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I have a C programming question.

I want to know the difference between the two and where one is useful over other?

Suppose I have a struct called employee as below:

struct emp{
   char first_name[10];
   char last_name[10];
   char key[10];
};

Now, I want to store the table of employee records, then which method should I use:

  1. struct emp e1[100]; // Or
  2. struct emp * e1[100];

I know the two are not same but would like to know a use case where second declaration would be of interest and more advantageous to use.

Can someone clarify?

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1  
I just fixed your formatting twice now. Please don't break it again. –  Marcelo Cantos May 11 '10 at 10:16
    
I've changed "doubt" in your question to "question". Apparently, there are some languages that use the same word for the English words "doubt" and "question"; here on SO, "question" is almost always the word you want. –  Martin B May 11 '10 at 13:58

4 Answers 4

The second is an array of pointers to struct emp, meaning that you have to allocate each element on the heap. The advantage is that you only have to allocate enough memory for the number of emps you actually have, but the disadvantage is that you have to manage the lifetime of each emp.

In the first form, the 100 emps are stored in the array itself, so they do not require separate allocation. But this array takes up enough space for all 100 emps, even if you only have, say, ten emps.

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1  
Just to clarify: The first array is completely allocated on the stack (which is limited in size) and is managed through the c runtime while the second is an array of pointers and you have to allocate the memory yourself on the heap (malloc). I would recommend using the first only for very small types like char or int or your "two-and-a-half-variables"-struct while putting more complex structs on the heap. –  Felix May 11 '10 at 11:22
    
Quick calculation: 3 fields x 10 bytes each x 100 elements in the array = 3000b or roughly 3kb ... I would go for the heap option. –  Felix May 11 '10 at 11:35
    
Marcelo Cantos: Though in the second example one can just do: emp* myEl; ... myEl = new emp[nMyNumber]; I mean when you allocate the pointer do you need to have the actual size at compile time? Do you really need this? –  Sunscreen May 11 '10 at 13:00

Second preferably since you can have empty records meaning it's very easy to distinguish between empty or used record.

But I would go for some utility functions to manage records inside kind of list.

Don't know about pure c if there's a something similar to std::list, if there's something like that I would use it.

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First is array of struct emp and second is pointer to array of struct emp.

You don't need to allocate space in both the cases the difference is only the way of accessing the elements.

For first one if you want to store some value you will have to use - e1[0].key = 'k'; and read it back using

printf("%c", e1[0].key);

And for second one you should access access -> operator

e1[0]->key = 'k'; and read it back using

printf("%c", e1[0]->key);

The difference is 1] In first case you have the variable that has address of array e1[100]. 2] In second case you have the variable that point to the address of array of e1[100].

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You can use the first approact if you know the actual number of employees (rarely the case) at compile time. On the other hand, if you do not know the number of employees it is even easier not to specify the number of your pointers like that:

emp* myEl = NULL;

When you have the number of employees, lets say nMyEmployees, you can allocate the structures you want like that:

myEl = new emp[nMyNumber];

and initalise them

memset(&myEl, 0x00, sizeof(emp));

Now you are ready to use them by:

myEl[0].first_name;

Note that you need to free this memory when you are done:

if (myEl != NULL) delete [] myEl;

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2  
I think you are confusing C++ with C. In C, you use malloc() and free(), although the logic is still basically the same. The point being that for each emp, you will have to set aside space. (Handled by new in C++). –  Awaken May 11 '10 at 14:11
    
Yeah, this is true though if one needs to allocate space, does he or she need to specify the size of pointers? That was the thing I wanted to point out. (And indeed it is C++ code, though it in a C-like manner :) sorry, I do compile with C++ compiler) –  Sunscreen May 11 '10 at 14:32
    
He/she will need to specify the size of the space that needs to be allocated to hold the struct(in this case 30 bytes per employee). The pointer will then hold the address of that memory location. Since it is an array of pointers, he will have do it for each pointer in the array as needed. –  Awaken May 11 '10 at 15:56

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