Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm trying to make a BoolArray class which represent an array of booleans but instead of save 1 boolean value per bool variable. it's uses 1 char variable to represents 8 booleans values using bits, and save memory. I want to make it convenient as normal array using operator [].

I can use arr[5] and return a bool value for the fifth bit. my problem is the assignment of a bit. I cant make a reference to one bit, so I need to make a function that perform that task. My question is if it possible to control array style assignment using operators overloading. My solution was to use another class(MyBoolean) and return it as a reference to BoolArray operator[]. MyBoolean overloads operator= and change the bits of BoolArray. Is there a simpler way That overloads kind of operator[]= or something like that?

#include <iostream>
#include <tgmath.h>
using namespace std;



string int_to_binary_string(int number)
{
    if ( number == 0 ) return "0";
    if ( number == 1 ) return "1";

    if ( number % 2 == 0 )
        return int_to_binary_string(number / 2) + "0";
    else
        return int_to_binary_string(number / 2) + "1";
}




class MyBoolean;
class BoolArray {

    private:
        unsigned char* arr;
        int size;


        void setBit(int bit_number,bool value);

    public:
        explicit BoolArray(int size);       
        ~BoolArray();
        MyBoolean operator[](unsigned int index);
        int getSize() const;

        friend class MyBoolean;
};



// ***************************** MyBoolean *********************************
class MyBoolean {

    private:
        bool value;
        int bit_number;
        BoolArray* bool_array;

    public:
        // --- Constructor ---
        MyBoolean(bool value,int bit_number,BoolArray* bool_array) :
            value(value),bit_number(bit_number),bool_array(bool_array)
        {}


        // --- cast ---
        operator bool() const{
            return value;
        }

        MyBoolean& operator=(bool new_value) {
            value = new_value;
            bool_array->setBit(bit_number,new_value);
        }
};



// ***************************** BoolArray *****************************
    void BoolArray::setBit(int bit_number,bool value) {
            int index = floor((double)bit_number/8);
            bit_number -= index*8;

            cout << "trying to set " << bit_number << " to " << value << endl;

            if(value==true) {
                int binary_num = pow(2,bit_number);
                cout << "arr[index]: " << int_to_binary_string(arr[index]) << " - binary_num: " << int_to_binary_string(binary_num);
                arr[index] = arr[index] | binary_num; 
                cout << " - after: " << int_to_binary_string(arr[index]) << endl;
            }
            else {
                int binary_num = 0 | 255;
                int binary_num_2 = pow(2,bit_number);
                binary_num = binary_num^binary_num_2;
                arr[index] = arr[index] & binary_num;
            }
    }


    // --- Constructor ---
    BoolArray::BoolArray(int size) :
        size(size)
    {
        size = ceil((double)size/8);
        arr = new unsigned char[size];
    }


    // --- Destructor ---
    BoolArray::~BoolArray() {
        delete[] arr;
    }


    // --- operator[] ---
    MyBoolean BoolArray::operator[](unsigned int index) {
        if(index>size-1)
            throw "error";

        int arr_index = floor((double)index/8);
        int bit_number = index - arr_index*8;
        unsigned int binary_num = pow(2,bit_number);
        int value= false;
        if((arr[arr_index] & binary_num)>0)
            value = true;

        MyBoolean my_bool(value,index,this);

        return my_bool;
    }


    // --- size ---
    int BoolArray::getSize() const {
        return size;
    }



ostream& operator<<(ostream& os, MyBoolean b) {
    os << (bool) b;
    return os;
}

ostream& operator<<(ostream& os,BoolArray& arr) {
    for(int i=0;i<arr.getSize();i++)
        os << arr[i] << "->";
    return os;
}


int main() {
    BoolArray arr(12);
    arr[0] = true;
    arr[1] = false;
    arr[2] = true;
    arr[3] = false;
    arr[4] = true;
    arr[5] = false;
    arr[6] = true;
    arr[7] = false; 
    arr[8] = true;
    arr[9] = false;
    arr[10] = true;
    arr[11] = false;    
    cout << arr;
    return 0;
}
share|improve this question
    
Why don't you use a bitfield? –  Devolus Jun 16 '13 at 12:06
2  
If I get this right, you are asking how to overload [] and =. You should find that in any decent overloading tutorial, see e.g. en.wikibooks.org/wiki/C%2B%2B_Programming/Operators/…. Stroustrup's book also gives a good example to start from. –  Zane Jun 16 '13 at 12:09
1  
Was this a student problem to program a std::bitset by hand? Look at the docs for that and try to implement those yourself. Also, for portability, use CHAR_BIT in <climits> instead of 8. –  Eric Jablow Jun 16 '13 at 12:12
    
The standard library provides a specialization of std::vector for the type bool, which is optimized for space efficiency. Why you don't uuse it? –  Serhiy Jun 16 '13 at 12:13
    
You will need some "proxy" magic... But have a look at boost::dynamic_bitset or the infamous std::vector<bool> (and std::bitset if you don't need dynamic size). –  gx_ Jun 16 '13 at 12:13

3 Answers 3

up vote 2 down vote accepted

You already have basically the best solution: to make a proxy class which is assignable from a bool but internally only assigns 1 bit, and is implicitly convertible to a bool. BoolArray would return this proxy class from operator[].

In fact, this is what vector<bool> does with vector<bool>::reference. As commenters have said, std::vector is specialized for bool to do exactly what you are writing. So unless this is just for learning, what you're writing is useless/redundant.

share|improve this answer
    
It is important to remember limitations of vector<bool>, though See stackoverflow.com/questions/6781985/… –  dvntehn00bz Feb 7 '14 at 2:06

As commenters suggest you, use a std::bitset. Not reinvent the wheel.

But if you want to do an exercise, and implement a bitset, the answer is NO.

In fact, the implementation of std::bitset does exactly you are doing: Using a proxy class that stores the value and the position of the bit.

Please checkout lines 00760 (Proxy class declaration) and 01138 (Declaration and implementation of non-const operator[]).

share|improve this answer

Using a proxy object as you do, is basically the right thing to do. BUT: You should never use floating point operations to do integer arithmetic (They are inexact, and sometimes have to little precision):

// Don't do this:
int index = floor((double)bit_number/8);
// But this:
int index = bitnumber/8;

Integer division will alway round towards zero, using floor(x) is not needed.

// Don't do this:
int binary_num = pow(2,bit_number);
// But this:
int binary_num = 1 << bit_number;

In addition to potentially giving wrong result after rounding to integers, pow(a,b) is much slower than using the bit-shift operator.

share|improve this answer
    
Im was reading your answer and I noticed that you recommend bitshift instead a power of two. Any good modern compiler optimizes power of two to do bitshift, isn't? –  Manu343726 Jul 6 '13 at 10:06

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.