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I'm constructing a struct with one of the member being a map.
First question is this allowed? The compiler did not complain.

struct A {  
  map<int, float> B;  
}  

Later I declare an array of such data type.

A *C = (A *)INTERNAL_CALLOC(..., sizeof(A));  

Here the function INTERNAL_CALLOC is a functional wrapper of MALLOC.
Later on in the code when I try to first time insert an item into the array's first element's map, I got a core dump.

C[0].B[0] = 0.001;  

Any idea why is this the case?
Thanks!

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the code part did not come out right. the line after the struct A is "map <int,float> B;" –  elgnoh Jan 11 '13 at 1:06
3  
You should not be using malloc to allocate C++ objects (which your struct is). You should use new. –  Rob I Jan 11 '13 at 1:07

6 Answers 6

up vote 5 down vote accepted

Yes, a map in a struct is fine.

Allocating with malloc is definitely not fine; the constructor is not called. So your map will most likely do something terrible when you attempt to use it.

General rule of thumb: don't use malloc/calloc/realloc/free in C++. Avoid dynamic allocation wherever possible, and use new/delete when unavoidable.*


* And read up on smart pointers.

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What should I do to make sure the constructor is called? Thanks. –  elgnoh Jan 11 '13 at 1:09
    
@elgnoh: See updated answer. –  Oliver Charlesworth Jan 11 '13 at 1:10
    
Will give new/delete a try. Thanks –  elgnoh Jan 11 '13 at 1:13
    
A *C = new (nothrow) A[n]; worked! Thanks –  elgnoh Jan 11 '13 at 19:00

If you really must allocate with INTERNAL_CALLOC, then use placement new.

First, you must define a constructor and a destructor for the type A, or define A as a class:

struct A {
  A(){}
  ~A(){}
  map<int, float> B;  
};

Then you can simply call:

//Allocate an A, uninitialized
A *C = (A *)INTERNAL_CALLOC(..., sizeof(A));  
//Initialize the newly allocated A
new (C) A();

later when you free the object you must explicitly call the destructor:

//A *C;
C->~A();
INTERNAL_free(C);
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Tried this method, but got the same error. For now I'm switching to using new to allocate the array. –  elgnoh Jan 11 '13 at 19:06
A *C = (A *)INTERNAL_CALLOC(..., sizeof(A));  

Here you are lying to the compiler. You are telling it that the return value from INTERNAL_CALLOC points to an A, but it doesn't, it just points to zeroes. Use new.

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Your word is strong, but I like you explanation :) –  elgnoh Jan 11 '13 at 19:08

You don't get a valid std::map<whatever...> by filling memory with zero bytes.

To a certain extent, it's possible with POD types (approximately, "pure C" data structures).

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Since you use std::map as a member, I recommend to use std::vector instead of plain array to be the container.

You can do as follow:

struct A
{
    std::map<int, int> B;
};

std::vector<A> vecofmap;    

A elem0;
A elem1;
A elem2;

vecofmap.push_back(elem0);
vecofmap.push_back(elem1);
vecofmap.push_back(elem2);

vecofmap[0].B[0] = 100;

std::cout << vecofmap[0].B[0] <<std::endl;

Then no needs to bother with memory allocation.

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Allocating memory using malloc does not initialize the array elements.

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It doesn't initialize the map at all, has nothing to do with elements. –  Ed S. Jan 11 '13 at 1:11
    
@Ed The array elements are of class A. The map is a member of class A, so if the array elements are not initialized (like I said), the maps are not initialized either (like you said). If the array elements were initialized (like when operator new[] where used), the map would have been initialized as well (because that's how C++ works). So it has exactly to do with the array elements not being initialized, and nothing else. –  Oswald Jan 11 '13 at 2:12
    
I'm sorry, I thought you meant map when you said array. My mistake, I shouldn't have assumed. –  Ed S. Jan 11 '13 at 5:30

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