I am a complete noob at C (<1 week) and I'm trying to get a grasp how to work on it, although I'm familiar with programming in other languages. As a first goal, I wanted to write a function to do Gauss reduction on a matrix. I have no problem with the algorithm, but it turned out I do not know how to represent a matrix. For simplicity, let me assume that we work with `float`

entries.

The first naif way would be to use an array of arrays like

```
float naifMatrix[3][3] = {
{2, 1, 3},
{0, -1, 4},
{1, 3, 0}
};
```

The problem is that you cannot pass such an object as an argument without knowing the dimensions a priori (of course I want to be able to use matrices of arbitrary size, which is not known at compilation time). One does not see this problem when working with vectors and representing them as arrays. If I do

```
float vector[3] = {1, 2, 3};
norm(vector);
```

it will work, provided I declare `norm`

like

```
norm(float * vector);
```

When `vector`

is passed, it is converted to `&vector[0]`

, and not much information is lost (basically one has to keep track of the length). But I cannot just call

```
gaussReduction(naifMatrix);
```

and declare `gaussReduction`

with

```
gaussReduction(float ** naifMatrix);
```

because `naifMatrix`

is converted (and rightly so) to a pointer to an array of floats, not in a pointer to a pointer. Since I do not know how big this array will be, I do not see a way to declare `gaussReduction`

.

Of course I could cheat by passing a pointer to a void, but before dereferencing it, I would need to cast it to the right type (`float[3] *`

), which, again, I do not know a priori. Moreover it seems to me that by abusing of `void *`

one defeats one of the purposes of using C over other languages, which is a strict type checking.

The best solution I have found so far is to use a struct. A matrix is basically given by the list of its entries and the two dimensions. So I can do

```
struct matrix {
float * begin;
int rows, columns;
};
```

and use it as

```
struct matrix matrix = {&naifMatrix[0], 3, 3};
```

The problem is that this is still annoying. First it is akward to get a `struct matrix`

from a double array, and second one has to give the dimensions explicitly. I would be happy with wrapping this with a sort of "constructor" function, like

```
struct matrix matrix = Matrix(naifMatrix);
```

but I cannot do this for two reasons. First, I have the same problem as above in passing `naifMatrix`

as argument to a function. Second, even if I could pass it, I would get a pointer, and thus I would not be able to get information on the dimensions (in this case, that both are 3).

Is there a more sensible way to pass around and manipulate the datum of a matrix?

Numerical Recipes in Cand read that. You'll learn all you need to there, and more. – David Heffernan Jan 18 '11 at 13:16