Integer to hex string in C++

Question

How do I convert an integer to a hex string in C++?

I can find some ways to do it, but they mostly seem targeted towards C. It doesn't seem there's a native way to do it in C++. It is a pretty simple problem though; I've got an int which I'd like to convert to a hex string for later printing.

score 314 · Accepted Answer · edited Aug 28 '13 at 14:40

314

Use <iomanip>'s std::hex. If you print, just send it to std::cout, if not, then use std::stringstream

std::stringstream stream;
stream << std::hex << your_int;
std::string result( stream.str() );

You can prepend the first << with << "0x" or whatever you like if you wish.

Other manips of interest are std::oct (octal) and std::dec (back to decimal).

One problem you may encounter is the fact that this produces the exact amount of digits needed to represent it. You may use setfill and setw this to circumvent the problem:

stream << std::setfill ('0') << std::setw(sizeof(your_type)*2) 
       << std::hex << your_int;

So finally, I'd suggest such a function:

template< typename T >
std::string int_to_hex( T i )
{
  std::stringstream stream;
  stream << "0x" 
         << std::setfill ('0') << std::setw(sizeof(T)*2) 
         << std::hex << i;
  return stream.str();
}

edited Aug 28 '13 at 14:40

answered Feb 24 '11 at 05:30

Kornel Kisielewicz

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`sizeof(your_type)*2` is a bit ugly; `numeric_limits::digits/4` is cleaner. – MSalters Feb 24 '11 at 08:58
8

@MSalters - quite on the contrary. Test your suggestion on the `int` type ;) – Kornel Kisielewicz Feb 24 '11 at 10:13
@Kornel, great answer, but why template it? To support `long int`? – Alan Turing Dec 25 '12 at 22:31
2

@LexFridman, to emit exactly the amount of hex digits as needed. Why emit 8 digits if the type is a uint8_t? – Kornel Kisielewicz Dec 31 '12 at 05:41
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`std::showbase` will show a `0x` prefix... – quaylar Nov 11 '13 at 15:40
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WARNING: this will not work for single byte because char is always threated as char – ov7a Feb 15 '16 at 09:36
9

You also require #include – David Gausmann Feb 21 '18 at 15:57
3

If I am formatting multiple ints, It seems that `std::setw` needs to be output to the stream for every int, whereas `std::hex`, `std::setfill`, `std::uppercase`, ... only need to be sent to the output stream once. This seems inconsistent? – wcochran Jun 27 '18 at 21:53
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I expect this will annoy everyone else in your project since so few people ever think to `<< std:dec` before pushing numbers into a stream. I thought was a widely known flaw in C++ streams? – Code Abominator May 05 '20 at 21:55
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If you are writing directly to a shared stream like `std::cout`you may want to save and restore the stream flags around your modifications, so you leave the stream with it's previous set flags after you've been tampering with them.. Something like `const auto save_flags = std::cout.flags(); std::cout << std::hex << 42 << std::endl; std::cout.flags(save_flags); std::cout << 42 << std::endl;` – Jesper Juhl Mar 09 '23 at 10:08
`error: no match for ‘operator<<’ (operand types are ‘std::stringstream’ {aka ‘std::__cxx11::basic_stringstream’} and ‘const char [3]’)`, where the `const char [3]` is `"0x"`. – pmor Apr 28 '23 at 13:47
UPD: fix is: `#include `. – pmor Apr 28 '23 at 13:50

vitaut · Answer 2 · 2021-09-25T14:43:45.377

69

You can do it with C++20 std::format:

std::string s = std::format("{:x}", 42); // s == 2a

Until std::format is widely available you can use the {fmt} library, std::format is based on (godbolt):

std::string s = fmt::format("{:x}", 42); // s == 2a

Disclaimer: I'm the author of {fmt} and C++20 std::format.

edited Sep 25 '21 at 14:43

answered Sep 25 '21 at 13:59

vitaut

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how do we add padding and/or the correct `0x` (hex) or `0o` (octal) prefix for this? say for example I want `0x002a` or `0o52`? – 0xdeadbeef Aug 13 '23 at 14:07

score 59 · Answer 3 · answered Oct 31 '15 at 02:54

59

To make it lighter and faster I suggest to use direct filling of a string.

