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In C, strings are terminated with null ( \0 ) which causes problems when you want to put a null in a strings. Why not have a special escaped character such as \$ or something?

I am fully aware at how dumb this question is, but I was curious.

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What happens when you want to put \$ in a string? –  Nick Presta Jul 19 '09 at 22:55
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Then you escape the escape character, of course! –  Bryan Oakley Jul 19 '09 at 22:58
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@Bryan: You can't escape a character, you can only escape the source code representation of a character. Which ever character you use as termination can't be used inside a string. –  Guffa Jul 19 '09 at 23:37
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You could always use a pascal string instead of a null terminated string. typedef struct _pstr{ int length; char*bits; } pstr; The downside of this approach is that you have to manually manage it and the string functions won't work in it so you have to roll your own (but i'm pretty sure there is a library somewhere for dealing with this). en.wikipedia.org/wiki/Pascal_string#Representations –  dsm Jul 30 '09 at 13:25
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Even C++ uses Pascal strings basically. If C libraries had used Pascal strings, too, we wouldn't have a stupid O(N) strlen. Additionally, we could have avoided tons of security bugs. –  Blaisorblade Nov 19 '10 at 12:11

8 Answers 8

up vote 38 down vote accepted

Terminating with a 0 has many performance niceties, which were very much relevant back in the late 60s.

CPUs have instructions for conditional jump on test for 0. In fact, some CPUs even have instructions which will iterate/copy a sequence of bytes up to the 0.

If you used an escaped character instead, you have two test TWO different bytes to assert the end of the string. Not only that's slower, but you lose the ability to iterate one byte at a time, as you need a look-ahead or the ability to backtrack.

Now, other languages (cough, Pascal, cough) use strings in a count/value style. For them, any character is valid, but they always keep a counter with the size of the string. The advantage is clear, but there are disadvantages to this technique too.

For one thing, the string size is limited by the number of bytes the count takes. One byte gives you 255 characters, two bytes gives you 65535, etc. It might be almost irrelevant today, but adding two bytes to every string once was quite expensive.

Edit:

I do not think the question is dumb. In these days of high level languages with memory management, incredible CPU power and obscene amounts of memory, such decisions from the past can well seem senseless. And, indeed, they MIGHT be senseless nowadays, so it's a fine thing to question them.

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+1 for mentioning the CPU. Your "some CPUs" includes Intel's x86 instruction set (though maybe those instructions aren't used much anymore). –  ChrisW Jul 19 '09 at 23:08
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If you define your own string structure, You can make the 255 value of the size byte, indicate that another size byte follows. –  Liran Orevi Jul 19 '09 at 23:09
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The performance characteristics are still relevant today in many situations. It's important in embedded systems, and in kernel/driver development where you still want to scrape and save every CPU cycle you can. Which is why C is still king in these areas. –  Gerald Jul 19 '09 at 23:28
    
It's senseless to not know Wirth's Law. Especially now, where the hardware trends are to push the envelope in how SMALL a computer can be. –  NoMoreZealots Jul 29 '09 at 1:25
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@Pete Eddy: that has nothing to do with the issue. I'm talking about decisions made when total available RAM memory was smaller than the memory used by today's CPU registers. The hardware trends are going nowhere close to that. –  Daniel C. Sobral Jul 29 '09 at 3:56

You need to have some actual byte value to terminate a string - how you represent it in code isn't really relevant.

If you used \$ to terminate strings, what byte value would it have in memory? How would you include that byte value in a string?

You're going to hit this problem whatever you do, if you use a special character to terminate strings. The alternative is to use counted strings, whereby the representation of a string includes its length (eg. BSTR).

