[BZOJ2683][BZOJ4066]简单题
试题描述
你有一个N*N的棋盘,每个格子内有一个整数,初始时的时候全部为0,现在需要维护两种操作:
|
命令 |
参数限制 |
内容 |
|
1 x y A |
1<=x,y<=N,A是正整数 |
将格子x,y里的数字加上A |
|
2 x1 y1 x2 y2 |
1<=x1<= x2<=N 1<=y1<= y2<=N |
输出x1 y1 x2 y2这个矩形内的数字和 |
|
3 |
无 |
终止程序 |
输入
输入文件第一行一个正整数N。
接下来每行一个操作。每条命令除第一个数字之外,
均要异或上一次输出的答案last_ans,初始时last_ans=0。(BZOJ2683不需要强制在线)
输出
对于每个2操作,输出一个对应的答案。
输入示例(BZOJ2683)
4 1 2 3 3 2 1 1 3 3 1 2 2 2 2 2 2 3 4 3
输出示例(BZOJ2683)
3 5
输入示例(BZOJ4066)
4 1 2 3 3 2 1 1 3 3 1 1 1 1 2 1 1 0 7 3
输出示例(BZOJ4066)
3 5
数据规模及约定
1<=N<=500000,操作数不超过200000个,内存限制20M,保证答案在int范围内并且解码之后数据仍合法。
题解
只有权限号可以享受的双倍经验题(雾)。
2683这道数据水,最裸的kd树就卡时限过了。。。
4066这题数据强,需要加一个定期重构,就是加入的元素达到了某一些固定值就暴力把整棵kd树重新构造一遍,这样就不会被卡成“n2 的优秀算法了”。
2683(不强制在线无定期重构慢的要死):
#include <iostream>
#include <cstdio>
#include <algorithm>
#include <cmath>
#include <stack>
#include <vector>
#include <queue>
#include <cstring>
#include <string>
#include <map>
#include <set>
using namespace std;
const int BufferSize = 1 << 16;
char buffer[BufferSize], *Head, *Tail;
inline char Getchar() {
if(Head == Tail) {
int l = fread(buffer, 1, BufferSize, stdin);
Tail = (Head = buffer) + l;
}
return *Head++;
}
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 200010
#define oo 2147483647
int root, ToT, lc[maxn], rc[maxn];
struct Node {
int x[2], mx[2], mn[2], val, sum;
bool operator == (const Node& t) const { return x[0] == t.x[0] && x[1] == t.x[1]; }
} nodes[maxn];
Node x, y;
void maintain(int o) {
int l = lc[o], r = rc[o];
for(int i = 0; i < 2; i++) {
nodes[o].mx[i] = max(max(nodes[l].mx[i], nodes[r].mx[i]), nodes[o].x[i]);
nodes[o].mn[i] = min(min(nodes[l].mn[i], nodes[r].mn[i]), nodes[o].x[i]);
}
nodes[o].sum = nodes[l].sum + nodes[r].sum + nodes[o].val;
// printf("maintain(%d): %d %d %d %d %d
", o, nodes[o].sum, nodes[o].mx[0], nodes[o].mn[0], nodes[o].mx[1], nodes[o].mn[1]);
return ;
}
void add(int& o, bool cur) {
if(!o){ nodes[o = ++ToT] = x; return maintain(o); }
if(nodes[o] == x){ nodes[o].val += x.val; nodes[o].sum += x.val; return maintain(o); }
add(x.x[cur] < nodes[o].x[cur] ? lc[o] : rc[o], cur ^ 1);
return maintain(o);
}
bool all(int o) { return x.x[0] <= nodes[o].mn[0] && nodes[o].mx[0] <= y.x[0] && x.x[1] <= nodes[o].mn[1] && nodes[o].mx[1] <= y.x[1]; }
bool has(int o) { return !(nodes[o].mx[0] < x.x[0] || nodes[o].mn[0] > y.x[0] || nodes[o].mx[1] < x.x[1] || nodes[o].mn[1] > y.x[1]); }
int query(int o) {
if(!o) return 0;
int ans = 0;
if(all(lc[o])) ans += nodes[lc[o]].sum;
else if(has(lc[o])) ans += query(lc[o]);
if(all(rc[o])) ans += nodes[rc[o]].sum;
else if(has(rc[o])) ans += query(rc[o]);
int nx = nodes[o].x[0], ny = nodes[o].x[1];
if(x.x[0] <= nx && nx <= y.x[0] && x.x[1] <= ny && ny <= y.x[1]) ans += nodes[o].val;
return ans;
}
int main() {
nodes[0].mx[0] = nodes[0].mx[1] = -oo;
nodes[0].mn[0] = nodes[0].mn[1] = oo;
nodes[0].val = nodes[0].sum = 0;
int n = read();
n = read();
while(n < 3) {
if(n == 1) {
x.x[0] = read(); x.x[1] = read(); x.val = read();
add(root, 1);
}
if(n == 2) {
x.x[0] = read(); x.x[1] = read(); y.x[0] = read(); y.x[1] = read();
