)
     self.gen.append(
         self.normal_movements(dx=dx, dy=dy, timeout=self.timeout))
     if len(nimages) == 3:
         nimages = [nimages[1], nimages[2], nimages[1], nimages[0]]
     if len(nimages) > 1:
         self.setimages(self.cyclic([(self.flip, n) for n in nimages]))
Esempio n. 9
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    def bgen(self, limittime=60.1):  # 0:60
        self.score = {}
        for t in boards.initsubgame(music, self.displaypoints):
            yield t
        self.lemmap = {}
        for key in localmap:
            self.lemmap[key] = images.sprget(key)

        tc = boards.TimeCounter(limittime)
        self.lemlist = []
        self.lemtotal = 0
        for t in self.frame():
            t = boards.normal_frame()
            yield t
            tc.update(t)
            if tc.time == 0.0:
                break

        tc.restore()
        for s in self.lemlist[:]:
            if s.alive:
                s.kill()
        for s in images.ActiveSprites[:]:
            if isinstance(s, Bubble):
                s.pop()
        for t in boards.result_ranking(self.score.copy(), self.lemtotal):
            yield t
Esempio n. 10
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 def loadicons(self, flip):
     icons = self.transformedicons[flip]
     if flip == 'fish':
         for dir in (-1, 1):
             for key, value in self.FISH_MODE_MAP.items():
                 if value == 'black':
                     flip = ''
                 else:
                     flip, index = value
                     value = GreenAndBlue.fish[self.pn][index]
                     if dir > 0:
                         flip = flip or 'hflip'
                 icons[key, dir] = images.sprget((flip, value))
     else:
         for key, value in self.iconnames.items():
             icons[key] = images.sprget((flip, value))
Esempio n. 11
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 def __init__(self,
              d,
              x,
              y,
              dir,
              special_bubble=None,
              angle=0,
              thrustfactor=None,
              shootthrust=None):
     self.d = d
     pn = d.bubber.pn
     imglist1 = GreenAndBlue.new_bubbles[pn]
     imglist2 = GreenAndBlue.normal_bubbles[pn]
     if angle:
         asin, acos = math.sin(angle), math.cos(angle)
     else:
         asin, acos = 0, 1
     Bubble.__init__(self, images.sprget(imglist1[0]), x + 12 * dir, y)
     self.setimages(self.imgseq(imglist1[1:] + imglist2[2:3], 4))
     if shootthrust is None:
         shootthrust = d.dcap['shootthrust']
     hspeed = dir * shootthrust
     if thrustfactor is not None:
         negative = hspeed < 0
         hspeed = (abs(hspeed) - 4.0) * thrustfactor + 4.0
         if negative:
             hspeed = -hspeed
     self.gen.append(self.throw_bubble(hspeed, special_bubble,
                                       (acos, asin)))
Esempio n. 12
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 def recenter(self, imgnum):
     s = self.target
     if not s.alive or not s.touchable:
         self.kill()
     else:
         img = images.sprget(imgnum)
         self.move(s.x + (s.ico.w - img.w) // 2,
                   s.y + (s.ico.h - img.h) // 2, img)
Esempio n. 13
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 def __init__(self, x0, y0, poplist, dirs=None, countdown=0, flip=''):
     ico = images.sprget((flip, Fire.ground[0]))
     ActiveSprite.__init__(self, ico, x0 * CELL, y0 * CELL)
     if not countdown:
         dirs = []
     self.poplist = poplist
     self.gen.append(self.burning(dirs, countdown))
     self.setimages(self.cyclic([(flip, n) for n in Fire.ground], 1))
Esempio n. 14
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 def crashed(self):
     self.untouchable()
     self.play(snd_crash)
     ico = images.sprget(Monky.decay_weapon[1])
     self.seticon(ico)
     self.step(self.ico.w // 2 - CELL, self.ico.h // 2 - CELL)
     self.gen.append(self.die(Monky.decay_weapon[1:], 4))
     yield None
Esempio n. 15
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def ranking_picture(results, maximum, givepoints):
    if maximum is None:
        maximum = 0
        for n in results.values():
            maximum += n
    maximum = maximum or 1
    ranking = []
    teamrank = [0, 0]
    teamplayers = [[], []]
    for p, n in results.items():
        if p.team != -1:
            teamrank[p.team] += n
            teamplayers[p.team].append((n, p))
        else:
            ranking.append((n, random.random(), p))
    teamplayers[0].sort()
    teamplayers[0].reverse()
    teamplayers[1].sort()
    teamplayers[1].reverse()
    if teamplayers[0] != []:
        ranking.append((teamrank[0], random.random(), teamplayers[0]))
    if teamplayers[1] != []:
        ranking.append((teamrank[1], random.random(), teamplayers[1]))
