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My view is that a C implementation cannot satisfy the specification of certain stdio functions (particularly fputc/fgetc) if sizeof(int)==1, since the int needs to be able to hold any possible value of unsigned char or EOF (-1). Is this reasoning correct?

(Obviously sizeof(int) cannot be 1 if CHAR_BIT is 8, due to the minimum required range for int, so we're implicitly only talking about implementations with CHAR_BIT>=16, for instance DSPs, where typical implementations would be a freestanding implementation rather than a hosted implementation, and thus not required to provide stdio.)

Edit: After reading the answers and some links references, some thoughts on ways it might be valid for a hosted implementation to have sizeof(int)==1:

First, some citations:

7.19.7.1(2-3):

If the end-of-file indicator for the input stream pointed to by stream is not set and a next character is present, the fgetc function obtains that character as an unsigned char converted to an int and advances the associated file position indicator for the stream (if defined).

If the end-of-file indicator for the stream is set, or if the stream is at end-of-file, the endof-file indicator for the stream is set and the fgetc function returns EOF. Otherwise, the fgetc function returns the next character from the input stream pointed to by stream. If a read error occurs, the error indicator for the stream is set and the fgetc function returns EOF.

7.19.8.1(2):

The fread function reads, into the array pointed to by ptr, up to nmemb elements whose size is specified by size, from the stream pointed to by stream. For each object, size calls are made to the fgetc function and the results stored, in the order read, in an array of unsigned char exactly overlaying the object. The file position indicator for the stream (if defined) is advanced by the number of characters successfully read.

Thoughts:

  • Reading back unsigned char values outside the range of int could simply have undefined implementation-defined behavior in the implementation. This is particularly unsettling, as it means that using fwrite and fread to store binary structures (which while it results in nonportable files, is supposed to be an operation you can perform portably on any single implementation) could appear to work but silently fail. essentially always results in undefined behavior. I accept that an implementation might not have a usable filesystem, but it's a lot harder to accept that an implementation could have a filesystem that automatically invokes nasal demons as soon as you try to use it, and no way to determine that it's unusable. Now that I realize the behavior is implementation-defined and not undefined, it's not quite so unsettling, and I think this might be a valid (although undesirable) implementation.

  • An implementation sizeof(int)==1 could simply define the filesystem to be empty and read-only. Then there would be no way an application could read any data written by itself, only from an input device on stdin which could be implemented so as to only give positive char values which fit in int.

Edit (again): From the C99 Rationale, 7.4:

EOF is traditionally -1, but may be any negative integer, and hence distinguishable from any valid character code.

This seems to indicate that sizeof(int) may not be 1, or at least that such was the intention of the committee.

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even if sizeof(char) == sizeof(int), are ints and chars required to represent the same range ? i.e. could a system provide a 16 bit char which you're only guaranteed to be able to use ,say,8 bit values, while an int makes use of all 16 (or - CHAR_MAX being less than INT_MAX, etc.) ? –  nos Oct 5 '10 at 18:30
    
@nos: No. sizeof() is in terms of unsigned char units, which are the fundamental representation of any type. See "Representation of Types" (6.2.6) in the C standard. The other direction is possible, though; some bits of int could be padding bits, trap bits, etc. –  R.. Oct 5 '10 at 23:21
    
Unless I see a better answer soon, I'm leaning towards accepting Charles's answer. It's the one that's contributed the most to my understanding of the issue. –  R.. Oct 6 '10 at 3:21
    
@nos: I take that back. If sizeof(int) is 1, int cannot have any padding bits/trap bits due to the integer conversion rank and promotion rules in 6.3.1.1. Specifically, paragraph 3 says "The integer promotions preserve value including sign." This also means that if sizeof(int) is 1 and signed char is twos complement, int must also be twos complement (or SCHAR_MIN could not be preserved by promotion). –  R.. Oct 6 '10 at 16:27
    
@R: If sizeof(int) is one, 'int' could have extra padding/trap bits iff those same padding/trap bits exist for 'char'. Likewise, if sizeof(int) is not one, a 'char' may have extra padding bits if such bits also serve as padding in larger types. For example, a machine with 13-bit memory and registers could 'pretend' to be an 8-bit machine, if the unused bits did not affect the behavior of any legitimate program. –  supercat Dec 8 '10 at 5:23

8 Answers 8

up vote 13 down vote accepted

It is possible for an implementation to meet the interface requirements for fgetc and fputc even if sizeof(int) == 1.

The interface for fgetc says that it returns the character read as an unsigned char converted to an int. Nowhere does it say that this value cannot be EOF even though the expectation is clearly that valid reads "usually" return positive values. Of course, fgetc returns EOF on a read failure or end of stream but in these cases the file's error indicator or end-of-file indicator (respectively) is also set.

