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Wouldn't the pointer returned by the following function inaccessible?

char *foo( int rc ) 
    switch (rc) 
      case 1:           return("one");
      case 2:           return("two");
      default:           return("whatever");

So the lifetime of a local variable in C/C++ is practically only within the function, right? Which means, after char* foo(int) terminates, the pointer it returns no longer means anything?

I'm a bit confused about lifetime of local var. Could anyone give me a good clarification?

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The only "var" you have in your function is the parameter int rc. Its lifetime ends at each one of the return-s. The pointers you are returning are to string literals. String literals have static storage duration: their lifetime is at least as long as that of the program. –  Kaz Apr 2 '12 at 3:22
What if it's not String literal but other kinds of literal, such as: int *foo () { return &(2); // or // int n = 2; // return &n; } –  One Two Three Apr 2 '12 at 14:46
Check the Edit in my answer which addresses your query.Note, that you should have posted this as an comment and not an answer.Queries, doubts etc should be posted in comments, only answers should be posted under answers. –  Alok Save Apr 3 '12 at 18:59
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6 Answers

up vote 44 down vote accepted

Yes, lifetime of an local variable is within the scope({,}) in which it is created.
Local variables have automatic or local storage.
Automatic because they are automatically destoryed once the scope within which they are created ends.

However, What you have here is an string literal, which is allocated in an implementation defined read only memory. String literals are different from local variables and they remain alive throughout the program lifetime.They have static duration [Ref 1] lifetime.

A word of caution!
However, note that any attempt to modify the contents of an string literal is an Undefined Behavior. User programs are not allowed to modify contents of a string literal.
Hence, it is always encouraged to use a const while declaring a string literal.

const char*p = "string"; 

instead of,

char*p = "string";    

In fact, in C++ it is deprecated to declare a string literal without the const though not in c. However, declaring a string literal with a const gives you the advantage that compilers would usually give you a warning in case you attempt to modify the string literal in second case.

Sample program:

int main() 
    char *str1 = "string Literal"; 
    const char *str2 = "string Literal"; 
    char source[]="Sample string"; 

    strcpy(str1,source);    //No warning or error just Uundefined Behavior 
    strcpy(str2,source);    //Compiler issues a warning 

    return 0; 


cc1: warnings being treated as errors
prog.c: In function ‘main’:
prog.c:9: error: passing argument 1 of ‘strcpy’ discards qualifiers from pointer target type

Notice the compiler warns for the second case but not for the first.

EDIT: To answer the Q being asked by a couple of users here:

What is the deal with integral literals?
In other words is this code valid:

int *foo()
    return &(2);

The answer is, No this code is not valid, it is ill-formed & will give an compiler error.
Something like:

prog.c:3: error: lvalue required as unary ‘&’ operand

String literals are l-values, i.e: You can take the address of an string literal but cannot change it's contents.
However, any other literals(int,float,char etc) are r-values(c standard uses the term the value of an expression for these) & their address cannot be taken at all.

[Ref 1]C99 standard 6.4.5/5 "String Literals - Semantics":

In translation phase 7, a byte or code of value zero is appended to each multibyte character sequence that results from a string literal or literals. The multibyte character sequence is then used to initialize an array of static storage duration and length just sufficient to contain the sequence. For character string literals, the array elements have type char, and are initialized with the individual bytes of the multibyte character sequence; for wide string literals, the array elements have type wchar_t, and are initialized with the sequence of wide characters...

It is unspecified whether these arrays are distinct provided their elements have the appropriate values. If the program attempts to modify such an array, the behavior is undefined.

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What if the user is returning some thing like this. char *a=&"abc"; return a; Will this not be valid? –  Ashwin Apr 2 '12 at 2:59
@Ashwin: The type of the string literal is char (*)[4]. This is because, type of "abc" is char[4] and pointer to an array of 4 characters is declared as char (*)[4], So If you need to take address of it, You need to do it as char (*a)[4] = &"abc"; and Yes, it is valid. –  Alok Save Apr 2 '12 at 3:10
@Als "abc" is char[4]. (Because of the '\0') –  asaelr Apr 2 '12 at 3:13
@asaelr: Indeed! a typo, Fixed it, Thanks. –  Alok Save Apr 2 '12 at 3:13
@Ashwin: No, it would still be perfectly valid because you're returning the value of a, not the address of a...aside from the fact that you have your types wrong. &"abc" has type char (*)[4] and is not compatible with char *. Ditch the &. –  R.. Apr 2 '12 at 3:33
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String literals are valid for the whole program (and are not allocated not the stack), so it will be valid.

Also, string literals are read-only, so (for good style) maybe you should change foo to const char *foo(int)

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What if the user is returning some thing like this. char *a=&"abc"; return a; Will this not be valid? –  Ashwin Apr 2 '12 at 2:59
&"abc" is not char*. it's an address of array, and its type is char(*)[4]. However, either return &"abc"; and char *a="abc";return a; are valid. –  asaelr Apr 2 '12 at 3:03
@asaelr: Actually, it is more than just for sake of for a good style, check my answer for the details. –  Alok Save Apr 2 '12 at 3:16
@Als Well, if he writes the whole program, he can avoid changing the string without writing const, and it will be completely legal, but it still bad style. –  asaelr Apr 2 '12 at 3:18
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Good question. In general, you would be right, but your example is the exception. The compiler statically allocates global memory for a string literal. Therefore, the address returned by your function is valid.

That this is so is a rather convenient feature of C, isn't it? It allows a function to return a precomposed message without forcing the programmer to worry about the memory in which the message is stored.

See also @asaelr's correct observation re const.

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:What if the user is returning some thing like this. char *a=&"abc"; return a; Will this not be valid? –  Ashwin Apr 2 '12 at 2:59
Right. Actually, one can just write const char *a = "abc";, omitting the &. The reason is that a double-quoted string resolves to the address of its initial character. –  thb Apr 2 '12 at 3:02
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Local variables are only valid within the scope they're declared, however you don't declare any local variables in that function.

It's perfectly valid to return a pointer to a string literal from a function, as a string literal exists throughout the entire execution of the program, just as a static or a global variable would.

If you're worrying about what you're doing might be invalid undefined, you should turn up your compiler warnings to see if there is in fact anything you're doing wrong.

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What if the user is returning some thing like this. char *a=&"abc"; return a; Will this not be valid? –  Ashwin Apr 2 '12 at 3:00
@Ashwin: &"abc" isn't of type char*, however both "abc" and &"abc" are valid throughout the whole execution of the program. –  AusCBloke Apr 2 '12 at 3:05
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A local variable is allocated on the stack. After the function finishes, the variable goes out of scope and is no longer accessible in the code. However, if you have a global (or simply - not yet out of scope) pointer that you assigned to point to that variable, it will point to the place in the stack where that variable was. It could be a value used by another function, or a meaningless value.

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What if the user is returning some thing like this. char *a=&"abc"; return a; Will this not be valid? –  Ashwin Apr 2 '12 at 3:00
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In the above example shown by you, you are actually returning the allocated pointers to whatever function that calls the above. So It would not become a local pointer. And moreover the pointers that are needed to be returned, memory is allocated in global segment.

Thanking You,

Viharri P L V.

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