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I cannot explain myself the reason for the following behaviour. I initialize two pieces of text, one as char*, the other as char[] and put them into a structure. Both appear fine in the structure, but back in main, the second one is lost, and the first gives me a compiler warning which i understand (deprecated conversion from string constant to char*).

This is the first question I ask here, and I apologize for anything done wrong. And yes, I tried to search, but related to char* and char[], there appear a lot of Q&A, none I found similar to the nested problem I am having.

From the attached code I get the output:

get_struct: 5 test test2
main: 5 test

(the test2 at the end missing)

So the code:

    #include <iostream> 

    typedef struct {
        double a_double;
        char* a_char1;
        char* a_char2;
    } testStruct;

    testStruct make_struct(double d, char* c1, char* c2) {          
        testStruct t;

        t.a_double = d;
        t.a_char1 = c1;
        t.a_char2 = c2;

        return t;

    void get_struct(testStruct &t) {    
        char* test_char1 = "test";
        char test_char2[] = "test2";
        double test_double = 5;

        t = make_struct(test_double, test_char1, test_char2);

        std::cout << "get_struct: " << t.a_double << " " 
            << t.a_char1 << " " << t.a_char2  << std::endl;

    int main() {
        testStruct t;
        std::cout << "main: " << t.a_double << " " 
            << t.a_char1 << " " << t.a_char2 << std::endl;
        return 0;
share|improve this question
What about not using char* or char[] at all? ;-) –  stefan Sep 4 '13 at 14:45
I imagine (I haven't coded in C++ since 2003-ish) that when get_struct returns its local variables are potentially lost/freed. –  Words Like Jared Sep 4 '13 at 14:45
If you are using C++ then use std::string, which is @stefan's point –  Mark Sep 4 '13 at 15:00
Actually both usages will cause undefined behavior as you are filling a struct using local variables. –  texasbruce Sep 4 '13 at 15:17

3 Answers 3

up vote 3 down vote accepted

You have a problem in that you store pointers to local variables in the structure.

In the case of the test_char2 array, it no longer exists once the get_struct function returns. This means that the pointer a_char2 no longer points to a valid string, and dereferencing this pointer is undefined behavior.

The reason the first pointer works, is because it doesn't point to a local variable, it points to a string literal, and those are stored elsewhere in memory.

When coding in C++, there is no longer a reason to use pointers or arrays for string, instead use the std::string class.

share|improve this answer
Is it guaranteed that the string literal is always stored elsewhere (statically)? Or is that just how most/all compilers do it? –  KitsuneYMG Sep 4 '13 at 15:14
@KitsuneYMG Most compilers used to put string literals in the code segment, as it's read-only. I don't know if modern compilers still do that. I also don't have the C++ specification in front of me right now, and neither any ABI specification, so I can't really say if it's guaranteed to be stored anywhere. All I can say is that they are never stored on the stack like local variables. –  Joachim Pileborg Sep 4 '13 at 15:18
Cool and thanks. I know roughly how it works with gcc and other modern compilers, but I've just had to use some really old ones for embedded stuff too. I just like to know in case it ever seems like it might save a copy for these embedded systems. If it can't be on the stack, then it's a safe bet it's some kind of static memory. Thanks. –  KitsuneYMG Sep 4 '13 at 15:29
@KitsuneYMG: String literals are guaranteed to have static storage duration. –  Mike Seymour Sep 4 '13 at 15:44
char* test_char1 = "test";

This creates a pointer to a string literal. String literals are const but, for historical reasons, the language allows the pointer to be non-const; however, this is deprecated, hence the warning. If you attempt to modify the string, then you'll get undefined behaviour.

char test_char2[] = "test2";

This creates a local array, initialised by copying a string literal. It is not const, so you can modify it if you like. But once the function returns, this is destroyed, so your structure ends up with a dangling pointer to invalid memory. That is why you get undefined behaviour when you try to print it in main.

Two pieces of advice:

  • Don't use C-style character arrays and pointers to represent strings; use std::string. That manages memory for you, avoiding the lifetime issues you're encountering here.
  • If you really want to mess around with arrays and pointers, use const char* unless you actually need to modify it. Otherwise, it's difficult to work with string literals.
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To clarify a little, char test_char2[] = "test2"; turns into char test_char2[6] = {'t', 'e', 's', 't', '2', '\0'}; –  Jarod42 Sep 4 '13 at 15:01

When assigning a string literal to a local char[]-variable, that storage is allocated locally.

Exporting that pointer from that scope violates the (automatic) storage duration constraints of the local variable and accessing the memory behind the pointer is undefined behaviour.

In contrast, when assigning to char*, a pointer to a statically allocated string is created and no copying to local storage takes place. Thus, the pointer remains valid outside that scope.

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