You are given n integers a1,a2,...,an. Denote this list of integers as T.
Let f(L) be a function that takes in a non-empty list of integers L.
The function will output another integer as follows:
For example f(10,9)=0, f(123,321)=121, f(530,932,81)=30.
Define the function
In other words, G(x) is the sum of squares of sum of elements of nonempty subsequences of T that evaluate to x when plugged into f modulo 1000000007, then multiplied by x. The last multiplication is not modded.
You would like to compute G(0),G(1),...,G(999999). To reduce the output size, print the value , where denotes the bitwise XOR operator.
The first line contains the integer n (1≤n≤1000000)− the size of list T.
The next line contains n space-separated integers, a1,a2,...,an (0≤ai≤999999)− the elements of the list.
Output a single integer, the answer to the problem.
3
123 321 555
292711924
1
999999
997992010006992
10
1 1 1 1 1 1 1 1 1 1
28160
For the first sample, the nonzero values of G are G(121)=144611577, G(123)=58401999, G(321)=279403857, G(555)=170953875. The bitwise XOR of these numbers is equal to 292711924.
For example, , since the subsequences [123] and [123,555] evaluate to 123 when plugged into f.
For the second sample, we have
For the last sample, we have , where is the binomial coefficient.