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  1. What is the fastest (or most "Pythonic") way to convert

    x = [False, False, True, True]

    into 12? (If there is such a way.)

  2. What if x were instead a numpy.array of bools? Is there a special command for that?

I have a large m-by-n array of booleans, where each n-element row represents a single low-dimensional hash of a high-dimensional feature vector. (In the example above, n = 4.) I would like to know the answer in order to compress my data as much as possible. Thank you.

Edit: Thank you for the responses! Using the following test code,

t = 0
for iter in range(500):
    B = scipy.signbit(scipy.randn(1000,20))
    for b in B:
        t0 = time.clock()
        # test code here
        t1 = time.clock()
        t += (t1-t0)
print t

...here were the runtimes on my Thinkpad laptop:

Of course, I welcome any independent tests that may confirm or refute my data!

Edit: In my answer below, changing int(j) to simply j still works, but runs six times as slow! Then perhaps the other answers would become faster if the bool was casted using int. But I'm too lazy to test everything again.

Edit: liori posted results of independent tests here.

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What's the rule to convert the [False, False, True, True] into 12? –  user334856 Oct 31 '10 at 23:34
x[0] is the LSB, and x[-1] is the MSB. –  Steve Tjoa Oct 31 '10 at 23:35
Please use timeit for testing, it is much less prone to errors. My times: pastebin.com/x1FEP9gY –  liori Nov 1 '10 at 2:16
Thanks for the tests! I don't doubt them at all. I have added them to the post. –  Steve Tjoa Nov 1 '10 at 2:31
Just something to note - in liori's test, sven2() fails miserably because we are using 1000-bit numbers. Check the results (as in the numbers returned by each function) and you'll see that its result is wrong for that large of a number. –  Justin Peel Nov 1 '10 at 5:14

10 Answers 10

up vote 8 down vote accepted

Taking various ideas from various other answers, here's another way to do it:

sum(1<<i for i, b in enumerate(x) if b)

It is quite fast in my tests - right up with the numpy method for large number of bits even though it overflows like crazy. I used liori's testing module for testing. Steve's method, with the change I suggested, is just barely faster. However, if a lot of these sorts of conversions need to be done at a time (and with not too many bits), I'm betting that numpy will be faster.

share|improve this answer
sum(b<<i for i, b in enumerate(x)) –  KennyTM Nov 1 '10 at 6:52
@KennyTM. Clever but I profiled it the original is about 20% faster. It's the fastest by far. –  aaronasterling Nov 1 '10 at 7:08

Most Pythonic might be this:

sum(2**i*b for i, b in enumerate(x))

It's hard to tell if it is also the fastest.

In numpy I would use


but this won't be faster for small arrays x, and it won't work for big arrays x since machine size integers are used instead of Pythons arbitrary precision ints.

share|improve this answer
Thanks! For some array sizes, the second solution worked quite well, but for others it didn't. –  Steve Tjoa Nov 1 '10 at 0:38
@Steve - The other advantage of the numpy solution is that you can avoid iterating through each row. Using the "B" array from your test code above: numpy.sum(2**numpy.arange(B.shape[1])*B, axis=1). This should give a large speedup compared with iterating over each row in the array... The full 500x loop executes in less than a second on my machine... –  Joe Kington Nov 1 '10 at 2:19
Since numpy doesn't handle large integers the same as Python, you have to be careful with really large numbers. If there will larger numbers, you can get a little more out of this method by doing dtype=numpy.longlong in arange(). Also, there is a very, very small speed-up by using the sum method of the resultant numpy array rather than using numpy.sum. –  Justin Peel Nov 1 '10 at 5:17
reduce(lambda a,b:2*a+b, reversed(x))

You could get rid of reversed() if you had least significant bit at the end of array. This works with numpy.array too, and doesn't need enumerate(). From my tests seem to be faster too: no need to use exponentiation.

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Thank you for the elegant solution! I was blown away when I first saw it. Unfortunately, it seems to run the slowest, with or without reversed. Might anyone know why? –  Steve Tjoa Nov 1 '10 at 0:33
@Steve: on my computer it is faster than sum+exponentiation. Funny thing... how long vectors do you use? Do you test performance using timeit? –  liori Nov 1 '10 at 1:27

My initial attempt, just for reference:

def bool2int(x):
    y = 0
    for i,j in enumerate(x):
        if j: y += int(j)<<i
    return y
share|improve this answer
Wait, this is interesting: changing int(j) to simply j still works, but runs six times as slow! –  Steve Tjoa Nov 1 '10 at 0:46
If you just change int(j) to 1, yours is the fastest. –  Justin Peel Nov 1 '10 at 5:07
Wait... duh! Thank you! I'm stupid. –  Steve Tjoa Nov 1 '10 at 12:36

