| # | Time | Username | Problem | Language | Result | Execution time | Memory |
|---|---|---|---|---|---|---|---|
| 1247071 | santi3223 | Mechanical Doll (IOI18_doll) | C++20 | 0 ms | 0 KiB |
#include <bits/stdc++.h>
//#include "doll.h"
using namespace std;
#define ll long long
#define vb vector<bool>
#define pb push_back
#define ff(aa, bb, cc) for(int aa = bb; aa < cc; aa++)
#define vl vector<ll>
#define pll pair<ll, ll>
#define fi first
#define se second
#define ed "\n"
#define all(aaa) aaa.begin(), aaa.end()
#define rall(aaa) aaa.rbegin(), aaa.rend()
ll MOD = 1e9+7;
/*
namespace {
constexpr int P_MAX = 20000000;
constexpr int S_MAX = 400000;
int M, N;
std::vector<int> A;
bool answered;
int S;
std::vector<int> IC, IX, IY;
int read_int() {
int x;
if (scanf("%d", &x) != 1) {
fprintf(stderr, "Error while reading input\n");
exit(1);
}
return x;
}
void wrong_answer(const char *MSG) {
printf("Wrong Answer: %s\n", MSG);
exit(0);
}
void simulate() {
if (S > S_MAX) {
char str[50];
sprintf(str, "over %d switches", S_MAX);
wrong_answer(str);
}
for (int i = 0; i <= M; ++i) {
if (!(-S <= IC[i] && IC[i] <= M)) {
wrong_answer("wrong serial number");
}
}
for (int j = 1; j <= S; ++j) {
if (!(-S <= IX[j - 1] && IX[j - 1] <= M)) {
wrong_answer("wrong serial number");
}
if (!(-S <= IY[j - 1] && IY[j - 1] <= M)) {
wrong_answer("wrong serial number");
}
}
int P = 0;
std::vector<bool> state(S + 1, false);
int pos = IC[0];
int k = 0;
FILE *file_log = fopen("out", "w");
//fprintf(file_log, "0\n");
for (;;) {
// fprintf(file_log, "%d\n", pos);
if (pos < 0) {
if (++P > P_MAX) {
fclose(file_log);
char str[50];
sprintf(str, "over %d inversions", P_MAX);
wrong_answer(str);
}
state[-pos] = !state[-pos];
pos = state[-pos] ? IX[-(1 + pos)] : IY[-(1 + pos)];
} else {
if (pos == 0) {
break;
}
if (k >= N) {
// fclose(file_log);
wrong_answer("wrong motion");
}
if (pos != A[k++]) {
//fclose(file_log);
wrong_answer("wrong motion");
}
pos = IC[pos];
}
}
fclose(file_log);
if (k != N) {
wrong_answer("wrong motion");
}
for (int j = 1; j <= S; ++j) {
if (state[j]) {
wrong_answer("state 'Y'");
}
}
printf("OK");
}
} // namespace
void answer(std::vector<int> C, std::vector<int> X, std::vector<int> Y) {
if (answered) {
wrong_answer("answered not exactly once");
}
answered = true;
// check if input format is correct
if ((int)C.size() != M + 1) {
wrong_answer("wrong array length");
}
if (X.size() != Y.size()) {
wrong_answer("wrong array length");
}
S = X.size();
IC = C;
IX = X;
IY = Y;
}
*/
vl build(vl arr, ll sz, ll last){
if(arr.size() >= sz){
return arr;
}
vl a;
ff(i, 0, arr.size()){
a.pb(arr[i]);
a.pb(arr[i]+last);
}
