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I need to make an algorithm that will find the smallest number divisible by 4 whose sum of digits is equal to a given number x.

Thanks for the ideas!

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closed as off-topic by Wooble, yoozer8, brasofilo, Daniel Fischer, Andrew Barber Jul 20 '13 at 1:17

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What have you tried so far? Any ideas how you might do that? – scott_fakename Jul 18 '13 at 2:38
up vote 3 down vote accepted

If the specified sum of digits x is small, eg less than 16, it makes sense to compute a couple of multiples of two, where the units digit of one is the largest even digit less than x, and the other number uses the next smaller even digit. One or the other of those two numbers will be a multiple of four. For larger values of x, it's easy to show that the result must be of the form m9...88 where all the digits not shown are 9's and digit m is equal to (x - 16)%9. The performance of this method is approximately O(1) if we regard finding 10ᵏ as O(1); or, it is O(ln x) if we regard finding 10ᵏ as O(ln k). Note, k=(x-16)/9]. By contrast, the method mentioned in the other answer is O(10ᵏ); that is, the other answer runs in time exponential in x, while this one runs in time logarithmic in x.

def num4sum(x):
    if x<2: return 100
    if x<16:
        for d0 in (8,6,4,2,0):
            if d0 <=x:
        n = d0 + 10*(x-d0)
        if n %4 == 0: return n
        return n+18    # Note, 18 = +20 -2

    numberOfNines = (x-16)//9
    lead = (x - 16)%9
    decade = 10**numberOfNines
    return 100*(decade*lead + decade-1)+88

for i in range(5):
    print [num4sum(x) for x in range(1+9*i, 10+9*i)]

Here is the output of the program, with the first line showing results for 1 to 9, the second line 10 to 18, the third line 19 to 27, etc.

[100, 20, 12, 4, 32, 24, 16, 8, 36]
[28, 56, 48, 76, 68, 96, 88, 188, 288]
[388, 488, 588, 688, 788, 888, 988, 1988, 2988]
[3988, 4988, 5988, 6988, 7988, 8988, 9988, 19988, 29988]
[39988, 49988, 59988, 69988, 79988, 89988, 99988, 199988, 299988]
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Why not use 88, rather than 196? Similarly, 88 seems a better choice for the last two digits for larger numbers. – Patricia Shanahan Jul 18 '13 at 4:23
@PatriciaShanahan, you are right; I fixed code per advice – jwpat7 Jul 18 '13 at 4:27
Nice. He'll get an 'A+.' – Dave Galvin Jul 18 '13 at 9:14

A few pointers to put you on your way:

  • If the number formed by the last 2 digits of a number is divisible by 4, then that number in its entirety is divisible by 4.
  • You will want to keep track of the sum of digit values of the last 2 digits. However, some combinations of last 2 digits will never be used. For examples: both 08, and 44 are divisible by 4 and the sum of the digits for both numbers is 8. Any number that could end in 44, could also end in 08 which would make it lower. Therefore, you would never have a number end in 44.
  • In order to minimize the number, you need to maximize the value of the digits in the lower place value.

With these tips, you should be able to come up with a very fast algorithm. If you have a very difficult time coming up with an algorithm, comment, but make sure you attempt it first.

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X = the target sum
N = the number of digits of the number we're looking for

Note that 100 is divisible by 4. This implies that only the last 2 digits of a number determine divisibility by 4.

First, let's determine N. The maximum sum you can get from, for example, 5 digits, is 9*5 (for 99999) (this is obviously not divisible by 4, but it's a starting point). So, N >= ceil(X/9). We'll start with N = ceil(X/9) and work our way up from there.

Next, try to determine the last 2 digits. The goal is to, firstly, generate the maximum sum for these two digits such that X can be obtained with the remaining digits and, secondly, minimize the first of the two digits. Obviously the maximum sum for the last two digits will minimize the rest of the digits. Keep in mind that the resulting 2 digits must be divisible by 4. The first can be done following similar logic to the above paragraph - this equation must be satisfied: (the second is trivial)

9 * the number of remaining digits < X - the sum of the last 2 digits
  or, equivalently:
9 * (Y-2) < X - the sum of the last 2 digits

If this equation cannot be satisfied (which will only happen if X is a multiple of 9, minus i, where i is 0, 1 or 2 - I'll leave it to you to argue out, hint - 96 is divisible by 4), we try the next value for N - this will only happen a maximum of once.

Now we have the last 2 digits. From here, we, either:

  • From the right, try to generate the maximum digit for each position, or
  • From the left, try to generate the minimum digit for each position

such that the remaining digits satisfies an equation almost identical to the above.

And we're done.

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# python3 code
def smallest(X):
    if X == 1: return 100
    elif X < 16:
        for i in range(0,25):
            if X == sum([int(j) for j in str(i*4)]): return i*4
    else: return int(str((X-16)%9)+'9'*((X-16)//9)+'88')
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This doesn't work. smallest(3) gives 2222, which clearly isn't the smallest. – jh314 Jul 18 '13 at 14:30
I just copy pasted your code into ideone, and I got this: ideone.com/KHLxrd – jh314 Jul 18 '13 at 15:18
check if you implemented all right. because it gives 12 for me. this is the output of [0..30]: 0 100 20 12 4 32 24 16 8 36 28 56 48 76 68 96 88 188 288 388 488 588 688 788 888 988 1988 2988 3988 4988 5988 – rnbcoder Jul 18 '13 at 15:18
oops. looks like python2 does not like same index variable for inner loops. fixed it ! check now. and plz dont forget to upvote again. :P – rnbcoder Jul 18 '13 at 15:27

You can go through the multiples of 4 staring from 0, and check if the sum of digits is equal to x.

Something like this:

n = 0
while sumDigitsNotMatch(n, x):
    n += 4

where sumDigitsNotMatch checks if the sum of the digits of n is equal to x.

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This is O(n log n) – Dave Galvin Jul 18 '13 at 9:17
@DaveGalvin, no, it's O(10ᵏ) times the complexity of sumDigitsNotMatch(), where k is about x/9. For example, when x=99, and answer is 299999999988, it tries about 75 billion numbers, ie 0.75 * 10¹¹ numbers. – jwpat7 Jul 18 '13 at 14:10
@jwpat7 aha, It's r*log(r) where r is the answer, not the input. We go about r times through the loop, doing about log(r) work each time. – Dave Galvin Jul 18 '13 at 14:26

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