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I long thought that in C, all variables had to be declared at the beginning of the function. I know that in C99, the rules are the same as in C++, but what are the variable declaration placement rules for C89/ANSI C?

The following code compiles successfully with gcc -std=c89 and gcc -ansi:

#include <stdio.h>
int main() {
    int i;
    for (i = 0; i < 10; i++) {
        char c = (i % 95) + 32;
        printf("%i: %c\n", i, c);
        char *s;
        s = "some string";
    return 0;

Shouldn't the declarations of c and s cause an error in C89/ANSI mode?

share|improve this question
Just a note: variables in ansi C don't have to be declared at the start of a function but rather at the start of a block. So, char c = ... at the top of your for loop is completely legal in ansi C. The char *s, however, would not be. – Jason Coco Nov 13 '08 at 21:56
up vote 88 down vote accepted

It compiles successfully because GCC allows it as a GNU extension, even though it's not part of the C89 or ANSI standard. If you want to adhere strictly to those standards, you must pass the -pedantic flag.

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Wow. Thanks! I didn't know that. – mcjabberz Nov 13 '08 at 21:49
It is probably worth noting that only the declaration of s is an extension (from C89 point of view). The declaration of c is perfectly legal in C89, no extensions needed. – AnT Apr 16 '10 at 23:16
@AndreyT: Yeah, in C, variable declarations should be @ the beginning of a block and not a function per se; but people confuse block with function since it's the primary example of a block. – legends2k Jun 14 '12 at 14:01

For C89, you must declare all of your variables at the beginning of a scope block.

So, your char c declaration is valid as it is at the top of the for loop scope block. But, the char *s declaration should be an error.

share|improve this answer
Quite correct. You can declare variables at the beginning of any { ... }. – Artelius Nov 13 '08 at 21:55
@Artelius Not quite correct. Only if the curlies are part of a block (not if they are part of a struct or union declaration or a braced initializer.) – Jens Jun 18 '13 at 19:39

Grouping variable declarations at the top of the block is a legacy likely due to limitations of old, primitive C compilers. All modern languages recommend and sometimes even enforce the declaration of local variables at the latest point: where they're first initialized. Because this gets rid of the risk of using a random value by mistake. Separating declaration and initialization also prevents you from using "const" (or "final") when you could.

C++ unfortunately keeps accepting the old, top declaration way for backward compatibility with C (one C compatibility drag out of many others...) But C++ tries to move away from it:

  • The design of C++ references does not even allow such top of the block grouping.
  • If you separate declaration and initialization of a C++ local object then you pay the cost of an extra constructor for nothing. If the no-arg constructor does not exist then again you are not even allowed to separate both!

C99 starts to move C in this same direction.

If you are worried of not finding where local variables are declared then it means you have a much bigger problem: the enclosing block is too long and should be split.

share|improve this answer… – MarcH Nov 5 '10 at 11:12
See also how forcing variable declarations at the top of the block can create security holes: – MarcH May 17 '11 at 8:36

From a maintainability, rather than syntactic, standpoint, there are at least three trains of thought:

  1. Declare all variables at the beginning of the function so they'll be in one place and you'll be able to see the comprehensive list at a glance.

  2. Declare all variables as close as possible to the place they're first used, so you'll know why each is needed.

  3. Declare all variables at the beginning of the innermost scope block, so they'll go out of scope as soon as possible and allow the compiler to optimize memory and tell you if you accidentally use them where you hadn't intended.

I generally prefer the first option, as I find the others often force me to hunt through code for the declarations. Defining all variables up front also makes it easier to initialize and watch them from a debugger.

I'll sometimes declare variables within a smaller scope block, but only for a Good Reason, of which I have very few. One example might be after a fork(), to declare variables needed only by the child process. To me, this visual indicator is a helpful reminder of their purpose.

share|improve this answer
I use option 2 or 3 so it is easier to find the variables -- because the functions shouldn't be so big that you can't see the variable declarations. – Jonathan Leffler Nov 15 '08 at 15:07
Option 3 is a non-issue, unless you use a compiler from the 70s. – edgar.holleis Nov 5 '10 at 11:45
If you used a decent IDE, you wouldn't need to go code hunting, because there should be an IDE-command to find the declaration for you. (F3 in Eclipse) – edgar.holleis Nov 5 '10 at 11:47
I don't understand how you can ensure initialization in option 1, may times you can only get the initial value later in the block, by calling another function, or performing a caclulation, may be. – Plumenator May 20 '11 at 12:03
@Plumenator: option 1 doesn't ensure initialization; I chose to initialize them upon declaration, either to their "correct" values or to something that will guarantee the subsequent code will break if they're not set appropriately. I say "chose" because my preference has changed to #2 since I wrote this, perhaps because I'm using Java more than C now, and because I have better dev tools. – Adam Liss May 28 '11 at 22:27

As noted by others, GCC is permissive in this regard (and possibly other compilers, depending on the arguments they're called with) even when in 'C89' mode, unless you use 'pedantic' checking. To be honest, there are not many good reasons to not have pedantic on; quality modern code should always compile without warnings (or very few where you know you are doing something specific that is suspicious to the compiler as a possible mistake), so if you cannot make your code compile with a pedantic setup it probably needs some attention.

C89 requires that variables be declared before any other statements within each scope, later standards permit declaration closer to use (which can be both more intuitive and more efficient), especially the simultaneous declaration and initialization of a loop control variable in 'for' loops.

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I will quote some statements from the manual for gcc version 4.7.0 for a clear explanation.

"The compiler can accept several base standards, such as ‘c90’ or ‘c++98’, and GNU dialects of those standards, such as ‘gnu90’ or ‘gnu++98’. By specifying a base standard, the compiler will accept all programs following that standard and those using GNU extensions that do not contradict it. For example, ‘-std=c90’ turns off certain features of GCC that are incompatible with ISO C90, such as the asm and typeof keywords, but not other GNU extensions that do not have a meaning in ISO C90, such as omitting the middle term of a ?: expression."

I think the key point of your question is that why does not gcc conform to C89 even if the option "-std=c89" is used. I don't know the version of your gcc, but I think that there won't be big difference. The developer of gcc has told us that the option "-std=c89" just means the extensions which contradict C89 are turned off. So, it has nothing to do with some extensions that do not have a meaning in C89. And the extension that don't restrict the placement of variable declaration belongs to the extensions that do not contradict C89.

To be honest, everyone will think that it should conform C89 totally at the first sight of the option "-std=c89". But it doesn't. As for the problem that declare all variables at the beginning is better or worse is just A matter of habit.

share|improve this answer
conforming doesn't mean not accepting extensions: as long as the compiler compiles valid programs and produces any required diagnostics for others, it conforms. – Marc Lehmann Sep 23 '12 at 21:28
@Marc Lehmann, yes, you are right when the word "conform" is used to differentiate compilers. But when the word "conform" is used to describe some usages, you can say "A usage does not conform the standard." And all beginners have a opinion that the usages which don't conform the standard should cause an error. – junwanghe Sep 25 '12 at 14:31
@Marc Lehmann, by the way, there is no diagnostic when gcc sees the usage that does not conform the C89 standard. – junwanghe Sep 25 '12 at 14:34
Your answer is still wrong, because claiming "gcc does not conform" is not the same thing as "some user program does not conform". Your usage of conform is simply incorrect. Besides, when I was a beginner I wasn't of the opinion you state, so that is wrong also. Lastly, there is no requirement for a conforming compiler to diagnose non-conformin code, and in fact, this is impossible to implement. – Marc Lehmann Jul 23 '14 at 21:17

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