Ejemplo n.º 1
0
def lab2ind(im, colors=256):
    """convert a Lab image to indexed colors
    :param a: nparray (x,y,n) containing image
    :param colors: int number of colors or predefined Palette
    :ref: http://scikit-learn.org/stable/auto_examples/cluster/plot_color_quantization.html
    """
    #http://stackoverflow.com/questions/10818546/finding-index-of-nearest-point-in-numpy-arrays-of-x-and-y-coordinates
    if isinstance(colors, int):
        p = palette(im, colors)  #
        pal = [Color(c, 'lab') for c in p]
    else:
        pal = colors
        p = [c.lab for c in itertools2.flatten(pal)]
    w, h, d = im.shape
    s = w * h  #number of pixels
    flat = np.reshape(im, (s, d))
    from scipy.spatial import cKDTree as KDTree  #compiled is MUCH faster
    mytree = KDTree(p)
    _, indexes = mytree.query(flat)
    im = indexes.reshape(w, h)
    return im, pal
Ejemplo n.º 2
0
def lab2ind(im,colors=256):
    """convert a Lab image to indexed colors
    :param a: nparray (x,y,n) containing image
    :param colors: int number of colors or predefined Palette
    :ref: http://scikit-learn.org/stable/auto_examples/cluster/plot_color_quantization.html
    """
    #http://stackoverflow.com/questions/10818546/finding-index-of-nearest-point-in-numpy-arrays-of-x-and-y-coordinates
    if isinstance(colors,int):
        p=palette(im,colors) #
        pal=[Color(c,'lab') for c in p]
    else:
        pal=colors
        p=[c.lab for c in itertools2.flatten(pal)]
    w, h, d = im.shape
    s=w*h #number of pixels
    flat = np.reshape(im, (s, d))
    from scipy.spatial import cKDTree as KDTree #compiled is MUCH faster
    mytree = KDTree(p)
    _, indexes = mytree.query(flat)
    im=indexes.reshape(w,h)
    return im,pal
Ejemplo n.º 3
0
    1,
    lambda n:len(math2.sieve(n+1,oneisprime=True)),
    lambda n:True, #all integers are in this sequence.
    desc="pi(n), the number of primes <= n. Sometimes called PrimePi(n)"
)
"""

A018239=A006862.filter(
    math2.is_prime,
    desc='Primorial primes: form product of first k primes and add 1, then reject unless prime.'
)

A007504=A000040.accumulate()
A001223=A000040.pairwise(operator.sub)

A077800=Sequence(itertools2.flatten(math2.twin_primes()))

A001097=A077800.unique()

A001359=Sequence(itertools2.itemgetter(math2.twin_primes(),0),desc="Lesser of twin primes.")

A006512=Sequence(itertools2.itemgetter(math2.twin_primes(),1),desc="Greater of twin primes.")

A037074=Sequence(map(math2.mul,math2.twin_primes()), desc="Numbers that are the product of a pair of twin primes")

def count_10_exp(iterable):
    """generates number of iterable up to 10^n."""
    l=10
    c=0
    for n in iterable:
        if n>l:
Ejemplo n.º 4
0
 def _hash_result(result):
     return math2.num_from_digits(itertools2.flatten(result), 2)
Ejemplo n.º 5
0
A000720=Sequence(
    1,
    lambda n:len(math2.sieve(n+1,oneisprime=True)),
    lambda n:True, #all integers are in this sequence.
    desc="pi(n), the number of primes <= n. Sometimes called PrimePi(n)"
)
"""

A018239=A006862.filter(
    math2.is_prime,
    desc='Primorial primes: form product of first k primes and add 1, then reject unless prime.'
)

A001223=A000040.pairwise(operator.sub)

A077800=Sequence(itertools2.flatten(math2.twin_primes()))

A001097=Sequence(itertools2.unique_sorted(A077800))

A001359=Sequence(itertools2.itemgetter(math2.twin_primes(),0),desc="Lesser of twin primes.")

A006512=Sequence(itertools2.itemgetter(math2.twin_primes(),1),desc="Greater of twin primes.")

A037074=Sequence(six.moves.map(math2.mul,math2.twin_primes()), desc="Numbers that are the product of a pair of twin primes")

def count_10_exp(iterable):
    """generates number of iterable up to 10^n."""
    l=10
    c=0
    for n in iterable:
        if n>l: