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I am trying to understand the benefit using this...

double *x = new double[n];

instead of just using this...

double x[n];


#include <iostream>

using namespace std;

    int n;
    cout<<"# of elements in array"<<endl;

    double *x = new double[n]; //or double x[n]

    int i;

    return 0;
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Mandatory note:

std::vector<double> x(n);

beats what you have there.

Actual answer:

The benefit is that

double *x = new double[n];

is legal, whereas

double x[n];

is not, unless n is a compile-time constant (in your case, it's not).

C++ doesn't support variable-length-arrays.

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In this context what does it mean for something to be legal? Both methods work. What I'm trying to understand is the reason why I would use the pointer? – Rambi Oct 11 '12 at 16:28
@Rambi: the second one does not work on most C++ compilers. You are probably using g++ where it works. – Nemanja Trifunovic Oct 11 '12 at 16:39
@NemanjaTrifunovic perfect. Thanks for pointing that out. – Rambi Oct 11 '12 at 16:41

Dynamic allocation allow you a lot of things.

  • First of all, you can return this array from the function where it is create.

  • Strict C(C89) does not allow dynamic stack allocation. double x[n] will throw error on many compilers.

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"Strict C does not allow dynamic stack allocation" incorrect. C99 added variable length arrays – KitsuneYMG Oct 11 '12 at 16:24
I believe that Tom meant C89 «Strict C». Not to mention the post is about C++, obviously. And VLAs are really poorly defined, that's one of the easiest ways to obtain self-destructive behavior in programs. – Michał Górny Oct 11 '12 at 16:29

Dynamically allocated arrays won't cause Stack Overflow if they're too big.

The pointer lives on the stack, but the contents live on the heap. The downsides, however, include slower access due to an indirection, possible memory leaks and more impenetrable code.

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