Similarly, nowhere does it say that you can't pass EOF to fputc so long as that happens to coincide with the value of an unsigned char converted to an int.

Obviously the programmer has to be very careful on such platforms. This is might not do a full copy:

void Copy(FILE *out, FILE *in)
{
    int c;
    while((c = fgetc(in)) != EOF)
        fputc(c, out);
}

Instead, you would have to do something like (not tested!):

void Copy(FILE *out, FILE *in)
{
    int c;
    while((c = fgetc(in)) != EOF || (!feof(in) && !ferror(in)))
        fputc(c, out);
}

Of course, platforms where you will have real problems are those where sizeof(int) == 1 and the conversion from unsigned char to int is not an injection. I believe that this would necessarily the case on platforms using sign and magnitude or ones complement for representation of signed integers.

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1  
Passing EOF to fputc is completely valid because the argument is converted to unsigned char before being written. Thus fputc(EOF) is equivalent to fputc(UCHAR_MAX). The conversion in the other direction, however, is undefined behavior if UCHAR_MAX>INT_MAX. –  R.. Oct 5 '10 at 16:46
    
@R..: Yes, you're completely correct about passing EOF to fputc. Then conversion from an unsigned char that can't be represented as an int value to int does not cause undefined behaviour, though, it is implementation defined. This is important because it allows an implementation to support the fputc/fgetc round trip. –  Charles Bailey Oct 5 '10 at 19:01
1  
You are correct. I assumed the behavior was the same as signed arithmetic overflow, but conversion to a signed type is implementation-defined (according to 6.3.1.3 paragraph 3) as you say. –  R.. Oct 5 '10 at 23:26

I remember this exact same question on comp.lang.c some 10 or 15 years ago. Searching for it, I've found a more current discussion here:

http://groups.google.de/group/comp.lang.c/browse_thread/thread/9047fe9cc86e1c6a/cb362cbc90e017ac

I think there are two resulting facts:

(a) There can be implementations where strict conformance is not possible. E.g. sizeof(int)==1 with one-complement's or sign-magnitude negative values or padding bits in the int type, i.e. not all unsigned char values can be converted to a valid int value.

(b) The typical idiom ((c=fgetc(in))!=EOF) is not portable (except for CHAR_BIT==8), as EOF is not required to be a separate value.

share|improve this answer
    
+1 for good reference. –  R.. Oct 5 '10 at 16:36
    
@R..: Ah, now I see. fputc couldn't work in my solution without "encoding" the character. So that excludes binary streams, but that's not a huge deal. –  Potatoswatter Oct 5 '10 at 18:10

Would it not be sufficient if a nominal char which shared a bit pattern with EOF was defined as non-sensical? If, for instance, CHAR_BIT was 16 but all the allowed values occupied only the 15 least significant bits (assume a 2s-complement of sign-magnitude int representation). Or must everything representable in a char have meaning as such? I confess I don't know.

Sure, that would be a weird beast, but we're letting our imaginations go here, right?

R.. has convinced me that this won't hold together. Because a hosted implementation must implement stdio.h and if fwrite is to be able to stick integers on the disk, then fgetc could return any bit pattern that would fit in a char, and that must not interfere with returning EOF. QED.

share|improve this answer
    
If a file is opened in binary mode, any value of unsigned char must be able to be written to and read back from the file. And unsigned char cannot have padding bits. –  R.. Oct 5 '10 at 5:17
    
Hmm... ::sits and considers various ways to try and save the idea:: –  dmckee Oct 5 '10 at 5:23
1  
...but no. I think that's me told. I withdraw the suggestion. –  dmckee Oct 5 '10 at 5:24

I don't believe the C standard directly requires that EOF be distinct from any value that could be read from a stream. At the same time, it does seem to take for granted that it will be. Some parts of the standard have conflicting requirements that I doubt can be met if EOF is a value that could be read from a stream.

For example, consider ungetc. On one hand, the specification says (§7.19.7.11):

The ungetc function pushes the character specified by c (converted to an unsigned char) back onto the input stream pointed to by stream. Pushed-back characters will be returned by subsequent reads on that stream in the reverse order of their pushing. [ ... ] One character of pushback is guaranteed.

On the other hand, it also says:

If the value of c equals that of the macro EOF, the operation fails and the input stream is unchanged.

So, if EOF is a value that could be read from the stream, and (for example) we do read from the stream, and immediately use ungetc to put EOF back into the stream, we get a conundrum: the call is "guaranteed" to succeed, but also explicitly required to fail.

Unless somebody can see a way to reconcile these requirements, I'm left with considerable doubt as to whether such an implementation can conform.

