#include using i64 = std::int64_t; using u64 = std::uint64_t; u64 prime_counting(u64 n) { if (n == 0) return n; if (n <= 3) return n - 1; const int v = sqrtl(n); int s = (v + 1) / 2; int smalls[s]; for (int i = 1; i < s; i++) smalls[i] = i; int roughs[s]; for (int i = 0; i < s; i++) roughs[i] = 2 * i + 1; i64 larges[s]; for (int i = 0; i < s; i++) larges[i] = (n / (2 * i + 1) - 1) / 2; bool skip[v + 1]; #define DIVIDE(n, d) ((int)((double)(n)/d)) #define HALF(n) (((n)-(1))>>(1)) int pc = 0; for (int p = 3; p <= v; p += 2) if (!skip[p]) { int q = p * p; if ((i64)q * q > n) break; skip[p] = true; for (int i = q; i <= v; i += 2 * p) skip[i] = true; int ns = 0; for (int k = 0; k < s; k++) { int i = roughs[k]; if (skip[i]) continue; i64 d = (i64)i * p; larges[ns] = larges[k] - (d <= v ? larges[smalls[d >> 1] - pc] : smalls[HALF(DIVIDE(n, d))]) + pc; roughs[ns++] = i; } s = ns; for (int i = HALF(v), j = ((v / p) - 1) | 1; j >= p; j -= 2) { int c = smalls[j >> 1] - pc; for (int e = (j * p) >> 1; i >= e; i--) smalls[i] -= c; } pc++; } larges[0] += (i64)(s + 2 * (pc - 1)) * (s - 1) / 2; for (int k = 1; k < s; k++) larges[0] -= larges[k]; for (int l = 1; l < s; l++) { i64 q = roughs[l]; i64 M = n / q; int e = smalls[HALF(M / q)] - pc; if (e < l + 1) break; i64 t = 0; for (int k = l + 1; k <= e; k++) t += smalls[HALF(DIVIDE(M, roughs[k]))]; larges[0] += t - (i64)(e - l) * (pc + l - 1); } #undef DIVIDE #undef HALF return larges[0] + 1; } u64 in_u64(void) { u64 c, x = 0; while (c = getchar_unlocked(), c < 48 || c > 57); while (47 < c && c < 58) { x = x * 10 + c - 48; c = getchar_unlocked(); } return x; } void out_u64(u64 x) { if (x >= 10) out_u64(x / 10); putchar_unlocked(x - x / 10 * 10 + 48); } void NL(void) { putchar_unlocked('\n'); } int main() { u64 T = in_u64(); while (T--) { out_u64(prime_counting(in_u64())); NL(); } NL(); }