#pragma comment(linker, "/STACK:1024000000,1024000000") #include #include #include #include using namespace std; typedef double typev; const double eps = 1e-8; const int N = 50005; int sign(double d){ return d < -eps ? -1 : (d > eps); } struct point{ typev x, y; point operator-(point d){ point dd; dd.x = this->x - d.x; dd.y = this->y - d.y; return dd; } point operator+(point d){ point dd; dd.x = this->x + d.x; dd.y = this->y + d.y; return dd; } }ps[N]; //int n, cn; double dist(point d1, point d2){ return sqrt(pow(d1.x - d2.x, 2.0) + pow(d1.y - d2.y, 2.0)); } double dist2(point d1, point d2){ return pow(d1.x - d2.x, 2.0) + pow(d1.y - d2.y, 2.0); } bool cmp(point d1, point d2){ return d1.y < d2.y || (d1.y == d2.y && d1.x < d2.x); } typev xmul(point st1, point ed1, point st2, point ed2){ return (ed1.x - st1.x) * (ed2.y - st2.y) - (ed1.y - st1.y) * (ed2.x - st2.x); } typev dmul(point st1, point ed1, point st2, point ed2){ return (ed1.x - st1.x) * (ed2.x - st2.x) + (ed1.y - st1.y) * (ed2.y - st2.y); } struct poly{ static const int N = 50005; point ps[N+5]; int pn; poly() { pn = 0; } void push(point tp){ ps[pn++] = tp; } int trim(int k){ return (k+pn)%pn; } void clear(){ pn = 0; } }; poly graham(point* ps, int n){ sort(ps, ps + n, cmp); poly ans; if(n <= 2){ for(int i = 0; i < n; i++){ ans.push(ps[i]); } return ans; } ans.push(ps[0]); ans.push(ps[1]); point* tps = ans.ps; int top = -1; tps[++top] = ps[0]; tps[++top] = ps[1]; for(int i = 2; i < n; i++){ while(top > 0 && xmul(tps[top - 1], tps[top], tps[top - 1], ps[i]) <= 0) top--; tps[++top] = ps[i]; } int tmp = top; for(int i = n - 2; i >= 0; i--){ while(top > tmp && xmul(tps[top - 1], tps[top], tps[top - 1], ps[i]) <= 0) top--; tps[++top] = ps[i]; } ans.pn = top; return ans; } point getRoot(point p, point st, point ed){ point ans; double u=((ed.x-st.x)*(ed.x-st.x)+(ed.y-st.y)*(ed.y-st.y)); u = ((ed.x-st.x)*(ed.x-p.x)+(ed.y-st.y)*(ed.y-p.y))/u; ans.x = u*st.x+(1-u)*ed.x; ans.y = u*st.y+(1-u)*ed.y; return ans; } point change(point st, point ed, point next, double l){ point dd; dd.x = -(ed - st).y; dd.y = (ed - st).x; double len = sqrt(dd.x * dd.x + dd.y * dd.y); dd.x /= len, dd.y /= len; dd.x *= l, dd.y *= l; dd = dd + next; return dd; } double getMinAreaRect(point* ps, int n, point* ds){ int cn, i; double ans; point* con; poly tpoly = graham(ps, n); con = tpoly.ps; cn = tpoly.pn; if(cn <= 2){ ds[0] = con[0]; ds[1] = con[1]; ds[2] = con[1]; ds[3] = con[0]; ans=0; }else{ int l, r, u; double tmp, len; con[cn] = con[0]; ans = 1e40; l = i = 0; while(dmul(con[i], con[i+1], con[i], con[l]) >= dmul(con[i], con[i+1], con[i], con[(l-1+cn)%cn])){ l = (l-1+cn)%cn; } for(r=u=i = 0; i < cn; i++){ while(xmul(con[i], con[i+1], con[i], con[u]) <= xmul(con[i], con[i+1], con[i], con[(u+1)%cn])){ u = (u+1)%cn; } while(dmul(con[i], con[i+1], con[i], con[r]) <= dmul(con[i], con[i+1], con[i], con[(r+1)%cn])){ r = (r+1)%cn; } while(dmul(con[i], con[i+1], con[i], con[l]) >= dmul(con[i], con[i+1], con[i], con[(l+1)%cn])){ l = (l+1)%cn; } tmp = dmul(con[i], con[i+1], con[i], con[r]) - dmul(con[i], con[i+1], con[i], con[l]); tmp *= xmul(con[i], con[i+1], con[i], con[u]); tmp /= dist2(con[i], con[i+1]); len = xmul(con[i], con[i+1], con[i], con[u])/dist(con[i], con[i+1]); if(sign(tmp - ans) < 0){ ans = tmp; ds[0] = getRoot(con[l], con[i], con[i+1]); ds[1] = getRoot(con[r], con[i+1], con[i]); ds[2] = change(con[i], con[i+1], ds[1], len); ds[3] = change(con[i], con[i+1], ds[0], len); } } } return ans+eps; } int main () { int t ,n ,i ,NN ,cas = 1; point ds[10]; scanf("%d" ,&t); while(t--) { scanf("%d" ,&NN); int n = 0; for(i = 1 ;i <= NN ;i ++) { for(int j = 1 ;j <= 4 ;j ++) { scanf("%lf %lf" ,&ps[n].x ,&ps[n].y); n++; } } double ans = getMinAreaRect(ps ,n ,ds); printf("Case #%d:\n" ,cas ++); printf("%.0lf\n" ,ans); } return 0; }