Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I have two classes int_t, uint_t as signed type and unsigned type:

template <typename lo_t> struct uint_t;

template <typename hi_t, typename lo_t>
struct int_t
    lo_t lo;
    hi_t hi;

    int_t() : hi(0), lo(0) {}
    int_t(int value) : lo(value), hi(value<0? -1: 0) {}
    int_t(unsigned value) : lo(value), hi(0) {}

    int_t(const uint_t<lo_t>&);

    //template<typename ty_a, typename ty_b> int_t(const int_t<ty_a, ty_b>&);

template <typename hi_lo>
struct uint_t
    hi_lo lo, hi;

    uint_t() : lo(0), hi(0) {}
    uint_t(int value) : lo(value), hi(value<0? -1: 0) {}
    uint_t(unsigned value) : lo(value), hi(0) {}

    template<typename hi_t>
    uint_t(const int_t<hi_t, hi_lo>& value) : hi(value.hi), lo(value.lo) {}

template <typename hi_t, typename lo_t>
int_t<hi_t, lo_t>::int_t(const uint_t<lo_t>& value) : hi(value.hi), lo(value.lo)

Because I want them to work just like built-in types I defined conversion operator from one to another so I can write code like next and still works:

typedef  int_t<int, unsigned>  int64;
typedef uint_t<unsigned>      uint64;

int64  a = 1000;
uint64 b = a;

uint64 x = 512;
 int64 y = x;

Now the only problem left is to convert from higher or lower precision int_t type to the other, so I declared the commented constructor to do so but I don't know what to write in it?

Here is an example that i used to test the result of that constructor:

typedef  int_t<int, unsigned>  int64;
typedef uint_t<unsigned>      uint64;

typedef  int_t<int64, uint64> int128;
typedef uint_t<uint64>       uint128;

int64 a = 1024;
int128 b = a;

int128 x = 100;
int64 y = x;
share|improve this question

2 Answers 2

You have to define what you want them to do. For unsigned, increasing size is easy, you just set the high bits to 0 and copy the low bits from the operand. For signed you may wish to sign-extend the operand.

For shrinking you also have to decide what you want to do. Do you want to throw if the value doesn't fit? Most likely you just want to throw away all the high order bits and store it in the available space.

share|improve this answer
thats excatly what i want but how? an exmaple would be nice. –  Muhammad alaa Aug 11 '11 at 14:28
up vote 1 down vote accepted

I figured the answer for Little and Big Endians:

template<typename ty_a, typename ty_b>
int_t(const int_t<ty_a, ty_b>& value)
    *this = value < 0? -1: 0;

        if (sizeof(*this) < sizeof(value))
            *this = *((int_t*)&value.lo + (sizeof(value.lo)/sizeof(*this) - 1));
            *((int_t<ty_a, ty_b>*)&hi + sizeof(*this)/sizeof(value) - 1) = value;
        if (sizeof(*this) < sizeof(value))
            *this = *(int_t*)&value;
            *(int_t<ty_a, ty_b>*)&lo = value;

remember the answer required operator== and operator< to be defined for int_t

share|improve this answer

Your Answer


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.