Editorial
Problem Author: | Maksym Shvedchenko |
Prepared by: | Maksym Shvedchenko, Illia Shevchenko |
Editorial by: | Illia Shevchenko |
Group 1: .
obviously
so therefore, there are no solutions hence, output should be
Group 2: .
Since the numbers , are non-negative, it means that
We can iterate through the numbers , if their sum is equal to and bitwise OR is equal to
the code will look something like this
int count = 0; for (int x = 0; x <= a; x++) { for (int y = 0; y <= a; y++) { if (((x + y) == a) and ((x | y) == b)) { count++; } } } cout << count;
Group 3: .
the solution is similar to the solution in the second group, but we also need to calculate the minimum distance
Group 4: .
Let's iterate only through , and calculate from the equation
the code will look something like this
int count = 0; for (int x = 0; x <= a; x++) { int y = a - x; if (((x + y) == a) and ((x | y) == b)) { count++; } } cout << count;
Group 5: .
the solution is similar to the solution in the fourth group, but we also need to calculate the minimum distance
Group 6: .
- denotes bitwise exclusive OR
then we can find the bitwise exclusive OR of the numbers , ; =
If the bitwise exclusive OR < 0 then the answer is
now let's go through all the bits
1) if the bit is present in the bitwise OR and also in the bitwise exclusive OR then the bit can be in both and therefore the number of ways is multiplied by 2
2) if the bit is present in the bitwise OR and not in the bitwise exclusive OR then the bit will be in both numbers and the number of ways does not change
3) if the bit is not present in the bitwise OR and not in the bitwise exclusive OR then the bit will not be in both numbers and the number of ways does not change
4) if the bit is not present in the bitwise OR and present in the bitwise exclusive OR this case is not possible because the bit is present in one of the numbers but not in the bitwise OR
the code will look something like this
long long xor_ = 2*b - a; long long or_ = b; long long count = 1; if (xor_ < 0) { cout << 0; return 0; } for (int i = 0; i < 61; i++) { if (((or_ & (1ll << i)) == 0) and ((xor_ & (1ll << i)) != 0)) { count = 0; } if (((or_ & (1ll << i)) != 0) and ((xor_ & (1ll << i)) != 0)) { count *= 2; } } cout << count;
Group 7: (no additional constraints).
when , the solution is the same as the solution of the 6th group
when , we need to find the minimum distance
Consider all the bits from the 6th group, we know that the only undefined bits are the bits where the bit can be in either one of the numbers or in the other
Now it can be noticed that the number in which the maximum undefined bit will be the maximum of the numbers
then in order for the distance between the numbers to be minimum all the other undefined bits should be in the other number
the code will look something like this
long long a , b , g; cin >> a >> b >> g; long long xor_ = 2*b - a; long long or_ = b; long long count = 1; long long x = 0; long long y = 0; if (xor_ < 0) { if (g == 0) cout << 0; else cout << 0 << endl << -1; return 0; } for (int i = 60; i >= 0; i--) { if (((or_ & (1ll << i)) == 0) and ((xor_ & (1ll << i)) != 0)) { if (g == 0) cout << 0; else cout << 0 << endl << -1; return 0; } if (((or_ & (1ll << i)) != 0) and ((xor_ & (1ll << i)) != 0)) { count *= 2; if (x < y) x += (1ll << i); else y += (1ll << i); } } if (g == 0) cout << count; else cout << count << endl << abs(x - y);