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I have to work with arrays,with so many arrays My question is that is it possible to access them with their names. For example I have this arrays a1,a2,a3,...,a40 and I want to pass them into a function is it possible to save their names in an another variable and pass that variable to my code or I have to write all arrays in my function arguments?something like this:

 double function(double ***a1,double ***a2,....,double ***a40)

I want to do something like this:

  char names[40]={a1,...,a[40]};
       double function(char names)

Notice that I want my function acts on arrays(a1,a2,...)

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More *'s please. – Chad Mar 30 '12 at 20:08
Short answer: no. Long answer: I'm not sure particularly what, but you're doing something wrong. You either need a multidimensional array (my guess), or a hash table. Can you explain your end goal a bit more? This is a bit of an odd question, and not something C++ supports. – Corbin Mar 30 '12 at 20:08
All problems can be solved by another level of indirection: double function(double**** arrays, int num = 40); :P – jrok Mar 30 '12 at 20:10
What are you trying to model with the double***? – Kaiged Mar 30 '12 at 20:56
@ehsan: Since this is C++, you could use a class to model that, hiding the internal representation and providing methods to manipulate each one. Once that is done, it wouldn't be as complicated to operate on collections of instances of that class. – Kaiged Mar 30 '12 at 21:17

You can use hash_map

myMap["a10"] = 5.0;
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Can I use hash_map with g++ compiler? – peaceman Mar 30 '12 at 20:09
I don't know, I use Visual Studio; it works in Visual Studio, if that's any consolation. – Matthew Mar 30 '12 at 20:12
With g++ 4.4.5 (and using its -std=c++0x option) you certainly get TR1's std::unordered_map (which uses a hash). – timday Mar 30 '12 at 20:23

You can use a hash of their names as suggested above, or just add more *.

void f(double*** a, double*** b)
   double*** r = b;
   b = a;
   a = r;

void g(double**** ar)
   double*** t = ar[0];
   ar[1] = ar[0];
   ar[0] = t;

double a_ = 0, b_ = 0;
double* pa_ = &a_, *pb_ = &b_;
double** ppa_ = &pa_, **ppb_ = &pb_;

double*** arr[2] = {&ppa_, &ppb_};

f(&ppa_, &ppb_);

But as you can see, that get's rather unwieldy (****, wow!). Can you explain what you are trying to accomplish with so many triple pointers flying around your code? It makes my head hurt.

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Yes; whenever your program doesn't work, just add more *. – Cody Gray Mar 30 '12 at 20:19
@ehsan: So, the problem is you think pointers are the same as arrays? – Cody Gray Mar 30 '12 at 20:48
@ehsan: I would suggest using arrays. Or better yet, since this is C++ rather than C, using a standard container like std::vector. – Cody Gray Mar 30 '12 at 20:55
@Cody Gray: I agree, but it looks like ehsan is using very large arrays see his other question that exceed the stack size in his environment, thus he is allocating the 3D arrays on the heap with new. – Kaiged Mar 30 '12 at 21:04
@Kaiged: An object of type std::vector can also be allocated on the heap. – Cody Gray Mar 30 '12 at 21:05

Try this:

double* arrays[] = {a1, ..., a40};

double function (double* arrays[])


double* array[] declares an array of pointer to doubles. Assuming a1, ..., a40 are arrays of doubles, you can use them to initialize the arrays array (arrays and pointers are somewhat synonymous)

Then in the function you take this array and can reference each element like arrays[0] (which would be equivalent to a1), ..., arrays[39] (which is equivalent to a40).

I notice you have tree levels of pointer indirection in the types of a1, ..., a40 in the original version of the function. If this is indeed the case, you can replace double* above with double***. This looks very suspicious, though -- it is really hard to handle so many dimentions correctly.

Also, what I am suggesting above is using the addresses, not the names of the arrays(*). The names are only for the programmer, once you compile your program, they are not present in the executable, so you cannot refer to them by name. Their address, however is perfectly usable.

(*) Technically the array itself can be though of as a pointer (thus address), so the above terminology is slightly incorrect, but will help you to understand better what is going on.

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Others have answered how to use maps to operate on a desired double***, but perhaps just a collection of double***s is necessary in this case. A typedef double*** Array3d can help with the confusion. With this, defining functions to operate on the arrays is more clear:

typedef double*** Array3d;

//Operate on a single 3d array
void function( Array3d array )
  //Do something...  array[x][y][z] +-*/= whatever;

//Operate on a collection of 3d arrays.
void function2( Array3d arrays[] )
  for( unsigned int i = 0; i < ARRAY_SIZE; i++ )
    //Do something per array... arrays[i][x][y][z] +-*/= whatever;

Using standard containers such as std::vector, if feasible, would be an even better choice.

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