/* * Copyright (c) 2003 by Hewlett-Packard Company. All rights reserved. * * This file is covered by the GNU general public license, version 2. * see doc/COPYING for details. */ /* Some basic sanity tests. These do not test the barrier semantics. */ #undef TA_assert #define TA_assert(e) \ if (!(e)) { fprintf(stderr, "Assertion failed %s:%d (barrier: )\n", \ __FILE__, __LINE__), exit(1); } #undef MISSING #define MISSING(name) \ fprintf(stderr, "Missing: %s\n", #name "") void test_atomic(void) { AO_t x; unsigned char b; unsigned short s; unsigned int zz; # if defined(AO_HAVE_test_and_set) AO_TS_t z = AO_TS_INITIALIZER; # endif # if defined(AO_HAVE_double_t) AO_double_t w; w.AO_val1 = 0; w.AO_val2 = 0; # endif # if defined(AO_HAVE_nop) AO_nop(); # else MISSING(AO_nop); # endif # if defined(AO_HAVE_store) AO_store(&x, 13); TA_assert (x == 13); # else MISSING(AO_store); x = 13; # endif # if defined(AO_HAVE_load) TA_assert(AO_load(&x) == 13); # else MISSING(AO_load); # endif # if defined(AO_HAVE_test_and_set) assert(AO_test_and_set(&z) == AO_TS_CLEAR); assert(AO_test_and_set(&z) == AO_TS_SET); assert(AO_test_and_set(&z) == AO_TS_SET); AO_CLEAR(&z); # else MISSING(AO_test_and_set); # endif # if defined(AO_HAVE_fetch_and_add) TA_assert(AO_fetch_and_add(&x, 42) == 13); TA_assert(AO_fetch_and_add(&x, -42) == 55); # else MISSING(AO_fetch_and_add); # endif # if defined(AO_HAVE_fetch_and_add1) TA_assert(AO_fetch_and_add1(&x) == 13); # else MISSING(AO_fetch_and_add1); ++x; # endif # if defined(AO_HAVE_fetch_and_sub1) TA_assert(AO_fetch_and_sub1(&x) == 14); # else MISSING(AO_fetch_and_sub1); --x; # endif # if defined(AO_HAVE_short_store) AO_short_store(&s, 13); # else MISSING(AO_short_store); s = 13; # endif # if defined(AO_HAVE_short_load) TA_assert(AO_short_load(&s) == 13); # else MISSING(AO_short_load); # endif # if defined(AO_HAVE_short_fetch_and_add) TA_assert(AO_short_fetch_and_add(&s, 42) == 13); TA_assert(AO_short_fetch_and_add(&s, -42) == 55); # else MISSING(AO_short_fetch_and_add); # endif # if defined(AO_HAVE_short_fetch_and_add1) TA_assert(AO_short_fetch_and_add1(&s) == 13); # else MISSING(AO_short_fetch_and_add1); ++s; # endif # if defined(AO_HAVE_short_fetch_and_sub1) TA_assert(AO_short_fetch_and_sub1(&s) == 14); # else MISSING(AO_short_fetch_and_sub1); --s; # endif # if defined(AO_HAVE_char_store) AO_char_store(&b, 13); # else MISSING(AO_char_store); b = 13; # endif # if defined(AO_HAVE_char_load) TA_assert(AO_char_load(&b) == 13); # else MISSING(AO_char_load); # endif # if defined(AO_HAVE_char_fetch_and_add) TA_assert(AO_char_fetch_and_add(&b, 42) == 13); TA_assert(AO_char_fetch_and_add(&b, -42) == 55); # else MISSING(AO_char_fetch_and_add); # endif # if defined(AO_HAVE_char_fetch_and_add1) TA_assert(AO_char_fetch_and_add1(&b) == 13); # else MISSING(AO_char_fetch_and_add1); ++b; # endif # if defined(AO_HAVE_char_fetch_and_sub1) TA_assert(AO_char_fetch_and_sub1(&b) == 14); # else MISSING(AO_char_fetch_and_sub1); --b; # endif # if defined(AO_HAVE_int_store) AO_int_store(&zz, 13); # else MISSING(AO_int_store); zz = 13; # endif # if defined(AO_HAVE_int_load) TA_assert(AO_int_load(&zz) == 13); # else MISSING(AO_int_load); # endif # if defined(AO_HAVE_int_fetch_and_add) TA_assert(AO_int_fetch_and_add(&zz, 42) == 13); TA_assert(AO_int_fetch_and_add(&zz, -42) == 55); # else MISSING(AO_int_fetch_and_add); # endif # if defined(AO_HAVE_int_fetch_and_add1) TA_assert(AO_int_fetch_and_add1(&zz) == 13); # else MISSING(AO_int_fetch_and_add1); ++zz; # endif # if defined(AO_HAVE_int_fetch_and_sub1) TA_assert(AO_int_fetch_and_sub1(&zz) == 14); # else MISSING(AO_int_fetch_and_sub1); --zz; # endif # if defined(AO_HAVE_compare_and_swap) TA_assert(!AO_compare_and_swap(&x, 14, 42)); TA_assert(x == 13); TA_assert(AO_compare_and_swap(&x, 13, 42)); TA_assert(x == 42); # else MISSING(AO_compare_and_swap); if (x == 13) x = 42; # endif # if defined(AO_HAVE_or) AO_or(&x, 66); TA_assert(x == 106); # else MISSING(AO_or); x |= 34; # endif # if defined(AO_HAVE_compare_double_and_swap_double) TA_assert(!AO_compare_double_and_swap_double(&w, 17, 42, 12, 13)); TA_assert(w.AO_val1 == 0 && w.AO_val2 == 0); TA_assert(AO_compare_double_and_swap_double(&w, 0, 0, 12, 13)); TA_assert(w.AO_val1 == 12 && w.AO_val2 == 13); TA_assert(AO_compare_double_and_swap_double(&w, 12, 13, 17, 42)); TA_assert(w.AO_val1 == 17 && w.AO_val2 == 42); w.AO_val1 = 0; w.AO_val2 = 0; # else MISSING(AO_compare_double_and_swap_double); # endif # if defined(AO_HAVE_compare_and_swap_double) TA_assert(!AO_compare_and_swap_double(&w, 17, 12, 13)); TA_assert(w.AO_val1 == 0 && w.AO_val2 == 0); TA_assert(AO_compare_and_swap_double(&w, 0, 12, 13)); TA_assert(w.AO_val1 == 12 && w.AO_val2 == 13); TA_assert(AO_compare_and_swap_double(&w, 12, 17, 42)); TA_assert(w.AO_val1 == 17 && w.AO_val2 == 42); # else MISSING(AO_compare_and_swap_double); # endif } /* * Copyright (c) 2003 by Hewlett-Packard Company. All rights reserved. * * This file is covered by the GNU general public license, version 2. * see doc/COPYING for details. */ /* Some basic sanity tests. These do not test the barrier semantics. */ #undef TA_assert #define TA_assert(e) \ if (!