您需要写一种数据结构（可参考题目标题），来维护一个有序数列，其中需要提供以下操作：翻转一个区间，例如原有序序列是5 4 3 2 1，翻转区间是[2,4]的话，结果是5 2 3 4 1

第一行为n,m n表示初始序列有n个数，这个序列依次是(1,2……n-1,n)  m表示翻转操作次数
接下来m行每行两个数[l,r] 数据保证 1<=l<=r<=n

输出一行n个数字，表示原始序列经过m次变换后的结果 

#include <iostream>

#include <cstdio>

#include <cstdlib>

#include <cstring>

#include <cctype>

#include <algorithm>

using namespace std;

int read() {

	int x = 0, f = 1; char c = getchar();

	while(!isdigit(c)){ if(c == '-') f = -1; c = getchar(); }

	while(isdigit(c)){ x = x * 10 + c - '0'; c = getchar(); }

	return x * f;

}

#define maxn 100010

struct Node {

	int v, siz; bool rev;

	Node() {}

	Node(int _): v(_), rev(0) {}

} ns[maxn];

int rt, ToT, fa[maxn], ch[2][maxn];

void maintain(int o) {

	ns[o].siz = 1;

	for(int i = 0; i < 2; i++) if(ch[i][o])

		ns[o].siz += ns[ch[i][o]].siz;

	return ;

}

void build(int& o, int l, int r) {

	if(l > r) return ;

	int mid = l + r >> 1;

	ns[o = ++ToT] = Node(mid);

	if(l == r) return maintain(o);

	build(ch[0][o], l, mid - 1); build(ch[1][o], mid + 1, r);

	if(ch[0][o]) fa[ch[0][o]] = o;

	if(ch[1][o]) fa[ch[1][o]] = o;

	return maintain(o);

}

void pushdown(int o) {

	for(int i = 0; i < 2; i++) if(ch[i][o])

		ns[ch[i][o]].rev ^= ns[o].rev;

	if(ns[o].rev) swap(ch[0][o], ch[1][o]), ns[o].rev = 0;

	return ;

}

void rotate(int u) {

	int y = fa[u], z = fa[y], l = 0, r = 1;

	if(z) ch[ch[1][z]==y][z] = u;

	if(ch[1][y] == u) swap(l, r);

	fa[u] = z; fa[y] = u; fa[ch[r][u]] = y;

	ch[l][y] = ch[r][u]; ch[r][u] = y;

	maintain(y); maintain(u);

	return ;

}

int S[maxn], top;

void splay(int u) {

	int t = u; S[++top] = t;

	while(fa[t]) t = fa[t], S[++top] = t;

	while(top) pushdown(S[top--]);

	while(fa[u]) {

		int y = fa[u], z = fa[y];

		if(z) {

			if(ch[0][y] == u ^ ch[0][z] == y) rotate(u);

			else rotate(y);

		}

		rotate(u);

	}

	return ;

}

int split(int u) {

	if(!u) return 0;

	splay(u);

	int tmp = ch[1][u];

	fa[tmp] = 0; ch[1][u] = 0;

	maintain(u);

	return tmp;

}

int merge(int a, int b) {

	if(!a) return maintain(b), b;

	if(!b) return maintain(a), a;

	pushdown(a); while(ch[1][a]) a = ch[1][a], pushdown(a);

	splay(a);

	ch[1][a] = b; fa[b] = a;

	return maintain(a), a;

}

int qkth(int o, int k) {

	if(!o) return 0;

	pushdown(o);

	int ls = ch[0][o] ? ns[ch[0][o]].siz : 0;

	if(k == ls + 1) return o;

	if(k > ls + 1) return qkth(ch[1][o], k - ls - 1);

	return qkth(ch[0][o], k);

}

int Find(int k) {

	rt = 1; while(fa[rt]) rt = fa[rt];

	return qkth(rt, k);

}

void Rev(int ql, int qr) {

	int lrt = Find(ql - 1), mrt = Find(qr), rrt;

	split(lrt); rrt = split(mrt);

	ns[mrt].rev ^= 1;

	mrt = merge(lrt, mrt); merge(mrt, rrt);

	return ;

}

int main() {

	int n = read(), q = read();

	build(rt, 1, n);

	while(q--) {

		int l = read(), r = read();

		Rev(l, r);

	}

	for(int i = 1; i <= n; i++) {

		int k = Find(i);

		printf("%d ", ns[k].v);

	}

	return 0;

}