    ranking.sort()
    ranking.reverse()

    nbpoints = givepoints and ((len(ranking) + 1) // 2) * 10000
    lines = []
    for (n, dummy, bubber), i in zip(ranking, range(len(ranking))):
        pic = RPicture()
        if isinstance(bubber, list):
            fraction = (nbpoints // (10 * len(bubber))) * 10
            total = fraction * len(bubber)
            for n, bub in bubber:
                bub.givepoints(fraction)
            bubber = bubber[0][1]
            pic.put(images.sprget(('hat', bubber.team)))
        else:
            if len(ranking) == 1:
                icon = 0
            elif i == 0:
                icon = 10
            elif i == len(ranking) - 1:
                icon = 9
            else:
                icon = 0
            pic.put(bubber.icons[icon, +1])
            total = 0
        line = []
        if nbpoints > 0:
            line.append(RPoints(bubber, nbpoints))
            bubber.givepoints(nbpoints - total)
            nbpoints -= 10000
        line.append(pic)
        line.append(RNumber(str(int(n * 100.00001 / maximum)) + '%'))
        lines.append(line)
    return lines
Esempio n. 16
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 def getico(self):
     a = self.angle // ANGLE_STEP
     if self.flipped:
         if a:
             a = ANGLE_COUNT - a
         key = 'vflip', ('camel', a, self.bubber.pn)
     else:
         key = 'camel', a, self.bubber.pn
     return images.sprget(key)
Esempio n. 17
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 def __init__(self, arkanoid, bubber, px, py):
     ico = images.sprget(('ark-paddle', bubber.pn))
     ActiveSprite.__init__(self, ico, px - (ico.w - 2 * CELL) // 2,
                           py - (ico.h - 2 * CELL) // 2)
     self.arkanoid = arkanoid
     self.bubber = bubber
     self.timeleft = None
     self.gen.append(self.bounce_down())
     self.gen.append(self.bkgndstuff())
     self.arkanoid.paddles.append(self)
Esempio n. 18
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 def __init__(self, x, y, hspeed, author):
     if hspeed > 0:
         imgs = PlayerBubbles.right_weapon
     else:
         imgs = PlayerBubbles.left_weapon
     ActiveSprite.__init__(self, images.sprget(imgs[-1]), x, y)
     self.setimages(self.cyclic(imgs, 2))
     self.author = author
     self.gen.append(self.moving(hspeed))
     self.play(images.Snd.Shh)
Esempio n. 19
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 def crash(self):
     self.move(self.x - self.dir[0], self.y - self.dir[1],
               self.icons[self.dir+self.dir])
     self.to_back()
     self.play(snd_crash)
     ico = images.sprget(Monky.decay_weapon[1])
     s = ActiveSprite(ico, self.x + self.ico.w//2 - CELL,
                           self.y + self.ico.h//2 - CELL)
     s.gen.append(s.die(Monky.decay_weapon[1:], 4))
     self.stop()
Esempio n. 20
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 def __init__(self, paddle):
     self.paddle = paddle
     imglist1 = GreenAndBlue.new_bubbles[paddle.bubber.pn]
     ActiveSprite.__init__(self, images.sprget(imglist1[0]),
                           paddle.x + paddle.ico.w // 2,
                           paddle.y - Ball.Y_MARGIN)
     self.missed = 0
     self.setimages(self.imgseq(imglist1[1:], 6))
     self.bounceangle(0.2)
     self.gen.append(self.flying())
Esempio n. 21
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def xyiconumber(digits, x, y, pts, lst, width=7):
    if pts >= 10**width:
        pts = 10**width - 1
    for l in range(width):
        ico = images.sprget(digits[pts % 10])
        lst.append((x + (ico.w + 1) * (width - 1 - l), y, ico))
        pts = pts // 10
        if not pts:
            break
    return lst[-1][0]
Esempio n. 22
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def extra_water_flood():
    from mnstrmap import Flood
    from monsters import Monster
    waves_icons = [images.sprget(n) for n in Flood.waves]
    fill_icon = images.sprget(Flood.fill)
    bspr = []
    if 'flood' in curboard.sprites:
        return    # only one flooding at a time
    curboard.sprites['flood'] = bspr
    waves_sprites = [gamesrv.Sprite(waves_icons[0], x, bheight-CELL)
                     for x in range(0, bwidth, CELL)]
    bspr += waves_sprites
    fill_by_line = []
    poplist = [None]
    while waves_sprites[0].y > 0:
        yield 0
        waves_icons.insert(0, waves_icons.pop())
        for s in waves_sprites:
            s.seticon(waves_icons[0])
        yield 0
        sprites = [gamesrv.Sprite(fill_icon, s.x, s.y) for s in waves_sprites]
        bspr += sprites
        fill_by_line.append(sprites)
        for s in waves_sprites:
            s.step(0, -16)
        for s in images.touching(0, waves_sprites[0].y, bwidth, bheight):
            if isinstance(s, Monster):
                s.argh(poplist)