(e)) { fprintf(stderr, "Assertion failed %s:%d (barrier: _release)\n", \ __FILE__, __LINE__), exit(1); } #undef MISSING #define MISSING(name) \ fprintf(stderr, "Missing: %s\n", #name "_release") void test_atomic_release(void) { AO_t x; unsigned char b; unsigned short s; unsigned int zz; # if defined(AO_HAVE_test_and_set_release) AO_TS_t z = AO_TS_INITIALIZER; # endif # if defined(AO_HAVE_double_t) AO_double_t w; w.AO_val1 = 0; w.AO_val2 = 0; # endif # if defined(AO_HAVE_nop_release) AO_nop_release(); # else MISSING(AO_nop); # endif # if defined(AO_HAVE_store_release) AO_store_release(&x, 13); TA_assert (x == 13); # else MISSING(AO_store); x = 13; # endif # if defined(AO_HAVE_load_release) TA_assert(AO_load_release(&x) == 13); # else MISSING(AO_load); # endif # if defined(AO_HAVE_test_and_set_release) assert(AO_test_and_set_release(&z) == AO_TS_CLEAR); assert(AO_test_and_set_release(&z) == AO_TS_SET); assert(AO_test_and_set_release(&z) == AO_TS_SET); AO_CLEAR(&z); # else MISSING(AO_test_and_set); # endif # if defined(AO_HAVE_fetch_and_add_release) TA_assert(AO_fetch_and_add_release(&x, 42) == 13); TA_assert(AO_fetch_and_add_release(&x, -42) == 55); # else MISSING(AO_fetch_and_add); # endif # if defined(AO_HAVE_fetch_and_add1_release) TA_assert(AO_fetch_and_add1_release(&x) == 13); # else MISSING(AO_fetch_and_add1); ++x; # endif # if defined(AO_HAVE_fetch_and_sub1_release) TA_assert(AO_fetch_and_sub1_release(&x) == 14); # else MISSING(AO_fetch_and_sub1); --x; # endif # if defined(AO_HAVE_short_store_release) AO_short_store_release(&s, 13); # else MISSING(AO_short_store); s = 13; # endif # if defined(AO_HAVE_short_load_release) TA_assert(AO_short_load(&s) == 13); # else MISSING(AO_short_load); # endif # if defined(AO_HAVE_short_fetch_and_add_release) TA_assert(AO_short_fetch_and_add_release(&s, 42) == 13); TA_assert(AO_short_fetch_and_add_release(&s, -42) == 55); # else MISSING(AO_short_fetch_and_add); # endif # if defined(AO_HAVE_short_fetch_and_add1_release) TA_assert(AO_short_fetch_and_add1_release(&s) == 13); # else MISSING(AO_short_fetch_and_add1); ++s; # endif # if defined(AO_HAVE_short_fetch_and_sub1_release) TA_assert(AO_short_fetch_and_sub1_release(&s) == 14); # else MISSING(AO_short_fetch_and_sub1); --s; # endif # if defined(AO_HAVE_char_store_release) AO_char_store_release(&b, 13); # else MISSING(AO_char_store); b = 13; # endif # if defined(AO_HAVE_char_load_release) TA_assert(AO_char_load(&b) == 13); # else MISSING(AO_char_load); # endif # if defined(AO_HAVE_char_fetch_and_add_release) TA_assert(AO_char_fetch_and_add_release(&b, 42) == 13); TA_assert(AO_char_fetch_and_add_release(&b, -42) == 55); # else MISSING(AO_char_fetch_and_add); # endif # if defined(AO_HAVE_char_fetch_and_add1_release) TA_assert(AO_char_fetch_and_add1_release(&b) == 13); # else MISSING(AO_char_fetch_and_add1); ++b; # endif # if defined(AO_HAVE_char_fetch_and_sub1_release) TA_assert(AO_char_fetch_and_sub1_release(&b) == 14); # else MISSING(AO_char_fetch_and_sub1); --b; # endif # if defined(AO_HAVE_int_store_release) AO_int_store_release(&zz, 13); # else MISSING(AO_int_store); zz = 13; # endif # if defined(AO_HAVE_int_load_release) TA_assert(AO_int_load(&zz) == 13); # else MISSING(AO_int_load); # endif # if defined(AO_HAVE_int_fetch_and_add_release) TA_assert(AO_int_fetch_and_add_release(&zz, 42) == 13); TA_assert(AO_int_fetch_and_add_release(&zz, -42) == 55); # else MISSING(AO_int_fetch_and_add); # endif # if defined(AO_HAVE_int_fetch_and_add1_release) TA_assert(AO_int_fetch_and_add1_release(&zz) == 13); # else MISSING(AO_int_fetch_and_add1); ++zz; # endif # if defined(AO_HAVE_int_fetch_and_sub1_release) TA_assert(AO_int_fetch_and_sub1_release(&zz) == 14); # else MISSING(AO_int_fetch_and_sub1); --zz; # endif # if defined(AO_HAVE_compare_and_swap_release) TA_assert(!AO_compare_and_swap_release(&x, 14, 42)); TA_assert(x == 13); TA_assert(AO_compare_and_swap_release(&x, 13, 42)); TA_assert(x == 42); # else MISSING(AO_compare_and_swap); if (x == 13) x = 42; # endif # if defined(AO_HAVE_or_release) AO_or_release(&x, 66); TA_assert(x == 106); # else MISSING(AO_or); x |= 34; # endif # if defined(AO_HAVE_compare_double_and_swap_double_release) TA_assert(!AO_compare_double_and_swap_double_release(&w, 17, 42, 12, 13)); TA_assert(w.AO_val1 == 0 && w.AO_val2 == 0); TA_assert(AO_compare_double_and_swap_double_release(&w, 0, 0, 12, 13)); TA_assert(w.AO_val1 == 12 && w.AO_val2 == 13); TA_assert(AO_compare_double_and_swap_double_release(&w, 12, 13, 17, 42)); TA_assert(w.AO_val1 == 17 && w.AO_val2 == 42); w.AO_val1 = 0; w.AO_val2 = 0; # else MISSING(AO_compare_double_and_swap_double); # endif # if defined(AO_HAVE_compare_and_swap_double_release) TA_assert(!AO_compare_and_swap_double_release(&w, 17, 12, 13)); TA_assert(w.AO_val1 == 0 && w.AO_val2 == 0); TA_assert(AO_compare_and_swap_double_release(&w, 0, 12, 13)); TA_assert(w.AO_val1 == 12 && w.AO_val2 == 13); TA_assert(AO_compare_and_swap_double_release(&w, 12, 17, 42)); TA_assert(w.AO_val1 == 17 && w.AO_val2 == 42); # else MISSING(AO_compare_and_swap_double); # endif } /* * Copyright (c) 2003 by Hewlett-Packard Company. All rights reserved. * * This file is covered by the GNU general public license, version 2. * see doc/COPYING for details. */ /* Some basic sanity tests. These do not test the barrier semantics. */ #undef TA_assert #define TA_assert(e) \ if (!