Submission #1099064

#TimeUsernameProblemLanguageResultExecution timeMemory
1099064origabaiFlight to the Ford (BOI22_communication)C++17
0 / 100
382 ms332 KiB
#include<bits/stdc++.h> using namespace std; #include"communication.h" // // --- Sample implementation for the task communication --- // // To compile this program with the sample grader, place: // communication.h communication_sample.cpp sample_grader.cpp // in a single folder, then open the terminal in this directory (right-click onto an empty spot in the directory, // left click on "Open in terminal") and enter e.g.: // g++ -std=c++17 communication_sample.cpp sample_grader.cpp // in this folder. This will create a file a.out in the current directory which you can execute from the terminal // as ./a.out // See task statement or sample_grader.cpp for the input specification // typedef pair<int,int> pi; pair<int,int> sendtrit(int X){ int a,b,c; if (X==0){ a=send(0);b=send(0);c=send(0); } else if (X==1){ a=send(1);b=send(1);c=send(1); } else if (X==2){ a = send(0); if (a==1){ b=send(1);c=send(1); } else { b=send(0);c=send(1); } } pi ans[8] = {{0,2},{0,2},{0,1},{1,2},{0,0},{0,1},{1,2},{1,2}}; return ans[(a<<2)+(b<<1)+c]; } pair<int,int> recvtrit(){ pi ans[8] = {{0,2},{0,2},{0,1},{1,2},{0,0},{0,1},{1,2},{1,2}}; return ans[(receive() << 2) + (receive() << 1) + (receive())]; } void encode(int N, int X) { int sz = ceil(log(N+1)/log(3)); int act[sz]; pi tr[sz]; int j = X; for (int i=0;i<sz;i++){ act[i] = j%3; tr[i] = sendtrit(j%3); j/=3; } int A=tr[0].first,B=tr[0].second; bool A_actual = A==act[0]; int pow = 1; for (int i=1;i<sz;i++){ pow*=3; int c = tr[i].first,d = tr[i].second; int opt1[] = {c*pow+A,d*pow+A,c*pow+B,d*pow+B}; int actual = opt1[A_actual ? d==act[i] : 2 + d==act[i]]; pi curr; if (actual == opt1[0] || actual == opt1[1]){ curr = sendtrit(0); } else if (actual == opt1[2]){ curr = sendtrit(1); } else if (actual == opt1[3]){ curr = sendtrit(2); } vector<int> opt2; if (curr.first == 0){ opt2.push_back(opt1[0]); opt2.push_back(opt1[1]); } else { opt2.push_back(opt1[1+curr.first]); } opt2.push_back(opt1[1+curr.second]); if (opt2.size() == 2){ A = opt2[0]; B = opt2[1]; A_actual = (A==actual); } else { if (actual==opt2[0]){ curr = sendtrit(0); } else if (actual==opt2[1]){ curr = sendtrit(1); } else { curr = sendtrit(2); } A = opt2[curr.first]; B = opt2[curr.second]; A_actual = (A==actual); } } } std::pair<int, int> decode(int N) { int sz = ceil(log(N+1)/log(3)); pi tr[sz]; for (int i=0;i<sz;i++){ tr[i] = recvtrit(); } int A=tr[0].first,B=tr[0].second; int pow = 1; for (int i=1;i<sz;i++){ pow *= 3; int c = tr[i].first,d = tr[i].second; int opt1[] = {c*pow+A,d*pow+A,c*pow+B,d*pow+B}; pi curr = recvtrit(); vector<int> opt2; if (curr.first == 0){ opt2.push_back(opt1[0]); opt2.push_back(opt1[1]); } else { opt2.push_back(opt1[1+curr.first]); } opt2.push_back(opt1[1+curr.second]); if (opt2.size()==2){ A = opt2[0]; B = opt2[0]; } else { curr = recvtrit(); A = opt2[curr.first]; B = opt2[curr.second]; } } return {min(N,A),min(N,B)}; }

Compilation message (stderr)

communication.cpp: In function 'std::pair<int, int> sendtrit(int)':
communication.cpp:33:18: warning: 'a' may be used uninitialized in this function [-Wmaybe-uninitialized]
   33 |     return ans[(a<<2)+(b<<1)+c];
      |                ~~^~~~
communication.cpp:33:29: warning: 'c' may be used uninitialized in this function [-Wmaybe-uninitialized]
   33 |     return ans[(a<<2)+(b<<1)+c];
      |                ~~~~~~~~~~~~~^~
communication.cpp:33:25: warning: 'b' may be used uninitialized in this function [-Wmaybe-uninitialized]
   33 |     return ans[(a<<2)+(b<<1)+c];
      |                       ~~^~~~
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