template <typename I> std::string n2hexstr(I w, size_t hex_len = sizeof(I)<<1) {
    static const char* digits = "0123456789ABCDEF";
    std::string rc(hex_len,'0');
    for (size_t i=0, j=(hex_len-1)*4 ; i<hex_len; ++i,j-=4)
        rc[i] = digits[(w>>j) & 0x0f];
    return rc;
}

answered Oct 31 '15 at 02:54

AndreyS Scherbakov

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Will this work for any type? I mean also double, float, uint8_t? – S.R Aug 08 '17 at 15:13
@S.R It works for integral types, not for `double` and `float` (and not for pointers) – Wolf Feb 06 '18 at 12:29
... a very pragmatic (but valid) mix of C and C++, I'm not sure about speed ... for [my taste](https://stackoverflow.com/a/48643043/2932052), it's a bit dense. – Wolf Feb 06 '18 at 12:36
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Thank you, brilliant answer. Bringing in a stream library 'just' to do this seems such a waste. – DeveloperChris Jun 16 '18 at 08:25
1

This prints `0000FFFF` for `0xFFFF`. I prefer to have `0xFFFF` as output. – jaques-sam Apr 22 '20 at 09:03
@DrumM pass a 4 into the hex_len parameter then? – Plater Dec 13 '21 at 22:11

score 34 · Answer 4 · answered Feb 24 '11 at 05:32

34

Use std::stringstream to convert integers into strings and its special manipulators to set the base. For example like that:

std::stringstream sstream;
sstream << std::hex << my_integer;
std::string result = sstream.str();

answered Feb 24 '11 at 05:32

phlipsy

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score 20 · Answer 5 · answered Feb 24 '11 at 05:30

20

Just print it as an hexadecimal number:

int i = /* ... */;
std::cout << std::hex << i;

answered Feb 24 '11 at 05:30

Etienne de Martel

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I would use `std::cout< – Mark Lakata Jan 09 '19 at 23:02

score 13 · Answer 6 · answered Aug 05 '21 at 11:05

13

Since C++20, with std::format, you might do:

std::format("{:#x}", your_int);    // 0x2a
std::format("{:#010x}", your_int); // 0x0000002a

Demo

answered Aug 05 '21 at 11:05

Jarod42

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s4eed · Answer 7 · 2021-11-20T06:36:13.603

11

#include <boost/format.hpp>
...
cout << (boost::format("%x") % 1234).str();  // output is: 4d2

edited Nov 20 '21 at 06:36

answered Jun 20 '18 at 07:01

s4eed

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The header file is `#include ` – Wade Wang Jun 29 '21 at 05:27
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Boost doesn't come pre-installed that's why – Haseeb Mir Sep 13 '21 at 19:45

score 8 · Answer 8 · edited Jan 07 '15 at 18:08

8

You can try the following. It's working...

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

template <class T>
string to_string(T t, ios_base & (*f)(ios_base&))
{
  ostringstream oss;
  oss << f << t;
  return oss.str();
}

int main ()
{
  cout<<to_string<long>(123456, hex)<<endl;
  system("PAUSE");
  return 0;
}

edited Jan 07 '15 at 18:08

Peter Mortensen

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answered Jun 25 '12 at 12:19

Mahmut EFE

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a nice answer, but beware that `to_string` is part of the namespace `std` in C++11 – Alexander Oh Jun 03 '14 at 09:00
@Alex yes, it is 2014 after all... heaven forbid we'll have to start dealing with C++14 soon. – Alex Jun 22 '14 at 13:53

Violet Giraffe · Answer 9 · 2022-05-25T08:03:48.480

A new C++17 way: std::to_chars from <charconv> (https://en.cppreference.com/w/cpp/utility/to_chars):

char addressStr[20] = { 0 };
std::to_chars(std::begin(addressStr), std::end(addressStr), address, 16);
return std::string{addressStr};

This is a bit verbose since std::to_chars works with a pre-allocated buffer to avoid dynamic allocations, but this also lets you optimize the code since allocations get very expensive if this is in a hot spot.

For extra optimization, you can omit pre-initializing the buffer and check the return value of to_chars to check for errors and get the length of the data written. Note: to_chars does NOT write a null-terminator!

