File size: 16,927 Bytes
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#include <cstdlib>
#include <cstring>
#include <vector>
#include <algorithm>
using namespace std;
static char obuf[1<<22]; static int opos;
void oflush(){fwrite(obuf,1,opos,stdout);opos=0;fflush(stdout);}
void ochar(char c){obuf[opos++]=c;}
void oint(int x){
if(x>=1000){ochar('0'+x/1000);ochar('0'+(x/100)%10);ochar('0'+(x/10)%10);ochar('0'+x%10);}
else if(x>=100){ochar('0'+x/100);ochar('0'+(x/10)%10);ochar('0'+x%10);}
else if(x>=10){ochar('0'+x/10);ochar('0'+x%10);}
else ochar('0'+x);
}
int N,q[1001],perm[1001];
int kc;
int ask(){ochar('0');for(int i=0;i<N;i++){ochar(' ');oint(q[i]);}ochar('\n');oflush();int x;scanf("%d",&x);return x;}
void submit(){ochar('1');for(int i=0;i<N;i++){ochar(' ');oint(perm[i]);}ochar('\n');oflush();exit(0);}
int par[1001];
int Find(int x){return par[x]==x?x:par[x]=Find(par[x]);}
void Unite(int a,int b){par[Find(a)]=Find(b);}
void solve(vector<int>& vals, vector<int>& pos) {
int n = vals.size();
if (n == 0) return;
if (n == 1) {
perm[pos[0]] = vals[0]; q[pos[0]] = vals[0]; kc++;
return;
}
if (n == 2) {
q[pos[0]] = vals[0];
int r = ask();
q[pos[0]] = 1;
if (r == kc + 1) {
perm[pos[0]] = vals[0]; q[pos[0]] = vals[0];
perm[pos[1]] = vals[1]; q[pos[1]] = vals[1];
} else {
perm[pos[0]] = vals[1]; q[pos[0]] = vals[1];
perm[pos[1]] = vals[0]; q[pos[1]] = vals[0];
}
kc += 2;
return;
}
int half = n / 2;
int right_half = n - half;
for (int i = 0; i < n; i++) par[i] = i;
vector<int> half_known(n, -1);
int left_count = 0, right_count = 0;
auto assign_group = [&](int rep, int h) {
for (int i = 0; i < n; i++) {
if (Find(i) == Find(rep)) {
half_known[i] = h;
if (h == 0) left_count++;
else right_count++;
}
}
};
auto check_early_termination = [&]() -> bool {
if (left_count == half) {
for (int i = 0; i < n; i++) {
if (half_known[i] == -1) { half_known[i] = 1; right_count++; }
}
return true;
}
if (right_count == right_half) {
for (int i = 0; i < n; i++) {
if (half_known[i] == -1) { half_known[i] = 0; left_count++; }
}
return true;
}
return false;
};
vector<int> same_half_reps;
// Phase 1: pair values
for (int vi = 0; vi + 1 < n; vi += 2) {
if (check_early_termination()) break;
int v = vals[vi], w = vals[vi + 1];
for (int i = 0; i < half; i++) q[pos[i]] = v;
for (int i = half; i < n; i++) q[pos[i]] = w;
int r = ask();
for (int i = 0; i < half; i++) q[pos[i]] = 1;
for (int i = half; i < n; i++) q[pos[i]] = 1;
if (r == kc + 2) {
half_known[vi] = 0; half_known[vi + 1] = 1;
left_count++; right_count++;
} else if (r == kc) {
half_known[vi] = 1; half_known[vi + 1] = 0;
left_count++; right_count++;
} else {
Unite(vi, vi + 1);
int fr = Find(vi);
// Group of size 2 - check if forced
if (left_count + 2 > half) {
assign_group(fr, 1);
} else if (right_count + 2 > right_half) {
assign_group(fr, 0);
} else {
same_half_reps.push_back(fr);
}
}
}
// Handle odd value
if (n % 2 == 1 && half_known[n-1] == -1) {
if (check_early_termination()) goto done_disambiguation;
int vi = n - 1;
if (!same_half_reps.empty()) {
int rep = same_half_reps.back();
same_half_reps.pop_back();
int v = vals[vi];
int w = -1;
for (int i = 0; i < n; i++) {
if (Find(i) == Find(rep)) { w = vals[i]; break; }
}
for (int i = 0; i < half; i++) q[pos[i]] = v;
for (int i = half; i < n; i++) q[pos[i]] = w;
int r = ask();
for (int i = 0; i < half; i++) q[pos[i]] = 1;
for (int i = half; i < n; i++) q[pos[i]] = 1;
if (r == kc + 2) {
half_known[vi] = 0; left_count++;
assign_group(rep, 1);
} else if (r == kc) {
half_known[vi] = 1; right_count++;
assign_group(rep, 0);
} else {
Unite(vi, rep);
int fr = Find(vi);
int gsz = 0;
for (int i = 0; i < n; i++) if (Find(i) == fr) gsz++;
if (left_count + gsz > half) {
assign_group(fr, 1);
} else if (right_count + gsz > right_half) {
assign_group(fr, 0);
} else {
same_half_reps.push_back(fr);
}
}
} else {
int v = vals[vi];
for (int i = 0; i < half; i++) q[pos[i]] = v;
int r = ask();
