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im just wondering about memory management in C. I i have a pointer to a struct which i malloc size for via some_struct *mystruct = malloc(sizeof(some_struct)); and i later use free on that struct like i should.

What i am wondering is that inside this struct there are three char * pointers in which i malloc their memory as well. do i have to free their memory as well before i free *mystruct or will the destruction of *mystruct also free the memory inside the struct.

I dont think i will but im not sure how about i would test if thats true or not so im asking you guys.

thanks for the info.

edit:: more info if you can help.

after creating my struct and mallocing three char * variables inside it and assigning them via sprintf() i pass my struct to a function with the prototype void *function(void *param)

from within my function i recreate the passed struct locally via some_struct mynewstruct = *((some_struct *)param); in which i free(param) right after, but now ive learned i have to free the 3 char * pointers that i malloced before i can free the pointer tot the struct. ive tried free(param.varone) and i get the error error: request for member 'varone' in something not a structure or union and if if try free(param->varone) i get a warning that im derefencing a 'void *' pointer.

ive also tried to cast my struct before the param name but it didnt work like so free((some_struct)param.varone);

the purpose of cloning the struct is so that i can continue to use it throughout that function even after freeing the original struct.

any ideas how i can make this work?

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4 Answers 4

up vote 5 down vote accepted

You absolutely have to also free the memory pointed to by the char * pointers inside the struct. Do that first, then free your struct

But don't free the char * pointers inside the struct, if you are pointing at the same memory for those char * pointers elsewhere (i.e., if you have copied your struct to another struct instance, those char * pointers need to point to valid memory).

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C is not a garbage collected language. The runtime does not reference count allocated memory, so that it can figure out when to deallocate things automatically when nothing else refers to them any more. –  DWright Dec 23 '12 at 17:39
@DWrigth There isn't even a runtime. –  user529758 Dec 23 '12 at 17:40
Well, there is a runtime library. –  DWright Dec 23 '12 at 17:45
what kind of runtime library? C doesn't have any runtime... –  user529758 Dec 23 '12 at 17:46
that's called the C standard library. Since C is not a dynamic language, calling the standard library a "runtime" is an error. Take a look at the Objective-C runtime library, for example. Now that is a runtime library. –  user529758 Dec 23 '12 at 17:50

There's no magic and no Santa Claus. You have to do the work yourself. Free all the memory you allocated dynamically before you lose track of it.

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Thats the reason why you later want to change to c++, then you can have a struct which does it by its own (if you put the right code into its destructor). In C you have to do the work by yourself, that is, before deleting your struct, delete the things inside the struct. And, of course, when you malloc a struct, you should also properly initialize the members inside the struct, as minimum initialize pointers to 0, so that there are no glitches when deleting them...

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I would argue that everybody wants to switch to C++... –  user529758 Dec 23 '12 at 17:49

As far as good practice goes you should free everything you allocate, think of it like opening an html tag and closing it, and as far as good practices go it's a good idea not to think about structs the way you would about classes in C++ or java.

Freeing structs only free pointers to object, not the object itself,

#include <stdio.h>                                                                                                                                                                   

typedef struct                                                                                                                                                                       
    int a,b,c,d;                                                                                                                                                                     
    char some_string[1050];                                                                                                                                                          

} first_type;                                                                                                                                                                        
typedef struct                                                                                                                                                                       
    struct first_type *ap;                                                                                                                                                           
} second_type;                                                                                                                                                                       

int main(void)                                                                                                                                                                       
    printf("first type: %d\n", sizeof(first_type));                                                                                                                                  
    printf("second type: %d\n", sizeof(second_type));                                                                                                                                

if you run this little example you will see something like this

first type: 1068

second type: 8

although second_type has a pointer to a first_type it's size is considerably less than first_type. So when you malloc and free stuff you are only reserving and releasing however many bytes that data type is in memory.

Hope this helps.

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