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I'd like to define a C macro

#define TO_UNSIGNED(x) (...)

, which takes a signed integer x (can be: signed char, short, int, long, long long, or anything else, even something longer than a long long), and it converts x to the corresponding unsigned integer type of the same size.

It's OK to assume that signed integers use the two's complement representation. So to convert any value (positive or negative), its two's complement binary representation should be taken, and that should be interpreted as an unsigned integer of the same size.

I'm assuming that a reasonably modern, optimizing compiler is used which can eliminate unused branches, e.g. if sizeof(X) < 4 ? f(Y) : g(Z) is executed, then X is not evaluated, and only one of f(Y) or g(Z) is generated and evaluated.

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What if x is negative? –  Bart Friederichs Jan 1 at 15:31
How would you handle negative integers? –  Eimantas Jan 1 at 15:32
I don't believe it's possible. You don't have access to type information in the preprocessor, and sizeof isn't available either. –  Anonymous Jan 1 at 16:21
@chux: My first use case is #define ADD_WRAP(x, y) ((typeof(x))(TO_UNSIGNED(x) + TO_UNSIGNED(y))), which is similar to #define ADD_WRAP(x, y) ((x) + (y)) with gcc -fwrapv, i.e. the same integer wraparound as for unsigned types. –  pts Jan 1 at 20:06
@pts: I think that in this particular case, it is important that sizeof is evaluated by the compiler after preprocessing. If the preprocessor could evaluate sizeof to a decimal number it would be possible to convert TO_UNSIGNED(x) to TO_UINT1(x), TO_UINT2(x)and so on with the concatenation operator ##. Solutions that use sizeof and rely on an optimizing compiler that remvoes dead branches of constant false conditions don't meet your type requirement. Anonymus is right: sizeof isn't available - in the preprocessor. –  M Oehm Jan 2 at 7:54

3 Answers 3

I'll bite, but I have to say it's more in the spirit of macro hacking, not because I think such a macro is useful. Here goes:

#include <stdlib.h>
#include <stdio.h>

#define TO_UNSIGNED(x) (                                            \
    (sizeof(x) == 1)                ? (unsigned char) (x) :         \
    (sizeof(x) == sizeof(short))    ? (unsigned short) (x) :        \
    (sizeof(x) == sizeof(int))      ? (unsigned int) (x) :          \
    (sizeof(x) == sizeof(long))     ? (unsigned long) (x) :         \
                                      (unsigned long long) (x)      \

// Now put the macro to use ...

short minus_one_s()
    return -1;

long long minus_one_ll()
    return -1LL;

int main()
    signed char c = -1;
    short s = -1;
    int i = -1;
    long int l = -1L;
    long long int ll = -1LL;

    printf("%llx\n", (unsigned long long) TO_UNSIGNED(c));
    printf("%llx\n", (unsigned long long) TO_UNSIGNED(s));
    printf("%llx\n", (unsigned long long) TO_UNSIGNED(i));
    printf("%llx\n", (unsigned long long) TO_UNSIGNED(l));
    printf("%llx\n", (unsigned long long) TO_UNSIGNED(ll));

    printf("%llx\n", (unsigned long long) TO_UNSIGNED(minus_one_s()));
    printf("%llx\n", (unsigned long long) TO_UNSIGNED(minus_one_ll()));

    return 0;

The macro uses the ternary comparison operator ?: to emulate a switch statement for all known signed integer sizes. (This should catch the appropriate unsigned integers and the typedef'd typed from <stdint.h>, too. It works with expressions. It also accepts floats, although not quite as I'd expect.)

The somewhat convoluted printfs show that the negative numbers are expanded to the native size of the source integer.

Edit: The OP is looking for a macro that returns an expression of the unsigned type of the same length as the source type. The above macro doesn't do that: Because the two alternative values of the ternary comparison are promoted to a common type, the result of the macro will always be the type of the greatest size, which is unsigned long long.

Branches of different types could probably be achieved with a pure macro solution, such that after preprocessing, the compiler only sees one type, but the preprocessor doesn't know about types, so sizeof cannot be used here, which rules out such a macro.

But to my (weak) defense, I'll say that if the value of the unsigned long long result of the macro is assigned to the appropriate unsigned type (i.e. unsigned short for short), the value should never be truncated, so the macro might have some use.

Edit II: Now that I've stumbled upon the C11 _Generic keyword in another question (and have installed a compiler that supports it), I can present a working solution: The following macro really returns the correct value with the correct type:

#define TO_UNSIGNED(x) _Generic((x),           \
    char:        (unsigned char) (x),          \
    signed char: (unsigned char) (x),          \
    short:       (unsigned short) (x),         \
    int:         (unsigned int) (x),           \
    long:        (unsigned long) (x),          \
    long long:   (unsigned long long) (x),     \
    default:     (unsigned int) (x)            \

The _Generic selection is resolved at compile time and doesn't have the overhead of producing intermediate results in an oversized int type. (A real-world macro should probably include the unsigned types themself for a null-cast. Also note that I had to include signed char explicitly, just char didn't work, even though my chars are signed.)

