# Determing Number of Permutations in A Rooted Tree

A safe is protected by a rather complicated passcode system. The passcode entry system is arranged as a rooted tree of N (1 <= N <= 20,000) nodes, each of which requires a digit between 0 and 9. The nodes are indexed 0..N-1.

The only information that you have is that certain sequences of length 5 do not occur along particular paths upwards through the tree.

For instance, suppose the tree is the following (rooted at A):

A <- B <- C <- D <- E
------------------ ^
------------------ |
------------------ F

You might know that the sequence 01234 does not occur starting at F, and that the sequence 91234 does not occur starting at E. This information rules out 19 possible passcodes: all those of the form

4 <- 3 <- 2 <- 1 <- *
--------------- - ^
----------------- |
----------------- 0

or

4 <- 3 <- 2 <- 1 <- 9
----------------- ^
----------------- |
----------------- *

which gives 19 once we account for the fact that

4 <- 3 <- 2 <- 1 <- 9
- - - - - - - - -- ^
- - - - - - -- - - |
- - - - - - - - - 0

appears twice.

Given M (1 <= M <= 50,000) length-5 sequences, together with their starting nodes in the tree, figure out how many passcodes have been ruled out. You should compute your answer modulo 1234567.

``````INPUT FORMAT:

* Line 1: Two space-separated integers, N and M.

* Lines 2..N: Line i+1 contains a single integer p(i), denoting the
parent of node i in the tree (0 <= p(i) < i).

* Lines N+1..N+M: Line N+i describes the ith sequence known not to
occur in the code.  The line will contain v(i) and s(i)
separated by a space, where v(i) is the starting node of the
sequence, and s(i) is a 5-digit string known not to occur
starting at v(i) and proceeding upward in the tree.  It is
guaranteed that the root is at least 4 steps upward from v(i).

SAMPLE INPUT:

6 2
0
1
2
3
3
4 01234
5 91234

OUTPUT FORMAT:

* Line 1: A single integer giving the number of ruled-out
configurations, modulo 1234567.

SAMPLE OUTPUT :

19
``````

I tried first creating a tree from the input data. I then used a marked array to walk up trees and get rid of over counted solutions. Yet, I had extreme difficulty in removing over counted solutions. Could you please provide some pseudocode/algorithm to help me.

Thanks, Todd

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