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if i write,

int a=10,b=12;
int sub = b-a;

std::bitset<8*sub> bits(bitMask);

it is giving me an error saying

error C2975: '_Bits' : invalid template argument for 'std::bitset', expected compile-time constant expression

how to over come this error, i want to initialize bitset at run time, is it possible? or there any other way to do this?

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What's sub? I'm betting it's a variable. Can you provide some of the code that surrounds the bits variable? –  In silico Aug 3 '11 at 9:20
    
You can't initialize a bitset at runtime; that's why it's a template argument, or compile-time constant –  Schnommus Aug 3 '11 at 9:22
    
@In silico code is updated. –  Naruto Aug 3 '11 at 9:23
    
@ Schnommus: how to overcome this problem.. are there any alternatives? –  Naruto Aug 3 '11 at 9:24

4 Answers 4

Template parameters must be compile-time constants. Think of a template as a code generator: The code has to be generated before you start compiling. You cannot use templates "at runtime"!

const unsigned int size = 10;
std::bitset<size> b;  // fine, the compiler knows what "size is"

unsigned int n; cin >> n;
std::bitset<n> c;     // doesn't make sense!

As a first step you should say const as much as possible in your code; it's possible that you actually do have compile-time constants but aren't declaring them as such.

If you really need a data structure with dynamic size, you need to use something else (e.g. a vector of unsigned chars along with a bitwise accessor function).


Here's a very simple implementation of a bit set as a vector of chars. I'm not wrapping this in a class, you can do that if that's needed:

std::vector<unsigned char> data;

bool getBit(size_t n, const std::vector<unsigned char> & data)
{
  if (data.size() * CHAR_BIT) <= n) return 0;

  return data[n / CHAR_BIT] & (1U << (n % CHAR_BIT));
}

void setBit(size_t n, std::vector<unsigned char> & data)
{
  if (data.size() * CHAR_BIT) <= n) data.resize(n / CHAR_BIT + 1, 0);

  data[n / CHAR_BIT] |= (1U << (n % CHAR_BIT));
}

// Exercise for the reader
void clrBit(size_t n, std::vector<unsigned char> & data);
void tglBit(size_t n, std::vector<unsigned char> & data);
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i tried adding const, its not taking at all.. same error what i have posted is appearing –  Naruto Aug 3 '11 at 9:35
    
Well, post some real code. Your above example should work if you make all the numbers constant. –  Kerrek SB Aug 3 '11 at 9:36
    
const int sub =Count-ErrorByte+1; std::bitset<8*sub> bits(bitMask); –  Naruto Aug 3 '11 at 9:37
    
the above code in my comment doesn't work :( –  Naruto Aug 3 '11 at 9:37
    
Everything has to be constant, including Count and ErrorByte! –  Kerrek SB Aug 3 '11 at 9:38

In your case, you can just stick a const on there so it's a constexpr:

const int a=10,b=12;
const int sub = b-a;

std::bitset<8*sub> bits;

(From comment) You can't initialize a bitset at runtime; that's why it's a template argument, or compile-time constant

An alternative would be to use a std::vector of bools which has been wrapped in a class with some custom access functions

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i tried adding const, its not taking at all.. same error what i have posted is appearing –  Naruto Aug 3 '11 at 9:35
    
There must be something that's not a constexpr in your code somewhere. The code here compiles fine on my end. –  Schnommus Aug 3 '11 at 9:36
    
No, what is constexpr ? –  Naruto Aug 3 '11 at 9:38
    
Basically just a short way of saying 'constant expression'; It's going to be introduced in C++0x as a keyword that guarantees a statement is a constant expression –  Schnommus Aug 3 '11 at 9:43
    
constexpr is not supported in VC10. –  Ajay Aug 3 '11 at 9:49

You can use boost::dynamic_bitset if you want a... dynamic bitset (I know, crazy, right?).

boost::dynamic_bitset<> bits(8 * sub, bitMask);
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The Standard's anwser to your question is to use std::vector<bool>, which is a bit set which can dynamically accomodate its size.

Please keep in mind that std::vector<bool> is a specialization of std::vector which is allowed to store bits in the most memory efficient way. (This is why it sucks: it doesn't behave like std::vector<T> for other Ts. If you want a real std::vector of bool, you can't.)

The interface is kept identical to std::bitset (this also sucks, because generic code using vector will break hell if instantiated with bool), so your existing code shouldn't break.

The std::vector<bool> specialization will be deprecated in the next standard. If you are already using C++0x, the correct alternative is std::dynamic_bitset. If you are stuck with the current C++ standard, then std::vector<bool> is what you want.

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