return build(a, sz, last*2);
}
void build_switch(vector<int> &x, vector<int> &y, ll cant, ll maxx, ll tot, ll last){
if(cant+1 > maxx){
return;
}
//cout << "X.size " << x.size() << ed;
if(x.size() == 0){
x.pb(-2);
y.pb(-3);
build_switch(x, y, cant+1, maxx, tot*2, 4);
return;
}
ll id = last;
ll n = log2(x.size()+1);
//cout << "N " << n << ed;
ff(i, 0, tot){
//cout << "SWITCH -> " << -id << " " << -id-1 << ed;
x.pb(-id);
y.pb(-(id+1));
id += 2;
}
//cout << "CAPA " << cant << ed;
build_switch(x, y, cant+1, maxx, tot*2, id);
}
void create_circuit(int m, std::vector<int> a){
vl count(m+1);
ll n = a.size();
ll maxxx = 0;
ff(i, 0, n){
count[a[i]]++;
maxxx = max(maxxx, count[a[i]]);
}
vector<int> connections(m+1, 0);
vector<int> x, y;
ll switch_id = 0; ////////////////////////////////////////////////////////
connections[0] = a[0];
map<ll, ll> visits;
map<ll, pair<ll, pll>> groups;
//cout << "START " << 0 << " TO " << a[0] << ed << ed;
if(maxxx <= 4){
//cout << "MAX <= 4" << ed;
ff(i, 0, n){
//cout << a[i] << " ";
if(count[a[i]] == 1){
//cout << "ONE -> ";
if(i == n-1){
//cout << "LAST TO ";
connections[a[i]] = 0;
//cout << connections[a[i]] << ed;
}
else{
//cout << "CONNECTED TO " << a[i+1] << ed;
connections[a[i]] = a[i+1];
}
//cout << connections[a[i]] << ed;
}
else if(count[a[i]] == 2){
//cout << "TWO " << " ";
visits[a[i]]++;
if(i == n-1){
//cout << "LAST -> switch " << connections[a[i]] << " TO " << 0 << ed;
ll aa = groups[a[i]].fi;
y[aa] = 0;
//cout << "CON " << -aa-1 << " -> X " << x[aa] << ", Y " << y[aa] << ed;
}
else if(visits[a[i]] == 1){
groups[a[i]] = {switch_id, {-1, -1}};
//cout << "NEW -> switch " << -switch_id-1 << ed;
x.pb(0);
y.pb(0);
ll aa = groups[a[i]].fi;
connections[a[i]] = -(aa+1);
x[aa] = a[i+1];
switch_id++;
//cout << "CON " << -aa-1 << " -> X " << x[aa] << ", Y " << y[aa] << ed;
}
else if(visits[a[i]] == 2){ //2da salida
//cout << "SECOND -> switch " << connections[a[i]] << ed;
ll aa = groups[a[i]].fi;
y[aa] = a[i+1];
//cout << "CON " << -aa-1 << " -> X " << x[aa] << ", Y " << y[aa] << ed;
}
}
else if(count[a[i]] == 4){
//cout << "FOUR ";
visits[a[i]]++;
if(i == n-1){
ll cur = groups[a[i]].se.se;
y[cur] = 0;
//cout << "LAST -> switch " << -(cur+1) << " TO " << 0 << ed;
ll aa = groups[a[i]].fi, bb = groups[a[i]].se.fi, cc = groups[a[i]].se.se;/*
cout << "CON " << -aa-1 << " -> X " << x[aa] << ", Y " << y[aa] << ed;
cout << "CON " << -bb-1 << " -> X " << x[bb] << ", Y " << y[bb] << ed;
cout << "CON " << -cc-1 << " -> X " << x[cc] << ", Y " << y[cc] << ed;*/
}
else if(visits[a[i]] == 1){
groups[a[i]] = {switch_id, {switch_id+1, switch_id+2}};
