# manually printing a N-byte integer

What is a scalable algorithm to print an N-binary-digit integer manually whose value does not fit in `long long`. I know `printf` and friends, along with `<iostream>` (which most likely piggy-backs on `<cstdio>` have this builtin for standard types, but I'd like to do it for an integer composed of N bytes.

I have thought about this and googled a bit, but it always comes down to using a pre-existing bigint libirary like GMP (a codebase I am not at all familiar with) or "use printf" or the most helpful "this is difficult".

The integer is basically:

``````template<size_t N>
class Integer{
...
private:
int8_t first;
uint8_t rest[N-1];
}
``````

so reinterpreting an `Integer<4>`'s bytes would get you an `int32_t`. I'd like to scale this to N>8. Efficiency is not really my concern at the moment. Neither is endianness (this is for x86).

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I take it you need to print the number in decimal? –  NPE Jun 14 '12 at 15:28
@aix yes decimal would be the idea. –  rubenvb Jun 14 '12 at 16:14
My advice would be to use a bigint library anyway; those libraries are debugged and proven. How will you find flaws in your own coding ? It is not as if you are going to verify the results with pen & paper or in Excel. –  tomdemuyt Jun 14 '12 at 17:25
@tomdemuyt, generating test cases of both decimal and hex representation of big numbers is trivial in Python for example. –  Mark Ransom Jun 14 '12 at 19:36

Step 1: Define a lookup table containing powers of two in string format:

``````const char * const powers_of_two[] = {"1", "2", "4", "8", "16", "32", "64", ...};
``````

Step 2: Write a function that adds two numbers in string format.

Step 3: Iterate through the bits in your number and add all the strings corresponding to the 1 bits.

Step 4: Print the result.

I used this approach myself for printing very large floating point numbers, and it worked fine for me.

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Very clever Fred! –  Mooing Duck Jun 14 '12 at 17:51
You don't even need the table of powers of 2: just add the number to itself to multiply by 2; add 1 to the number if a bit is 1; repeat ==> profit –  anatolyg Jun 14 '12 at 18:20
Note that it only works for positive numbers, although that's easily fixed. Brilliant. –  Mark Ransom Jun 14 '12 at 19:37
A table of powers of two would be unwieldy to keep track of for arbitrarily large `N`... –  rubenvb Jun 16 '12 at 8:58

A basic recursive algorithm for outputting a decimal number:

``````void negate(Integer & number); // modifies the input
int divide_by_10(Integer & number); // modifies the input
bool is_zero(const Integer & number);

void output_number(Integer number)
{
if (number.first < 0)
{
cout << "-";
negate(number);
}
if (is_zero(number))
{
cout << "0";
return;
}
int remainder = divide_by_10(number);
if (!is_zero(number))
output_number(number);
char digit[] = {'0', 0};
digit[0] += remainder;
cout << digit;
}
``````

I've left the helper functions undefined for now, perhaps this is enough.

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Thanks. I don't have any arithmetic (I wanted to be able to see the result first), so I'll try @Fred's suggestion first. I can later compare the performance of both approaches. –  rubenvb Jun 15 '12 at 12:35