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These two blocks of code theoretically should do the same thing just implemented in two different languages. But they produce completely different outputs. The C++ produces the expected results while the ruby output is not even close.

C++

unsigned long MEMO[10][10][21];

long generate(int a, int b, int l){
    if(MEMO[a][b][l] != 0){
        return MEMO[a][b][l];
    }
    if(l==0){
        return 1;
    }
    for(int i =0; i<=9-a-b; i++){
        MEMO[a][b][l] += generate(b, i, l-1);
    }
    return MEMO[a][b][l];
}

int main(){
    unsigned long sum = 0L;
    for(int i=1; i<10; i++){
        sum += generate(0,i,19);
    }
    printf ("Answer: %lu\n",sum);
    return 0;
}

Ruby

MEMO = Array.new(10, Array.new(10, Array.new(21, 0)))

def generate a, b, l
  if MEMO[a][b][l] != 0
    return MEMO[a][b][l]
  end

  if (l==0)
    return 1
  end

  0.upto(9-a-b).each do |i|
    MEMO[a][b][l] += generate(b, i, l-1)
  end

  MEMO[a][b][l]
end

sum = 0
1.upto(9).each do |i|
    sum+= generate(0, i, 19)
end

puts sum

Ruby output: 72900000000000000000

C++ output: 378158756814587

Does anyone know why this might be?

EDIT:

Just in case this isn't clear, 378158756814587 IS the answer I want and it's what I expect the ruby code to produce. It is not integer overflow on the C++ side. 378158756814587 is still the answer when using a unsigned long long.

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Check your compiler's documentation whether unsigned long is a 32-bit or a 64-bit integer. 72900000000000000000 requires 64 bit to represent. See if the answer changes when you use unsigned long long on the C++ side. –  Igor Tandetnik Aug 21 '13 at 23:38
    
No it doesn't change when I use unsigned long long which is expected. The C++ answer is correct. The question is why is the ruby answer wrong. –  kristenmills Aug 21 '13 at 23:51
    
Consider using uint64_t instead of unsigned long as it is evident that you wanted at least 64-bit math and unsigned long could be 32-bit or something else. –  chux Aug 22 '13 at 1:01
    
@Igor Tandetnik It appears 72900000000000000000 requires 66 bits. –  chux Aug 22 '13 at 1:02
1  
@kristen The C++ code works expected on your platform, but not portable to others. My recommendation was how to make it portable, not how to change your results. Sorry if that was not clear. –  chux Aug 22 '13 at 1:08

2 Answers 2

up vote 1 down vote accepted

I figured out the problem. It's an error in my ruby code.

MEMO = Array.new(10, Array.new(10, Array.new(21, 0)))

If you were to print out the object ids of MEMO[0] and MEMO[1] you would find that they are the exact same. What I assumed Array.new(10, Array.new) would do is create an Array with 10 different Array objects inside of it. Instead it creates an Array of 10 references to the same Array object. By changing the first line to something like this:

MEMO = Array.new
10.times do
  MEMO << Array.new
  10.times do
    MEMO[-1] << Array.new(21, 0)
  end
end

or even simpler

MEMO = Array.new(10) {Array.new(10) {Array.new(21) {0}}}

It works perfectly fine.

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It can be done easier - see my answer. –  cyriel Aug 22 '13 at 0:38

I know it's not exactly answer for you question, but... if you replace first line by:

MEMO = Array.new(10) {Array.new(10) {Array.new(21) {0}}}

everything works fine. Both arrays looks the same, and for me there is no difference between them, but it seems that there is some little difference which causes your problem. Any ideas?

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