# Hex to string conversion

assuming i have a string containing hexadecimal digits where every 2 hex digits represents a character in the ASCII set and i need to convert the string containing hex digits back to its character equivalent

i found what i was looking for in this code:-

``````#include <algorithm>
#include <stdexcept>

std::string hex_to_string(const std::string& input)
{
static const char* const lut = "0123456789ABCDEF";
size_t len = input.length();
if (len & 1) throw std::invalid_argument("odd length");

std::string output;
output.reserve(len / 2);
for (size_t i = 0; i < len; i += 2)
{
char a = input[i];
const char* p = std::lower_bound(lut, lut + 16, a);
if (*p != a) throw std::invalid_argument("not a hex digit");

char b = input[i + 1];
const char* q = std::lower_bound(lut, lut + 16, b);
if (*q != b) throw std::invalid_argument("not a hex digit");

output.push_back(((p - lut) << 4) | (q - lut));
}
return output;
}
``````

i am rather new to C++ and i could understand till the part output.push_back(((p - lut) << 4) | (q - lut));
suppose the string contains a hex value of 72 (which represents the char 'r' in ACSII) and just before the push_back operation for the output string, the value of p and lut would be:- p = "789ABCDEF" lut = "0123456789ABCDEF"

but, (p - lut) in this function is yielding 7 as a result. i don't quite understand how this happens.??

-

That's pointer arithmetic.

The value of `p` is not `"7890ABCDEF"`.  Rather that's the content stored at the address held in `p`.  Since `p` is a pointer, it's value is an address.

`lut` points to element 0, `p` points to element 7 in the same array. Therefore `p - lut` is 7.

For any `n`, `p + n` is the same as `&p[n]`, that is, the address of the `n`-th element. Here that fact is used in reverse.

-

consider the following, this prints out 'A' (0x41 is A).

``````std::string str="41";
std::stringstream ss;
ss << std::hex << str;
int i;
ss >> i;
std::cout << static_cast<char>(i);
``````
-
i didn't ask for an alternative way for doing it. i just want to understand how this happens:- p = "789ABCDEF" lut = "0123456789ABCDEF" but, (p - lut) in this function is yielding 7 as a result. i don't quite understand how this happens.?? – Chakravarthy Raghunandan May 4 '12 at 15:13

I ll try to break down what is happening

`````` output.push_back(((p - lut) << 4) | (q - lut));
``````

suppose "72"

we do the difference of address, to get the index

``````p - lut = 7
q - lut = 2
``````

apply 4 bit left shift for left part of the hex code

``````7 << 4 == 0x70
``````

binary or to merge the two

``````0x70 | 0x02 == 0x72
``````
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