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I saw this implementation of strcmp a while back, and I have a question for purely education purposes. Why is it needed to convert the inputs to 16bit integers, do the math and then convert back to 8bit? What is wrong with doing the subtraction in 8bit?

int8_t strcmp (const uint8_t* s1, const uint8_t* s2)
  while ( *s1 && (*s1 == *s2) )

  return (int8_t)( (int16_t)*s1 - (int16_t)*s2 );

Note: the code assumes 16 bit int type.

EDIT: It was mentioned that C does conversion to int (suppose 32bit) by default. Is that the case even when the code explicitly states to cast to 16bit int ?

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That is not standard compliant, do not use it. – Olaf Jan 18 at 16:09
About your EDIT, yes it's still the case. Notionally, the values are cast to int16_t and then converted to int (if int is wider than int16_t, which it might not be, although it will be at least as wide as int16_t). – Ian Abbott Jan 18 at 17:18
Maybe the point is to guarantee non-portability. int8_t and int16_t do not exist on systems that don't have native hardware types of those sizes. – Pete Becker Jan 18 at 18:37
What if *s1 is 255 and *s2 is 1? Then (int16_t)*s1 - (int16_t)*s2 yields 254, and (int8_t)254 yields an implementation-defined value, probably -2. -2 < 0 even though *s1 > *s2 so this result will be wrong. – immibis Jan 18 at 23:36
the cast in (int16_t)*s1 - (int16_t)*s2 is unnecessary because all types less than int must be promoted to int before any arithmetic operations – Lưu Vĩnh Phúc Jan 19 at 3:00
up vote 24 down vote accepted

The strcmp(a,b) function is expected to return

  • <0 if string a < string b
  • >0 if string a > string b
  • 0 if string a == string b

The test is actually made on the first char being different in the two strings at the same location (0, the string terminator, works as well).

Here since the function takes two uint8_t (unsigned char), the developer was probably worrying about doing a comparison on two unsigned chars would give a number between 0 and 255, hence a negative value would never be returned. For instance, 118 - 236 would return -118, but on 8 bits it would return 138.

Thus the programmer decided to cast to int_16, signed integer (16 bits).

That could have worked, and given the correct negative/positive values (provided that the function returns int_16 instead of int_8).

(*edit: comment from @zwol below, the integer promotion is unavoidable, thus this int16_t casting is not necessary)

However the final int_8 cast breaks the logic. Since returned values may be from -255 to 255, some of these values will see their sign reversed after the cast to int_8.

For instance, doing 255 - 0 gives the positive 255 (on 16 bits, all lower 8 bits to 1, MSB to 0) but in the int_8 world (signed int of 8 bits) this is negative, -1, since we only have the last low 8 bits set to binary 11111111, or decimal -1.

Definitely not a good programming example.

That working function from Apple is better

for ( ; *s1 == *s2; s1++, s2++)
    if (*s1 == '\0')
        return 0;
return ((*(unsigned char *)s1 < *(unsigned char *)s2) ? -1 : +1);

(Linux does it in assembly code...)

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infinitely clearer! However, one last question for educational purposes. When casting from say int_16 down to int_8 are the LSB or MSB bits preserved, or is it implementation dependent? – madski Jan 18 at 17:18
The result of converting int16_t to int8_t is implementation-defined. Most implementations simply discard the upper bits. – Ian Abbott Jan 18 at 18:04
With or without the casts to int16_t, the actual subtraction will be done on int, due to the integer promotions. int is allowed to be the same type as int16_t, but it is not allowed to be the same type as int8_t, so the integer promotions are unavoidable; there is no way (within the standard) to force C to actually do arithmetic on [u]int8_t quantities. (Note a difference between int8_t and char here; on an implementation where CHAR_BIT >= 16, int and char may be the same type; however, such an implementation cannot provide int8_t at all!) – zwol Jan 18 at 19:29
@zwol - whoops, I don't ordinarily read C questions, but got to this one through the back door. <g> – Pete Becker Jan 18 at 21:21

Actually, the difference must be done in at least 16 bits¹ for the obvious reason that the range of the result is -255 to 255 and that does not fit in 8 bits. However, sfstewman is correct in noting that it would happen due to implicit integer promotion anyway.

The eventual cast to 8 bits is incorrect, because it can overflow as the range still does not fit in 8 bits. And anyway, strcmp is indeed supposed to return plain int.

¹ 9 would suffice, but bits normally come in batches of 8.

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I think the reason the programmer is only concerned with the sign of the result so as long as that is retained its ok – madski Jan 18 at 16:36
The operands will always be promoted to int, which must hold at least 16-bit values, before the subtraction, which makes the 8-bit nature of the operands irrelevant. See the integer promotion rules (C11 – sfstewman Jan 18 at 16:37
pedant mode: "the difference must be done in at least 9 bits..." – ClickRick Jan 19 at 9:19

Input data is unsigned 8-bit, so to avoid truncation and effects of overflow/underflow it should be converted to at least 9-bit signed, therefore int16 is used.

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Then they go and ruin the result by returning a int8_t! – Ian Abbott Jan 18 at 17:10
return (int8_t)( (int16_t)*s1 - (int16_t)*s2 );

This could mean one of these two options:

  • Either the programmer was confused about how implicit type promotions work in C. Both operands will be implicitly converted to int no matter the casts to int16_t. So if intis for example 32 bits, the code is nonsense. Or otherwise if int is equivalent to int16_t for the specific system - then no conversion at all takes place.

  • Or the programmer is well-aware about how type promotions work and is writing code that needs to confirm to a standard that bans implicit type promotions, such as MISRA-C. In that case, and in case int is 16 bits on the given system, the code makes perfect sense: it forces an explicit type promotion to dodge warnings from the compiler/static analyser.

I would make a guess that the second option is the most likely, and that this code is indended for a small microcontroller system.

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your second guess is correct. It is intended for MISRA-C – madski Jan 18 at 16:32
But the return type (and cast) is still incorrect. – rici Jan 18 at 17:10
I'm not sure how such a standard can "ban" implicit type promotions, or does it only apply to certain expressions? (For example, the expression *s1 == *s2 in the original code also involves implicit type promotions, at least notionally, although such promotions would have no effect for the == and != operators in this case. – Ian Abbott Jan 18 at 17:52
@IanAbbott: The intent of the MISRA standard is to require that code not only work under the rules of C, but that it also be written so that it would work the same way in a language with rules that were independent of the size of "int". Unfortunately, some quirks in the rules of C make it hard to write code whose behavior is int-size independent. For example, uint16_t x=65535; x*=x; will set x to 1 on all platforms where uint16_t is defined and int is either 16 bits or 64 bits, but on some machines where int is 32 bits it may negate the laws of time and causality. – supercat Jan 18 at 19:15
@IanAbbott The MISRA rules regarding when to explicitly cast to avoid type promotion are rather intricate and depends on version of MISRA-C. The type promotion of the operands of == should not be dangerous, because the result is an int 1 or 0, and not a promoted type. – Lundin Jan 19 at 7:26

There are certain values that would cause the difference between the two numbers to be different if the int16_t weren't there due to overflow. In an int8_t your range is -128 to 127, in a uint8_t your range is 0 to 255, and in a int16_t your range would be -32,768 to 32,767.

Casing to an int8_t from a uint8_t will cause values over 127 to change signs due to overflow so this keeps that from happening, however the output should be an int16_t due to if you had a 255 - 0 result, it would be a truncated return.

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