(e)) { fprintf(stderr, "Assertion failed %s:%d (barrier: _acquire)\n", \ __FILE__, __LINE__), exit(1); } #undef MISSING #define MISSING(name) \ fprintf(stderr, "Missing: %s\n", #name "_acquire") void test_atomic_acquire(void) { AO_t x; unsigned char b; unsigned short s; unsigned int zz; # if defined(AO_HAVE_test_and_set_acquire) AO_TS_t z = AO_TS_INITIALIZER; # endif # if defined(AO_HAVE_double_t) AO_double_t w; w.AO_val1 = 0; w.AO_val2 = 0; # endif # if defined(AO_HAVE_nop_acquire) AO_nop_acquire(); # else MISSING(AO_nop); # endif # if defined(AO_HAVE_store_acquire) AO_store_acquire(&x, 13); TA_assert (x == 13); # else MISSING(AO_store); x = 13; # endif # if defined(AO_HAVE_load_acquire) TA_assert(AO_load_acquire(&x) == 13); # else MISSING(AO_load); # endif # if defined(AO_HAVE_test_and_set_acquire) assert(AO_test_and_set_acquire(&z) == AO_TS_CLEAR); assert(AO_test_and_set_acquire(&z) == AO_TS_SET); assert(AO_test_and_set_acquire(&z) == AO_TS_SET); AO_CLEAR(&z); # else MISSING(AO_test_and_set); # endif # if defined(AO_HAVE_fetch_and_add_acquire) TA_assert(AO_fetch_and_add_acquire(&x, 42) == 13); TA_assert(AO_fetch_and_add_acquire(&x, -42) == 55); # else MISSING(AO_fetch_and_add); # endif # if defined(AO_HAVE_fetch_and_add1_acquire) TA_assert(AO_fetch_and_add1_acquire(&x) == 13); # else MISSING(AO_fetch_and_add1); ++x; # endif # if defined(AO_HAVE_fetch_and_sub1_acquire) TA_assert(AO_fetch_and_sub1_acquire(&x) == 14); # else MISSING(AO_fetch_and_sub1); --x; # endif # if defined(AO_HAVE_short_store_acquire) AO_short_store_acquire(&s, 13); # else MISSING(AO_short_store); s = 13; # endif # if defined(AO_HAVE_short_load_acquire) TA_assert(AO_short_load(&s) == 13); # else MISSING(AO_short_load); # endif # if defined(AO_HAVE_short_fetch_and_add_acquire) TA_assert(AO_short_fetch_and_add_acquire(&s, 42) == 13); TA_assert(AO_short_fetch_and_add_acquire(&s, -42) == 55); # else MISSING(AO_short_fetch_and_add); # endif # if defined(AO_HAVE_short_fetch_and_add1_acquire) TA_assert(AO_short_fetch_and_add1_acquire(&s) == 13); # else MISSING(AO_short_fetch_and_add1); ++s; # endif # if defined(AO_HAVE_short_fetch_and_sub1_acquire) TA_assert(AO_short_fetch_and_sub1_acquire(&s) == 14); # else MISSING(AO_short_fetch_and_sub1); --s; # endif # if defined(AO_HAVE_char_store_acquire) AO_char_store_acquire(&b, 13); # else MISSING(AO_char_store); b = 13; # endif # if defined(AO_HAVE_char_load_acquire) TA_assert(AO_char_load(&b) == 13); # else MISSING(AO_char_load); # endif # if defined(AO_HAVE_char_fetch_and_add_acquire) TA_assert(AO_char_fetch_and_add_acquire(&b, 42) == 13); TA_assert(AO_char_fetch_and_add_acquire(&b, -42) == 55); # else MISSING(AO_char_fetch_and_add); # endif # if defined(AO_HAVE_char_fetch_and_add1_acquire) TA_assert(AO_char_fetch_and_add1_acquire(&b) == 13); # else MISSING(AO_char_fetch_and_add1); ++b; # endif # if defined(AO_HAVE_char_fetch_and_sub1_acquire) TA_assert(AO_char_fetch_and_sub1_acquire(&b) == 14); # else MISSING(AO_char_fetch_and_sub1); --b; # endif # if defined(AO_HAVE_int_store_acquire) AO_int_store_acquire(&zz, 13); # else MISSING(AO_int_store); zz = 13; # endif # if defined(AO_HAVE_int_load_acquire) TA_assert(AO_int_load(&zz) == 13); # else MISSING(AO_int_load); # endif # if defined(AO_HAVE_int_fetch_and_add_acquire) TA_assert(AO_int_fetch_and_add_acquire(&zz, 42) == 13); TA_assert(AO_int_fetch_and_add_acquire(&zz, -42) == 55); # else MISSING(AO_int_fetch_and_add); # endif # if defined(AO_HAVE_int_fetch_and_add1_acquire) TA_assert(AO_int_fetch_and_add1_acquire(&zz) == 13); # else MISSING(AO_int_fetch_and_add1); ++zz; # endif # if defined(AO_HAVE_int_fetch_and_sub1_acquire) TA_assert(AO_int_fetch_and_sub1_acquire(&zz) == 14); # else MISSING(AO_int_fetch_and_sub1); --zz; # endif # if defined(AO_HAVE_compare_and_swap_acquire) TA_assert(!AO_compare_and_swap_acquire(&x, 14, 42)); TA_assert(x == 13); TA_assert(AO_compare_and_swap_acquire(&x, 13, 42)); TA_assert(x == 42); # else MISSING(AO_compare_and_swap); if (x == 13) x = 42; # endif # if defined(AO_HAVE_or_acquire) AO_or_acquire(&x, 66); TA_assert(x == 106); # else MISSING(AO_or); x |= 34; # endif # if defined(AO_HAVE_compare_double_and_swap_double_acquire) TA_assert(!AO_compare_double_and_swap_double_acquire(&w, 17, 42, 12, 13)); TA_assert(w.AO_val1 == 0 && w.AO_val2 == 0); TA_assert(AO_compare_double_and_swap_double_acquire(&w, 0, 0, 12, 13)); TA_assert(w.AO_val1 == 12 && w.AO_val2 == 13); TA_assert(AO_compare_double_and_swap_double_acquire(&w, 12, 13, 17, 42)); TA_assert(w.AO_val1 == 17 && w.AO_val2 == 42); w.AO_val1 = 0; w.AO_val2 = 0; # else MISSING(AO_compare_double_and_swap_double); # endif # if defined(AO_HAVE_compare_and_swap_double_acquire) TA_assert(!AO_compare_and_swap_double_acquire(&w, 17, 12, 13)); TA_assert(w.AO_val1 == 0 && w.AO_val2 == 0); TA_assert(AO_compare_and_swap_double_acquire(&w, 0, 12, 13)); TA_assert(w.AO_val1 == 12 && w.AO_val2 == 13); TA_assert(AO_compare_and_swap_double_acquire(&w, 12, 17, 42)); TA_assert(w.AO_val1 == 17 && w.AO_val2 == 42); # else MISSING(AO_compare_and_swap_double); # endif } /* * Copyright (c) 2003 by Hewlett-Packard Company. All rights reserved. * * This file is covered by the GNU general public license, version 2. * see doc/COPYING for details. */ /* Some basic sanity tests. These do not test the barrier semantics. */ #undef TA_assert #define TA_assert(e) \ if (!