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Please look at my test code:

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

#define PRINT_COMPARE_RESULT(a, b) \
    if (a > b) { \
        printf( #a " > " #b "\n"); \
    } \
    else if (a < b) { \
        printf( #a " < " #b "\n"); \
    } \
    else { \
        printf( #a " = " #b "\n" ); \

int main()
    signed   int a = -1;
    unsigned int b = 2;
    signed   short c = -1;
    unsigned short d = 2;


    return 0;

The result is the following:

a > b
c < d

My platform is Linux, and my gcc version is 4.4.2. I am surprised by the second line of output. The first line of output is caused by integer promotion. But why is the result of the second line different?

The following rules are from C99 standard:

If both operands have the same type, then no further conversion is needed. Otherwise, if both operands have signed integer types or both have unsigned integer types, the operand with the type of lesser integer conversion rank is converted to the type of the operand with greater rank.

Otherwise, if the operand that has unsigned integer type has rank greater or equal to the rank of the type of the other operand, then the operand with signed integer type is converted to the type of the operand with unsigned integer type.

Otherwise, if the type of the operand with signed integer type can represent all of the values of the type of the operand with unsigned integer type, then the operand with unsigned integer type is converted to the type of the operand with signed integer type.

Otherwise, both operands are converted to the unsigned integer type corresponding to the type of the operand with signed integer type.

I think both of the two comparisons should belong to the same case, the second case of integer promotion.

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I think (but I'm not 100% sure) that all integral types shorter than int are promoted to int for all operations, so c and d both get genuine promotions and retain their value. a is already an int, so the comparison converts a to unsigned. –  Kerrek SB Oct 10 '11 at 10:04
I guessed this result before. But it seems not right according to the C99 standard. I pasted some sections from C99 on my post just now. You could refer to it. –  linuxer Oct 10 '11 at 10:07
Thanks for the quote. Perhaps there's another rule somewhere that mentions the initial promotion to int? –  Kerrek SB Oct 10 '11 at 10:11

2 Answers 2

When you use an arithmetic operator, the operands go through two conversions.

Integer promotions: If int can represent all values of the type, then the operand is promoted to int. This applies to both short and unsigned short on most platforms. The conversion performed on this stage is done on each operand individually, without regard for the other operand. (There are more rules, but this is the one that applies.)

Usual arithmetic conversions: If you compare an unsigned int against a signed int, since neither includes the entire range of the other, and both have the same rank, then both are converted to the unsigned type. This conversion is done after examining the type of both operands.

Obviously, the "usual arithmetic conversions" don't always apply, if there are not two operands. This is why there are two sets of rules. One gotcha, for example, is that shift operators << and >> don't do usual arithmetic conversions, since the type of the result should only depend on the left operand (so if you see someone type x << 5U, then the U stands for "unnecessary").

Breakdown: Let's assume a typical system with 32-bit int and 16-bit short.

int a = -1;         // "signed" is implied
unsigned b = 2;     // "int" is implied
if (a < b)
    puts("a < b");  // not printed
    puts("a >= b"); // printed
  1. First the two operands are promoted. Since both are int or unsigned int, no promotions are done.
  2. Next, the two operands are converted to the same type. Since int can't represent all possible values of unsigned, and unsigned can't represent all possible values of int, there is no obvious choice. In this case, both are converted to unsigned.
  3. When converting from signed to unsigned, 232 is repeatedly added to the signed value until it is in the range of the unsigned value. This is actually a noop as far as the processor is concerned.
  4. So the comparison becomes if (4294967295u < 2u), which is false.

Now let's try it with short:

short c = -1;          // "signed" is implied
unsigned short d = 2;
if (c < d)
    puts("c < d");     // printed
    puts("c >= d");    // not printed
  1. First, the two operands are promoted. Since both can be represented faithfully by int, both are promoted to int.
  2. Next, they are converted to the same type. But they already are the same type, int, so nothing is done.
  3. So the comparison becomes if (-1 < 2), which is true.

Writing good code: There's an easy way to catch these "gotchas" in your code. Just always compile with warnings turned on, and fix the warnings. I tend to write code like this:

int x = ...;
unsigned y = ...;
if (x < 0 || (unsigned) x < y)

You have to watch out that any code you do write doesn't run into the other signed vs. unsigned gotcha: signed overflow. For example, the following code:

int x = ..., y = ...;
if (x + 100 < y + 100)
unsigned a = ..., b = ...;
if (a + 100 < b + 100)

Some popular compilers will optimize (x + 100 < y + 100) to (x < y), but that is a story for another day. Just don't overflow your signed numbers.

Footnote: Note that while signed is implied for int, short, long, and long long, it is NOT implied for char. Instead, it depends on the platform.

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+1: nice explanation –  Paul R Oct 10 '11 at 10:19
Thanks, but I still don't know why the results are different? If there are two conversions, the results should be same. Because the second comparison will be converted to int. –  linuxer Oct 10 '11 at 14:00
@linuxer: Expanded. –  Dietrich Epp Oct 10 '11 at 22:23
Thanks your more comments. I thought about your last answer for a while. At last I got your meaning. But still thanks your comments about writing good codes. –  linuxer Oct 11 '11 at 2:11

Taken from the C++ standard:

4.5 Integral promotions [conv.prom]
1 An rvalue of type char, signed char, unsigned char, short int, or unsigned short int can be converted to an rvalue of type int if int can represent all the values of the source type; otherwise, the source rvalue can be converted to an rvalue of type unsigned int.

In practice it means, that all operations (on the types in the list) are actually evaluated on the type int if it can cover the whole value set you are dealing with, otherwise it is carried out on unsigned int. In the first case the values are compared as unsigned int because one of them was unsigned int and this is why -1 is "greater" than 2. In the second case the values a compared as signed integers, as int covers the whole domain of both short and unsigned short and so -1 is smaller than 2.

(Background story: Actually, all this complex definition about covering all the cases in this way is resulting that the compilers can actually ignore the actual type behind (!) :) and just care about the data size.)

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