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# Changing size of a dynamically allocated matrix

Trying to re-size the shape matrix dynamically. This is part of a drawing program where _capacity is the number of shapes drawn on a frame.

Get the error in new Shape about `_capacity` saying expression needs to have a constant value.

``````void ShapeStore::Grow(int minimumCapacity)
{
_capacity = max (minimumCapacity, 2 * _capacity);
if (_capacity)
{

Shape ***newData = new Shape[_frames][_capacity];   //figure out this
int i;

for (int k = 0; k < _frames; k++)
for (i=0;i<_count;i++)
newData[k][i] = _data[k][i];

delete [] _data;
_data = newData;
}  //*/
}
``````
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Why aren't you using `std::vector`? – Mooing Duck Apr 2 '12 at 22:54
Why not use a `std::vector` with size `(num_rows * num_cols)` and use an addressing scheme like `data[col_index + (row_index * num_cols)]`? Because `Shape***` is just painful to look at. – In silico Apr 2 '12 at 22:57
`***` in C++ is very wrong. – Oliver Charlesworth Apr 2 '12 at 23:09

``````Shape ***newData = new Shape[_frames][_capacity];   //figure out this
``````

This doesn't do what you think it does. It only allocates an array of pointers to arrays on the free store. Assuming that `_capacity` is a constant, each pointer in the array is a pointer to another fixed array which holds exactly `_capacity` instances of `Shape`. Here's a picture:

```                index
+-----------+
newData --> |     0     |  (pointer to a fixed array of _capacity instances of Shape)
+-----------+
|     1     |  (pointer to a fixed array of _capacity instances of Shape)
+-----------+
|     2     |  (pointer to a fixed array of _capacity instances of Shape)
+-----------+
|           |

.......

|           |
+-----------+
| _frames-1 |  (pointer to a fixed array of _capacity instances of Shape)
+-----------+
(This is the only thing that is actually allocated)
```

The expression `new Shape[_frames][_capacity]` does not allocate enough memory to actually hold `_frame*_capacity` instances of `Shape`. Also, since each pointer in the array points to another array of fixed size, the compiler complains about the non-constant `_capacity` in your code snippet.

Instead of using the painfully confusing `Shape***` and `new[_frames][_capacity]` business, use a `std::vector` to hold a linear array of `Shape`s, then use an addressing scheme to emulate rows and columns, like this:

``````// Exposition only

std::vector<Shape> data;

void ResizeMatrix(std::vector<Shape>& data, int frames, int capacity)
{
data.resize(frames * capacity);
}

// Populate data with Shapes

void IndexMatrix(int capacity_index, int frame_index, int capacity)
{
Shape& aShape = data[capacity_index + (capacity * frame_index)];
// Do something with it
}
``````
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thanks for the quick feedback. Tried using a vector earlier and since shape is an abstract class had an error saying that the abstract class could not be instantiated. Will give them another look. Thanks! – user1309174 Apr 3 '12 at 0:12

When accessing contents of `newData`, it's not `newData[k][i]` but rather `(*newData)[k][i]`

`newData` is not a two-dimensional array, it's a pointer to a two-dimensional array. Rule of thumb is each `*` at the time of declaration should be matched by one `*`, `->`, or `[]` in use.

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