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In C++, I want my class to have a char** field that will be sized with user input. Basically, I want to do something like this -

char** map;
map = new char[10][10];

with the 10's being any integer number. I get an error saying cannot convert char*[10] to char**. Why can it not do this when I could do -

char* astring;
astring = new char[10];


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While this might be a very good homework (and you need to know it) you should probably use an stl type for this problem. So, as soon as you know how this works. Scrap the code and learn std::vector/string :) – stefan Mar 22 '11 at 1:50
up vote 6 down vote accepted

Because an array is not a pointer. Arrays decay into pointers to their first elements, but that happens only at the first level: a 2D array decays into a pointer to a 1D array, but that's it—it does not decay into a pointer to a pointer.

operator new[] allows to allocate a dynamic array of a size only known at runtime, but it only lets you allocate 1D arrays. If you want to allocate a dynamic 2D array, you need to do it in two steps: first allocate an array of pointers, then for each pointer, allocate another 1D array. For example:

char **map = new char*[10];  // allocate dynamic array of 10 char*'s
for(int i = 0; i < 10; i++)
    map[i] = new char[10];  // allocate dynamic array of 10 char's

Then to free the array, you have to deallocate everything in reverse:

for(int i = 0; i < 10; i++)
    delete [] map[i];
delete [] map;
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a 2D array decays into a pointer to a 1D array --> Do you mean: "a 2D array decays into a pointer to its first element"? – Mehrdad Mar 22 '11 at 1:47
@Mehrdad: Yes, like all arrays, a 2D array decays into a pointer to its first element, which in this case happens to be a 1D array. A char[10][10] decays into a char(*)[10], which is a "pointer to an array of 10 characters". But that does not decay into a char**, since it is not an array type -- it is a pointer type. – Adam Rosenfield Mar 22 '11 at 18:24
@Adam: Oops, my bad; I thought it decays into a char** because they're all contiguous. Do you happen to know why it doesn't, though? Aren't they all contiguous? – Mehrdad Mar 22 '11 at 19:18
@Mehrdad: Yes, they are all contiguous. If you have an array of 10 things, those 10 things are stored contiguously in memory. If you take a pointer to one of those things, you can walk up and down the array by incrementing/decrementing your pointer by sizeof(Thing). In the case of char x[10], Thing is char and sizeof(Thing) is 1; in the case of char x[10][10], Thing is char[10] and sizeof(Thing) is 10. – Adam Rosenfield Mar 22 '11 at 22:05
(continued) The syntax a[b] is equivalent to *(a+b). When you say x[i][j] (for x defined as char x[10][10]), the compiler translates that into "take the pointer to the first element of x (of type char(*)[10]), add in i*sizeof(char[10]) = i*10 bytes to compute x[i]. Then, dereference that (to obtain a char[10]) and add j*sizeof(char) = j bytes and dereference that to get x[i][j]." – Adam Rosenfield Mar 22 '11 at 22:09

On other hand, what the

map = new char[x][y];

really do is that, you new a array contain x items whose type is an array containing y items. And y must be a const integer.

So, if you really want your code pass without any problem, the correct way is

char (* map)[10] ;
map = new char[some_value_you_want][10];

Or more clearly,

typedef char array10[10];
array10 * map = new array10[some_value_you_want];
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Multi-dimentional arrays are not supported in that manner. You need to allocate the two dimentions seperately.

char** map = new (char*)[10];

for( int i = 0; i < 10; ++i ) {
  map[i] = new char[10];
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