(e)) { fprintf(stderr, "Assertion failed %s:%d (barrier: _read)\n", \ __FILE__, __LINE__), exit(1); } #undef MISSING #define MISSING(name) \ fprintf(stderr, "Missing: %s\n", #name "_read") void test_atomic_read(void) { AO_t x; unsigned char b; unsigned short s; unsigned int zz; # if defined(AO_HAVE_test_and_set_read) AO_TS_t z = AO_TS_INITIALIZER; # endif # if defined(AO_HAVE_double_t) AO_double_t w; w.AO_val1 = 0; w.AO_val2 = 0; # endif # if defined(AO_HAVE_nop_read) AO_nop_read(); # else MISSING(AO_nop); # endif # if defined(AO_HAVE_store_read) AO_store_read(&x, 13); TA_assert (x == 13); # else MISSING(AO_store); x = 13; # endif # if defined(AO_HAVE_load_read) TA_assert(AO_load_read(&x) == 13); # else MISSING(AO_load); # endif # if defined(AO_HAVE_test_and_set_read) assert(AO_test_and_set_read(&z) == AO_TS_CLEAR); assert(AO_test_and_set_read(&z) == AO_TS_SET); assert(AO_test_and_set_read(&z) == AO_TS_SET); AO_CLEAR(&z); # else MISSING(AO_test_and_set); # endif # if defined(AO_HAVE_fetch_and_add_read) TA_assert(AO_fetch_and_add_read(&x, 42) == 13); TA_assert(AO_fetch_and_add_read(&x, -42) == 55); # else MISSING(AO_fetch_and_add); # endif # if defined(AO_HAVE_fetch_and_add1_read) TA_assert(AO_fetch_and_add1_read(&x) == 13); # else MISSING(AO_fetch_and_add1); ++x; # endif # if defined(AO_HAVE_fetch_and_sub1_read) TA_assert(AO_fetch_and_sub1_read(&x) == 14); # else MISSING(AO_fetch_and_sub1); --x; # endif # if defined(AO_HAVE_short_store_read) AO_short_store_read(&s, 13); # else MISSING(AO_short_store); s = 13; # endif # if defined(AO_HAVE_short_load_read) TA_assert(AO_short_load(&s) == 13); # else MISSING(AO_short_load); # endif # if defined(AO_HAVE_short_fetch_and_add_read) TA_assert(AO_short_fetch_and_add_read(&s, 42) == 13); TA_assert(AO_short_fetch_and_add_read(&s, -42) == 55); # else MISSING(AO_short_fetch_and_add); # endif # if defined(AO_HAVE_short_fetch_and_add1_read) TA_assert(AO_short_fetch_and_add1_read(&s) == 13); # else MISSING(AO_short_fetch_and_add1); ++s; # endif # if defined(AO_HAVE_short_fetch_and_sub1_read) TA_assert(AO_short_fetch_and_sub1_read(&s) == 14); # else MISSING(AO_short_fetch_and_sub1); --s; # endif # if defined(AO_HAVE_char_store_read) AO_char_store_read(&b, 13); # else MISSING(AO_char_store); b = 13; # endif # if defined(AO_HAVE_char_load_read) TA_assert(AO_char_load(&b) == 13); # else MISSING(AO_char_load); # endif # if defined(AO_HAVE_char_fetch_and_add_read) TA_assert(AO_char_fetch_and_add_read(&b, 42) == 13); TA_assert(AO_char_fetch_and_add_read(&b, -42) == 55); # else MISSING(AO_char_fetch_and_add); # endif # if defined(AO_HAVE_char_fetch_and_add1_read) TA_assert(AO_char_fetch_and_add1_read(&b) == 13); # else MISSING(AO_char_fetch_and_add1); ++b; # endif # if defined(AO_HAVE_char_fetch_and_sub1_read) TA_assert(AO_char_fetch_and_sub1_read(&b) == 14); # else MISSING(AO_char_fetch_and_sub1); --b; # endif # if defined(AO_HAVE_int_store_read) AO_int_store_read(&zz, 13); # else MISSING(AO_int_store); zz = 13; # endif # if defined(AO_HAVE_int_load_read) TA_assert(AO_int_load(&zz) == 13); # else MISSING(AO_int_load); # endif # if defined(AO_HAVE_int_fetch_and_add_read) TA_assert(AO_int_fetch_and_add_read(&zz, 42) == 13); TA_assert(AO_int_fetch_and_add_read(&zz, -42) == 55); # else MISSING(AO_int_fetch_and_add); # endif # if defined(AO_HAVE_int_fetch_and_add1_read) TA_assert(AO_int_fetch_and_add1_read(&zz) == 13); # else MISSING(AO_int_fetch_and_add1); ++zz; # endif # if defined(AO_HAVE_int_fetch_and_sub1_read) TA_assert(AO_int_fetch_and_sub1_read(&zz) == 14); # else MISSING(AO_int_fetch_and_sub1); --zz; # endif # if defined(AO_HAVE_compare_and_swap_read) TA_assert(!AO_compare_and_swap_read(&x, 14, 42)); TA_assert(x == 13); TA_assert(AO_compare_and_swap_read(&x, 13, 42)); TA_assert(x == 42); # else MISSING(AO_compare_and_swap); if (x == 13) x = 42; # endif # if defined(AO_HAVE_or_read) AO_or_read(&x, 66); TA_assert(x == 106); # else MISSING(AO_or); x |= 34; # endif # if defined(AO_HAVE_compare_double_and_swap_double_read) TA_assert(!AO_compare_double_and_swap_double_read(&w, 17, 42, 12, 13)); TA_assert(w.AO_val1 == 0 && w.AO_val2 == 0); TA_assert(AO_compare_double_and_swap_double_read(&w, 0, 0, 12, 13)); TA_assert(w.AO_val1 == 12 && w.AO_val2 == 13); TA_assert(AO_compare_double_and_swap_double_read(&w, 12, 13, 17, 42)); TA_assert(w.AO_val1 == 17 && w.AO_val2 == 42); w.AO_val1 = 0; w.AO_val2 = 0; # else MISSING(AO_compare_double_and_swap_double); # endif # if defined(AO_HAVE_compare_and_swap_double_read) TA_assert(!AO_compare_and_swap_double_read(&w, 17, 12, 13)); TA_assert(w.AO_val1 == 0 && w.AO_val2 == 0); TA_assert(AO_compare_and_swap_double_read(&w, 0, 12, 13)); TA_assert(w.AO_val1 == 12 && w.AO_val2 == 13); TA_assert(AO_compare_and_swap_double_read(&w, 12, 17, 42)); TA_assert(w.AO_val1 == 17 && w.AO_val2 == 42); # else MISSING(AO_compare_and_swap_double); # endif } /* * Copyright (c) 2003 by Hewlett-Packard Company. All rights reserved. * * This file is covered by the GNU general public license, version 2. * see doc/COPYING for details. */ /* Some basic sanity tests. These do not test the barrier semantics. */ #undef TA_assert #define TA_assert(e) \ if (!