for (int i = 0; i < half; i++) q[pos[i]] = 1;
half_known[vi] = (r == kc + 1) ? 0 : 1;
if (half_known[vi] == 0) left_count++; else right_count++;
}
}
// Phase 2: Cascading disambiguation - pair ambiguous groups together
{
// Deduplicate
sort(same_half_reps.begin(), same_half_reps.end());
same_half_reps.erase(unique(same_half_reps.begin(), same_half_reps.end()), same_half_reps.end());
// Pre-cascade subset-sum check
if (!same_half_reps.empty() && (int)same_half_reps.size() <= 20 && !check_early_termination()) {
vector<int> gsizes;
vector<int> greps;
for (int rep : same_half_reps) {
int fr = Find(rep);
if (half_known[fr] != -1) continue;
int gsz = 0;
for (int i = 0; i < n; i++)
if (Find(i) == fr && half_known[i] == -1) gsz++;
gsizes.push_back(gsz);
greps.push_back(fr);
}
int ng = gsizes.size();
int left_need = half - left_count;
if (ng > 0 && left_need >= 0) {
// For each group, check if forced
for (int g = 0; g < ng; g++) {
if (half_known[greps[g]] != -1) continue;
vector<bool> can_without(left_need + 1, false);
can_without[0] = true;
for (int g2 = 0; g2 < ng; g2++) {
if (g2 == g || half_known[greps[g2]] != -1) continue;
for (int s = left_need; s >= gsizes[g2]; s--)
if (can_without[s - gsizes[g2]]) can_without[s] = true;
}
bool can_be_right = can_without[left_need];
bool can_be_left = (left_need >= gsizes[g]) && can_without[left_need - gsizes[g]];
if (can_be_left && !can_be_right) assign_group(greps[g], 0);
else if (can_be_right && !can_be_left) assign_group(greps[g], 1);
}
// Update same_half_reps
vector<int> still;
for (int rep : same_half_reps) {
int fr = Find(rep);
if (half_known[fr] == -1 && half_known[rep] == -1) still.push_back(fr);
}
sort(still.begin(), still.end());
still.erase(unique(still.begin(), still.end()), still.end());
same_half_reps = still;
}
}
int max_rounds = 20; // safety limit
while (!same_half_reps.empty() && max_rounds-- > 0) {
if (check_early_termination()) break;
// Remove already-resolved
{
vector<int> unresolved;
for (int rep : same_half_reps) {
int fr = Find(rep);
if (half_known[fr] == -1 && half_known[rep] == -1)
unresolved.push_back(fr);
}
// Deduplicate
sort(unresolved.begin(), unresolved.end());
unresolved.erase(unique(unresolved.begin(), unresolved.end()), unresolved.end());
same_half_reps = unresolved;
}
if (same_half_reps.empty()) break;
vector<int> next_reps;
int si = 0;
while (si < (int)same_half_reps.size()) {
if (check_early_termination()) break;
if (si + 1 >= (int)same_half_reps.size()) {
// Single group - individual query
int rep = same_half_reps[si];
if (half_known[Find(rep)] != -1) { si++; continue; }
int v = -1;
for (int i = 0; i < n; i++) {
if (Find(i) == Find(rep)) { v = vals[i]; break; }
}
for (int k = 0; k < half; k++) q[pos[k]] = v;
int r = ask();
for (int k = 0; k < half; k++) q[pos[k]] = 1;
assign_group(rep, (r == kc + 1) ? 0 : 1);
si++;
continue;
}
// Pair two ambiguous groups together
int rep1 = same_half_reps[si], rep2 = same_half_reps[si + 1];
if (half_known[Find(rep1)] != -1) { si++; continue; }
if (half_known[Find(rep2)] != -1) { si++; continue; }
int v = -1, w = -1;
for (int i = 0; i < n; i++) {
if (Find(i) == Find(rep1) && v == -1) v = vals[i];
if (Find(i) == Find(rep2) && w == -1) w = vals[i];
if (v != -1 && w != -1) break;
}
for (int k = 0; k < half; k++) q[pos[k]] = v;
for (int k = half; k < n; k++) q[pos[k]] = w;
int r = ask();
for (int k = 0; k < half; k++) q[pos[k]] = 1;
for (int k = half; k < n; k++) q[pos[k]] = 1;
if (r == kc + 2) {
assign_group(rep1, 0);
assign_group(rep2, 1);
} else if (r == kc) {
assign_group(rep1, 1);
assign_group(rep2, 0);
} else {
// Still ambiguous - unite and try again
Unite(rep1, rep2);
int fr = Find(rep1);
// Count group size
int gsz = 0;
for (int i = 0; i < n; i++)
if (Find(i) == fr) gsz++;
// Check if group is forced to one side
if (left_count + gsz > half) {
// Can't fit in left, must go right
assign_group(fr, 1);
} else if (right_count + gsz > right_half) {