It requires a recent compiler that implements C11 or at least its _Generic keyword, which means this solution is not very portable, though, see here.

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What is the type of the return value of your TO_UNSIGNED macro? The return type is always the same (unsigned long long). But I was explicitly asking for a macro with return type depending on the type of the input. So this is not a solution to my question. –  pts Jan 1 at 16:00
Nice! I thought it couldn't be done. –  Pitarou Jan 1 at 16:00
Oh. It turns out that it can't be done after all. The compiler unifies the types as unsigned long longs. Still, a very nice piece of macro hackery. –  Pitarou Jan 1 at 16:13
@pts The return type depends on the "switch" case that is entered. For example, it is unsigned short for source types of short, unsigned short and int16_t. The cast to unsigned long long in the printf statements is only there so that all cases can be printed with the %llx specifier. (The cast is necessary, because the arguments to printf are treated as variadic, i.e. everything with a size up to the size of ´int` is promoted to int and the rest is passed with its own type.) –  M Oehm Jan 1 at 16:13
@Pitarou Yes, you're right. I've checked by printing the sizes of the result. I think that the two branches of the ternary comparison are promoted to the same type. –  M Oehm Jan 1 at 16:17

You don't need a macro. The conversion happens automatically. E.g.:

int x = -1;
unsigned int y;

y = x;


You seem to want a macro that can infer the type of a variable from its name. That is impossible. Macros are run at a stage of compilation where the compiler doesn't have the type information available. So the macro must emit the same code regardless of the variable's type.

At the stage when type information becomes available, the compiler will insist that every expression has a consistent type. But you're asking for code that is inconsistently typed.

The best you can hope for is to supply the type information yourself. E.g.:

#define TO_UNSIGNED(type, name) (unsigned type(name))
share|improve this answer
I am explicitly asking for a macro, so this doesn't answer my question. The whole point of the macro is that it is smart enough to figure out unsigned int automatically. –  pts Jan 1 at 15:40
@pts See the edit to my answer. –  Pitarou Jan 1 at 15:45
This requires explicitly passing the type –  Leeor Jan 1 at 15:56
Indeed it's easy to solve it with a 2-arg macro. I need a 1-arg macro, and it should be smart enough to figure out the type automatically. –  pts Jan 1 at 15:56
Your reasoning why it's impossible is flawed. The macro body can contain an expression which behaves differently based on the input types. For example, #define ADD(a, b) ((a) + (b)) behaves differently: it can be an int addition, an unsigned addition, an unsigned long addition etc. No type information is needed at macro expansion time to make it work. –  pts Jan 1 at 19:52

Ok, since you intend to use this macro to implicitly convert negative values to their 2's complement counterparts, I think we can address it the following way:

#include "stdio.h"
#include "stdint.h"

#define TO_UNSIGNED(x) ( \
                          (sizeof(x) == 1 ? (uint8_t)x : \
                          (sizeof(x) <= 2 ? (uint16_t)x : \
                          (sizeof(x) <= 4 ? (uint32_t)x : \
                          (sizeof(x) <= 8 ? (uint64_t)x : \
                          x \

int main () {
    char a = -4;
    int b = -4;

    printf ("TO_UNSIGNED(a) = %u\n", TO_UNSIGNED(a));
    printf ("TO_UNSIGNED(b) = %u\n", TO_UNSIGNED(b));
    return 0;


TO_UNSIGNED(a) = 252
TO_UNSIGNED(b) = 4294967292

Of course support for further lengths may be required, I left the > 64bit to just return x itself for now.

share|improve this answer
What is the type of the return value of your TO_UNSIGNED macro? The return type is always the same (uint64_t). But I was explicitly asking for a macro with return type depending on the type of the input. So this is not a solution to my question. –  pts Jan 1 at 15:58
This doesn't work for types longer than long long. –  pts Jan 1 at 15:59
@pts, it's a macro, the return type is exactly what the trenary operator returns, which is according to the size. And it's true about > long long, you need to choose how you implement such values –  Leeor Jan 1 at 15:59
No, the return type of the ternary operator is always the same. The C compiler devises a common return type by looking at the types of the two branches. –  pts Jan 1 at 16:01
@pts: Then please explain how you plan to use it, for most purposes the result would get casted anyway according to how you use this macro, as long as you get the 2's complement value right it shouldn't matter as far as I can see. –  Leeor Jan 1 at 16:08

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