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I am currently browsing over some old college snippets of c++ code. Back then, one of the other class was assigned with doing a matrix class using double pointers and 2D arrays. Luckily (or unluckily upon hindsight) I never did get a chance to learn stuff like that. I borrowed their code when we graduated for future review. If anyone can please explain to me what exactly happens in this snippet:

  //This is a constructor of a 1x1 matrix
     _nrows = 1;
     _ncols = 1;
     _coef = new double*[_nrows];
     _coef[0] = new double[_ncols];
     _coef[0][0] = 0.0;

Just a sidenote, _coef is a ** of type double.

From what I understand, _nrows and _ncols are given a value of 1 (meaning their sizes). Then, the code dynamically creates a double* out in the heap with elements equal to _nrows; the problem is, I dont exactly know what happens next. Why is the array corresponding to _ncols not a pointer? Why is it assigned _coef[0]?

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2 Answers 2

up vote 2 down vote accepted

In memory, a two dimensional array (n, m) looks more or less like this

_coef -> | _coef[0] -> {1, 2, 3, ..., m}
         | _coef[1] -> {1, 2, 3, ..., m}
         | _coef[2] -> {1, 2, 3, ..., m}
         | ...
         | _coef[n] -> {1, 2, 3, ..., m}

_coef points to an array of n pointers. And each of these pointers point to an array of m doubles.

So, in your case _coef points to an array of 1 pointer and this pointer points to an array of one double.

Now to your questions

  1. It is not a pointer, because in your second dimension, you finally want to store the doubles, not pointers.
  2. It is assigned to _coef[0], because it is the first, and only, row of your two dimensional array.
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Totally makes sense. thanks Mr. Olaf! –  Erasmus Dec 2 '12 at 16:56

The first two lines, as you say, assign the value 1 to each of _nrows and _ncols.

The following line dynamically allocates an array of double* (pointers to double). The number of double* objects allocated is _nrows (which is 1 in your case). Think of that syntax as similar to defining a normal automatic array, double* array[1], where the number of elements is 1. Then _coef is a pointer to the first of those double pointers. I'll represent the memory representation diagrammatically:

_nrows = 1
_ncols = 1
_coef  ---> _coef[0] ---> Currently points nowhere in particular

So now you have _nrows amount of double* lined up in memory. _coef[0] refers to the first of those double*. A new dynamically allocated array, this time of doubles, is created of size _ncols. A pointer to the first of those doubles is assigned to _coef[0]. That is, the first double* in the first dynamically allocated array now points to the first double in the second dynamically allocated array.

_nrows = 1
_ncols = 1
_coef  ---> _coef[0] ---> _coef[0][0]

Then _coef[0][0] = 0.0 sets the first double in the second dynamically allocated array to 0. Since it's the only double, because the sizes of both of your dynamically allocated arrays are 1, you have initialized all doubles to 0.

_nrows = 1
_ncols = 1
_coef  ---> _coef[0] ---> _coef[0][0] = 0
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This was also very helpful as well! –  Erasmus Dec 2 '12 at 16:58

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