Wolf · Answer 10 · 2021-09-27T08:21:36.790

Just have a look on my solution,^[1] that I verbatim^[2] copied from my project. My goal was to combine flexibility and safety within my actual needs:^[3]

no 0x prefix added: caller may decide
automatic width deduction: less typing
explicit width control: widening for formatting, (lossless) shrinking to save space
capable for dealing with long long
restricted to integral types: avoid surprises by silent conversions
ease of understanding
no hard-coded limit

#include <string>
#include <sstream>
#include <iomanip>

/// Convert integer value `val` to text in hexadecimal format.
/// The minimum width is padded with leading zeros; if not 
/// specified, this `width` is derived from the type of the 
/// argument. Function suitable from char to long long.
/// Pointers, floating point values, etc. are not supported; 
/// passing them will result in an (intentional!) compiler error.
/// Basics from: http://stackoverflow.com/a/5100745/2932052
template <typename T>
inline std::string int_to_hex(T val, size_t width=sizeof(T)*2)
{
    std::stringstream ss;
    ss << std::setfill('0') << std::setw(width) << std::hex << (val|0);
    return ss.str();
}

^[1] based on the answer by Kornel Kisielewicz
^[2] Only the German API doc was translated to English.
^[3] Translated into the language of CppTest, this is how it reads:

TEST_ASSERT(int_to_hex(char(0x12)) == "12");
TEST_ASSERT(int_to_hex(short(0x1234)) == "1234");
TEST_ASSERT(int_to_hex(long(0x12345678)) == "12345678");
TEST_ASSERT(int_to_hex((long long)(0x123456789abcdef0)) == "123456789abcdef0");
TEST_ASSERT(int_to_hex(0x123, 1) == "123");
TEST_ASSERT(int_to_hex(0x123, 8) == "00000123");
// width deduction test as suggested by Lightness Races in Orbit:
TEST_ASSERT(int_to_hex(short(0x12)) == "0012");

Could show off the width deduction with e.g. `TEST_ASSERT(int_to_hex(short(0x12)) == "0012");` — Lightness Races in Orbit, Dec 22 '18 at 21:22

Loss Mentality · Answer 11 · 2018-11-21T16:25:21.500

Thanks to Lincoln's comment below, I've changed this answer.

The following answer properly handles 8-bit ints at compile time. It doees, however, require C++17. If you don't have C++17, you'll have to do something else (e.g. provide overloads of this function, one for uint8_t and one for int8_t, or use something besides "if constexpr", maybe enable_if).

template< typename T >
std::string int_to_hex( T i )
{
    // Ensure this function is called with a template parameter that makes sense. Note: static_assert is only available in C++11 and higher.
    static_assert(std::is_integral<T>::value, "Template argument 'T' must be a fundamental integer type (e.g. int, short, etc..).");

    std::stringstream stream;
    stream << "0x" << std::setfill ('0') << std::setw(sizeof(T)*2) << std::hex;

    // If T is an 8-bit integer type (e.g. uint8_t or int8_t) it will be 
    // treated as an ASCII code, giving the wrong result. So we use C++17's
    // "if constexpr" to have the compiler decides at compile-time if it's 
    // converting an 8-bit int or not.
    if constexpr (std::is_same_v<std::uint8_t, T>)
    {        
        // Unsigned 8-bit unsigned int type. Cast to int (thanks Lincoln) to 
        // avoid ASCII code interpretation of the int. The number of hex digits 
        // in the  returned string will still be two, which is correct for 8 bits, 
        // because of the 'sizeof(T)' above.
        stream << static_cast<int>(i);
    }        
    else if (std::is_same_v<std::int8_t, T>)
    {
        // For 8-bit signed int, same as above, except we must first cast to unsigned 
        // int, because values above 127d (0x7f) in the int will cause further issues.
        // if we cast directly to int.
        stream << static_cast<int>(static_cast<uint8_t>(i));
    }
    else
    {
        // No cast needed for ints wider than 8 bits.
        stream << i;
    }

    return stream.str();
}

Original answer that doesn't handle 8-bit ints correctly as I thought it did:

Kornel Kisielewicz's answer is great. But a slight addition helps catch cases where you're calling this function with template arguments that don't make sense (e.g. float) or that would result in messy compiler errors (e.g. user-defined type).