(e)) { fprintf(stderr, "Assertion failed %s:%d (barrier: _write)\n", \ __FILE__, __LINE__), exit(1); } #undef MISSING #define MISSING(name) \ fprintf(stderr, "Missing: %s\n", #name "_write") void test_atomic_write(void) { AO_t x; unsigned char b; unsigned short s; unsigned int zz; # if defined(AO_HAVE_test_and_set_write) AO_TS_t z = AO_TS_INITIALIZER; # endif # if defined(AO_HAVE_double_t) AO_double_t w; w.AO_val1 = 0; w.AO_val2 = 0; # endif # if defined(AO_HAVE_nop_write) AO_nop_write(); # else MISSING(AO_nop); # endif # if defined(AO_HAVE_store_write) AO_store_write(&x, 13); TA_assert (x == 13); # else MISSING(AO_store); x = 13; # endif # if defined(AO_HAVE_load_write) TA_assert(AO_load_write(&x) == 13); # else MISSING(AO_load); # endif # if defined(AO_HAVE_test_and_set_write) assert(AO_test_and_set_write(&z) == AO_TS_CLEAR); assert(AO_test_and_set_write(&z) == AO_TS_SET); assert(AO_test_and_set_write(&z) == AO_TS_SET); AO_CLEAR(&z); # else MISSING(AO_test_and_set); # endif # if defined(AO_HAVE_fetch_and_add_write) TA_assert(AO_fetch_and_add_write(&x, 42) == 13); TA_assert(AO_fetch_and_add_write(&x, -42) == 55); # else MISSING(AO_fetch_and_add); # endif # if defined(AO_HAVE_fetch_and_add1_write) TA_assert(AO_fetch_and_add1_write(&x) == 13); # else MISSING(AO_fetch_and_add1); ++x; # endif # if defined(AO_HAVE_fetch_and_sub1_write) TA_assert(AO_fetch_and_sub1_write(&x) == 14); # else MISSING(AO_fetch_and_sub1); --x; # endif # if defined(AO_HAVE_short_store_write) AO_short_store_write(&s, 13); # else MISSING(AO_short_store); s = 13; # endif # if defined(AO_HAVE_short_load_write) TA_assert(AO_short_load(&s) == 13); # else MISSING(AO_short_load); # endif # if defined(AO_HAVE_short_fetch_and_add_write) TA_assert(AO_short_fetch_and_add_write(&s, 42) == 13); TA_assert(AO_short_fetch_and_add_write(&s, -42) == 55); # else MISSING(AO_short_fetch_and_add); # endif # if defined(AO_HAVE_short_fetch_and_add1_write) TA_assert(AO_short_fetch_and_add1_write(&s) == 13); # else MISSING(AO_short_fetch_and_add1); ++s; # endif # if defined(AO_HAVE_short_fetch_and_sub1_write) TA_assert(AO_short_fetch_and_sub1_write(&s) == 14); # else MISSING(AO_short_fetch_and_sub1); --s; # endif # if defined(AO_HAVE_char_store_write) AO_char_store_write(&b, 13); # else MISSING(AO_char_store); b = 13; # endif # if defined(AO_HAVE_char_load_write) TA_assert(AO_char_load(&b) == 13); # else MISSING(AO_char_load); # endif # if defined(AO_HAVE_char_fetch_and_add_write) TA_assert(AO_char_fetch_and_add_write(&b, 42) == 13); TA_assert(AO_char_fetch_and_add_write(&b, -42) == 55); # else MISSING(AO_char_fetch_and_add); # endif # if defined(AO_HAVE_char_fetch_and_add1_write) TA_assert(AO_char_fetch_and_add1_write(&b) == 13); # else MISSING(AO_char_fetch_and_add1); ++b; # endif # if defined(AO_HAVE_char_fetch_and_sub1_write) TA_assert(AO_char_fetch_and_sub1_write(&b) == 14); # else MISSING(AO_char_fetch_and_sub1); --b; # endif # if defined(AO_HAVE_int_store_write) AO_int_store_write(&zz, 13); # else MISSING(AO_int_store); zz = 13; # endif # if defined(AO_HAVE_int_load_write) TA_assert(AO_int_load(&zz) == 13); # else MISSING(AO_int_load); # endif # if defined(AO_HAVE_int_fetch_and_add_write) TA_assert(AO_int_fetch_and_add_write(&zz, 42) == 13); TA_assert(AO_int_fetch_and_add_write(&zz, -42) == 55); # else MISSING(AO_int_fetch_and_add); # endif # if defined(AO_HAVE_int_fetch_and_add1_write) TA_assert(AO_int_fetch_and_add1_write(&zz) == 13); # else MISSING(AO_int_fetch_and_add1); ++zz; # endif # if defined(AO_HAVE_int_fetch_and_sub1_write) TA_assert(AO_int_fetch_and_sub1_write(&zz) == 14); # else MISSING(AO_int_fetch_and_sub1); --zz; # endif # if defined(AO_HAVE_compare_and_swap_write) TA_assert(!AO_compare_and_swap_write(&x, 14, 42)); TA_assert(x == 13); TA_assert(AO_compare_and_swap_write(&x, 13, 42)); TA_assert(x == 42); # else MISSING(AO_compare_and_swap); if (x == 13) x = 42; # endif # if defined(AO_HAVE_or_write) AO_or_write(&x, 66); TA_assert(x == 106); # else MISSING(AO_or); x |= 34; # endif # if defined(AO_HAVE_compare_double_and_swap_double_write) TA_assert(!AO_compare_double_and_swap_double_write(&w, 17, 42, 12, 13)); TA_assert(w.AO_val1 == 0 && w.AO_val2 == 0); TA_assert(AO_compare_double_and_swap_double_write(&w, 0, 0, 12, 13)); TA_assert(w.AO_val1 == 12 && w.AO_val2 == 13); TA_assert(AO_compare_double_and_swap_double_write(&w, 12, 13, 17, 42)); TA_assert(w.AO_val1 == 17 && w.AO_val2 == 42); w.AO_val1 = 0; w.AO_val2 = 0; # else MISSING(AO_compare_double_and_swap_double); # endif # if defined(AO_HAVE_compare_and_swap_double_write) TA_assert(!AO_compare_and_swap_double_write(&w, 17, 12, 13)); TA_assert(w.AO_val1 == 0 && w.AO_val2 == 0); TA_assert(AO_compare_and_swap_double_write(&w, 0, 12, 13)); TA_assert(w.AO_val1 == 12 && w.AO_val2 == 13); TA_assert(AO_compare_and_swap_double_write(&w, 12, 17, 42)); TA_assert(w.AO_val1 == 17 && w.AO_val2 == 42); # else MISSING(AO_compare_and_swap_double); # endif } /* * Copyright (c) 2003 by Hewlett-Packard Company. All rights reserved. * * This file is covered by the GNU general public license, version 2. * see doc/COPYING for details. */ /* Some basic sanity tests. These do not test the barrier semantics. */ #undef TA_assert #define TA_assert(e) \ if (!