Problem1736--Xor-matic Number of the Graph

1736: Xor-matic Number of the Graph

Time Limit: 2 Sec  Memory Limit: 256 MB
Submit: 0  Solved: 0
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Description

time limit per test
2 seconds
memory limit per test
256 megabytes
input
standard input
output
standard output

You are given an undirected graph, constisting of n vertices and m edges. Each edge of the graph has some non-negative integer written on it.

Let's call a triple (u,v,s) interesting, if 1≤u<vn and there is a path (possibly non-simple, i.e. it can visit the same vertices and edges multiple times) between vertices u and v such that xor of all numbers written on the edges of this path is equal to s. When we compute the value s for some path, each edge is counted in xor as many times, as it appear on this path. It's not hard to prove that there are finite number of such triples.

Calculate the sum over modulo 109+7 of the values of s over all interesting triples.

Input

The first line of the input contains two integers n andm (1≤n≤100000, 0≤m≤200000)− numbers of vertices and edges in the given graph.

The follow m lines contain three integers ui, vi andti (1≤ui,vin, 0≤ti≤1018, uivi)− vertices connected by the edge and integer written on it. It is guaranteed that graph doesn't contain self-loops and multiple edges.

Output

Print the single integer, equal to the described sum over modulo 109+7.

Examples
Input
4 4
1 2 1
1 3 2
2 3 3
3 4 1
Output
12
Input
4 4
1 2 1
2 3 2
3 4 4
4 1 8
Output
90
Input
8 6
1 2 2
2 3 1
2 4 4
4 5 5
4 6 3
7 8 5
Output
62
Note

In the first example the are 6 interesting triples:

  1. (1,2,1)
  2. (1,3,2)
  3. (1,4,3)
  4. (2,3,3)
  5. (2,4,2)
  6. (3,4,1)
The sum is equal to 1+2+3+3+2+1=12.

In the second example the are 12 interesting triples:

  1. (1,2,1)
  2. (2,3,2)
  3. (1,3,3)
  4. (3,4,4)
  5. (2,4,6)
  6. (1,4,7)
  7. (1,4,8)
  8. (2,4,9)
  9. (3,4,11)
  10. (1,3,12)
  11. (2,3,13)
  12. (1,2,14)
The sum is equal to 1+2+3+4+6+7+8+9+11+12+13+14=90.

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