Cycle sort
time limit per test
1000 ms
memory limit per test
512 MiB
input
stdin
output
stdout

You are given an array of \(n\) positive integers \(a_1, a_2, \dots, a_n\). You can perform the following operation any number of times: select several distinct indices \(i_1, i_2, \dots, i_k\) (\(1 \le i_j \le n\)) and move the number standing at the position \(i_1\) to the position \(i_2\), the number at the position \(i_2\) to the position \(i_3\), …, the number at the position \(i_k\) to the position \(i_1\). In other words, the operation cyclically shifts elements: \(i_1 \to i_2 \to \ldots i_k \to i_1\).

For example, if you have \(n=4\), an array \(a_1=10, a_2=20, a_3=30, a_4=40\), and you choose three indices \(i_1=2\), \(i_2=3\), \(i_3=4\), then the resulting array would become \(a_1=10, a_2=40, a_3=20, a_4=30\).

Your goal is to make the array sorted in non-decreasing order with minimum number of operations. The additional constraint is that the sum of cycle lengths over all operations should be less than or equal to a number \(s\). If it’s impossible to sort the array while satisfying that constraint, your solution should report that as well.

Input

The first line of the input contains two integers \(n\) and \(s\) (\(1 \leq n \leq 200\,000\), \(0 \leq s \leq 200\,000\))—the number of elements in the array and the upper bound on the sum of cycle lengths.

The next line contains \(n\) integers \(a_1, a_2, \dots, a_n\)—elements of the array (\(1 \leq a_i \leq 10^9\)).

Output

If it’s impossible to sort the array using cycles of total length not exceeding \(s\), print a single number “-͡1” (quotes for clarity).

Otherwise, print a single number \(q\)— the minimum number of operations required to sort the array.

On the next \(2q\) lines print descriptions of operations in the order they are applied to the array. The description of \(i\)-th operation begins with a single line containing one integer \(k\) (\(1 \le k \le n\))—the length of the cycle (that is, the number of selected indices). The next line should contain \(k\) distinct integers \(i_1, i_2, \dots, i_k\) (\(1 \le i_j \le n\))—the indices of the cycle.

The sum of lengths of these cycles should be less than or equal to \(s\), and the array should be sorted after applying these \(q\) operations.

If there are several possible answers with the optimal \(q\), print any of them.

Scoring

\(n, s \leq 2\) and all elements of the array are either \(1\) or \(2\).

\(n \leq 5\).

All elements of the array are either \(1\) or \(2\).

Array contains numbers from \(1\) to \(n\) only, each number appears exactly once, \(s = 2 \cdot n\).

Array contains numbers from \(1\) to \(n\) only, each number appears exactly once, \(n \leq 1000\).

Array contains numbers from \(1\) to \(n\) only, each number appears exactly once.

\(s = 2 \cdot n\).

\(n \leq 1000\).

No additional constraints.

Example
Input
Copy
5 5
3 2 3 1 1
Output
Copy
1
5
1 4 2 3 5 

Input
Copy
4 3
2 1 4 3
Output
Copy
-1

Input
Copy
2 0
2 2
Output
Copy
0

Input
Copy
6 9
6 5 4 3 2 1
Output
Copy
2
6
1 6 2 5 3 4 
3
3 2 1 

Input
Copy
6 8
6 5 4 3 2 1
Output
Copy
3
2
3 4 
4
1 6 2 5 
2
2 1 

Notes

In the first example, it’s also possible to sort the array with two operations of total length 5: first apply the cycle \(1 \to 4 \to 1\) (of length 2), then apply the cycle \(2 \to 3 \to t \to 2\) (of length 3). However, it would be wrong answer as you’re asked to use the minimal possible number of operations, which is 1 in that case.

In the second example, it’s possible to the sort the array with two cycles of total length 4 (\(1 \to 2 \to 1\) and \(3 \to 4 \to 3\)). However, it’s impossible to achieve the same using shorter cycles, which is required by \(s=3\).

In the third example, the array is already sorted, so no operations are needed. Total length of empty set of cycles is considered to be zero.

Notice that examples 1 and 3 contain duplicate numbers, so they do not satisfy requirements for subtasks 4, 5 and 6. Examples 2, 4, and 5 satisfy requirements for subtasks 5 and 6.

Information
Identifier:
eJOI18_cycle-sort
Title:
Cycle sort
Time limit:
1000 ms
Memory limit:
512 MiB
Tags:
show
Task type:
batch

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