# C++ - How to print (using cout) the way a number is stored in memory?

I'm following a college course about operating systems and we're learning how to convert from binary to hexadecimal, decimal to hexadecimal, etc. and today we just learned how signed/unsigned numbers are stored in memory using the two's complement (~number + 1).

We have a couple of exercices to do on paper and I would like to be able to verify my answers before submitting my work to the teacher. I wrote a C++ program for the first few exercices but now I'm stuck as to how I could verify my answer with the following problem:

``````char a, b;

short c;
a = -58;
c = -315;

b = a >> 3;
``````

and we need to show the binary representation in memory of `a`, `b` and `c`.

I've done it on paper and it gives me the following results (all the binary representations in memory of the numbers after the two's complement):

a = 00111010 (it's a char, so 1 byte)

b = 00001000 (it's a char, so 1 byte)

c = 11111110 11000101 (it's a short, so 2 bytes)

Is there a way to verify my answer? Is there a standard way in C++ to show the binary representation in memory of a number, or do I have to code each step myself (calculate the two's complement and then convert to binary)? I know the latter wouldn't take so long but I'm curious as to if there is a standard way to do so.

Thank you for your help (I couldn't find a question with a similar topic with the keywords I know so I am sorry if this is some sort of duplicate).

Also, I didn't really know which tags to pick to feel free to change them accordingly.

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do you understand hexadecimal representation? if you do, you can print the hex representation (using the `std::hex`) manipulator - I'll leave it as an exercise for you to work out the rest... –  Nim Sep 8 '11 at 14:34
You emphasize "in memory" a lot, but I hope they're not making you deal with endian issues. –  Mark Ransom Sep 8 '11 at 14:34
Do you know have any idea about what endianness is? If you do, do you care about it for this exercise? The answer to these questions may influence the answer to your question. –  R. Martinho Fernandes Sep 8 '11 at 14:35
Depending on your IDE, if you are just looking to verify correctness of your hand-written solution and not actually writing a program to display something useful, you could use something like Visual Studio's memory viewer to view the exact contents of memory. –  Kiley Naro Sep 8 '11 at 14:36
The Windows calculator does that for you. If you're not on Windows, I'm sure other operating systems come with such a thing, too. –  sbi Sep 8 '11 at 14:39
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The easiest way is probably to create an `std::bitset` representing the value, then stream that to `cout`.

``````#include <bitset>
...

char a = -58;
std::bitset<8> x(a);
std::cout << x;

short c = -315;
std::bitset<16> y(c);
std::cout << y;
``````
-
Ah, I keep forgetting about `std::bitset`! `+1` from me. –  sbi Sep 8 '11 at 14:38
Excuse my ignorance, but will this only show the binary representation of a number (e.g. 8 would be 00001000) or its memory representation (e.g. how -8 would be stored by taking care of the sign bit and using the "two's complement")? –  Jesse Emond Sep 8 '11 at 14:41
@Jesse: `bitset`'s constructor argument is interpreted as an unsigned value, which works out the same as two's complement. Strictly speaking, C++ does not guarantee two's complement arithmetic, and also the `-58 >> 3` operation in your example is undefined. –  Potatoswatter Sep 8 '11 at 14:46

If you want to display the bit representation of any object, not just an integer, remember to reinterpret as a char array first, then you can print the contents of that array, as hex, or even as binary (via bitset):

``````#include <iostream>
#include <bitset>
#include <climits>

template<typename T>
void show_binrep(const T& a)
{
const char* beg = reinterpret_cast<const char*>(&a);
const char* end = beg + sizeof(a);
while(beg != end)
std::cout << std::bitset<CHAR_BIT>(*beg++) << ' ';
std::cout << '\n';
}
int main()
{
char a, b;
short c;
a = -58;
c = -315;
b = a >> 3;
show_binrep(a);
show_binrep(b);
show_binrep(c);
float f = 3.14;
show_binrep(f);
}
``````

Note that most common systems are little-endian, so the output of `show_binrep(c)` is not the 1111111 011000101 you expect, because that's not how it's stored in memory. If you're looking for value representation in binary, then a simple `cout << bitset<16>(c)` works.