(e)) { fprintf(stderr, "Assertion failed %s:%d (barrier: _full)\n", \ __FILE__, __LINE__), exit(1); } #undef MISSING #define MISSING(name) \ fprintf(stderr, "Missing: %s\n", #name "_full") void test_atomic_full(void) { AO_t x; unsigned char b; unsigned short s; unsigned int zz; # if defined(AO_HAVE_test_and_set_full) AO_TS_t z = AO_TS_INITIALIZER; # endif # if defined(AO_HAVE_double_t) AO_double_t w; w.AO_val1 = 0; w.AO_val2 = 0; # endif # if defined(AO_HAVE_nop_full) AO_nop_full(); # else MISSING(AO_nop); # endif # if defined(AO_HAVE_store_full) AO_store_full(&x, 13); TA_assert (x == 13); # else MISSING(AO_store); x = 13; # endif # if defined(AO_HAVE_load_full) TA_assert(AO_load_full(&x) == 13); # else MISSING(AO_load); # endif # if defined(AO_HAVE_test_and_set_full) assert(AO_test_and_set_full(&z) == AO_TS_CLEAR); assert(AO_test_and_set_full(&z) == AO_TS_SET); assert(AO_test_and_set_full(&z) == AO_TS_SET); AO_CLEAR(&z); # else MISSING(AO_test_and_set); # endif # if defined(AO_HAVE_fetch_and_add_full) TA_assert(AO_fetch_and_add_full(&x, 42) == 13); TA_assert(AO_fetch_and_add_full(&x, -42) == 55); # else MISSING(AO_fetch_and_add); # endif # if defined(AO_HAVE_fetch_and_add1_full) TA_assert(AO_fetch_and_add1_full(&x) == 13); # else MISSING(AO_fetch_and_add1); ++x; # endif # if defined(AO_HAVE_fetch_and_sub1_full) TA_assert(AO_fetch_and_sub1_full(&x) == 14); # else MISSING(AO_fetch_and_sub1); --x; # endif # if defined(AO_HAVE_short_store_full) AO_short_store_full(&s, 13); # else MISSING(AO_short_store); s = 13; # endif # if defined(AO_HAVE_short_load_full) TA_assert(AO_short_load(&s) == 13); # else MISSING(AO_short_load); # endif # if defined(AO_HAVE_short_fetch_and_add_full) TA_assert(AO_short_fetch_and_add_full(&s, 42) == 13); TA_assert(AO_short_fetch_and_add_full(&s, -42) == 55); # else MISSING(AO_short_fetch_and_add); # endif # if defined(AO_HAVE_short_fetch_and_add1_full) TA_assert(AO_short_fetch_and_add1_full(&s) == 13); # else MISSING(AO_short_fetch_and_add1); ++s; # endif # if defined(AO_HAVE_short_fetch_and_sub1_full) TA_assert(AO_short_fetch_and_sub1_full(&s) == 14); # else MISSING(AO_short_fetch_and_sub1); --s; # endif # if defined(AO_HAVE_char_store_full) AO_char_store_full(&b, 13); # else MISSING(AO_char_store); b = 13; # endif # if defined(AO_HAVE_char_load_full) TA_assert(AO_char_load(&b) == 13); # else MISSING(AO_char_load); # endif # if defined(AO_HAVE_char_fetch_and_add_full) TA_assert(AO_char_fetch_and_add_full(&b, 42) == 13); TA_assert(AO_char_fetch_and_add_full(&b, -42) == 55); # else MISSING(AO_char_fetch_and_add); # endif # if defined(AO_HAVE_char_fetch_and_add1_full) TA_assert(AO_char_fetch_and_add1_full(&b) == 13); # else MISSING(AO_char_fetch_and_add1); ++b; # endif # if defined(AO_HAVE_char_fetch_and_sub1_full) TA_assert(AO_char_fetch_and_sub1_full(&b) == 14); # else MISSING(AO_char_fetch_and_sub1); --b; # endif # if defined(AO_HAVE_int_store_full) AO_int_store_full(&zz, 13); # else MISSING(AO_int_store); zz = 13; # endif # if defined(AO_HAVE_int_load_full) TA_assert(AO_int_load(&zz) == 13); # else MISSING(AO_int_load); # endif # if defined(AO_HAVE_int_fetch_and_add_full) TA_assert(AO_int_fetch_and_add_full(&zz, 42) == 13); TA_assert(AO_int_fetch_and_add_full(&zz, -42) == 55); # else MISSING(AO_int_fetch_and_add); # endif # if defined(AO_HAVE_int_fetch_and_add1_full) TA_assert(AO_int_fetch_and_add1_full(&zz) == 13); # else MISSING(AO_int_fetch_and_add1); ++zz; # endif # if defined(AO_HAVE_int_fetch_and_sub1_full) TA_assert(AO_int_fetch_and_sub1_full(&zz) == 14); # else MISSING(AO_int_fetch_and_sub1); --zz; # endif # if defined(AO_HAVE_compare_and_swap_full) TA_assert(!AO_compare_and_swap_full(&x, 14, 42)); TA_assert(x == 13); TA_assert(AO_compare_and_swap_full(&x, 13, 42)); TA_assert(x == 42); # else MISSING(AO_compare_and_swap); if (x == 13) x = 42; # endif # if defined(AO_HAVE_or_full) AO_or_full(&x, 66); TA_assert(x == 106); # else MISSING(AO_or); x |= 34; # endif # if defined(AO_HAVE_compare_double_and_swap_double_full) TA_assert(!AO_compare_double_and_swap_double_full(&w, 17, 42, 12, 13)); TA_assert(w.AO_val1 == 0 && w.AO_val2 == 0); TA_assert(AO_compare_double_and_swap_double_full(&w, 0, 0, 12, 13)); TA_assert(w.AO_val1 == 12 && w.AO_val2 == 13); TA_assert(AO_compare_double_and_swap_double_full(&w, 12, 13, 17, 42)); TA_assert(w.AO_val1 == 17 && w.AO_val2 == 42); w.AO_val1 = 0; w.AO_val2 = 0; # else MISSING(AO_compare_double_and_swap_double); # endif # if defined(AO_HAVE_compare_and_swap_double_full) TA_assert(!AO_compare_and_swap_double_full(&w, 17, 12, 13)); TA_assert(w.AO_val1 == 0 && w.AO_val2 == 0); TA_assert(AO_compare_and_swap_double_full(&w, 0, 12, 13)); TA_assert(w.AO_val1 == 12 && w.AO_val2 == 13); TA_assert(AO_compare_and_swap_double_full(&w, 12, 17, 42)); TA_assert(w.AO_val1 == 17 && w.AO_val2 == 42); # else MISSING(AO_compare_and_swap_double); # endif } /* * Copyright (c) 2003 by Hewlett-Packard Company. All rights reserved. * * This file is covered by the GNU general public license, version 2. * see doc/COPYING for details. */ /* Some basic sanity tests. These do not test the barrier semantics. */ #undef TA_assert #define TA_assert(e) \ if (!