template< typename T >
std::string int_to_hex( T i )
{
  // Ensure this function is called with a template parameter that makes sense. Note: static_assert is only available in C++11 and higher.
  static_assert(std::is_integral<T>::value, "Template argument 'T' must be a fundamental integer type (e.g. int, short, etc..).");

  std::stringstream stream;
  stream << "0x" 
         << std::setfill ('0') << std::setw(sizeof(T)*2) 
         << std::hex << i;

         // Optional: replace above line with this to handle 8-bit integers.
         // << std::hex << std::to_string(i);

  return stream.str();
}

I've edited this to add a call to std::to_string because 8-bit integer types (e.g. std::uint8_t values passed) to std::stringstream are treated as char, which doesn't give you the result you want. Passing such integers to std::to_string handles them correctly and doesn't hurt things when using other, larger integer types. Of course you may possibly suffer a slight performance hit in these cases since the std::to_string call is unnecessary.

Note: I would have just added this in a comment to the original answer, but I don't have the rep to comment.

in my testing std::to_string(i) does not print std::uint8_t integers as hex. I think this may have to have separate conditions for both uint8_t and int8_t types, since they need to be cast to larger integers. — Lincoln, Oct 11 '18 at 14:25
@Lincoln You are right. I don't know what I was doing at the time (months ago now) that made me thing to_string handled 8-bit ints. I even went back to the compiler version I think I was using back then, just to double check, but to_string didn't work as I said it did. So who knows? Anyway, thanks for catching this - I've edited answer to something that should work correctly. — Loss Mentality, Nov 21 '18 at 16:17
This will still work unexpectedly for `char` (which is distinct from both `uint8_t` and `int8_t` in most implementations (where they are respectively `unsigned char` and `signed char`)). — Ruslan, Nov 22 '19 at 14:42
@ruslan Yes, also bool and wide char types all match std::is_integral and will not fail the assert. But since char is, per the std., a guaranteed unique type, as are the wide char types, you can handle all of them if desired (exceptions are un/signed char, which match the un/signed integral type of whatever width a byte is on the current machine - typically int8 - and so can't be filtered if you want to match ints of the same width as well). You can reject char, wide chars, bools by adding more terms to the the static_assert: `... && !std::is_same_v && !std::is_same_v` etc... — Loss Mentality, Apr 03 '20 at 02:44

Graham · Answer 12 · 2022-03-21T07:16:11.147

4

I can see all the elaborate coding samples others have used as answers, but there is nothing wrong with simply having this in a C++ application:

    printf ("%04x", num);

for num = 128:

    007f

https://en.wikipedia.org/wiki/Printf_format_string

C++ is effectively the original C language which has been extended, so anything in C is also perfectly valid C++.

edited Mar 21 '22 at 07:16

answered Mar 21 '22 at 07:07

Graham

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That's going to print to the console, but how can it be used as a string? – General Grievance Mar 21 '22 at 17:48
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@GeneralGrievance using `snprintf()` instead. – Alexis Wilke Jun 06 '22 at 17:30

score 3 · Answer 13 · answered Feb 24 '11 at 05:31

3

int num = 30;
std::cout << std::hex << num << endl; // This should give you hexa- decimal of 30

answered Feb 24 '11 at 05:31

Mahesh

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CarpeDiemKopi · Answer 14 · 2018-02-06T16:18:52.483

2

I do:

int hex = 10;      
std::string hexstring = stringFormat("%X", hex);

Take a look at SO answer from iFreilicht and the required template header-file from here GIST!

edited Feb 06 '18 at 16:18

answered Feb 05 '18 at 20:53

CarpeDiemKopi

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Joma · Answer 15 · 2021-07-23T22:33:17.660

My solution. Only integral types are allowed.

