[ABC274Ex] XOR Sum of Arrays

ID: 2329

传统题

4000ms

1024MiB

尝试: 1

已通过: 0

难度: 7

上传者:

Hydro

Score : $600$ points

Problem Statement

For sequences $B=(B_1,B_2,\dots,B_M)$ and $C=(C_1,C_2,\dots,C_M)$ , each of length $M$ , consisting of non-negative integers, let the XOR sum $S(B,C)$ of $B$ and $C$ be defined as the sequence $(B_1\oplus C_1, B_2\oplus C_2, ..., B_{M}\oplus C_{M})$ of length $M$ consisting of non-negative integers. Here, $\oplus$ represents bitwise XOR. For instance, if $B = (1, 2, 3)$ and $C = (3, 5, 7)$ , we have $S(B, C) = (1\oplus 3, 2\oplus 5, 3\oplus 7) = (2, 7, 4)$.

You are given a sequence $A = (A_1, A_2, \dots, A_N)$ of non-negative integers. Let $A(i, j)$ denote the contiguous subsequence composed of the $i$ -th through $j$ -th elements of $A$ . You will be given $Q$ queries explained below and asked to process all of them.

Each query gives you integers $a$ , $b$ , $c$ , $d$ , $e$ , and $f$ , each between $1$ and $N$ , inclusive. These integers satisfy $a \leq b$ , $c \leq d$ , $e \leq f$ , and $b-a=d-c$ . If $S(A(a, b), A(c, d))$ is strictly lexicographically smaller than $A(e, f)$ , print Yes; otherwise, print No.

What is bitwise XOR?

The exclusive logical sum a \oplus b of two integers a and b is defined as follows.

The 2^k's place (k \geq 0) in the binary notation of a \oplus b is 1 if exactly one of the 2^k's places in the binary notation of a and b is 1; otherwise, it is 0.

For example, 3 \oplus 5 = 6 (In binary notation: 011 \oplus 101 = 110).

What is lexicographical order on sequences?

A sequence $A = (A_1, \ldots, A_{|A|})$ is said to be strictly lexicographically smaller than a sequence $B = (B_1, \ldots, B_{|B|})$ if and only if 1. or 2. below is satisfied.

$|A|<|B|$ and $(A_{1},\ldots,A_{|A|}) = (B_1,\ldots,B_{|A|})$ .
There is an integer $1\leq i\leq \min\{|A|,|B|\}$ $1 \leq i \leq min {∣ A ∣, ∣ B ∣}$ that satisfies both of the following.
- $(A_{1},\ldots,A_{i-1}) = (B_1,\ldots,B_{i-1})$ .
- $A_i < B_i$ .

Constraints

$1 \leq N \leq 5 \times 10^5$
$0 \leq A_i \leq 10^{18}$
$1 \leq Q \leq 5 \times 10^4$
$1 \leq a \leq b \leq N$
$1 \leq c \leq d \leq N$
$1 \leq e \leq f \leq N$
$b - a = d - c$
All values in the input are integers.

Input

The input is given from Standard Input in the following format, where $\text{query}_i$ represents the $i$ -th query:

$N$ $Q$

$A_1$ $A_2$ $\dots$ $A_N$

$\text{query}_1$

$\text{query}_2$

$\vdots$

$\text{query}_Q$

The queries are in the following format:

$a$ $b$ $c$ $d$ $e$ $f$

Output

Print $Q$ lines. The $i$ -th line should contain the answer to the $i$ -th query.

4 5
1 2 3 1
1 3 2 4 1 4
1 2 2 3 3 4
1 1 2 2 3 4
1 2 2 3 3 3
1 4 1 4 1 1

No
No
Yes
No
Yes

For the first query, we have $A(1, 3) = (1, 2, 3)$ and $A(2, 4) = (2, 3, 1)$ , so $S(A(1,3),A(2,4)) = (1 \oplus 2, 2 \oplus 3, 3 \oplus 1) = (3, 1, 2)$. This is lexicographcially larger than $A(1, 4) = (1, 2, 3, 1)$ , so the answer is No. For the second query, we have $S(A(1,2),A(2,3)) = (3, 1)$ and $A(3,4) = (3, 1)$ , which are equal, so the answer is No.

10 10
725560240 9175925348 9627229768 7408031479 623321125 4845892509 8712345300 1026746010 4844359340 2169008582
5 6 5 6 2 6
5 6 1 2 1 1
3 8 3 8 1 6
5 10 1 6 1 7
3 4 1 2 5 5
7 10 4 7 2 3
3 6 1 4 7 9
4 5 3 4 8 9
2 6 1 5 5 8
4 8 1 5 1 9

Yes
Yes
Yes
Yes
No
No
No
No
No
No

#ABC274H. [ABC274Ex] XOR Sum of Arrays

Problem Statement

Constraints

Input

Output

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#ABC274H. [ABC274Ex] XOR Sum of Arrays

[ABC274Ex] XOR Sum of Arrays

Problem Statement

Constraints

Input

Output

状态

开发

支持

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