def init(self): for v in gen_views(4,16,4,min_ndim=2): a = {} self.axis1 = 0 self.axis2 = 1 self.offset = 0 exec(v) yield (a,v) for offset in xrange(1, a[0].shape[0]): self.offset = offset exec(v) yield (a,v) for axis1 in xrange(a[0].ndim): for axis2 in xrange(a[0].ndim): if axis1 == axis2: continue for offset in xrange(1, a[0].shape[axis1]): exec(v) self.offset = offset self.axis1 = axis1 self.axis2 = axis2 yield (a,v)
def init(self): for v in gen_views(4,16,6,min_ndim=2): a = {} exec(v) for offset in xrange(-a[0].shape[0], a[0].shape[0]+1): exec(v) self.offset = offset yield (a,v)
def init(self): for v in gen_views(4, 16, 6, min_ndim=2): a = {} exec(v) for offset in xrange(-a[0].shape[0], a[0].shape[0] + 1): exec(v) self.offset = offset yield (a, v)
def init(self): for v in gen_views(4,8,6,min_ndim=1): a = {} self.axis = 0 exec(v) yield (a,v) for axis in range(1,a[0].ndim): exec(v) self.axis = axis yield (a,v)
def init(self): for v in gen_views(1, 100, 10): a = {} v += "a[0] = a[0][:, np.newaxis];" exec(v) for l in range(len(a[0]) - 1): self.l = l v2 = v + "a[1] = self.array([100], np.%s);" % (a[0].dtype) exec(v2) yield (a, v2)
def init(self): for v in gen_views(1,100,10): a = {} v += "a[0] = a[0][:, np.newaxis];" exec(v) for l in range(len(a[0])-1): self.l = l v2 = v + "a[1] = self.array([100], np.%s);"%(a[0].dtype) exec(v2) yield (a,v2)
def init(self): for v in gen_views(4, 10, 6, dtype="np.bool"): a = {} self.axis = 0 exec(v) yield (a, v) for axis in range(1, a[0].ndim): exec(v) self.axis = axis yield (a, v) for axis in range(1, a[0].ndim): exec(v) self.axis = -axis yield (a, v)
def init(self): for v in gen_views(4,10,6,dtype="np.bool"): a = {} self.axis = 0 exec(v) yield (a,v) for axis in range(1,a[0].ndim): exec(v) self.axis = axis yield (a,v) for axis in range(1,a[0].ndim): exec(v) self.axis = -axis yield (a,v)
def init(self): for v in gen_views(4, 16, 6, min_ndim=2, dtype="np.uint32"): a = {} self.axis1 = 0 self.axis2 = 1 exec(v) yield (a, v) for axis1 in xrange(a[0].ndim): for axis2 in xrange(a[0].ndim): if axis1 == axis2: continue exec(v) self.axis1 = axis1 self.axis2 = axis2 yield (a, v)
def init(self): print("numpy.bitwise_and.reduce is broken, testing it makes no sense.") raise StopIteration() for v in gen_views(4,10,6, dtype="np.uint32"): a = {} self.axis = 0 exec(v) yield (a,v) for axis in range(1,a[0].ndim): exec(v) self.axis = axis yield (a,v) for axis in range(1,a[0].ndim): exec(v) self.axis = -axis yield (a,v)
def init(self): for v in gen_views(4,16,6,min_ndim=2): a = {} self.axis1 = 0 self.axis2 = 1 exec(v) yield (a,v) for axis1 in xrange(a[0].ndim): for axis2 in xrange(a[0].ndim): if axis1 == axis2: continue exec(v) self.axis1 = axis1 self.axis2 = axis2 yield (a,v)
def init(self): for v in gen_views(4,8,4,min_ndim=2,dtype="np.uint32"): a = {} exec(v) self.axis1 = 0 self.axis2 = 1 self.offset = 0 for offset in xrange(-a[0].shape[0], a[0].shape[0]+1): self.offset = offset exec(v) yield (a,v) for offset in xrange(-a[0].shape[0], a[0].shape[0]+1): for axis1 in xrange(a[0].ndim): for axis2 in xrange(a[0].ndim): if axis1 == axis2: continue exec(v) self.offset = offset self.axis1 = axis1 self.axis2 = axis2 yield (a,v)
def init(self): for v in gen_views(4, 8, 4, min_ndim=2, dtype="np.uint32"): a = {} exec(v) self.axis1 = 0 self.axis2 = 1 self.offset = 0 for offset in xrange(-a[0].shape[0], a[0].shape[0] + 1): self.offset = offset exec(v) yield (a, v) for offset in xrange(-a[0].shape[0], a[0].shape[0] + 1): for axis1 in xrange(a[0].ndim): for axis2 in xrange(a[0].ndim): if axis1 == axis2: continue exec(v) self.offset = offset self.axis1 = axis1 self.axis2 = axis2 yield (a, v)
def init(self): for v in gen_views(4, 16, 4, min_ndim=2): a = {} self.axis1 = 0 self.axis2 = 1 self.offset = 0 exec(v) yield (a, v) for offset in xrange(1, a[0].shape[0]): self.offset = offset exec(v) yield (a, v) for axis1 in xrange(a[0].ndim): for axis2 in xrange(a[0].ndim): if axis1 == axis2: continue for offset in xrange(1, a[0].shape[axis1]): exec(v) self.offset = offset self.axis1 = axis1 self.axis2 = axis2 yield (a, v)
def init(self): for v in gen_views(3,64,6): a = {} exec(v) yield (a,v)
def init(self): for v in gen_views(4,16,6,min_ndim=2): a = {} exec(v) yield (a,v)
def init(self): for v in gen_views(7,8,4): a = {} exec(v) yield (a,v)
def init(self): for v in gen_views(4, 10, 6): a = {} self.axis = 0 exec(v) yield (a, v)
def init(self): for v in gen_views(4,10,6): a = {} self.axis = 0 exec(v) yield (a,v)
def init(self): for v in gen_views(1, 2): a = {} exec(v) yield (a, v)
def init(self): for v in gen_views(4, 32, 6, min_ndim=2): a = {} exec(v) yield (a, v)
def init(self): for v in gen_views(4, 32, 6, min_ndim=2, dtype="np.uint32"): a = {} exec(v) yield (a, v)
def init(self): for v in gen_views(4,32,6,min_ndim=2,dtype="np.uint32"): a = {} exec(v) yield (a,v)
def init(self): for v in gen_views(3, 64, 6): a = {} exec(v) yield (a, v)