#include #include int a = 1, b = 2, c = 3, d = 4; int e[2] = { 5, 6 }, f[2] = { 7, 8 }, g[2] = { 9, 10 }, h[2] = { 11, 12 }; __attribute__((noinline, noclone)) void use (int *k, int *l, int *m, int *n, int *o, int *p, int *q, int *r) { asm volatile ("" : : "r" (k) : "memory"); asm volatile ("" : : "r" (l) : "memory"); asm volatile ("" : : "r" (m) : "memory"); asm volatile ("" : : "r" (n) : "memory"); asm volatile ("" : : "r" (o) : "memory"); asm volatile ("" : : "r" (p) : "memory"); asm volatile ("" : : "r" (q) : "memory"); asm volatile ("" : : "r" (r) : "memory"); } #pragma omp declare target to (use) int main () { int err = 0, r = -1, t[4]; long s[4] = { -1, -2, -3, -4 }; int j = 13, k = 14, l[2] = { 15, 16 }, m[2] = { 17, 18 }; #pragma omp target private (a, b, e, f) firstprivate (c, d, g, h) map(from: r, s, t) \ map(tofrom: err, j, l) map(to: k, m) #pragma omp teams num_teams (4) thread_limit (8) private (b, f) firstprivate (d, h, k, m) { int u1 = k, u2[2] = { m[0], m[1] }; int u3[64]; int i; for (i = 0; i < 64; i++) u3[i] = k + i; #pragma omp parallel num_threads (1) { int v1, v2, v3; #pragma omp atomic read v1 = c; #pragma omp atomic read v2 = g[0]; #pragma omp atomic read v3 = g[1]; if ((v1 < 3 || v1 > 6) || d != 4 || (v2 < 9 || v2 > 15 || (v2 & 1) == 0) || (v3 < 10 || v3 > 19 || ((v3 - 10) % 3) != 0) || h[0] != 11 || h[1] != 12 || k != 14 || m[0] != 17 || m[1] != 18) #pragma omp atomic write err = 1; b = omp_get_team_num (); if (b >= 4) #pragma omp atomic write err = 1; if (b == 0) { a = omp_get_num_teams (); e[0] = 2 * a; e[1] = 3 * a; } f[0] = 2 * b; f[1] = 3 * b; #pragma omp atomic update c++; #pragma omp atomic update g[0] += 2; #pragma omp atomic update g[1] += 3; d++; h[0] += 2; h[1] += 3; k += b; m[0] += 2 * b; m[1] += 3 * b; } use (&a, &b, &c, &d, e, f, g, h); #pragma omp parallel firstprivate (u1, u2) private (i) { int w = omp_get_thread_num (); int x = 19; int y[2] = { 20, 21 }; int v = 24; int ll[64]; if (u1 != 14 || u2[0] != 17 || u2[1] != 18) #pragma omp atomic write err = 1; u1 += w; u2[0] += 2 * w; u2[1] += 3 * w; use (&u1, u2, &t[b], l, &k, m, &j, h); #pragma omp master t[b] = omp_get_num_threads (); #pragma omp atomic update j++; #pragma omp atomic update l[0] += 2; #pragma omp atomic update l[1] += 3; #pragma omp atomic update k += 4; #pragma omp atomic update m[0] += 5; #pragma omp atomic update m[1] += 6; x += w; y[0] += 2 * w; y[1] += 3 * w; #pragma omp simd safelen(32) private (v) for (i = 0; i < 64; i++) { v = 3 * i; ll[i] = u1 + v * u2[0] + u2[1] + x + y[0] + y[1] + v + h[0] + u3[i]; } #pragma omp barrier use (&u1, u2, &t[b], l, &k, m, &x, y); if (w < 0 || w > 8 || w != omp_get_thread_num () || u1 != 14 + w || u2[0] != 17 + 2 * w || u2[1] != 18 + 3 * w || x != 19 + w || y[0] != 20 + 2 * w || y[1] != 21 + 3 * w || v != 24) #pragma omp atomic write err = 1; for (i = 0; i < 64; i++) if (ll[i] != u1 + 3 * i * u2[0] + u2[1] + x + y[0] + y[1] + 3 * i + 13 + 14 + i) #pragma omp atomic write err = 1; } #pragma omp parallel num_threads (1) { if (b == 0) { r = a; if (a != omp_get_num_teams () || e[0] != 2 * a || e[1] != 3 * a) #pragma omp atomic write err = 1; } int v1, v2, v3; #pragma omp atomic read v1 = c; #pragma omp atomic read v2 = g[0]; #pragma omp atomic read v3 = g[1]; s[b] = v1 * 65536L + v2 * 256L + v3; if (d != 5 || h[0] != 13 || h[1] != 15 || k != 14 + b + 4 * t[b] || m[0] != 17 + 2 * b + 5 * t[b] || m[1] != 18 + 3 * b + 6 * t[b] || b != omp_get_team_num () || f[0] != 2 * b || f[1] != 3 * b) #pragma omp atomic write err = 1; } } if (err != 0) abort (); if (r < 1 || r > 4) abort (); if (a != 1 || b != 2 || c != 3 || d != 4) abort (); if (e[0] != 5 || e[1] != 6 || f[0] != 7 || f[1] != 8) abort (); if (g[0] != 9 || g[1] != 10 || h[0] != 11 || h[1] != 12) abort (); int i, cnt = 0; for (i = 0; i < r; i++) if ((s[i] >> 16) < 3 + 1 || (s[i] >> 16) > 3 + 4 || ((s[i] >> 8) & 0xff) < 9 + 2 * 1 || ((s[i] >> 8) & 0xff) > 9 + 2 * 4 || (s[i] & 0xff) < 10 + 3 * 1 || (s[i] & 0xff) > 10 + 3 * 4 || t[i] < 1 || t[i] > 8) abort (); else cnt += t[i]; if (j != 13 + cnt || l[0] != 15 + 2 * cnt || l[1] != 16 + 3 * cnt) abort (); return 0; }