"Life-time" of a string literal in C

Yes, lifetime of a local variable is within the scope({,}) in which it is created.

Local variables have automatic or local storage. Automatic because they are automatically destroyed 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 (UB). 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:

#include<string.h> 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; } 

Output:

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.

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

What is the deal with integral literals?

In other words, is the following code valid?

int *foo(){    return &(2);} 

The answer is, no this code is not valid. It is ill-formed and will give a 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 its contents.
However, any other literals (int,float,char, etc.) are r-values (the C standard uses the term the value of an expression for these) and 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.

It's valid. String literals have static storage duration, so the pointer is not dangling.

For C, that is mandated in section 6.4.5, paragraph 6:

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.

And for C++ in section 2.14.5, paragraphs 8-11:

8 Ordinary string literals and UTF-8 string literals are also referred to as narrow string literals. A narrow string literal has type “array of n const char”, where n is the size of the string as defined below, and has static storage duration (3.7).

9 A string literal that begins with u, such as u"asdf", is a char16_t string literal. A char16_t string literal has type “array of n const char16_t”, where n is the size of the string as defined below; it has static storage duration and is initialized with the given characters. A single c-char may produce more than one char16_t character in the form of surrogate pairs.

10 A string literal that begins with U, such as U"asdf", is a char32_t string literal. A char32_t string literal has type “array of n const char32_t”, where n is the size of the string as defined below; it has static storage duration and is initialized with the given characters.

11 A string literal that begins with L, such as L"asdf", is a wide string literal. A wide string literal has type “array of n const wchar_t”, where n is the size of the string as defined below; it has static storage duration and is initialized with the given characters.

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)