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Why this distinction? I've landed up with terrible problems, assuming itoa to be in stdlib.h and finally ending up with linking a custom version of itoa with a different prototype and thus producing some crazy errors.

So, why isn't itoa not a standard function? What's wrong with it? And why is the standard partial towards its twin brother atoi?

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atoi is historical, itoa isn't. You shouldn't really use atoi anyway, strto(u)l(l) is what you should use. For the other direction, s(n)printf. –  Daniel Fischer Apr 15 '12 at 14:14
    
As itoa isn't a standard function can you include what the interface contract for the itoa function that you want to discuss should be? (Doing this may answer your question.) –  Charles Bailey Apr 15 '12 at 14:14
    
@CharlesBailey I am just curious in general as to why the standard included atoi and not itoa –  Pavan Manjunath Apr 15 '12 at 14:19
    
@Stacker: Do you have a particular itoa in mind? –  Charles Bailey Apr 15 '12 at 14:22
    
@CharlesBailey Something like this –  Pavan Manjunath Apr 15 '12 at 14:24

3 Answers 3

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No itoa has ever been standardised so to add it to the standard you would need a compelling reason and a good interface to add it.

Most itoa interfaces that I have seen either use a static buffer which has re-entrancy and lifetime issues, allocate a dynamic buffer that the caller needs to free or require the user to supply a buffer which makes the interface no better than sprintf.

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itoa() with a passed in buffer can be a huge win over s(n)printf() when nothing else from that particular part of the library (nothing in the printf() family) is used. That's not a reason to put itoa() in the standard C library, but it is a reason to prefer it over something much heavier. –  Julie in Austin Apr 15 '12 at 14:26
    
@JulieinAustin: Why is it a huge win? True, you don't have to parse the two character format string but I wouldn't consider that a huge win. –  Charles Bailey Apr 15 '12 at 14:28
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All of the other parsing functions that come along for the ride with the printf() family can also be avoided. Remember -- there are other things in this life besides parsing format strings. Like, memory footprint. –  Julie in Austin Apr 15 '12 at 14:30
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I imagine @JulieinAustin is coding for a tightly constrained target environment, such as device firmware. It isn't the usual FOSS use, but it's a vital application area for C. Sometimes in those environments you aren't allowed to link to ANY *printf functions. –  Spike0xff Mar 2 at 17:08
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@Spike0xff guessed correctly - I do a lot of coding where 64K is still considered "huge". The last piece of C I wrote compiles to 15K and uses less than 2K of RAM. Which is a good thing since the part has 28K of I-space and 2K of D-space. –  Julie in Austin Mar 5 at 0:59

An "itoa" function would have to return a string. Since strings aren't first-class objects, the caller would have to pass a buffer + length and the function would have to have some way to indicate whether it ran out of room or not. By the time you get that far, you've created something similar enough to sprintf that it's not worth duplicating the code/functionality. The "atoi" function exists because it's less complicated (and arguably safer) than a full "scanf" call. An "itoa" function wouldn't be different enough to be worth it.

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Not really. Many developers included itoa()-like routines in code over the years. The maximum buffer size was well-bounded - 6 bytes and a spare for the NUL for 16-bit boxen, and 11 plus a spare for 32-bit boxen. I use an itoa() function in a piece of data acquisition firmware to format a text string containing version and status information. In that implementation I do pass in a pointer, but I've seen others the buffer is static. The best explanation is that just like standards, there are so many different itoa() implementations to choose from!!! –  Julie in Austin Mar 5 at 1:07
    
@JulieinAustin - I'm not saying they don't exist, just that they're not standardized. Your description helps show why. The buffer size differs based on the register size of the machine. The C standards committee stays away from hardware-specific details like this. A standardized function would have to have a consistent interface and work the same on any platform, and the only practical way to do that is to reinvent most of printf(). –  bta Mar 5 at 22:23
    
I was replying to your assertion that the function would =have= to do all sorts of things. It really doesn't, and the implementation could easily be specified using suitable numbers of weasel-words to get around differences in word size. I mean, for any given word size, there is a well-understood, finite number of characters of storage which are required to represent all possible integer values for that word size. TL;DR - it can be, and has been, implemented far easier and more consistently than you suggest. –  Julie in Austin Mar 7 at 3:01

Programming language standards should not invent mechanisms unless they are absolutely necessary to solve some kind of problem which is facing the programming language. (For example, <stdarg.h> was a justifiable invention due to problems in <varargs.h>). Their task is to survey the landscape of what is implemented, determine what is portable and describe it.

Libraries and language features should be implemented first, then when the majority of the compilers and libraries have some feature, and most of them have it done in a compatible way, then it can be standardized.

The itoa function was not widely implemented back in the late 1980's when ANSI C was being drafted. It doesn't have a consistent interface among systems where it is implemented, or even a name. For example, Microsoft called it _itoa, last time I worked with Visual C.

There are some awkward subtleties. One piece of documentation for a particular itoa says that if the value is negative and the base is 10, there will be a minus sign. However, if the base is other than 10, then the value is treated as unsigned. What does that even mean? The parameter is of type int, and therefore signed. Considering it as unsigned could mean converting to unsigned int as if by assignment, interpreting the raw bit pattern as an unsigned int via pointer casting, or just dropping the sign and converting the positive value to text. This is completely stupid; the function should produce a minus sign for negative numbers in any base.

A poorly-defined function with such inconsistent treatment of its parameters must not be standardized. An improved version must not be standardized under the name itoa, because that will clash with platform-specific incompatible version.

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