    while 1:
        for i in range(2):
            yield 0
            waves_icons.insert(0, waves_icons.pop())
            for s in waves_sprites:
                s.seticon(waves_icons[0])
        if not fill_by_line:
            break
        for s in fill_by_line.pop():
            s.kill()
        for s in waves_sprites:
            s.step(0, 16)
    for s in waves_sprites:
        s.kill()
    del curboard.sprites['flood']
Esempio n. 23
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 def __init__(self, x, y, poplist):
     ActiveSprite.__init__(self, images.sprget(SpinningBalls.free[-1]), x,
                           y)
     self.poplist = poplist
     self.gen.append(self.dropping())
     imgs = SpinningBalls.free
     if random.random() < 0.5:
         imgs = list(imgs)
         imgs.reverse()
     self.setimages(self.cyclic(imgs, random.randrange(2, 5)))
     self.touchable = 1
Esempio n. 24
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 def vjumping(self, limity, ndir):
     self.setimages(None)
     yield None
     self.dir = -self.dir
     self.seticon(images.sprget(self.imgrange()[0]))
     for i in range(9):
         yield None
     self.dir = -self.dir
     self.seticon(images.sprget(self.imgrange()[0]))
     for i in range(4):
         yield None
     self.dir = ndir
     self.seticon(images.sprget(self.imgrange1()))
     for ny in range(self.y - 4, limity - 4, -4):
         self.move(self.x, ny)
         if ny < -32:
             self.vertical_warp()
         yield None
     self.resetimages()
     self.gen.append(self.default_mode())
Esempio n. 25
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 def to_front(self):
     ActiveSprite.to_front(self)
     if self.dcap['overlayglasses']:
         ico = images.sprget(('glasses', self.dir))
         y = self.y + self.overlayyoffset
         if self.overlaysprite is None or not self.overlaysprite.alive:
             self.overlaysprite = images.ActiveSprite(ico, self.x, y)
         else:
             self.overlaysprite.to_front()
             self.overlaysprite.move(self.x, y, ico)
         self.overlaysprite.gen = [self.overlaysprite.die([None])]
Esempio n. 26
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 def kill(self):
     images.Snd.Pop.play(1.0, pad=0.0)
     images.Snd.Pop.play(1.0, pad=1.0)
     ico = images.sprget(Bubble.exploding_bubbles[0])
     for i in range(11):
         s = ActiveSprite(ico, self.x + random.randrange(self.ico.w) - CELL,
                          self.y + random.randrange(self.ico.h) - CELL)
         s.gen.append(s.die(Bubble.exploding_bubbles))
     try:
         self.arkanoid.paddles.remove(self)
     except ValueError:
         pass
     ActiveSprite.kill(self)
Esempio n. 27
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 def __init__(self, mnstrdef, x=None, y=None, dir=None, in_list=None):
     self.mdef = mnstrdef
     self.ptag = None
     if dir is None: dir = mnstrdef.dir
     if x is None: x = mnstrdef.x * CELL
     if y is None: y = mnstrdef.y * CELL
     self.dir = dir
     ActiveSprite.__init__(self, images.sprget(self.imgrange()[0]), x, y)
     self.gen.append(self.waiting())
     if in_list is None:
         in_list = BubPlayer.MonsterList
     self.in_list = in_list
     self.in_list.append(self)
     self.no_shoot_before = 0
Esempio n. 28
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 def __init__(self, pacman, x, y):
     left = random.random() < 0.5
     if left:
         ico = Ghost.left[0]
     else:
         ico = Ghost.right[0]
     PacSprite.__init__(self, images.sprget(ico), x, y)
     self.pacman = pacman
     self.gen.append(self.waiting())
     if left:
         self.wannadx = -1
     else:
         self.wannadx = 1
     self.resetimages(self.wannadx, self.wannady)
Esempio n. 29
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 def jumpout(self):
     # jumping out of the bubble
     self.seticon(images.sprget(self.mdef.jailed[1]))
     dxy = [(random.random() - 0.5) * 9.0, (random.random() + 0.5) * (-5.0)]
     for n in self.parabolic(dxy):
         yield n
         if dxy[1] >= 2.0:
             break
     if dxy[0] < 0:
         self.dir = -1
     else:
         self.dir = 1
     self.touchable = 1
     self.gen.append(self.falling())
Esempio n. 30
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 def __init__(self, x, y, dir, watercells, poplist, repeat):
     ActiveSprite.__init__(self, images.sprget(Water.top), x, y)
     self.poplist = poplist
     self.take_with_me = []
     self.ping = 0
     self.repeat = repeat
     self.watercells = watercells
     self.touchable = repeat % 3 == 1
     if (x, y, dir) not in watercells:
         watercells[x, y, dir] = self
         if None not in watercells or not watercells[None].alive:
             self.in_charge()
     else:
         watercells[x, y, dir].join(self)