(e)) { fprintf(stderr, "Assertion failed %s:%d (barrier: _release_write)\n", \ __FILE__, __LINE__), exit(1); } #undef MISSING #define MISSING(name) \ fprintf(stderr, "Missing: %s\n", #name "_release_write") void test_atomic_release_write(void) { AO_t x; unsigned char b; unsigned short s; unsigned int zz; # if defined(AO_HAVE_test_and_set_release_write) AO_TS_t z = AO_TS_INITIALIZER; # endif # if defined(AO_HAVE_double_t) AO_double_t w; w.AO_val1 = 0; w.AO_val2 = 0; # endif # if defined(AO_HAVE_nop_release_write) AO_nop_release_write(); # else MISSING(AO_nop); # endif # if defined(AO_HAVE_store_release_write) AO_store_release_write(&x, 13); TA_assert (x == 13); # else MISSING(AO_store); x = 13; # endif # if defined(AO_HAVE_load_release_write) TA_assert(AO_load_release_write(&x) == 13); # else MISSING(AO_load); # endif # if defined(AO_HAVE_test_and_set_release_write) assert(AO_test_and_set_release_write(&z) == AO_TS_CLEAR); assert(AO_test_and_set_release_write(&z) == AO_TS_SET); assert(AO_test_and_set_release_write(&z) == AO_TS_SET); AO_CLEAR(&z); # else MISSING(AO_test_and_set); # endif # if defined(AO_HAVE_fetch_and_add_release_write) TA_assert(AO_fetch_and_add_release_write(&x, 42) == 13); TA_assert(AO_fetch_and_add_release_write(&x, -42) == 55); # else MISSING(AO_fetch_and_add); # endif # if defined(AO_HAVE_fetch_and_add1_release_write) TA_assert(AO_fetch_and_add1_release_write(&x) == 13); # else MISSING(AO_fetch_and_add1); ++x; # endif # if defined(AO_HAVE_fetch_and_sub1_release_write) TA_assert(AO_fetch_and_sub1_release_write(&x) == 14); # else MISSING(AO_fetch_and_sub1); --x; # endif # if defined(AO_HAVE_short_store_release_write) AO_short_store_release_write(&s, 13); # else MISSING(AO_short_store); s = 13; # endif # if defined(AO_HAVE_short_load_release_write) TA_assert(AO_short_load(&s) == 13); # else MISSING(AO_short_load); # endif # if defined(AO_HAVE_short_fetch_and_add_release_write) TA_assert(AO_short_fetch_and_add_release_write(&s, 42) == 13); TA_assert(AO_short_fetch_and_add_release_write(&s, -42) == 55); # else MISSING(AO_short_fetch_and_add); # endif # if defined(AO_HAVE_short_fetch_and_add1_release_write) TA_assert(AO_short_fetch_and_add1_release_write(&s) == 13); # else MISSING(AO_short_fetch_and_add1); ++s; # endif # if defined(AO_HAVE_short_fetch_and_sub1_release_write) TA_assert(AO_short_fetch_and_sub1_release_write(&s) == 14); # else MISSING(AO_short_fetch_and_sub1); --s; # endif # if defined(AO_HAVE_char_store_release_write) AO_char_store_release_write(&b, 13); # else MISSING(AO_char_store); b = 13; # endif # if defined(AO_HAVE_char_load_release_write) TA_assert(AO_char_load(&b) == 13); # else MISSING(AO_char_load); # endif # if defined(AO_HAVE_char_fetch_and_add_release_write) TA_assert(AO_char_fetch_and_add_release_write(&b, 42) == 13); TA_assert(AO_char_fetch_and_add_release_write(&b, -42) == 55); # else MISSING(AO_char_fetch_and_add); # endif # if defined(AO_HAVE_char_fetch_and_add1_release_write) TA_assert(AO_char_fetch_and_add1_release_write(&b) == 13); # else MISSING(AO_char_fetch_and_add1); ++b; # endif # if defined(AO_HAVE_char_fetch_and_sub1_release_write) TA_assert(AO_char_fetch_and_sub1_release_write(&b) == 14); # else MISSING(AO_char_fetch_and_sub1); --b; # endif # if defined(AO_HAVE_int_store_release_write) AO_int_store_release_write(&zz, 13); # else MISSING(AO_int_store); zz = 13; # endif # if defined(AO_HAVE_int_load_release_write) TA_assert(AO_int_load(&zz) == 13); # else MISSING(AO_int_load); # endif # if defined(AO_HAVE_int_fetch_and_add_release_write) TA_assert(AO_int_fetch_and_add_release_write(&zz, 42) == 13); TA_assert(AO_int_fetch_and_add_release_write(&zz, -42) == 55); # else MISSING(AO_int_fetch_and_add); # endif # if defined(AO_HAVE_int_fetch_and_add1_release_write) TA_assert(AO_int_fetch_and_add1_release_write(&zz) == 13); # else MISSING(AO_int_fetch_and_add1); ++zz; # endif # if defined(AO_HAVE_int_fetch_and_sub1_release_write) TA_assert(AO_int_fetch_and_sub1_release_write(&zz) == 14); # else MISSING(AO_int_fetch_and_sub1); --zz; # endif # if defined(AO_HAVE_compare_and_swap_release_write) TA_assert(!AO_compare_and_swap_release_write(&x, 14, 42)); TA_assert(x == 13); TA_assert(AO_compare_and_swap_release_write(&x, 13, 42)); TA_assert(x == 42); # else MISSING(AO_compare_and_swap); if (x == 13) x = 42; # endif # if defined(AO_HAVE_or_release_write) AO_or_release_write(&x, 66); TA_assert(x == 106); # else MISSING(AO_or); x |= 34; # endif # if defined(AO_HAVE_compare_double_and_swap_double_release_write) TA_assert(!AO_compare_double_and_swap_double_release_write(&w, 17, 42, 12, 13)); TA_assert(w.AO_val1 == 0 && w.AO_val2 == 0); TA_assert(AO_compare_double_and_swap_double_release_write(&w, 0, 0, 12, 13)); TA_assert(w.AO_val1 == 12 && w.AO_val2 == 13); TA_assert(AO_compare_double_and_swap_double_release_write(&w, 12, 13, 17, 42)); TA_assert(w.AO_val1 == 17 && w.AO_val2 == 42); w.AO_val1 = 0; w.AO_val2 = 0; # else MISSING(AO_compare_double_and_swap_double); # endif # if defined(AO_HAVE_compare_and_swap_double_release_write) TA_assert(!AO_compare_and_swap_double_release_write(&w, 17, 12, 13)); TA_assert(w.AO_val1 == 0 && w.AO_val2 == 0); TA_assert(AO_compare_and_swap_double_release_write(&w, 0, 12, 13)); TA_assert(w.AO_val1 == 12 && w.AO_val2 == 13); TA_assert(AO_compare_and_swap_double_release_write(&w, 12, 17, 42)); TA_assert(w.AO_val1 == 17 && w.AO_val2 == 42); # else MISSING(AO_compare_and_swap_double); # endif } /* * Copyright (c) 2003 by Hewlett-Packard Company. All rights reserved. * * This file is covered by the GNU general public license, version 2. * see doc/COPYING for details. */ /* Some basic sanity tests. These do not test the barrier semantics. */ #undef TA_assert #define TA_assert(e) \ if (!