def do_fatetell_anim(self):
self.ft_anim = True
self.question_scale = ChainInterp(
SineInterp(0.0, 1.0, 0.1),
CosineInterp(1.0, 0.0, 0.1),
FixedInterp(0.0, 0.2),
SineInterp(0.0, 1.0, 0.1),
CosineInterp(1.0, 0.0, 0.1),
FixedInterp(0.0, 0.2),
SineInterp(0.0, 1.0, 0.1)
)
self.back_scale = ChainInterp(
FixedInterp(0.0, 0.2),
SineInterp(0.0, 1.0, 0.1),
CosineInterp(1.0, 0.0, 0.1),
FixedInterp(0.0, 0.2),
SineInterp(0.0, 1.0, 0.1),
CosineInterp(1.0, 0.0, 0.1),
)
self.ftanim_alpha = ChainInterp(
FixedInterp(1.0, 1.0),
LinearInterp(1.0, 0.0, 2.0),
on_done=self._end_ft_anim,
)
self.ftanim_cardalpha = ChainInterp(
FixedInterp(0.0, 1.0),
FixedInterp(1.0, 0.0),
)
def update(self):
fsz = self.fold_size
n = len(self.control_list)
width = min(fsz*35.0, n*35.0)
step = int((width - 34) / (n - 1)) if n > 1 else 0
for i, c in enumerate(self.control_list):
c.zindex = i
c.x = SineInterp(c.x, 2 + step * i, 0.4)
c.y = SineInterp(c.y, 0, 0.4)
def update(self):
for j, l in enumerate(reversed(self.sprites)):
for i, cs in enumerate(l):
nx, ny = self._to_loc(i, j)
cs.x = SineInterp(cs.x, nx, 0.3)
cs.y = SineInterp(cs.y, ny, 0.3)
self.update_sprite(cs, i, j)
self.dispatch_event('on_update')
def update(self):
csl = self.control_list
if not csl: return
n = len(csl)
w, h, = self.width, self.height
offs = 20
csw = offs * (n-1) + 93
cor_x, cor_y = (w - csw)/2, (h - 125)/2
for i, cs in enumerate(csl):
cs.x = SineInterp(cs.x, i*offs + cor_x, 0.6)
cs.y = SineInterp(cs.y, cor_y, 0.6)
def update(self):
fsz = self.fold_size
n = len(self.control_list)
width = min(fsz * 93.0 + 42, n * 93.0)
step = (width - 91)/(n - 1) if n > 1 else 0
for i, c in enumerate(self.control_list):
c.zindex = i
try:
sel = c.hca_selected
except AttributeError:
sel = c.hca_selected = False
c.x = SineInterp(c.x, 2 + int(step * i), 0.6)
c.y = SineInterp(c.y, 20 if sel else 0, 0.6)
def arrange(self):
csl = self.control_list
if not csl: return
n = len(csl)
w, h, = self.width, self.height
offs = 20
csw = offs * (n-1) + 93
cor_x, cor_y = (w - csw)/2, (h - 125)/2
for i, cs in enumerate(csl):
if isinstance(getinterp(cs, 'x'), AbstractInterp):
cs.x = SineInterp(cs.x, i*offs + cor_x, 0.6)
cs.y = SineInterp(cs.y, cor_y, 0.6)
else:
cs.x, cs.y = i*offs + cor_x, cor_y
def update(self):
fsz = self.fold_size
n = len(self.control_list)
width = min(fsz*93.0, n*93.0)
step = (width - 91)/(n-1) if n > 1 else 0
if step < 30:
step = 30
width = (n-1)*30 + 93
ox = (self.width - width) // 2
for i, c in enumerate(self.control_list):
c.zindex = i
c.x = SineInterp(c.x, 2 + ox + int(step * i), 0.5)
c.y = SineInterp(c.y, 0, 0.5)
def animate_to(self, x, y):
tx = SineInterp(self.x, x, 1)
ty = SineInterp(self.y, y, 1)
pca = self.portcard_area
def _update(dt):
if tx.finished:
pyglet.clock.unschedule(_update)
self.identity_btn.update()
return
pca.x = x
pca.y = y
self.set_position(tx.value, ty.value)
pyglet.clock.schedule_interval_soft(_update, 1 / 60.0)
def __init__(self, x0, y0, x1, y1, *args, **kwargs):
Control.__init__(self, *args, **kwargs)
from math import sqrt, atan2, pi
self.x, self.y = x0, y0
dx, dy = x1 - x0, y1 - y0
scale = sqrt(dx * dx + dy * dy) / L('c-ray').width
self.angle = atan2(dy, dx) / pi * 180
self.scale = SineInterp(0.0, scale, 0.4)
self.alpha = ChainInterp(FixedInterp(1.0, 1),
CosineInterp(1.0, 0.0, 0.5),
on_done=lambda self, desc: self.delete())
def toggle(self, c, t):
s = c.hca_selected = not c.hca_selected
c.y = SineInterp(c.y, 20 if s else 0, t)
self.view.selection_change.notify()
def on_mouse_leave(self, x, y):
self.shine_alpha = SineInterp(1.0, 0.0, 0.3)
def toggle(self, c, t):
s = c.hca_selected = not c.hca_selected
c.y = SineInterp(c.y, 20 if s else 0, t)
self.dispatch_event('on_selection_change')