101335: [AtCoder]ABC133 F - Colorful Tree

Memory Limit:256 MB Time Limit:2 S
Judge Style:Text Compare Creator:
Submit:0 Solved:0

Description

Score : $600$ points

Problem Statement

There is a tree with $N$ vertices numbered $1$ to $N$. The $i$-th edge in this tree connects Vertex $a_i$ and Vertex $b_i$, and the color and length of that edge are $c_i$ and $d_i$, respectively. Here the color of each edge is represented by an integer between $1$ and $N-1$ (inclusive). The same integer corresponds to the same color, and different integers correspond to different colors.

Answer the following $Q$ queries:

  • Query $j$ ($1 \leq j \leq Q$): assuming that the length of every edge whose color is $x_j$ is changed to $y_j$, find the distance between Vertex $u_j$ and Vertex $v_j$. (The changes of the lengths of edges do not affect the subsequent queries.)

Constraints

  • $2 \leq N \leq 10^5$
  • $1 \leq Q \leq 10^5$
  • $1 \leq a_i, b_i \leq N$
  • $1 \leq c_i \leq N-1$
  • $1 \leq d_i \leq 10^4$
  • $1 \leq x_j \leq N-1$
  • $1 \leq y_j \leq 10^4$
  • $1 \leq u_j < v_j \leq N$
  • The given graph is a tree.
  • All values in input are integers.

Input

Input is given from Standard Input in the following format:

$N$ $Q$
$a_1$ $b_1$ $c_1$ $d_1$
$:$
$a_{N-1}$ $b_{N-1}$ $c_{N-1}$ $d_{N-1}$
$x_1$ $y_1$ $u_1$ $v_1$
$:$
$x_Q$ $y_Q$ $u_Q$ $v_Q$

Output

Print $Q$ lines. The $j$-th line ($1 \leq j \leq Q$) should contain the answer to Query $j$.


Sample Input 1

5 3
1 2 1 10
1 3 2 20
2 4 4 30
5 2 1 40
1 100 1 4
1 100 1 5
3 1000 3 4

Sample Output 1

130
200
60

The graph in this input is as follows:

Figure

Here the edges of Color $1$ are shown as solid red lines, the edge of Color $2$ is shown as a bold green line, and the edge of Color $4$ is shown as a blue dashed line.

  • Query $1$: Assuming that the length of every edge whose color is $1$ is changed to $100$, the distance between Vertex $1$ and Vertex $4$ is $100 + 30 = 130$.
  • Query $2$: Assuming that the length of every edge whose color is $1$ is changed to $100$, the distance between Vertex $1$ and Vertex $5$ is $100 + 100 = 200$.
  • Query $3$: Assuming that the length of every edge whose color is $3$ is changed to $1000$ (there is no such edge), the distance between Vertex $3$ and Vertex $4$ is $20 + 10 + 30 = 60$. Note that the edges of Color $1$ now have their original lengths.

Input

题意翻译

有一个 $N$ 个节点的树,每条边有颜色、边权。 您需要处理 $Q$ 个询问,每个询问给出 $x_i,y_i,u_i,v_i$,您需要求出**假定**所有颜色为 $x_i$ 的边边权全部变成 $y_i$ 后,$u_i$ 和 $v_i$ 之间的距离。**询问之间互相独立。**

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