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I'm trying to increment a value of a struct (an int) just to test a code snippet of mine (This isn't my entire code), just the point of focus of my question. I'm given the struct:

typedef struct Test Test;
typedef struct Test {
    char * name;
    int numOfElements;
    Test * test[];
}Test;

As well as the functions:

void startFunc(Test ** newStruct) {

    newStruct = malloc(sizeof(Test));

    (*newStruct)->name = NULL;
    (*newStruct)->numOfElements = 0;

    func(newStruct);

}

void func(Test ** newStruct) {

    (*newStruct)->numOfElements++;

}

//create function to later free allocated memory

However incrementing the value of numOfElements seems to segfault. Is it the fact that I didn't allocate enough memory (Since I'm using a flexible array member?)

I tried using valgrind and got a invalid read of size 8 on the (*newStruct)->name =NULL;

Which would suggest it's not malloced, Memory help here would be much appreciated,

  • So I have to malloc both the double pointer and single pointer? I have a function (not shown here) which receives a double pointer arguement, so I wasn't so sure. – KLIK Feb 9 '16 at 1:34
  • I've edited my code to accurately display the function header I'm given (I'm forced to use double pointers). – KLIK Feb 9 '16 at 1:35
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malloc(sizeof(Test)) is intended to allocate a raw object of type Test, so conceptually it returns a Test * pointer. This pointer is assigned to newStruct, which is a Test **. This mismatch between Test * and Test ** already suggests that the malloc line is broken.

An immediate guess would be that this

newStruct = malloc(sizeof(Test));

was actually intended to be

*newStruct = malloc(sizeof(Test));

You are already scrupulously using *newStruct everywhere in your startFunc, but for some reason completely forgetting about it in the malloc line.

An arguably better way to express the same thing would be

*newStruct = malloc(sizeof **newStruct);
  • And as a matter of style, I always introduce a single-pointer for local use, and assign to the double pointer just before return. It helps avoid confusing issues like this. – Jonathon Reinhart Feb 9 '16 at 1:39

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