You can test/run on https://replit.com/@JomaCorpFX/ToHex

Update. You can set optional prefix 0x in second parameter.

definition.h

#include  <iomanip>
#include <sstream>

template <class T, class T2 = typename std::enable_if<std::is_integral<T>::value>::type>
static std::string ToHex(const T & data, bool addPrefix = true);



template<class T, class>
inline std::string ToHex(const T & data, bool addPrefix)
{
    std::stringstream sstream;
    sstream << std::hex;
    std::string ret;
    if (typeid(T) == typeid(char) || typeid(T) == typeid(unsigned char) || sizeof(T)==1)
    {
        sstream << static_cast<int>(data);
        ret = sstream.str();
        if (ret.length() > 2)
        {
            ret = ret.substr(ret.length() - 2, 2);
        }
    }
    else
    {
        sstream << data;
        ret = sstream.str();
    }
    return (addPrefix ? u8"0x" : u8"") + ret;
}

main.cpp

#include <iostream>
#include "definition.h"

int main()
{
    std::cout << ToHex<unsigned char>(254) << std::endl;
    std::cout << ToHex<char>(-2) << std::endl;
    std::cout << ToHex<int>(-2) << std::endl;
    std::cout << ToHex<long long>(-2) << std::endl;
    
    std::cout<< std::endl;
    std::cout << ToHex<unsigned char>(254, false) << std::endl;
    std::cout << ToHex<char>(-2, false) << std::endl;
    std::cout << ToHex<int>(-2, false) << std::endl;
    std::cout << ToHex<long long>(-2, false) << std::endl;
    return 0;
}

Results:

0xfe
0xfe
0xfffffffe
0xfffffffffffffffe

fe
fe
fffffffe
fffffffffffffffe

januw a · Answer 16 · 2021-07-12T10:10:37.907

2

_itoa_s

char buf[_MAX_U64TOSTR_BASE2_COUNT];
_itoa_s(10, buf, _countof(buf), 16);
printf("%s\n", buf);    // a

swprintf_s

uint8_t x = 10;
wchar_t buf[_MAX_ITOSTR_BASE16_COUNT];
swprintf_s(buf, L"%02X", x);

edited Jul 12 '21 at 10:10

answered Jul 06 '21 at 02:15

januw a

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UNREAL · Answer 17 · 2023-03-15T13:49:02.357

2

ANOTHER SIMPLE APPROACH

#include<iostream> 
#include<iomanip> // for setbase(), works for base 8,10 and 16 only
using namespace std;


int main(){
  int x = (16*16+16+1)*15;
  string ans;


  stringstream ss;
  ss << setbase(16) << x << endl;


  ans = ss.str();


  cout << ans << endl;//prints fff

edited Mar 15 '23 at 13:49

answered Jun 01 '22 at 08:07

UNREAL

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Too bad it doesn't support base 2... I have a case where that would be useful. – Alexis Wilke Jun 06 '22 at 17:21

Kevin · Answer 18 · 2014-11-05T20:11:09.867

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For those of you who figured out that many/most of the ios::fmtflags don't work with std::stringstream yet like the template idea that Kornel posted way back when, the following works and is relatively clean:

#include <iomanip>
#include <sstream>


template< typename T >
std::string hexify(T i)
{
    std::stringbuf buf;
    std::ostream os(&buf);


    os << "0x" << std::setfill('0') << std::setw(sizeof(T) * 2)
       << std::hex << i;

    return buf.str().c_str();
}


int someNumber = 314159265;
std::string hexified = hexify< int >(someNumber);

edited Nov 05 '14 at 20:11

answered Nov 03 '14 at 22:31

Kevin

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Shouldn't you just return buf.str() ? – ruipacheco Oct 12 '16 at 18:29

score 1 · Answer 19 · edited Mar 07 '19 at 06:39

1

Code for your reference:

#include <iomanip>
#include <sstream>
...
string intToHexString(int intValue) {

    string hexStr;

    /// integer value to hex-string
    std::stringstream sstream;
    sstream << "0x"
            << std::setfill ('0') << std::setw(2)
    << std::hex << (int)intValue;

    hexStr= sstream.str();
    sstream.clear();    //clears out the stream-string

    return hexStr;
}

edited Mar 07 '19 at 06:39

Joma

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answered Feb 18 '16 at 20:22

parasrish

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This doesn't really add to the existing answers, and it's pointless to explicitly `clear` the `sstream` (it will be destroyed when the function returns on the next line anyway). You could avoid the named `hexStr` entirely and just `return sstream.str();` without `clear`ing and get the same effect, reducing four lines of code to one. – ShadowRanger Feb 18 '16 at 20:28
1

when purpose of the forum is to understand the things and usage. being verbose is far better to provide clear picture, than saving lines. question was not on optimized code, and answer tries to give a modular-method way of dealing with such conversions. @ShadowRanger – parasrish Feb 19 '16 at 13:18
1

