Farmer John is gathering the cows. His farm contains a network of N (1 <= N <= 100,000) fields conveniently numbered 1..N and connected by N-1 unidirectional paths that eventually lead to field 1. The fields and paths form a tree.

Each field i > 1 has a single one-way, exiting path to field P_i, and currently contains C_i cows (1 <= C_i <= 1,000,000,000). In each time unit, no more than M_i (0 <= M_i <= 1,000,000,000) cows can travel from field i to field P_i (1 <= P_i <= N) (i.e., only M_i cows can traverse the path).

Farmer John wants all the cows to congregate in field 1 (which has no limit on the number of cows it may have). Rules are as follows:

• * Time is considered in discrete units.
• * Any given cow might traverse multiple paths in the same time unit. However, no more than M_i total cows can leave field i (i.e., traverse its exit path) in the same time unit.
• * Cows never move *away* from field #1.

In other words, every time step, each cow has the choice either to

• a) stay in its current field
• b) move through one or more fields toward field #1, as long as the bottleneck constraints for each path are not violated

Consider an example where the tree is a straight line, and the T_i list contains only T_1=5, and cows are distibuted as shown:

Locn:      1---2---3---4      <-- Pasture ID numbers
C_i:       0   1   12  12     <-- Current number of cows
M_i:           5   8   3      <-- Limits on path traversal; field
                                  1 has no limit since it has no exit

Tree:      1---2---3---4
t=0        0   1   12  12     <-- Initial state
t=1        5   4   7   9      <-- field 1 has cows from field 2 and 3
t=2        10  7   2   6
t=3        15  7   0   3
t=4        20  5   0   0
t=5        25  0   0   0

입력

출력

입출력 예

입력

4 1
1 1 5
2 12 7
3 12 3
5

출력

25

출처:usaco 2011 JAN gold 1