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Here is a code example followed by my question:

#include <stdio.h>
#include <string.h>

struct st {

    char s[100];
    int k;

typedef struct st st;

void test( st *x )
    st y;
    strcpy( y.s, "HELLO" );
    y.k = 5;

    *x = y;

int main()
    st x;
    strcpy( x.s, "XXX" );
    x.k = 9;

    printf("%s,%i\n", x.s, x.k );

    test( &x );

    printf("%s,%i\n", x.s, x.k );

    return 0;



I was thinking that since the structure 'y' was created inside a function (NOT using malloc) it had local scope and thus the memory locations where it was stored were free to be overridden once the function stopped executing. However, I tried running this sample program and it executed with no issues. I was thinking that the second print statement was going to print gibberish to the screen since I assigned x to local variable y (versus y being dynamically allocated). I know if 'y' had been created using malloc there would be no such issues.

My question: is assigning the structure variable x (a non dynamic local variable) to y by the use of a pointer in the function test okay and safe to do? I hope that the question is clear.

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Well written question with SSCCE, you good sir deserve a +1. –  Matteo Italia Jun 8 '14 at 12:23
(Only nitpick: perhaps the title can be improved to something less general?) –  Jongware Jun 8 '14 at 12:36

3 Answers 3

up vote 8 down vote accepted

Assignment always copies.

If you did something like *x = &y (assuming the types matched - if the parameter was declared as st** x, for example), you would be copying the address of y, but since y will go out of scope soon, that assignment would be unsafe, as you feared.

But since you're doing *x = y instead (where the parameter is declared st* x), you are copying the content of y to *x, so even after y goes out of scope, the data stored in *x should be valid.

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I think you mean x = &y not *x = &y. At least it fits the question better IMO. Well unless you mean x is a pointer to a pointer. –  luk32 Jun 8 '14 at 12:31
@luk32 True, but it wouldn't change the address for the outer expression, which wouldn't demonstrate the fact that the assigned expression goes out of scope. That's why I (uncomfortably) handwaved it with "assuming the types were valid". –  Theodoros Chatzigiannakis Jun 8 '14 at 12:32
Yea, that's true for the example to be not-working-as-expected it would need to be test( st **x ). It was a little confusing in the 1st form. –  luk32 Jun 8 '14 at 12:34
Historical info: structure assignment was standardized in C89, but was not present in K&R1. Every now and then you come across someone who learned from K&R1 and doesn't know about it :) –  Matt McNabb Jun 9 '14 at 1:13

Yes. It's safe.

When you assign:

*x = y;

The members of y are copied into the corresponding members of *x. It works as if you did a member to member copy yourself.

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C allow structure assignment. Two structures can be assigned if they are of compatible type. Two structures declared at the same time are compatible and structures declared using the same "structure tag" or the same type name are also compatible.

In the example you provided, both *x and y are declared using the same structure type name st, both are compatible and hence the assignment *x = y is legal. Since st x in main creates a structure which is of complete type, passing its address to a function is legal. In your function the assignment *x = y simply copies the content of local variable y to *x and this change to *x is persist and reflected to x in main.

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