What is the purpose of `sstream.clear();`? The `sstream` object is automatically destroyed at the end of the scope, so `return sstream.str();` would do it. – Wolf May 31 '16 at 10:27
`sstream.clear` will just clear the content, before stream ends with scope end (to clear any fail and eof flags with clear). Indeed, when the scope dies, with the life-span of the stream-variable, and therefore `sstream.str` can be used to return by value. [Reference : http://www.cplusplus.com/reference/ios/ios/clear/] – parasrish Jun 01 '16 at 16:46

ORParga ORParga · Answer 20 · 2020-06-20T23:26:54.883

I would like to add an answer to enjoy the beauty of C ++ language. Its adaptability to work at high and low levels. Happy programming.

public:template <class T,class U> U* Int2Hex(T lnumber, U* buffer)
{
    const char* ref = "0123456789ABCDEF";
    T hNibbles = (lnumber >> 4);

    unsigned char* b_lNibbles = (unsigned char*)&lnumber;
    unsigned char* b_hNibbles = (unsigned char*)&hNibbles;

    U* pointer = buffer + (sizeof(lnumber) << 1);

    *pointer = 0;
    do {
        *--pointer = ref[(*b_lNibbles++) & 0xF];
        *--pointer = ref[(*b_hNibbles++) & 0xF];
    } while (pointer > buffer);

    return buffer;
}

Examples:

char buffer[100] = { 0 };
Int2Hex(305419896ULL, buffer);//returns "0000000012345678"
Int2Hex(305419896UL, buffer);//returns "12345678"
Int2Hex((short)65533, buffer);//returns "FFFD"
Int2Hex((char)18, buffer);//returns "12"

wchar_t buffer[100] = { 0 };
Int2Hex(305419896ULL, buffer);//returns L"0000000012345678"
Int2Hex(305419896UL, buffer);//returns L"12345678"
Int2Hex((short)65533, buffer);//returns L"FFFD"
Int2Hex((char)18, buffer);//returns L"12"

This does use some techniques not seen in the other answers. Can you please edit the answer to include some explanation of how and why it works? — Jason Aller, Jun 20 '20 at 23:55
This would work on little endian CPUs but not on big endian ones. — Octo Poulos, Dec 17 '22 at 21:06

Luca C. · Answer 21 · 2020-10-19T15:04:58.237

for fixed number of digits, for instance 2:

    static const char* digits = "0123456789ABCDEF";//dec 2 hex digits positional map
    char value_hex[3];//2 digits + terminator
    value_hex[0] = digits[(int_value >> 4) & 0x0F]; //move of 4 bit, that is an HEX digit, and take 4 lower. for higher digits use multiple of 4
    value_hex[1] = digits[int_value & 0x0F]; //no need to move the lower digit
    value_hex[2] = '\0'; //terminator

you can also write a for cycle variant to handle variable digits amount

benefits:

speed: it is a minimal bit operation, without external function calls
memory: it use local string, no allocation out of function stack frame, no free of memory needed. Anyway if needed you can use a field or a global to make the value_ex to persists out of the stack frame

score 1 · Answer 22 · answered Jul 27 '21 at 14:50

char_to_hex returns a string of two characters

const char HEX_MAP[] = {'0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'A', 'B', 'C', 'D', 'E', 'F'};

char replace(unsigned char c)
{
    return HEX_MAP[c & 0x0f];
}

std::string char_to_hex(unsigned char c)
{
    std::string hex;

    // First four bytes
    char left = (c >> 4);
    // Second four bytes
    char right = (c & 0x0f);

    hex += replace(left);
    hex += replace(right);

    return hex;
}

Paul Ratazzi · Answer 23 · 2022-06-20T02:30:04.740

1

With the variable:

char selA[12];

then:

snprintf(selA, 12, "SELA;0x%X;", 85);

will result in selA containing the string SELA;0x55;

Note that the things surrounding the 55 are just particulars related to the serial protocol used in my application.

