Im trying to convert my arbitrary precision integer class to be able to use digits that are not just 8 bits per digit. Ive stumbled upon a weird problem: I am able to use `uint16_t`

for my base digit type, but not `uint32_t`

. My code will return bad results. The example I used to find what was going wrong is `0x1111111111111111 * 0x1111111111111111`

, which should be`0x123456789abcdf00fedcba987654321`

. However, I am getting `0x123456789abcdf0fedcba987654321`

.

I thought that I had changed all of the hardcoded types so that changing the base digit type would not matter, but apparently not.

Here is the relevant code:

```
typedef uint32_t digit; // original code uses uint8_t; uint16_t works too
typedef uint64_t double_digit; // int type to hold overflow values
typedef std::deque <digit> base;
const digit NEG1 = -1; // uint8_t -> 255, uint32_t -> 4294967295
const digit BITS = sizeof(digit) << 3; // sizeof gives the number of bytes, so multiply that by 8 to get the number of bits
const digit HIGH_BIT = 1 << (BITS - 1); // uint8_t -> 128
// left bit shift. sign is maintained
integer operator<<(uint64_t shift){
if (!*this || !shift)
return *this;
base out = digits;
for(uint64_t i = 0; i < (shift / BITS); i++)
out.push_back(0);
shift %= BITS;
if (shift){
out.push_back(0);
return integer(out, _sign) >> (BITS - shift);
}
return integer(out, _sign);
}
// right bit shift. sign is maintained
integer operator>>(uint64_t shift){
if (shift >= bits())
return integer(0);
base out = digits;
for(uint64_t i = 0; i < (shift / BITS); i++)
out.pop_back();
shift %= BITS;
if (shift){
base v;
for(d_size i = out.size() - 1; i != 0; i--)
v.push_front(((out[i] >> shift) | (out[i - 1] << (BITS - shift))) & NEG1);
v.push_front(out[0] >> shift);
out = v;
}
return integer(out, _sign);
}
// operator+ calls this
integer add(integer & lhs, integer & rhs){
base out;
base::reverse_iterator i = lhs.digits.rbegin(), j = rhs.digits.rbegin();
bool carry = false;
double_digit sum;
for(; ((i != lhs.digits.rend()) && (j != rhs.digits.rend())); i++, j++){
sum = *i + *j + carry;
out.push_front(sum);
carry = (sum > NEG1);
}
for(; i != lhs.digits.rend(); i++){
sum = *i + carry;
out.push_front(sum);
carry = (sum > NEG1);
}
for(; j != rhs.digits.rend(); j++){
sum = *j + carry;
out.push_front(sum);
carry = (sum > NEG1);
}
if (carry)
out.push_front(1);
return integer(out);
}
// operator* calls this
// Long multiplication
integer long_mult(integer & lhs, integer & rhs){
unsigned int zeros = 0;
integer row, out = 0;
for(base::reverse_iterator i = lhs.digits.rbegin(); i != lhs.digits.rend(); i++){
row.digits = base(zeros++, 0); // zeros on the right hand side
digit carry = 0;
for(base::reverse_iterator j = rhs.digits.rbegin(); j != rhs.digits.rend(); j++){
double_digit prod = (double_digit(*i) * double_digit(*j)) + carry;// multiply through
row.digits.push_front(prod & NEG1);
carry = prod >> BITS;
}
if (carry)
row.digits.push_front(carry);
out = add(out, row);
}
return out;
}
```

Is there something obvious that I missed that might cause incorrect calculations? I have stared at this code for a little too long in one burst.

The full modified code is here.

**EDIT**: I have tested the code on ideone, and it is returning the correct value for this calculation, but my computer still does not. Is there any good explanation for this?

`boost::dynamic_bitset`

or`std::vector<bool>`

- with assumptions that left significant bit is at the beginning of it? – PiotrNycz Oct 21 '12 at 10:21