I am having the following issue with my code:

int n = 10;
double tenorData[n]   =   {1, 2, 3, 4, 5, 6, 7, 8, 9, 10};

Returns the following error:

error: variable-sized object 'tenorData' may not be initialized

Whereas using double tenorData[10] works.

Anyone know why?


In C++, variable length arrays are not legal. G++ allows this as an "extension" (because C allows it), so in G++ (without being -pedantic about following the C++ standard), you can do:

int n = 10;
double a[n]; // Legal in g++ (with extensions), illegal in proper C++

If you want a "variable length array" (better called a "dynamically sized array" in C++, since proper variable length arrays aren't allowed), you either have to dynamically allocate memory yourself:

int n = 10;
double* a = new double[n]; // Don't forget to delete [] a; when you're done!

Or, better yet, use a standard container:

int n = 10;
std::vector<double> a(n); // Don't forget to #include <vector>

If you still want a proper array, you can use a constant, not a variable, when creating it:

const int n = 10;
double a[n]; // now valid, since n isn't a variable (it's a compile time constant)

Similarly, if you want to get the size from a function in C++11, you can use a constexpr:

constexpr int n()
    return 10;

double a[n()]; // n() is a compile time constant expression
  • 1
    Thank you, this is another good solution. What I really need in the end is a vector rather than an array! – msmf14 Feb 21 '13 at 22:19
  • 1
    @msmf14: Yeah, standard containers, like vector, are incredibly useful. – Cornstalks Feb 21 '13 at 22:21
  • Does the vector solution initialize each element when you call "std::vector<[some class]> a(n);"? – Justin Mar 23 '14 at 23:11
  • @Justin: Yes, it value-intializes (or default-constructs for structs/classes) the elements (so ints/floats/etc will all be zero). – Cornstalks Mar 24 '14 at 14:22
  • 2
    If you're not allocating much (if it's small compared to stack size), I'd prefer using stack memory with alloca(3) and placement new. This way you don't need to worry about free'ing the memory, and memory allocation is much much faster. – holgac Apr 4 '16 at 6:59

protected by Community Oct 8 '17 at 11:49

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