def __init__(self, v, umin=None, umax=None, vmin=None, vmax=None):
if umin is None or umax is None or vmin is None or vmax is None:
if not (umin is None and umax is None and vmin is None and vmax is None):
raise ValueError('Either all or none of umin, umax, vmin, vmax must equal None')
# If (u, v) ranges are not given, determine them from the shape of v,
# assuming the grid is centered.
nu, nv = v.shape[-2:]
hnu = nu // 2
hnv = nv // 2
umin = -hnu
umax = hnu - (nu % 2 == 0)
vmin = -hnv
vmax = hnv - (nv % 2 == 0)
self.umin = umin
self.umax = umax
self.vmin = vmin
self.vmax = vmax
i2g = p4a.meshgrid(
r=p4a.r_range(0, 4),
u=p4a.u_range(self.umin, self.umax + 1),
v=p4a.v_range(self.vmin, self.vmax + 1)
)
super(P4FuncArray, self).__init__(v=v, i2g=i2g)
def __init__(self, v, umin=None, umax=None, vmin=None, vmax=None):
if umin is None or umax is None or vmin is None or vmax is None:
if not (umin is None and umax is None and vmin is None and vmax is None):
raise ValueError('Either all or none of umin, umax, vmin, vmax must equal None')
# If (u, v) ranges are not given, determine them from the shape of v,
# assuming the grid is centered.
nu, nv = v.shape[-2:]
hnu = nu // 2
hnv = nv // 2
umin = -hnu
umax = hnu - (nu % 2 == 0)
vmin = -hnv
vmax = hnv - (nv % 2 == 0)
self.umin = umin
self.umax = umax
self.vmin = vmin
self.vmax = vmax
i2g = p4a.meshgrid(
r=p4a.r_range(0, 4),
u=p4a.u_range(self.umin, self.umax + 1),
v=p4a.v_range(self.vmin, self.vmax + 1)
)
super(P4FuncArray, self).__init__(v=v, i2g=i2g)
def tst():
from groupy.garray.p4_array import meshgrid, u_range, v_range, rotation
x = np.random.randn(4, 3, 3)
c = meshgrid(u=u_range(-1, 2), v=v_range(-1, 2))
f = P4FuncArray(v=x)
g = rotation(1, center=(0, 0))
li = f.left_translation_indices(g)
lp = f.left_translation_points(g)
# gfi = f[li]
gfp = f(lp)
gf = g * f
gfi = f.v[li[..., 0], li[..., 1], li[..., 2]]
return x, c, f, li, gf, gfp, gfi
def tst():
from groupy.garray.p4_array import P4Array, meshgrid, u_range, v_range, rotation, translation
x = np.random.randn(4, 3, 3)
c = meshgrid(u=u_range(-1, 2), v=v_range(-1, 2))
f = P4FuncArray(v=x)
g = rotation(1, center=(0, 0))
li = f.left_translation_indices(g)
lp = f.left_translation_points(g)
# gfi = f[li]
gfp = f(lp)
gf = g * f
gfi = f.v[li[..., 0], li[..., 1], li[..., 2]]
return x, c, f, li, gf, gfp, gfi