edited Jun 20 '22 at 02:30

answered Jun 03 '22 at 21:27

Paul Ratazzi

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You should always use `snprintf()` to make 100% sure that you never overflow your buffer. – Alexis Wilke Jun 06 '22 at 17:16
Thank you. I've improved both the answer and my application! – Paul Ratazzi Jun 06 '22 at 20:27

score 0 · Answer 24 · answered Jul 27 '20 at 21:48

#include <iostream> 
#include <sstream>  

int main()
{
unsigned int i = 4967295; // random number
std::string str1, str2;
unsigned int u1, u2;

std::stringstream ss;

Using void pointer:

// INT to HEX
ss << (void*)i;       // <- FULL hex address using void pointer
ss >> str1;          //     giving address value of one given in decimals.
ss.clear();         // <- Clear bits
// HEX to INT
ss << std::hex << str1;   // <- Capitals doesn't matter so no need to do extra here
ss >> u1;
ss.clear();

Adding 0x:

// INT to HEX with 0x
ss << "0x" << (void*)i;   // <- Same as above but adding 0x to beginning
ss >> str2;
ss.clear();
// HEX to INT with 0x
ss << std::hex << str2;   // <- 0x is also understood so need to do extra here
ss >> u2;
ss.clear();

Outputs:

std::cout << str1 << std::endl; // 004BCB7F
std::cout << u1 << std::endl;   // 4967295
std::cout << std::endl;
std::cout << str2 << std::endl; // 0x004BCB7F
std::cout << u2 << std::endl;   // 4967295


return 0;
}

Haseeb Mir · Answer 25 · 2023-03-18T16:48:34.257

You can define MACRO to use as one liner like this.

#include <sstream>
#define to_hex_str(hex_val) (static_cast<std::stringstream const&>(std::stringstream() << "0x" << std::hex << hex_val)).str()

And use it in code like this

#include <iostream>
#include <sstream>

#define to_hex_str(hex_val) (static_cast<std::stringstream const&>(std::stringstream() << "0x" << std::hex << hex_val)).str()

int main() {
    int decimal_value = 255;
    std::string hex_string = to_hex_str(decimal_value);

    std::cout << "Decimal value: " << decimal_value << std::endl;
    std::cout << "Hexadecimal value: " << hex_string << std::endl;

    return 0; }

Octo Poulos · Answer 26 · 2022-12-17T23:26:02.863

All the answers I read are pretty slow, except one of them, but that one only works for little endian CPUs. Here's a fast implementation that works on big and little endian CPUs.

std::string Hex64(uint64_t number)
{
    static const char* maps = "0123456789abcdef";

    // if you want more speed, pass a buffer as a function parameter and return an std::string_view (or nothing)
    char  buffer[17]; // = "0000000000000000"; // uncomment if leading 0s are desired
    char* c          = buffer + 16;
    do
    {
        *--c = maps[number & 15];
        number >>= 4;
    }
    while (number > 0);

    // this strips the leading 0s, if you want to keep them, then return std::string(buffer, 16); and uncomment the "000..." above
    return std::string(c, 16 - (c - buffer));
}

Compared to std::format and fmt::format("{:x}", value), I get between 2x (for values > (1ll << 60)) and 6x the speed (for smaller values).

Examples of input/output:

const std::vector<std::tuple<uint64_t, std::string>> vectors = {
    {18446744073709551615, "ffffffffffffffff"},
    { 4294967295u,         "ffffffff"},
    { 16777215,            "ffffff"},
    { 65535,               "ffff"},
    { 255,                 "ff"},
    { 16,                  "10"},
    { 15,                  "f"},
    { 0,                   "0"},
};

Sebastian Cabot · Answer 27 · 2022-03-03T12:41:42.210

This question is quite old but the answers given are to my opinion not the best. If you are using C++20 then you have the option to use std::format which is a very good solution. However if you are using C++11/14/17 or below you will not have this option.

Most other answers either use the std::stringstream or implement their own conversion modifying the underlying string buffer directly by themselves. The first option is rather heavy weight. The second option is inherently insecure and bug prone.