//cout << "NEW -> switch " << -switch_id-1 << " TO " << -(switch_id+1)-1 << " AND " << -(switch_id+2)-1 << ed;
x.pb(0);
y.pb(0);
x.pb(0);
y.pb(0);
x.pb(0);
y.pb(0);
ll aa = groups[a[i]].fi, bb = groups[a[i]].se.fi, cc = groups[a[i]].se.se;
connections[a[i]] = -(aa+1);
x[aa] = -(bb+1);
y[aa] = -(cc+1);
x[bb] = a[i+1];
switch_id += 3;
/*
cout << "CON " << -aa-1 << " -> X " << x[aa] << ", Y " << y[aa] << ed;
cout << "CON " << -bb-1 << " -> X " << x[bb] << ", Y " << y[bb] << ed;
cout << "CON " << -cc-1 << " -> X " << x[cc] << ", Y " << y[cc] << ed;*/
}
else if(visits[a[i]] == 2){
//cout << "SECOND TIME" << ed;
ll cur = groups[a[i]].se.se;
x[cur] = a[i+1];/*
ll aa = groups[a[i]].fi, bb = groups[a[i]].se.fi, cc = groups[a[i]].se.se;
cout << "CON " << -aa-1 << " -> X " << x[aa] << ", Y " << y[aa] << ed;
cout << "CON " << -bb-1 << " -> X " << x[bb] << ", Y " << y[bb] << ed;
cout << "CON " << -cc-1 << " -> X " << x[cc] << ", Y " << y[cc] << ed;*/
}
else if(visits[a[i]] == 3){
//cout << "THIRD TIME" << ed;
ll cur = groups[a[i]].se.fi;
y[cur] = a[i+1];/*
ll aa = groups[a[i]].fi, bb = groups[a[i]].se.fi, cc = groups[a[i]].se.se;
cout << "CON " << -aa-1 << " -> X " << x[aa] << ", Y " << y[aa] << ed;
cout << "CON " << -bb-1 << " -> X " << x[bb] << ", Y " << y[bb] << ed;
cout << "CON " << -cc-1 << " -> X " << x[cc] << ", Y " << y[cc] << ed;*/
}
else if(visits[a[i]] == 4){
//cout << "FOURTH TIME" << ed;
ll cur = groups[a[i]].se.se;
y[cur] = a[i+1];/*
ll aa = groups[a[i]].fi, bb = groups[a[i]].se.fi, cc = groups[a[i]].se.se;
cout << "CON " << -aa-1 << " -> X " << x[aa] << ", Y " << y[aa] << ed;
cout << "CON " << -bb-1 << " -> X " << x[bb] << ", Y " << y[bb] << ed;
cout << "CON " << -cc-1 << " -> X " << x[cc] << ", Y " << y[cc] << ed;*/
}
}
else if(count[a[i]] == 3){
//cout << "THREE ";
visits[a[i]]++;
if(i == n-1){
ll cur = groups[a[i]].se.se;
y[cur] = 0;
/*cout << "LAST -> switch " << -(cur+1) << " TO " << 0 << ed;
ll aa = groups[a[i]].fi, bb = groups[a[i]].se.fi, cc = groups[a[i]].se.se;
cout << "CON " << -aa-1 << " -> X " << x[aa] << ", Y " << y[aa] << ed;
cout << "CON " << -bb-1 << " -> X " << x[bb] << ", Y " << y[bb] << ed;
cout << "CON " << -cc-1 << " -> X " << x[cc] << ", Y " << y[cc] << ed;*/
}
else if(visits[a[i]] == 1){
groups[a[i]] = {switch_id, {switch_id+1, switch_id+2}};
//cout << "NEW -> switch " << -switch_id-1 << " TO " << -(switch_id+1)-1 << " AND " << -(switch_id+2)-1 << ed;
x.pb(0);
y.pb(0);
x.pb(0);
y.pb(0);
x.pb(0);
y.pb(0);
ll aa = groups[a[i]].fi, bb = groups[a[i]].se.fi, cc = groups[a[i]].se.se;
switch_id += 3;
connections[a[i]] = -(aa+1);
x[aa] = -(bb+1);
y[aa] = -(cc+1);
x[bb] = -(aa+1);//ciclo
