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I am trying to use a large 2D vector which I want to allocate with new (because it is large).

if I say:

vector< vector<int> > bob;
bob = vector< vector<int> >(16, vector<int>(1<<12,0));
bob[5][5] = 777;

it works. But if I say:

std::vector< std::vector<int> > *mary;
mary = new vector< vector<int> >(16, vector<int>(1<<12, 0));
mary[5][5] = 777;

it doesn't work and I get the error:

Error 1 error C2679: binary '=' : no operator found which takes a right-hand operand of type 'int' (or there is no acceptable conversion) c:\Users\jsparger\Documents\My Dropbox\ARI\VME_0.01\VME_0.01\V965.cpp 11 VME_0.01

Obviously I am new to C++. Could someone explain what syntax I need to use to perform this operation. mary is a pointer, so I can see why this wouldn't work, but *mary[5][5] = whatever is not allowed either because of "new", right?

Thanks for the help. This vector is what I will be using for now because it seems easy enough for my small c++ brain to understand, but feel free to let me know if a large vector like this is a bad idea, etc.

Thanks a bunch.

Edit: I am mistaken about the "not allowed because of new". I don't know where I misread that, because it obviously works, and wouldn't make too much sense for it not to. Thanks.

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What do you mean "*mary[5][5] = whatever is not allowed either because of "new""? Please clarify. You are probably mistaken here. –  atzz Jul 15 '10 at 15:11
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3 Answers 3

up vote 5 down vote accepted

If mary is a pointer then you have to dereference it before applying the subscript operator:

(*mary)[5][5] = 777;

The parentheses are required because the subscript has higher precedence than the dereference.

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1  
Of course, as FredOverflow points out, there aren't many times that it is useful to dynamically allocate a vector. –  James McNellis Jul 15 '10 at 15:12
    
okay, thanks. For some reason I was under the impression that you couldn't do that if you allocated with new. (plus I was doing it wrong when I tried it anyway). Guess I seriously misread something somewhere. Thanks for the help on such a stupid question. –  Johnny Jul 15 '10 at 15:13
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Vectors store their elements on the heap, anyway. There's no point in allocating the vector object itself on the heap, since it is very small (typically 12 bytes on a 32-bit machine).

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One valid reason to do this is to avoid needing to copy the base vector object when passing it between function calls. –  Justin Summerlin Jul 15 '10 at 15:10
    
@jMerliN, std::swap –  Johannes Schaub - litb Jul 15 '10 at 15:11
1  
@jMerliN: pass by reference(-to-const) already solves that problem... –  FredOverflow Jul 15 '10 at 15:14
    
Very good to know. Thanks. –  Johnny Jul 15 '10 at 15:19
1  
@jMerliN: in that case, you can often return by value and rely on your compiler for copy elision: cpp-next.com/archive/2009/08/want-speed-pass-by-value –  Cogwheel Jul 15 '10 at 15:30
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In plain C, arrays and pointers are similar (not the same!), which leads to your confusion. In plain C, if you have the following declarations:

int array1[100];
int *array2 = (int *)malloc(100*sizeof(int));

you can use array1 and array2 in exactly the same way.

However, if you write this in C:

int (*array3)[100];

This is something completely different. Array3 is now a pointer to an array, not a pointer to the elements of the array anymore, and if you want to access an element, you have to write this:

(*array3)[5] = 123;

In C++, you are actually doing something similar, the second 'mary' is a pointer to the vector, not a pointer to the elements in the vector. Therefore, you have to write this:

(*mary)[5][5] = 777;
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Since when does C have vectors? –  FredOverflow Jul 15 '10 at 15:16
    
Since when is similar == same –  Johannes Schaub - litb Jul 15 '10 at 15:21
    
Pointers and arrays in C are NOT the same, see "Expert C Programming." –  Justin Summerlin Jul 15 '10 at 15:24
    
@Fred, indeed, I should have written array instead of vector. @Johannes, I compared the situation to plain C to explain why this error was made in C++. No, it's not the same, it's similar. I'll replace same by similar where appropriate. –  Patrick Jul 15 '10 at 15:25
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