How can I initialize a constant to use it as a size parameter for a bitset object, such that it takes its value from anothe non-constant variable?

int x=2;
int y=Some_Function(x);
const int z=y;
bitset<z> b;
  • Looks like it should work. – Martin York Aug 17 '11 at 18:04
  • @Tarek: The example you quoted should work fine. – Alok Save Aug 17 '11 at 18:04
  • 2
    You can't just declare an int as const and use it as the size of an array (without using dynamic allocation). It has to be constant at compile time, not runtime. – Seth Carnegie Aug 17 '11 at 18:06
  • If you show us the actual computation, maybe we can help you with some template hackery. Or you could just use std::vector... – fredoverflow Aug 17 '11 at 18:07
  • If Some_Function(x); is simple, add it here and we might be able to make a compile-time equivalent for you. – Mooing Duck Aug 17 '11 at 19:15

You cannot do that because size of arrays or the template parameter tostd::bitset has to be compile-time constant, not runtime constant. The const value must be known at compile-time itself, in order to be used as array-size, or in std::bitset.

int x = getSize();
const int y = x;  //ok - runtime const. y cannot be changed; x can be changed!
int a[y];         //error in ISO C++ - y is not known at compile time!
std::bitset<y> b; //error in ISO C++ - y is not known at compile time!

const int z = 10; //ok - compile-time const. z cannot be changed!
int c[z];         //ok - z is known at compile time!
std::bitset<z> d; //ok - z is known at compile time!

The above code and comments are made according to C++98 and C++03.

However, in C++11, y will be compile-time constant, and the code involving y would compile if y is initialized as:

 const int y = getSize(); //i.e not using `x` to initialize it.

and getSize() is defined as:

 constexpr int getSize() { /*return some compile-time constant*/ }

The keyword constexpr has been added to C++11 to define generalize constant expressions.

  • In C++11 const int y = getSize(); could work, when getSize() is constexpr – PlasmaHH Aug 17 '11 at 18:54

There's a difference between a constant variable and a compile-time constant. Compare:

int main(int argc, char* argv[])
  const int i = argc; // constant

This variable i is constant with the function scope, but its value is unknown at compile time.

On the other hand, the following two are compile-time constants:

const int a = 12;

int f(int n) { return 2 * n; }  // see below

const int b = f(6);

Both a and b are known at compile time.

Only compile-time constants can be used as array sizes or template parameters! (Templates are essentially code generation machines, so the code has to be generated before the final program can be compiled.)

std::bitset<a> B1; // OK, same as std::bitset<12>
std::bitset<b> B2; // OK in C++11, not allowed in C++98/03

// but, in main() above:
std::bitset<i> B3; // Cannot do, we don't know i at compile-time!

Note that in C++98/03, b is not actually formally recognized as a compile-time constant. C++11 fixes this by allowing f to be declared constexpr, meaning it's allowed to compute compile-time constant expressions (if all its arguments are themselves constant).

  • The answer appropriately answers the intent of the OP, probably you should also mention that that the code snippet S/He mentions is perfectly valid and that is the least of his problems. – Alok Save Aug 17 '11 at 18:08
  • @Als: I think the OP has edited the question, now the snippet is no longer valid :-) – Kerrek SB Aug 17 '11 at 18:12
  • Woops, My Slow Beasty Dell! :-) – Alok Save Aug 17 '11 at 18:13
  • @Kerrek: std::bitset<b> B2 wouldn't compile, in my opinion. The compiler wouldn't execute f(6) to initialize b at compile-time itself. – Nawaz Aug 17 '11 at 18:19
  • @Kerrek SB: I have a question about Example 2. You can achieve something similar in C++11 with constexpr, but out of curiosity, is b really known at compile time? I.e., does the compiler actually evaluate f(6)? – Jacob Aug 17 '11 at 18:23

Let's distinguish between compile-time constants and variables with const slapped on them. Yours is the latter kind; only the former kind can serve as array size (before C++0).

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