printf("%d
", query(root));
}
n = read();
}
return 0;
}
4066(强制在线加定期重构但还是很慢= =):
#include <iostream>
#include <cstdio>
#include <algorithm>
#include <cmath>
#include <stack>
#include <vector>
#include <queue>
#include <cstring>
#include <string>
#include <map>
#include <set>
using namespace std;
const int BufferSize = 1 << 16;
char buffer[BufferSize], *Head, *Tail;
inline char Getchar() {
if(Head == Tail) {
int l = fread(buffer, 1, BufferSize, stdin);
Tail = (Head = buffer) + l;
}
return *Head++;
}
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 200010
#define oo 2147483647
int root, ToT, lc[maxn], rc[maxn];
bool Cur;
struct Node {
int x[2], mx[2], mn[2], val, sum;
bool operator == (const Node& t) const { return x[0] == t.x[0] && x[1] == t.x[1]; }
bool operator < (const Node& t) const { return x[Cur] < t.x[Cur]; }
} nodes[maxn];
Node x, y;
void maintain(int o) {
int l = lc[o], r = rc[o];
for(int i = 0; i < 2; i++) {
nodes[o].mx[i] = max(max(nodes[l].mx[i], nodes[r].mx[i]), nodes[o].x[i]);
nodes[o].mn[i] = min(min(nodes[l].mn[i], nodes[r].mn[i]), nodes[o].x[i]);
}
nodes[o].sum = nodes[l].sum + nodes[r].sum + nodes[o].val;
// printf("maintain(%d): %d %d %d %d %d
", o, nodes[o].sum, nodes[o].mx[0], nodes[o].mn[0], nodes[o].mx[1], nodes[o].mn[1]);
return ;
}
void add(int& o, bool cur) {
if(!o){ nodes[o = ++ToT] = x; return maintain(o); }
if(nodes[o] == x){ nodes[o].val += x.val; nodes[o].sum += x.val; return maintain(o); }
add(x.x[cur] < nodes[o].x[cur] ? lc[o] : rc[o], cur ^ 1);
return maintain(o);
}
void build(int& o, int L, int R, int cur) {
if(L > R){ o = 0; return ; }
int M = L + R >> 1; o = M;
Cur = cur; nth_element(nodes + L, nodes + M, nodes + R + 1);
build(lc[o], L, M - 1, cur ^ 1); build(rc[o], M + 1, R, cur ^ 1);
return maintain(o);
}
bool all(int o) { return x.x[0] <= nodes[o].mn[0] && nodes[o].mx[0] <= y.x[0] && x.x[1] <= nodes[o].mn[1] && nodes[o].mx[1] <= y.x[1]; }
bool has(int o) { return !(nodes[o].mx[0] < x.x[0] || nodes[o].mn[0] > y.x[0] || nodes[o].mx[1] < x.x[1] || nodes[o].mn[1] > y.x[1]); }
int query(int o) {
if(!o) return 0;
int ans = 0;
if(all(lc[o])) ans += nodes[lc[o]].sum;
else if(has(lc[o])) ans += query(lc[o]);
if(all(rc[o])) ans += nodes[rc[o]].sum;
else if(has(rc[o])) ans += query(rc[o]);
int nx = nodes[o].x[0], ny = nodes[o].x[1];
if(x.x[0] <= nx && nx <= y.x[0] && x.x[1] <= ny && ny <= y.x[1]) ans += nodes[o].val;
return ans;
}
int main() {
nodes[0].mx[0] = nodes[0].mx[1] = -oo;
nodes[0].mn[0] = nodes[0].mn[1] = oo;
nodes[0].val = nodes[0].sum = 0;
int n = read(), lastans = 0;
n = read();
while(n < 3) {
if(n == 1) {
x.x[0] = read() ^ lastans; x.x[1] = read() ^ lastans; x.val = read() ^ lastans;
add(root, 1);
if(ToT % 1000 == 0) build(root, 1, ToT, 1);
}
if(n == 2) {
x.x[0] = read() ^ lastans; x.x[1] = read() ^ lastans; y.x[0] = read() ^ lastans; y.x[1] = read() ^ lastans;
printf("%d
", lastans = query(root));
}
n = read();
}
return 0;
}
其实这道题我第一眼看上去是树套树删边题,结果一看内存限制20M。。。还好没写树套树= =