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If I create a file:

test.cpp:

void f(double **a) {

}

int main() {
    double var[4][2];
    f(var);
}

And then run: g++ test.cpp -o test

I get

test.cpp: In function `int main()':
test.cpp:8: error: cannot convert `double (*)[2]' to `double**' for argument `1'
 to `void f(double**)'

Why is that I can't do this?

Isn't double var[4][2] is the same as doing double **var and then allocating the memory?

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2 Answers 2

http://stackoverflow.com/questions/308279/c-vs#308724

Look at the Excursion: Multi Dimensional Arrays which describes how you pass multi dimensional arrays to functions as arguments. Basicially you want to change your code into this:

// same as void f(double (*a)[2]) {
void f(double a[][2]) { 

}

int main() {
    // note. this is not a pointer to a pointer, 
    // but an array of arrays (4 arrays of type double[2])
    double var[4][2];

    // trying to pass it by value will pass a pointer to its
    // first element 
    f(var);
}

All but the last dimensions have to be known to the called function. Otherwise indexing the array, the compiler would not be able to calculate the correct distance to values into your array (a[1] is sizeof(double[2]) bytes away from a[0]).

You seem to want to be able to accept the array without knowing the size of the dimensions. You can use templates for this:

template<std::size_t N>
void f(double a[][N]) { 
    // N == 2 for us
}

int main() {
    double var[4][2];
    f(var);
}

The compiler will make a copy of (instantiate) that template for each value of N used with the function, auto-deducing the right N.

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Thank you, I like the link you gave me since I can get a deeper insight from there. And also the template example you gave me. double a[][2] is exactly what I need in my particular program. –  Ezequiel Dec 24 '08 at 18:05

The problem is that a double** is a pointer to a pointer. Your 'f' function wants to be passed the address of a pointer to a double. If you call f(var), well, where exactly do you think that pointer is? It doesn't exist.

This will work:

double *tmp = (double *) var;
f (&tmp);

Also, it would work to change the definition of f:

void f (double a[4][2]) { }

Now f takes a pointer to the kind of array you have. That will work.

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1  
no that doesn't work. your f function takes double**, and not a pointer to an array. and also your casting to a double* is wrong. it's simply not correct to cast an double[4][2] to a double* and expect that to work. for reasons i stated above. please don't do this. –  Johannes Schaub - litb Dec 24 '08 at 2:21
    
You're right, my declaration doesn't match what I was trying to do. –  Larry Gritz Dec 24 '08 at 18:31
1  
By "work" you mean "fail horribly", right? Never blindly cast values. –  Fred Nurk Feb 7 '11 at 6:13

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