// Can't fit in right, must go left
assign_group(fr, 0);
} else {
next_reps.push_back(fr);
}
}
si += 2;
}
// Deduplicate next round
sort(next_reps.begin(), next_reps.end());
next_reps.erase(unique(next_reps.begin(), next_reps.end()), next_reps.end());
same_half_reps = next_reps;
// Check if remaining groups have a unique valid assignment
if (!same_half_reps.empty() && same_half_reps.size() <= 20) {
// Compute group sizes
vector<int> gsizes;
for (int rep : same_half_reps) {
if (half_known[Find(rep)] != -1) continue;
int gsz = 0;
for (int i = 0; i < n; i++)
if (Find(i) == Find(rep) && half_known[i] == -1) gsz++;
gsizes.push_back(gsz);
}
int left_need = half - left_count;
int right_need = right_half - right_count;
// Try to find all valid subset-sum partitions
// Use bitmask DP for small number of groups
int ng = gsizes.size();
if (ng > 0 && ng <= 20) {
// For each group, compute which assignment (left or right) works
// Find all subsets of groups that sum to left_need
vector<bool> can_sum(left_need + 1, false);
can_sum[0] = true;
for (int g = 0; g < ng; g++) {
for (int s = left_need; s >= gsizes[g]; s--) {
if (can_sum[s - gsizes[g]]) can_sum[s] = true;
}
}
if (can_sum[left_need]) {
// Count number of valid subsets
// For each group, check if it's ALWAYS in left, ALWAYS in right, or ambiguous
// A group is always-left if: removing it makes left_need-gsz unreachable
// A group is always-right if: it can never be in a valid left subset
for (int g = 0; g < ng; g++) {
int rep = same_half_reps[g];
if (half_known[Find(rep)] != -1) continue;
// Check if group g is always in the left subset
// Compute can_sum WITHOUT group g
vector<bool> can_without(left_need + 1, false);
can_without[0] = true;
for (int g2 = 0; g2 < ng; g2++) {
if (g2 == g) continue;
for (int s = left_need; s >= gsizes[g2]; s--) {
if (can_without[s - gsizes[g2]]) can_without[s] = true;
}
}
bool can_be_right = can_without[left_need]; // left_need achievable without g
bool can_be_left = (left_need >= gsizes[g]) && can_without[left_need - gsizes[g]];
if (can_be_left && !can_be_right) {
assign_group(rep, 0); // must be left
} else if (can_be_right && !can_be_left) {
assign_group(rep, 1); // must be right
}
}
// Remove resolved groups
vector<int> still_unresolved;
for (int rep : same_half_reps) {
if (half_known[Find(rep)] == -1)
still_unresolved.push_back(rep);
}
same_half_reps = still_unresolved;
}
}
}
}
}
done_disambiguation:
vector<int> left_vals, right_vals;
vector<int> left_pos(pos.begin(), pos.begin() + half);
vector<int> right_pos(pos.begin() + half, pos.end());
for (int i = 0; i < n; i++) {
if (half_known[i] == 0) left_vals.push_back(vals[i]);
else right_vals.push_back(vals[i]);
}
solve(left_vals, left_pos);
solve(right_vals, right_pos);
}
int main(){
scanf("%d",&N);
memset(perm,0,sizeof(perm));
if(N==1){perm[0]=1;submit();}
if(N==2){q[0]=1;q[1]=2;if(ask()==2){perm[0]=1;perm[1]=2;}else{perm[0]=2;perm[1]=1;}submit();}
// Phase 1: Find pos1 and pos3
int B=0;{int tmp=N-1;while(tmp>0){B++;tmp>>=1;}}
int rb[12];
for(int b=0;b<B;b++){
for(int i=0;i<N;i++) q[i]=(i&(1<<b))?1:3;
rb[b]=ask();
}
int kb1=0,kb3=0,kmask=0;
for(int b=0;b<B;b++){
if(rb[b]==0){kmask|=(1<<b);kb3|=(1<<b);}
else if(rb[b]==2){kmask|=(1<<b);kb1|=(1<<b);}
}
int amask=((1<<B)-1)&~kmask,P=0;
for(int b=0;b<B;b++){
if(!(amask&(1<<b)))continue;
for(int i=0;i<N;i++){
q[i]=((i&(1<<b))&&(i&kmask)==kb1)?1:3;
}
int r=ask();
if(r==2) P|=(1<<b);
}
int p1=kb1|(P&amask);
int p3=kb3|(P&amask);
if(p1<0||p1>=N||p3<0||p3>=N||p1==p3){
p1=-1;p3=-1;
for(int i=0;i<N;i++){
if(p1>=0&&p3>=0)break;
for(int j=0;j<N;j++)q[j]=3;q[i]=1;
int r=ask();
if(r==2)p1=i;else if(r==0)p3=i;
}
}
perm[p1]=1;perm[p3]=3;
kc=2;
for(int i=0;i<N;i++) q[i]=1;
q[p1]=1;q[p3]=3;
vector<int> vals,pos;
vals.push_back(2);
for(int v=4;v<=N;v++) vals.push_back(v);
for(int i=0;i<N;i++) if(i!=p1&&i!=p3) pos.push_back(i);
solve(vals,pos);
submit();
}
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