Since I had to implement an integer to hex string lately I chose to do a a true C++ safe implementation using function overloads and template partial specialization to let the compiler handle the type checks. The code uses sprintf (which one of its flavors is generally used by the standard library for std::to_string). And it relies on template partial specialization to correctly select the right sprintf format and leading 0 addition. It separately and correctly handles different pointer sizes and unsigned long sizes for different OSs and architectures. (4/4/4, 4/4/8, 4/8/8)

This answer targets C++11

H File:

#ifndef STRINGUTILS_H_
#define STRINGUTILS_H_

#include <string>

namespace string_utils
{
    /* ... Other string utils ... */
    
    std::string hex_string(unsigned char v);
    std::string hex_string(unsigned short v);
    std::string hex_string(unsigned int v);
    std::string hex_string(unsigned long v);
    std::string hex_string(unsigned long long v);
    std::string hex_string(std::ptrdiff_t v);

} // namespace string_utils

#endif

CPP File

#include "stringutils.h"

#include <cstdio>

namespace
{
    template <typename T, int Width> struct LModifier;

    template <> struct LModifier<unsigned char, sizeof(unsigned char)>
    {
        static constexpr char fmt[] = "%02hhX";
    };
    template <> struct LModifier<unsigned short, sizeof(unsigned short)>
    {
        static constexpr char fmt[] = "%04hX";
    };
    template <> struct LModifier<unsigned int, sizeof(unsigned int)>
    {
        static constexpr char fmt[] = "%08X";
    };
    template <> struct LModifier<unsigned long, 4>
    {
        static constexpr char fmt[] = "%08lX";
    };
    template <> struct LModifier<unsigned long, 8>
    {
        static constexpr char fmt[] = "%016lX";
    };
    template <> struct LModifier<unsigned long long, sizeof(unsigned long long)>
    {
        static constexpr char fmt[] = "%016llX";
    };
    template <> struct LModifier<std::ptrdiff_t, 4>
    {
        static constexpr char fmt[] = "%08tX";
    };
    template <> struct LModifier<std::ptrdiff_t, 8>
    {
        static constexpr char fmt[] = "%016tX";
    };

    constexpr char LModifier<unsigned char, sizeof(unsigned char)>::fmt[];
    constexpr char LModifier<unsigned short, sizeof(unsigned short)>::fmt[];
    constexpr char LModifier<unsigned int, sizeof(unsigned int)>::fmt[];
    constexpr char LModifier<unsigned long, sizeof(unsigned long)>::fmt[];
    constexpr char LModifier<unsigned long long, sizeof(unsigned long long)>::fmt[];
    constexpr char LModifier<std::ptrdiff_t, sizeof(std::ptrdiff_t)>::fmt[];

    template <typename T, std::size_t BUF_SIZE = sizeof(T) * 2U> std::string hex_string_(T v)
    {
        std::string ret(BUF_SIZE + 1, 0);
        std::sprintf((char *)ret.data(), LModifier<T, sizeof(T)>::fmt, v);
        return ret;
    }
} // anonymous namespace

std::string string_utils::hex_string(unsigned char v)
{
    return hex_string_(v);
}
std::string string_utils::hex_string(unsigned short v)
{
    return hex_string_(v);
}
std::string string_utils::hex_string(unsigned int v)
{
    return hex_string_(v);
}
std::string string_utils::hex_string(unsigned long v)
{
    return hex_string_(v);
}
std::string string_utils::hex_string(unsigned long long v)
{
    return hex_string_(v);
}
std::string string_utils::hex_string(std::ptrdiff_t v)
{
    return hex_string_(v);
}

score -2 · Answer 28 · edited Mar 28 '23 at 01:40

You can use this template function

template <class T>
std::string IntToHexForm(T a)
{
    std::string res;
    
    for (int i = 0; i < sizeof(T); i++)
    {
        int lowByte = a % 16;
        a /= 16;
        
        int highByte = a % 16;
        a /= 16;

        if (highByte > 9)
            res = std::string(1, 'a' + highByte - 10) + res;
        else
            res = std::to_string(highByte) + res;

        if (lowByte > 9)
            res = std::string(1, 'a' + lowByte - 10) + res;
        else
            res = std::to_string(lowByte) + res;
    }

    return res;
}

You can call it with different integers, for example:

IntToHexForm(10) will return 00000010
IntToHexForm((unsigned char)10) will return 10

Integer to hex string in C++

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