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The following code is not made by me. I was searching and found it in a question from some one else.

#include <stdio.h>
#define NAME_MAX    80
#define NAME_MAX_S "80"

int main(void)
    static char name[NAME_MAX + 1]; // + 1 because of null
    if(scanf("%" NAME_MAX_S "[^\n]", name) != 1) // This line
        fputs("io error or premature end of line\n", stderr);
        return 1;

    printf("Hello %s. Nice to meet you.\n", name);

Could you tell me what the marked line does?

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closed as too localized by DrummerB, om-nom-nom, WhozCraig, Eric J., Praveen Kumar Dec 16 '12 at 19:07

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Read from stdin up to 80 characters that is not new line and store into array name. –  nhahtdh Dec 16 '12 at 18:02
Scan up to 80 characters and stop at some character after the ^, in this case a newline. More information can be found here under "negated scanset": cplusplus.com/reference/cstdio/scanf –  Orwell Dec 16 '12 at 18:02
It's a regular expression clearly –  Evert Dec 16 '12 at 18:02
can you give me another example of using the said line? because I have never seen a scanf like such that is: as a condition and diferent than "scanf("%s %s",a ,b)"; also what would be a wrong input? that would give me the error message? –  user1907948 Dec 16 '12 at 18:06
Hitting return without typing any other characters would trigger the error. Typing the EOF indication (^D or ^Z, usually) would also trigger it. –  Jonathan Leffler Dec 16 '12 at 18:54

5 Answers 5

It's a string concatenation. When you write strings you can make it so that they will be concatenate at compile time, so:

 "%" NAME_MAX_S "[^\n]",

will eventually become:


scanf will then read into the variable named name 80 characters that are not newline.

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After preprocessor substitution, it would look like this:

if(scanf("%" "80"_MAX_S "[^\n]", name) != 1) // <-- This line

which is equivalent to:

if(scanf("%80[^\n]", name) != 1) // <-- This line

read upto 80 characters or new line character.

Size of name is 81. So it can accommodate 80 characters + nul terminator. This is typically done to avoid buffer overflow when reading input.

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Two somewhat obscure language features are being used at the same time:

  1. String pasting. After preprocessing, the line is

    if(scanf("%" "80" "[^\n]", name) != 1)

    The adjacent string literals are then pasted together, so for later parts of the compiler, it's just as if it said ... scanf("%80[^\n]", name) ...

  2. A less-common scanf conversion. "%[...]" is not completely different from "%s", so this is fairly similar to a "%80s" conversion. I'm sure you can look up [ as a scanf conversion specifier in the scanf(3) manual page or another reference.

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if (scanf("%" NAME_MAX_S "[^\n]", name) != 1) // This line

It is a way of writing:

if (scanf("%80[^\n]", name) != 1)

There are multiple features that could be confusing you.

  1. The "%" NAME_MAX_S "[^\n]" notation uses string concatenation to create a single string from pieces.
  2. The %80[^\n] conversion specification uses a negated 'scan set' to specify that the read character string may be up to 80 non-newlines.
  3. When you specify a length to scanf() et al in %s or %[], you specify the number of characters excluding the null byte (old design). This means you have to deal with the off-by-one difference between the defined size of the string variable and the length specified in the conversion specification.
  4. The overall condition correctly checks that a string was read successfully. It will detect a failure to convert anything (return value 0 because the first character in the input was a newline) as well as EOF. The only possible problem is that it does not keep the return value to distinguish between the two, but you can use feof() and ferror() to do so — that is what they're intended for (to distinguish errors after something failed).

The code uses NAME_MAX_S to ensure it has a string. It could have used:

#define STR_EVALUATE(x) #x

if (scanf("%" STRINGIFY(NAME_MAX) "[^\n]", name) != 1)

This would reduce the number of lines to be maintained to 1. But it only works for simple numbers; if you had an expression #define NAME_MAX (2*LEN_NAME_COMPONENT+LEN_MIDDLE_INITIALS), the whole process of string formation would not work. Then you need to do:

char format[16];
sprintf(format, "%%%d[^\n]", NAME_MAX);

if (scanf(format, name) != 1)
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thank you so much to all of you. I understand it now –  user1907948 Dec 16 '12 at 18:41

It reads no more than 80 (non-newline) characters from stdin into the name variable.

If it encounters a newline, it stops scanning.

It looks weird because it uses a slightly obscure and not really well teached feature of C: its ability to collapse adjacent constant strings into a single one.

(it is actually a very handy feature: it allows wrapping long strings over a number of lines, and allows macros to do useful things with constant strings)

...so, fundamentally imagine this line looks like:

if(scanf("%80[^\n]", name) != 1)

And then follow scanf documentation to understand what [^\n] does.

And by the way... using the NAME_MAX_S constant could be avoided altogether using cpp stringification:

if(scanf("%" #NAME_MAX "[^\n]", name) != 1)
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String concatenation was one of the useful additions over the mainstream prior art added to C89. It has always been 'standard' while there has been a (formal) standard to conform to. Also, strictly, it is not a C preprocessor feature. The preprocessor does not do string concatenation (phase 4 of the translation phases in § of the C2011 standard); it is handled separately in phase 6 . –  Jonathan Leffler Dec 16 '12 at 18:12
Yup, sorry, there it is, our problem here: there is a CPP string concatenation, and it's done by pasting cpp tokens with ##. Then there is the C compiler collapsing adjacent constant strings and that is the feature we're dealing with. Also there is CPP stringification that here would come handy. Also stringification and collapsing of adjacent constants go hand in hand, and that's why I've got confused. Thanks. –  ZJR Dec 16 '12 at 18:23
There's preprocessor 'token concatenation' with the ## operator, and (as you say), stringification with the # operator. They were also useful additions over the mainstream prior art added to C89. –  Jonathan Leffler Dec 16 '12 at 18:26
thank you so much guys your help is the best. –  user1907948 Dec 16 '12 at 18:37

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