(e)) { fprintf(stderr, "Assertion failed %s:%d (barrier: _acquire_read)\n", \ __FILE__, __LINE__), exit(1); } #undef MISSING #define MISSING(name) \ fprintf(stderr, "Missing: %s\n", #name "_acquire_read") void test_atomic_acquire_read(void) { AO_t x; unsigned char b; unsigned short s; unsigned int zz; # if defined(AO_HAVE_test_and_set_acquire_read) AO_TS_t z = AO_TS_INITIALIZER; # endif # if defined(AO_HAVE_double_t) AO_double_t w; w.AO_val1 = 0; w.AO_val2 = 0; # endif # if defined(AO_HAVE_nop_acquire_read) AO_nop_acquire_read(); # else MISSING(AO_nop); # endif # if defined(AO_HAVE_store_acquire_read) AO_store_acquire_read(&x, 13); TA_assert (x == 13); # else MISSING(AO_store); x = 13; # endif # if defined(AO_HAVE_load_acquire_read) TA_assert(AO_load_acquire_read(&x) == 13); # else MISSING(AO_load); # endif # if defined(AO_HAVE_test_and_set_acquire_read) assert(AO_test_and_set_acquire_read(&z) == AO_TS_CLEAR); assert(AO_test_and_set_acquire_read(&z) == AO_TS_SET); assert(AO_test_and_set_acquire_read(&z) == AO_TS_SET); AO_CLEAR(&z); # else MISSING(AO_test_and_set); # endif # if defined(AO_HAVE_fetch_and_add_acquire_read) TA_assert(AO_fetch_and_add_acquire_read(&x, 42) == 13); TA_assert(AO_fetch_and_add_acquire_read(&x, -42) == 55); # else MISSING(AO_fetch_and_add); # endif # if defined(AO_HAVE_fetch_and_add1_acquire_read) TA_assert(AO_fetch_and_add1_acquire_read(&x) == 13); # else MISSING(AO_fetch_and_add1); ++x; # endif # if defined(AO_HAVE_fetch_and_sub1_acquire_read) TA_assert(AO_fetch_and_sub1_acquire_read(&x) == 14); # else MISSING(AO_fetch_and_sub1); --x; # endif # if defined(AO_HAVE_short_store_acquire_read) AO_short_store_acquire_read(&s, 13); # else MISSING(AO_short_store); s = 13; # endif # if defined(AO_HAVE_short_load_acquire_read) TA_assert(AO_short_load(&s) == 13); # else MISSING(AO_short_load); # endif # if defined(AO_HAVE_short_fetch_and_add_acquire_read) TA_assert(AO_short_fetch_and_add_acquire_read(&s, 42) == 13); TA_assert(AO_short_fetch_and_add_acquire_read(&s, -42) == 55); # else MISSING(AO_short_fetch_and_add); # endif # if defined(AO_HAVE_short_fetch_and_add1_acquire_read) TA_assert(AO_short_fetch_and_add1_acquire_read(&s) == 13); # else MISSING(AO_short_fetch_and_add1); ++s; # endif # if defined(AO_HAVE_short_fetch_and_sub1_acquire_read) TA_assert(AO_short_fetch_and_sub1_acquire_read(&s) == 14); # else MISSING(AO_short_fetch_and_sub1); --s; # endif # if defined(AO_HAVE_char_store_acquire_read) AO_char_store_acquire_read(&b, 13); # else MISSING(AO_char_store); b = 13; # endif # if defined(AO_HAVE_char_load_acquire_read) TA_assert(AO_char_load(&b) == 13); # else MISSING(AO_char_load); # endif # if defined(AO_HAVE_char_fetch_and_add_acquire_read) TA_assert(AO_char_fetch_and_add_acquire_read(&b, 42) == 13); TA_assert(AO_char_fetch_and_add_acquire_read(&b, -42) == 55); # else MISSING(AO_char_fetch_and_add); # endif # if defined(AO_HAVE_char_fetch_and_add1_acquire_read) TA_assert(AO_char_fetch_and_add1_acquire_read(&b) == 13); # else MISSING(AO_char_fetch_and_add1); ++b; # endif # if defined(AO_HAVE_char_fetch_and_sub1_acquire_read) TA_assert(AO_char_fetch_and_sub1_acquire_read(&b) == 14); # else MISSING(AO_char_fetch_and_sub1); --b; # endif # if defined(AO_HAVE_int_store_acquire_read) AO_int_store_acquire_read(&zz, 13); # else MISSING(AO_int_store); zz = 13; # endif # if defined(AO_HAVE_int_load_acquire_read) TA_assert(AO_int_load(&zz) == 13); # else MISSING(AO_int_load); # endif # if defined(AO_HAVE_int_fetch_and_add_acquire_read) TA_assert(AO_int_fetch_and_add_acquire_read(&zz, 42) == 13); TA_assert(AO_int_fetch_and_add_acquire_read(&zz, -42) == 55); # else MISSING(AO_int_fetch_and_add); # endif # if defined(AO_HAVE_int_fetch_and_add1_acquire_read) TA_assert(AO_int_fetch_and_add1_acquire_read(&zz) == 13); # else MISSING(AO_int_fetch_and_add1); ++zz; # endif # if defined(AO_HAVE_int_fetch_and_sub1_acquire_read) TA_assert(AO_int_fetch_and_sub1_acquire_read(&zz) == 14); # else MISSING(AO_int_fetch_and_sub1); --zz; # endif # if defined(AO_HAVE_compare_and_swap_acquire_read) TA_assert(!AO_compare_and_swap_acquire_read(&x, 14, 42)); TA_assert(x == 13); TA_assert(AO_compare_and_swap_acquire_read(&x, 13, 42)); TA_assert(x == 42); # else MISSING(AO_compare_and_swap); if (x == 13) x = 42; # endif # if defined(AO_HAVE_or_acquire_read) AO_or_acquire_read(&x, 66); TA_assert(x == 106); # else MISSING(AO_or); x |= 34; # endif # if defined(AO_HAVE_compare_double_and_swap_double_acquire_read) TA_assert(!AO_compare_double_and_swap_double_acquire_read(&w, 17, 42, 12, 13)); TA_assert(w.AO_val1 == 0 && w.AO_val2 == 0); TA_assert(AO_compare_double_and_swap_double_acquire_read(&w, 0, 0, 12, 13)); TA_assert(w.AO_val1 == 12 && w.AO_val2 == 13); TA_assert(AO_compare_double_and_swap_double_acquire_read(&w, 12, 13, 17, 42)); TA_assert(w.AO_val1 == 17 && w.AO_val2 == 42); w.AO_val1 = 0; w.AO_val2 = 0; # else MISSING(AO_compare_double_and_swap_double); # endif # if defined(AO_HAVE_compare_and_swap_double_acquire_read) TA_assert(!AO_compare_and_swap_double_acquire_read(&w, 17, 12, 13)); TA_assert(w.AO_val1 == 0 && w.AO_val2 == 0); TA_assert(AO_compare_and_swap_double_acquire_read(&w, 0, 12, 13)); TA_assert(w.AO_val1 == 12 && w.AO_val2 == 13); TA_assert(AO_compare_and_swap_double_acquire_read(&w, 12, 17, 42)); TA_assert(w.AO_val1 == 17 && w.AO_val2 == 42); # else MISSING(AO_compare_and_swap_double); # endif }