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struct mystruct_type {
    int a;    
    int b;        
typedef struct  mystruct_type mystruct;    

void function1    
    mystruct place[N],*temp1,*temp2,*temp3;    
    temp1= malloc(sizeof(mystruct));    
    temp2= malloc(sizeof(mystruct));    

    temp1->a=3; temp1->b=4;        

    temp3=add(place,place+2);//Want to add mystruct[0]+mystruct[2],2+4,4+6....loop not   shown here       

void assign (mystruct * m1,mystruct * m2)//Gives warning conflicting types for assign        

mystruct * add (mystruct * m1, mystruct * m2)//Error: Conflicting types for add     
    complex * c;     
    return c;    

Can anybody point whats the mistake?

share|improve this question
Arrgh! could you fix the indentation in your question, please? –  Oliver Charlesworth Aug 7 '11 at 17:36
What, precisely are the warning/error messages that you are getting? –  Oliver Charlesworth Aug 7 '11 at 17:36
Welcome to Stack Overflow! This is not a code review site, so please walk us through your problem in more detail. If you don't explain what your expected results are and what the actual results are—in text, not code comments—your question has a high probability of being closed. –  Chris Frederick Aug 7 '11 at 17:37
@Bertrand thanks for the indent fix there. Still can't make much more sense of his code other than what my answer says... –  Jesus Ramos Aug 7 '11 at 17:40

2 Answers 2

The conflicting type for add is because you return a pointer to a complex struct instead of a mystruct pointer.

As mentioned by Chris, you need to either place the functions add and assign above the function1 or declare them as

void assign(mystruct *, mystruct*);
mystruct *add(mystruct *, mystruct *);

at the top of your file.

share|improve this answer
No, the conflicting types warning (for both) is because they're implicitly declared when used as int add() and int assign(), and when they're later declared (and defined) with another type, it's a conflict. The return value issue you mention should be a separate warning, but the compiler isn't aware of what add should be returning so it can't really issue a warning about that. –  Chris Lutz Aug 7 '11 at 17:40
@Chris, oh I see now, it was hard to make sense of his code. Thanks for pointing that out. –  Jesus Ramos Aug 7 '11 at 17:42
Could you please elaborate on the difference between add(place, place + 2) and add(&place[0], &place[2])? –  FelixCQ Aug 7 '11 at 17:42
place + 2 is a memory address 2 bytes after the beginning of the array, place[2] is place + sizeof(mystruct) * 2 which is a completely different adress altogether. It would give odd results or a weird error if that call were to happen with place + 2 –  Jesus Ramos Aug 7 '11 at 17:44
@Jesus - Wrong again. place + 2 == &place[2]. The [] operator is translated to + and *: place[2] == *(place + 2). Pointer arithmetic takes into account the size of the object. –  Chris Lutz Aug 7 '11 at 17:46

you should allocate memory simply and correct like:

typedef struct {
    int a;    
    int b;        
} mystruct;    

mystruct *initialize(size_t numElem)    
    return calloc(numElem,sizeof(mystruct));    

void assign (mystruct * m1,mystruct * m2)

mystruct * add (mystruct * m1, mystruct * m2, mystruct *sum)
    return sum;    

mystruct sum ={3,4} , *x = initialize(10);
assign( &x[0], &sum );
assign( &x[1], &x[0] );
add( &x[0], &x[1], &sum );
printf(" %d %d ", sum.a, sum.b );
free( x );
share|improve this answer
If I do the above, the command free(x) gives a segmentation fault. Also in the functions add I don't think we need to return mystruct * as we are passing mystruct *sum to it. Any suggestions why free(x) is giving segmentation fault? –  Ganesh Aug 25 '11 at 20:46
Also I checked &x[0] by printf after allocation and just before free. They are same. So why can it give segmentation fault? –  Ganesh Aug 25 '11 at 21:09
fixed it. As usual I am bad with pointers but I am learning. –  Ganesh Aug 26 '11 at 1:13

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