#include<bits/stdc++.h> using namespace std; int TIME; double X, Y; double MIN; double MIN_X, MIN_Y; double SQRT = sqrt(0.5); double DIR[8][2] = {{1,0}, {SQRT, -1*SQRT}, {0, -1}, {-1*SQRT, -1*SQRT}, {-1, 0}, {-1*SQRT, SQRT}, {0, 1}, {SQRT, SQRT}}; map<double, int> m[8]; struct Node{ double x, y; int dir; int time; }; double dist(Node n){ return ((n.x - X)*(n.x - X) + (n.y - Y)*(n.y - Y)); } void BFS(){ Node n; n.x = n.y = 0; n.time = 0; n.dir = 0; queue<Node>q; if(n.time <= TIME){ if(dist(n) < MIN){ MIN = dist(n); MIN_X = n.x; MIN_Y = n.y; } q.push(n); } while(!q.empty()){ Node front = q.front(); q.pop(); double d = dist(front); Node t1 = front; t1.x += 10*DIR[t1.dir][0]; t1.y += 10*DIR[t1.dir][1]; t1.time++; if(t1.time <= TIME){ if(dist(t1) < MIN){ MIN = dist(t1); MIN_X = t1.x; MIN_Y = t1.y; } q.push(t1); } Node t2 = front; t2.dir = (++t2.dir) ; t2.time++; if(t2.time <= TIME && t2.dir < 8){ q.push(t2); } } } int main(){ int t; cin >> t; while(t--){ cin >> TIME >> X >> Y; MIN = 10000000; for(int i = 0; i < 8; i++){ m[i].clear(); } BFS(); printf("%.6f ", sqrt(MIN)); } }