In case anybody cares, N1548 (the current draft of the new C standard) retains the same requirements.

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I think you are right. Such an implementation cannot distinguish a legitimate unsigned char value from EOF when using fgetc/fputc on binary streams.

If there are such implementations (this thread seems to suggest there are), they are not strictly conforming. It is possible to have a freestanding implementation with sizeof (int) == 1.

A freestanding implementation (C99 4) only needs to support the features from the standard library as specified in these headers: <float.h>, <iso646.h>, <limits.h>, <stdarg.h>, <stdbool.h>, <stddef.h>, and <stdint.h>. (Note no <stdio.h>). Freestanding might make more sense for a DSP or other embedded device anyway.

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Nit: <float.h>, <iso646.h>, etc are not libraries: they are standard headers –  pmg Oct 5 '10 at 9:37
    
@pmg Thanks, I've reworded the sentence. –  schot Oct 5 '10 at 9:50

I'm not so familiar with C99, but I don't see anything that says fgetc must produce the full range of values of char. The obvious way to implement stdio on such a system would be to put 8 bits in each char, regardless of its capacity. The requirement of EOF is

EOF

which expands to an integer constant expression, with type int and a negative value, that is returned by several functions to indicate end-of-file, that is, no more input from a stream

The situation is analogous to wchar_t and wint_t. In 7.24.1/2-3 defining wint_t and WEOF, footnote 278 says

wchar_t and wint_t can be the same integer type.

which would seem to guarantee that "soft" range checking is sufficient to guarantee that *EOF is not in the character set.

Edit:

This wouldn't allow binary streams, since in such a case fputc and fgetc are required to perform no transformation. (7.19.2/3) Binary streams are not optional; only their distinctness from text streams is optional. So it would appear that this renders such an implementation noncompliant. It would still be perfectly usable, though, as long as you don't attempt to write binary data outside the 8-bit range.

share|improve this answer
    
You mean "8 bits in each char", right? In C, a byte has CHAR_BIT bits. And wchar_t has the same requirements as char. –  schot Oct 5 '10 at 6:30
    
@Potatoswatter: Great compression scheme ;) I'm not sure if this 'fixes' it. I haven't found anything that forbids it yet. –  schot Oct 5 '10 at 6:42
    
@schot: Well… it seems necessary to interoperability with files that aren't pre-padded. The alternative isn't actually any less dense; you need to address those ASCII characters somehow. –  Potatoswatter Oct 5 '10 at 6:47
    
I mean more dense. Wow, I should quit for the evening. –  Potatoswatter Oct 5 '10 at 6:56
    
If you only put 8 bits in each char, then CHAR_BIT==8 and we're outside the domain of the question. Now it's very possible that someone using an implementation with CHAR_BIT==64 would still only want to store 8 bits in each char when dealing with text data (in ASCII or UTF-8, for example), but this does not change the fact that char is an integer type capable of representing its entire range, and that fgetc and fputc work on binary data. –  R.. Oct 5 '10 at 16:35

You are assuming that the EOF cannot be an actual character in the character set. If you allow this, then sizeof(int) == 1 is OK.

share|improve this answer
    
Is this allowed? I seriously doubt it. Citation either way? –  R.. Oct 5 '10 at 16:32
    
EOF cannot be a value of unsigned char, as its value is -1. However, what may be possible (it's unclear to me) is whether the standard allows an implementation to have some values of unsigned char which cannot be represented in int (their conversion to int, which it specifies happens, would then have undefined behavior). –  R.. Oct 5 '10 at 16:44
    
@R For citation check the C standard. EOF definitely isn't defined as -1. Signed to unsigned conversion isn't defined per standard but we are talking about specific platform here. –  Let_Me_Be Oct 6 '10 at 9:26
2  
Signed to unsigned conversion is defined by the C standard. It's reduction modulo 2^N. Unsigned to signed conversion is defined by the standard when the value is representable; when it's not, the result is implementation-defined. Sorry about EOF and -1. It's a negative constant of type int, not necessarily -1, but that does not change the fact that it cannot be a value of unsigned char. –  R.. Oct 6 '10 at 16:19

The TI C55x compiler I am using has a 16bit char and 16bit int and does include a standard library. The library merely assumes an eight bit character set, so that when interpreted as a character as char of value > 255 is not defined; and when writing to an 8-bit stream device, the most significant 8 bits are discarded: For example when written to the UART, only the lower 8 bits are transferred to the shift register and output.

share|improve this answer
    
I'm pretty sure that is not a conformant hosted implementation. –  R.. Oct 5 '10 at 23:23
    
No, but it could be made one. :-) –  Prof. Falken Oct 2 '11 at 7:36

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