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Okay, so \$ would point to some value that is currently unused. –  akway Jul 19 '09 at 22:54
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But there are no "unused" byte values. Any byte can occur in a C string - you might as well say that \0 was chosen because it was unused. –  RichieHindle Jul 19 '09 at 22:56
    
Like what? If you are using UTF-8, then the entire range is used. –  Michael Aaron Safyan Jul 19 '09 at 22:56
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C libaries NEED a terminal value, Pascal style strings use a length parameter. It was merely a design choice, not the only way to do it. And most people would argue that C's string handling sucks because of it. –  NoMoreZealots Jul 19 '09 at 23:11
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I don't think "most people" would agree to that. Handling strings in C may not be as elegant as with some other solutions, but from a speed standpoint it's no contest, and C was designed for speed. See Daniel's answer for why. –  Gerald Jul 19 '09 at 23:19

I guess because it's faster to check, and totally improbable to occur in a reasonable string. Also, remember that C has no concept of strings. A string in C is not something by itself. It's just an array of characters. The fact that it's called and used as a string is purely incidental and conventional.

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It causes problems but you can embed a \0 ...

const char* hello = "Hello\0World\0\0";

It causes a problem if you pass this to a standard library functions like strlen, but not otherwise.

A better solution than any string-terminating character might be to prepend the length of the string like ...

const char* hello = "\x0BHello World";

... which is the way some other languages do it.

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Nice examples, but you may want the prefixed string-length in your example to actually reflect the length of the string? (I think you forgot to count the space) –  jerryjvl Jul 19 '09 at 23:00
    
Thanks for noting that. I counted to C, re-counted and decided that C was one too many, and then erroneously wrote down A as if C minus 1 was A. I've corrected it now. –  ChrisW Jul 19 '09 at 23:05
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Reminds me of the old days with Hollerith constants in FORTRAN, so you'd have a string like 16HTHIS IS A STRING. Woe be unto you if you miscounted! The newfangled quoted strings that showed up later were much nicer. –  David Thornley Oct 30 '09 at 21:50

If standard library functions like strlen or printf could (option-wise) look for a end-of-string marker \777 (as an alternative to \000), you could have a constant character string containing \0s:

const char* hello = "Hello\0World\0\0\777"; 
printf("%s\n", hello);

By the way, if you want to send a \0 to stdout (aka -print0) you may use:

putchar(0);
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Ditto on the historical reasons.

The creators of std::string in C++ recognized this shortcoming, so std::string can include the null character. (But be careful constructing a std::string with a null character!)

If you want to have a C-string (or rather, a quasi-C-string) with a null character, you will have to make to make your own struct.

typedef struct {
    size_t length;
    char[] data; //C99 introduced the flexible array member
} my_string;

Or you'll have to keep track of the string length in some other way and pass it to every string function that you write.

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Not to necro-post deliberately, but this is still highly relevant for embedded SQL.

If you are dealing with binary data in C, you should be creating a binary object in a data stucture. If you can afford it, an array of char will suffice. It probably isn't a string anyway, is it ?

For hash / digest values, it is common to "HEX" them out into members of {'0',..,'F'}. These can then be "UNHEXED" during the database operation.

For file operations, consider a binary stream, with a logical record length.

Escaping them yourself is only really safe if you can guarantee the encoding. In fact this can be seen in a MYSQLDUMP (SQL) unload where the binaries are properly escaped for UTF-8 say, and the installation scheme is 'pushed' for the load and 'popped' afterwards.

I don't advocate using a dbms call for what should be a library function either, but I have seen it done. (select of real_escape_string ($string)).

And there's base64, which is another can of worms. Google UUENCODE.

So yeah, mem* functions if your characters are fixed width.

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There is no reason for a nul character to be part of a string except as a terminator; it has no graphical representation, so you wouldn't see it, nor does it act as a control character. As far as text is concerned, it's as out-of-band a value as you can get without using a different representation (e.g., a multibyte value like 0xFFFF).

To slightly rephrase Michael's question, how would you expect "Hello\0World\0" to be handled?

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How do you represent in memory a bag of binary data, which might contain a NUL? The C answer, basically, is "use mem* routines". And if you need to store the length, it goes on with "then invent your own way to store lengths if you need so, and write wrappers for the mem* functions you need". –  Blaisorblade Nov 19 '10 at 19:16
    
There are plenty of reasons you might have a zero byte in an array of bytes, or - since C uses 'char' instead of 'byte' - an array of chars. Just remember not to treat this as a string and you'll be fine. A "C string" is a null-terminated char array, though it is in reality not its own data type. That can be the source of confusion. –  Paul Draper Nov 9 '12 at 5:30

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