# Summing Large Numbers

I have being doing some problems on the Project Euler website and have come across a problem. The Question asks,"Work out the first ten digits of the sum of the following one-hundred 50-digit numbers." I am guessing there is some mathematical way to solve this but I was just wondering how numbers this big are summed? I store the number as a string and convert each digit to a long but the number is so large that the sum does not work.

Is there a way to hold very large numbers as a variable (that is not a string)? I do not want the code to the problem as I want to solve that for myself.

Thanks.

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have you tried an array? –  Thomas Jones May 8 '12 at 5:07
i used a `std::deque <uint8_t>` in my implementation of large integers –  calccrypto May 8 '12 at 5:10
I didn't try one of those but would it work to sum the number? It could hold them but I need to sum them. –  Jake Runzer May 8 '12 at 5:14
There are several C++ libraries for big integer arithmetic, like here and here. –  smocking May 8 '12 at 5:16
My guess is think about how you do sums in the first years of school. Lining the numbers up and adding one digit at a time. –  dutt May 8 '12 at 5:29
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I was just wondering how numbers this big are summed?

You can use an array:

long LargeNumber[5] = { < first_10_digits>, < next_10_digits>....< last_10_digits> };

Now you can calculate the sum of 2 large numbers:

``````  long tempSum = 0;
int carry = 0;
long sum[5] = {0,0,0,0,0};

for(int i = 4; i >= 0; i--)
{
tempSum = largeNum1[i] + largeNum2[i] + carry; //sum of 10 digits

if( i == 0)
sum[i] = tempSum; //No carry in case of most significant digit
else
sum[i] = tempSum % 1000000000; //Extra digits to be 'carried over'

carry = tempSum/1000000000;
}

for( int i = 0; i < 5; i++ )
cout<<setw(10)<<setfill('0')<<sum[i]<<"\n"; //Pad with '0' on the left if needed
``````

Is there a way to hold very large numbers as a variable (that is not a string)?

There's no primitive for this, you can use any data structure (arrays/queues/linkedlist) and handle it suitably

I am guessing there is some mathematical way to solve this

Of course! But,

I do not want the code to the problem as I want to solve that for myself.

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When I solved this problem (using python) I kept only the first 10-15 of each number and threw away the rest. –  Reina Abolofia May 8 '12 at 20:13

You may store the digits in an array. To save space and increase performance in the operations, store the digits of the number in base 10^9. so a number 182983198432847829347802092190 will be represented as the following in the array

arr[0]=2092190 arr[1]=78293478 arr[2]=19843284 arr[3]=182983

just for the sake of clarity, the number is represented as summation of arr[i]*(10^9i) now start with i=0 and start adding the numbers the way you learnt as a kid.

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``````#include<iostream>
#include<fstream>
#include<sstream>
using namespace std;

struct grid{
int num[50];
};

int main()
{
struct grid obj[100];
char ch;
ifstream myfile ("numbers.txt");
if (myfile.is_open())
{
for(int r=0; r<100; r++)
{
for(int c=0; c<50; c++)
{
myfile >> ch;
obj[r].num[c] = ch - '0';
}
}
myfile.close();
int result[50],temp_sum = 0;
for (int c = 49; c>=0; c--)
{
for (int r=0; r<100; r++)
{
temp_sum += obj[r].num[c];
}
result[c] = temp_sum%10;
temp_sum = temp_sum/10;
}
string temp;
ostringstream convert;
convert << temp_sum;
temp = convert.str();
cout << temp_sum;
for(unsigned int count = 0; count < (10 - temp.length()); count++)
{
cout << result[count];
}
cout << endl;
}
return 0;
}
``````
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