201574: [AtCoder]ARC157 E - XXYX Binary Tree

Memory Limit:1024 MB Time Limit:3 S
Judge Style:Text Compare Creator:
Submit:0 Solved:0

Description

Score : $700$ points

Problem Statement

You are given a rooted tree with $N$ vertices. The vertices are numbered $1$ to $N$, and the root is vertex $1$. The parent of each vertex $i$ except the root is vertex $P_i$. Each vertex, including the root, has no child or exactly two children.

Determine whether it is possible to write one of the characters X and Y on each vertex of the given tree to satisfy the following condition.

Condition: For each edge of the tree, consider the string of length $2$ obtained by concatenating the characters written on the endpoints in the order from the parent $P_i$ to the child $i$. Among the $(N - 1)$ strings obtained in this way,

  • exactly $A$ are XX,
  • exactly $B$ are XY,
  • exactly $C$ are YX, and
  • none is YY.

You have $T$ test cases to solve.

Constraints

  • $T \geq 1$
  • $N \geq 1$
  • For each input, the sum of $N$ over the test cases is at most $10^4$.
  • $A \geq 0$
  • $B \geq 0$
  • $C \geq 0$
  • $A + B + C = N - 1$
  • $1 \leq P_i < i \ \ (2 \leq i \leq N)$
  • Each vertex $k \ (1 \leq k \leq N)$ occurs as a parent $P_i \ (2 \leq i \leq N)$ zero times or twice in total.

Input

The input is given from Standard Input in the following format:

$T$
$\mathrm{case}_1$
$\mathrm{case}_2$
$\vdots$
$\mathrm{case}_T$

Each test case $\mathrm{case}_i \ (1 \leq i \leq T)$ is in the following format:

$N$ $A$ $B$ $C$
$P_2$ $P_3$ $\cdots$ $P_N$

Output

Print $T$ lines. The $i$-th line should contain Yes if there is a way to write characters to satisfy the condition, and No otherwise.


Sample Input 1

3
7 2 2 2
1 1 2 2 3 3
7 0 2 4
1 1 2 2 3 3
7 2 0 4
1 1 2 2 4 4

Sample Output 1

Yes
Yes
No

For the first test case, if you, for instance, write XXYXYXX in this order on vertices $1$ to $7$,

  • from the edge $(1, 2)$, we obtain XX,
  • from the edge $(1, 3)$, we obtain XY,
  • from the edge $(2, 4)$, we obtain XX,
  • from the edge $(2, 5)$, we obtain XY,
  • from the edge $(3, 6)$, we obtain YX, and
  • from the edge $(3, 7)$, we obtain YX.

Each of XX, XY, and YX occurs twice, so the condition is satisfied.

For the second case, one way to satisfy the condition is to write XYYXXXX.

For the third case, there is no way to satisfy the condition.

Input

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