An elegant, pythonic, always-working way is this:

def powers(x):
    """yield powers of x, starting from x**0 forever"""
    power = 1
    while True:
        yield power
        power *= x

def bools_to_int(bools):
    # in Python 2, use itertools.izip!
    return sum(int(place) * place_weight for place_weight, place in 
               zip(powers(2), bools))

Note that you can get rid of powers (by enumerate and squaring in the comprehension, as other answers do) - but maybe it's clearer this way.

share|improve this answer
Your answer doesn't give the same answer as the others. Substituting bools for reversed(bools) fixes it. –  Justin Peel Nov 1 '10 at 5:07
@Justin Peel: Come again? I already noticed that shortly after answering and added reversed... –  delnan Nov 1 '10 at 12:53
try the code that you have here with the example given by the OP. I get 3 as the answer when it should be 12. You didn't need to put the reversed in. –  Justin Peel Nov 1 '10 at 15:55
bashes head against wall @Justin: Yes, you're right and now I realize why. –  delnan Nov 1 '10 at 16:23

Something like this?

>>> x = [False, False, True, True]
>>> sum([int(y[1])*2**y[0] for y in enumerate(x)])

You can convert a numpy array to a regular list using a list() cast.

>>> a = numpy.array([1,2,3,4])
>>> a
array([1, 2, 3, 4])
>>> list(a)
[1, 2, 3, 4]
share|improve this answer
0**0 is 1, so you get an off-by-one error if the first element is False. –  liori Oct 31 '10 at 23:56
@liori, I don't believe that applies to my code, since I don't actually do that anywhere? Still interesting, though. Didn't know that. –  Emil H Nov 1 '10 at 1:22
int(False)*2==0. First index given by enumerate is 0. –  liori Nov 1 '10 at 1:24
@liori, Yes, but I don't raise the value of that to any power. My code does i * 2^j. For the first bit that is i * 2^0 = i*1 = i –  Emil H Nov 1 '10 at 1:26
Ok, shame on me. I messed up precedence rules :-). –  liori Nov 1 '10 at 1:57

If you have a matrix, you probably want to do it like this:

#precompute powers of two
vals = 2.**np.arange(20)

B = ....
compressed = np.dot(B, vals) # matrix multiplication.

np.dot should be faster than any loop in Python. Much faster.

share|improve this answer

I was trying ipython %timeit and it seems that doing the following is faster:

y = 0
for i,j in enumerate(x):
    if j: y += 1<<i

In addition, if your boolean vector is a numpy.ndarray, converting it to python array x.tolist() and running the same seems to work faster in this case. It's all marginal, but consistent as well as, at these speeds, marginals add up well.

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If you're willing to add another extension to the mix, I added pack() and unpack() to the development branch of gmpy. My tests show it may be 2x or 3x faster.

>>> import gmpy2
>>> gmpy2.pack([0,0,1,1],1)
>>> gmpy2.unpack(12,1)
[mpz(0), mpz(0), mpz(1), mpz(1)]

Disclaimer: The development version is called gmpy2 and can co-exist with the stable version. It is still in alpha phase but will hopefully become beta in a few weeks. You need to have both GMP and MPFR libraries installed. The source is available at http://code.google.com/p/gmpy/source/checkout

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numpy has the packbits function for this. It also supports operations along axes:

In [3]: B = scipy.signbit(scipy.randn(1000,8)).astype("i1")

In [3]: B[0]
Out[3]: array([0, 1, 0, 0, 0, 1, 0, 0], dtype=int8)

In [4]: np.packbits(B[0])
Out[4]: array([68], dtype=uint8)

In [5]: %timeit np.packbits(B, axis=1)
10000 loops, best of 3: 37 µs per loop

it works for int8 sizes for larger sizes you have to shift and or

In [8]: x # multiple of 8
Out[8]: array([1, 0, 0, 0, 0, 0, 0, 1, 1, 1, 0, 1, 0, 1, 0, 1], dtype=int8)

In [9]: r = np.packbits(x).astype(np.int32); r
Out[9]: array([171, 129], dtype=uint8)

In [10]: r[0] << 8 | r[1] 
Out[10]: 33237

In [11]: sum(1<<i for i, b in enumerate(x[::-1]) if b)
Out[11]: 33237

if x is no multiple of 8 you have to pad in zeros

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