In this problem, we are asked to divide two integers. However, we are not allowed to use division, multiplication and mod operations. So, what else can we use? Yeah, bit manipulations.
Let's do an example and see how bit manipulations work.
Suppose we want to divide 15
by 3
, so 15
is dividend
and 3
is divisor
. Well, division simply requires us to find how many times we can subtract the divisor
from the the dividend
without making the dividend
negative.
Let's get started. We subtract 3
from 15
and we get 12
, which is positive. Let's try to subtract more. Well, we shift 3
to the left by 1
bit and we get 6
. Subtracting 6
from 15
still gives a positive result. Well, we shift again and get 12
. We subtract 12
from 15
and it is still positive. We shift again, obtaining 24
and we know we can at most subtract 12
. Well, since 12
is obtained by shifting 3
to left twice, we know it is 4
times of 3
. How do we obtain this 4
? Well, we start from 1
and shift it to left twice at the same time. We add 4
to an answer (initialized to be0
). In fact, the above process is like 15 = 3 * 4 + 3
. We now get part of the quotient (4
), with a remainder 3
.
Then we repeat the above process again. We subtract divisor = 3
from the remaining dividend = 3
and obtain 0
. We know we are done. No shift happens, so we simply add 1 << 0
to the answer.
Now we have the full algorithm to perform division.
According to the problem statement, we need to handle some exceptions, such as overflow.
Well, two cases may cause overflow:
divisor = 0
;dividend = INT_MIN
and divisor = -1
(because abs(INT_MIN) = INT_MAX + 1
).Of course, we also need to take the sign into considerations, which is relatively easy.
Putting all these together, we have the following code.
1 class Solution { 2 public: 3 int divide(int dividend, int divisor) { 4 if (!divisor || (dividend == INT_MIN && divisor == -1)) 5 return INT_MAX; 6 int sign = ((dividend < 0) ^ (divisor < 0)) ? -1 : 1; 7 long long dvd = labs(dividend); 8 long long dvs = labs(divisor); 9 int res = 0; 10 while (dvd >= dvs) { 11 long long temp = dvs, multiple = 1; 12 while (dvd >= (temp << 1)) { 13 temp <<= 1; 14 multiple <<= 1; 15 } 16 dvd -= temp; 17 res += multiple; 18 } 19 return res * sign; 20 } 21 };