-

Use std::bitset to cast. No temporary variables, no loops, no functions, no macros.

``````cout << "a = " << (bitset<8>) a << endl;     // prints a = 11000110 for a = -58
cout << "b = " << (bitset<8>) b << endl;     // prints b = 11111000 for b = a >> 3;
cout << "c = " << (bitset<16>) c << endl;    // prints c = 1111111011000101 for c = -315
``````
-
C-style casts are bad; `bitset<8>(a)`, etc. are much clearer and safer. –  musiphil Nov 9 '13 at 23:34

Is there a standard way in C++ to show the binary representation in memory of a number [...]?

No. There's no `std::bin`, like `std::hex` or `std::dec`, but it's not hard to output a number binary yourself:

You output the left-most bit by masking all the others, left-shift, and repeat that for all the bits you have.

(The number of bits in a type is `sizeof(T) * CHAR_BITS`.)

-

Similar to what is already posted, just using bit-shift and mask to get the bit; usable for any type, being a template (only not sure if there is a standard way to get number of bits in 1 byte, I used 8 here).

``````#include<iostream>

template<typename T>
void printBin(const T& t){
size_t nBytes=sizeof(T);
char* rawPtr((char*)(&t));
for(size_t byte=0; byte<nBytes; byte++){
for(size_t bit=0; bit<CHAR_BIT; bit++){
std::cout<<(((rawPtr[byte])>>bit)&1);
}
}
std::cout<<std::endl;
};

int main(void){
for(int i=0; i<50; i++){
std::cout<<i<<": ";
printBin(i);
}
}
``````
-
The standard way to get the number of bits per byte is the macro `CHAR_BIT`. –  R. Martinho Fernandes Sep 8 '11 at 14:51

Is there a standard way in C++ to show the binary representation in memory of a number [...]?

A number of ways. I prefer bit masks because of my background in hw control and monitoring.

`````` // forward
std::string binDigiSpaceL(std::string s);
std::string binDigiSpaceL(std::bitset<32> bs);
std::string showBin(uint32_t k);

int main (int argc, char* argv[] )
{
uint32_t  oneCount = 0;
uint32_t zeroCount = 0;

std::stringstream ss;
if(argc == 2)  ss << argv[1];
else           ss << "1431677610";

uint32_t k = 0;
ss >> k;  // formatted extraction from ss

uint32_t bitMask = 1; // lsb first

for (uint32_t i = 0; i < 32; i++)
{
if (k & bitMask) { oneCount += 1; }
else             { zeroCount += 1; }
bitMask <<= 1;   // work towards msb
}

std::bitset<32> bs(k);

std::cout << "\n one's: "   << oneCount
<< "\nzero's: "   << zeroCount
<< "\n   hex: 0x" << std::hex << k
<< "\n   dec: "   << std::dec << k
<< "\nshowBin: "  << binDigiSpaceL(showBin(k))
<< "\n bitset: "  << binDigiSpaceL(bs)
<< std::endl;

return 0;
} // main

// always fun to improve readability
std::string binDigiSpaceL(std::string s)
{
// insert comma's from right (at implied decimal point) to left
size_t sSize = s.size();

if (sSize > 4)
for (int indx = (sSize - 4); indx > 0; indx -= 4)
s.insert(indx, 1, ' ');

return(s);
}

std::string binDigiSpaceL(std::bitset<32> bs)
{
std::stringstream ss;
ss << bs;
return (binDigiSpaceL(ss.str()));
}

std::string showBin(uint32_t k)
{
std::string retVal;

// ms bit------------v---- msbit first

for (uint32_t i = 0; i < 32; i++)
{
if (k & bitMask) { retVal += '1'; }
else             { retVal += '0'; }
bitMask >>= 1;   // toward lsb
}
return(retVal);
}
``````
-
``````std::cout << std::hex << val << std::endl;
Moderator Note I tried to purge antagonistic or otherwise non constructive comments under this answer selectively, and I ended up with a very broken conversation. All comments were purged. Please keep comments professional, constructive and most of all on topic. If the OP wanted to remove this, the OP would have removed it by now. If you disagree with this answer, then vote. If you can improve this answer, edit. `</argument>`. Really, we're adults, yes? I almost checked the ages on all that commented here to make sure everyone was over 13. –  Tim Post Sep 8 '11 at 15:26