x[cc] = a[i+1];
/*cout << "CON " << -aa-1 << " -> X " << x[aa] << ", Y " << y[aa] << ed;
cout << "CON " << -bb-1 << " -> X " << x[bb] << ", Y " << y[bb] << ed;
cout << "CON " << -cc-1 << " -> X " << x[cc] << ", Y " << y[cc] << ed;*/
}
else if(visits[a[i]] == 2){
//cout << "SECOND TIME" << ed;
ll cur = groups[a[i]].se.fi;
y[cur] = a[i+1];
ll aa = groups[a[i]].fi, bb = groups[a[i]].se.fi, cc = groups[a[i]].se.se;
/*cout << "CON " << -aa-1 << " -> X " << x[aa] << ", Y " << y[aa] << ed;
cout << "CON " << -bb-1 << " -> X " << x[bb] << ", Y " << y[bb] << ed;
cout << "CON " << -cc-1 << " -> X " << x[cc] << ", Y " << y[cc] << ed;*/
}
else if(visits[a[i]] == 3){
//cout << "THIRD TIME" << ed;
ll cur = groups[a[i]].se.se;
y[cur] = a[i+1];
ll aa = groups[a[i]].fi, bb = groups[a[i]].se.fi, cc = groups[a[i]].se.se;
/*cout << "CON " << -aa-1 << " -> X " << x[aa] << ", Y " << y[aa] << ed;
cout << "CON " << -bb-1 << " -> X " << x[bb] << ", Y " << y[bb] << ed;
cout << "CON " << -cc-1 << " -> X " << x[cc] << ", Y " << y[cc] << ed;*/
}
}
//cout << ed << ed;
}
}
else{
ff(i, 1, m+1){
connections[i] = -1;
}
vl arr = build({1}, n, 1);
/*ff(i, 0, arr.size()){
cout << arr[i] << ed;
}
cout << "TAMAÑO " << arr.size() << ed;*/
ll cant_max = log2(arr.size());
//cout << "CAPAS " << cant_max << ed;
//cout << "START " << x.size() << " " << y.size() << " " << 0 << " " << cant_max-1 << ed;
build_switch(x, y, 0, cant_max-1, 1, 0);
ff(i, 0, arr.size()){
//cout << "CUR " << i << " " << arr[i] << ed;
if(i == arr.size()-1){
//cout << "A" << ed;
y.pb(0);
break;
}
if(i % 2 == 0){
//cout << "X ";
if(a.size() <= arr[i]){
//cout << "NO" << ed;
x.pb(-1);
}
else{
//cout << "SI" << ed;
//cout << a[arr[i]] << ed << ed;
x.pb(a[arr[i]]);
}
}
else{
//cout << "Y ";
if(a.size() <= arr[i]){
//cout << "NO" << ed;
y.pb(-1);
}
else{
//cout << "SI" << ed;
//cout << a[arr[i]] << ed << ed;
y.pb(a[arr[i]]);
}
}
}
}
/*ff(i, 0, m+1){
cout << connections[i] << " ";
}
cout << ed << ed;
ff(i, 0, x.size()){
cout << i << " ";
}
cout << ed;
ff(i, 0, x.size()){
cout << x[i] << " ";
}
cout << ed;
ff(i, 0, x.size()){
cout << y[i] << " ";
}
cout << ed;*/
answer(connections, x, y);
}
/*
int main() {
M = read_int();
N = read_int();
A.resize(N);
for (int k = 0; k < N; ++k) {
A[k] = read_int();
}
answered = false;
create_circuit(M, A);
if (!answered) {
wrong_answer("answered not exactly once");
}
FILE *file_out = fopen("out.txt", "w");
// fprintf(file_out, "%d\n", S);
for (int i = 0; i <= M; ++i) {
//fprintf(file_out, "%d\n", IC[i]);
}
for (int j = 1; j <= S; ++j) {
//fprintf(file_out, "%d %d\n", IX[j - 1], IY[j - 1]);
}
//fclose(file_out);
simulate();
return 0;
}
*/