jemalloc/test/unit/atomic.c - nest-cam/4320010/jemalloc - Git at Google

 #include "test/jemalloc_test.h"

 #define	TEST_STRUCT(p, t)						\
 struct p##_test_s {							\
 	t	accum0;							\
 	t	x;							\
 	t	s;							\
 };									\
 typedef struct p##_test_s p##_test_t;

 #define	TEST_BODY(p, t, tc, ta, FMT) do {				\
 	const p##_test_t tests[] = {					\
 		{(t)-1, (t)-1, (t)-2},					\
 		{(t)-1, (t) 0, (t)-2},					\
 		{(t)-1, (t) 1, (t)-2},					\
 									\
 		{(t) 0, (t)-1, (t)-2},					\
 		{(t) 0, (t) 0, (t)-2},					\
 		{(t) 0, (t) 1, (t)-2},					\
 									\
 		{(t) 1, (t)-1, (t)-2},					\
 		{(t) 1, (t) 0, (t)-2},					\
 		{(t) 1, (t) 1, (t)-2},					\
 									\
 		{(t)0, (t)-(1 << 22), (t)-2},				\
 		{(t)0, (t)(1 << 22), (t)-2},				\
 		{(t)(1 << 22), (t)-(1 << 22), (t)-2},			\
 		{(t)(1 << 22), (t)(1 << 22), (t)-2}			\
 	};								\
 	unsigned i;							\
 									\
 	for (i = 0; i < sizeof(tests)/sizeof(p##_test_t); i++) {	\
 		bool err;						\
 		t accum = tests[i].accum0;				\
 		assert_##ta##_eq(atomic_read_##p(&accum),		\
 		    tests[i].accum0,					\
 		    "Erroneous read, i=%u", i);				\
 									\
 		assert_##ta##_eq(atomic_add_##p(&accum, tests[i].x),	\
 		    (t)((tc)tests[i].accum0 + (tc)tests[i].x),		\
 		    "i=%u, accum=%"FMT", x=%"FMT,			\
 		    i, tests[i].accum0, tests[i].x);			\
 		assert_##ta##_eq(atomic_read_##p(&accum), accum,	\
 		    "Erroneous add, i=%u", i);				\
 									\
 		accum = tests[i].accum0;				\
 		assert_##ta##_eq(atomic_sub_##p(&accum, tests[i].x),	\
 		    (t)((tc)tests[i].accum0 - (tc)tests[i].x),		\
 		    "i=%u, accum=%"FMT", x=%"FMT,			\
 		    i, tests[i].accum0, tests[i].x);			\
 		assert_##ta##_eq(atomic_read_##p(&accum), accum,	\
 		    "Erroneous sub, i=%u", i);				\
 									\
 		accum = tests[i].accum0;				\
 		err = atomic_cas_##p(&accum, tests[i].x, tests[i].s);	\
 		assert_b_eq(err, tests[i].accum0 != tests[i].x,		\
 		    "Erroneous cas success/failure result");		\
 		assert_##ta##_eq(accum, err ? tests[i].accum0 :		\
 		    tests[i].s, "Erroneous cas effect, i=%u", i);	\
 									\
 		accum = tests[i].accum0;				\
 		atomic_write_##p(&accum, tests[i].s);			\
 		assert_##ta##_eq(accum, tests[i].s,			\
 		    "Erroneous write, i=%u", i);			\
 	}								\
 } while (0)

 TEST_STRUCT(uint64, uint64_t)
 TEST_BEGIN(test_atomic_uint64)
 {

 #if !(LG_SIZEOF_PTR == 3 || LG_SIZEOF_INT == 3)
 	test_skip("64-bit atomic operations not supported");
 #else
 	TEST_BODY(uint64, uint64_t, uint64_t, u64, FMTx64);
 #endif
 }
 TEST_END

 TEST_STRUCT(uint32, uint32_t)
 TEST_BEGIN(test_atomic_uint32)
 {

 	TEST_BODY(uint32, uint32_t, uint32_t, u32, "#"FMTx32);
 }
 TEST_END

 TEST_STRUCT(p, void *)
 TEST_BEGIN(test_atomic_p)
 {

 	TEST_BODY(p, void *, uintptr_t, ptr, "p");
 }
 TEST_END

 TEST_STRUCT(z, size_t)
 TEST_BEGIN(test_atomic_z)
 {

 	TEST_BODY(z, size_t, size_t, zu, "#zx");
 }
 TEST_END

 TEST_STRUCT(u, unsigned)
 TEST_BEGIN(test_atomic_u)
 {

 	TEST_BODY(u, unsigned, unsigned, u, "#x");
 }
 TEST_END

 int
 main(void)
 {

 	return (test(
 	    test_atomic_uint64,
 	    test_atomic_uint32,
 	    test_atomic_p,
 	    test_atomic_z,
 	    test_atomic_u));
 }
	#include "test/jemalloc_test.h"

	#define TEST_STRUCT(p, t) \
	struct p##_test_s { \
	t accum0; \
	t x; \
	t s; \
	}; \
	typedef struct p##_test_s p##_test_t;

	#define TEST_BODY(p, t, tc, ta, FMT) do { \
	const p##_test_t tests[] = { \
	{(t)-1, (t)-1, (t)-2}, \
	{(t)-1, (t) 0, (t)-2}, \
	{(t)-1, (t) 1, (t)-2}, \
	\
	{(t) 0, (t)-1, (t)-2}, \
	{(t) 0, (t) 0, (t)-2}, \
	{(t) 0, (t) 1, (t)-2}, \
	\
	{(t) 1, (t)-1, (t)-2}, \
	{(t) 1, (t) 0, (t)-2}, \
	{(t) 1, (t) 1, (t)-2}, \
	\
	{(t)0, (t)-(1 << 22), (t)-2}, \
	{(t)0, (t)(1 << 22), (t)-2}, \
	{(t)(1 << 22), (t)-(1 << 22), (t)-2}, \
	{(t)(1 << 22), (t)(1 << 22), (t)-2} \
	}; \
	unsigned i; \
	\
	for (i = 0; i < sizeof(tests)/sizeof(p##_test_t); i++) { \
	bool err; \
	t accum = tests[i].accum0; \
	assert_##ta##_eq(atomic_read_##p(&accum), \
	tests[i].accum0, \
	"Erroneous read, i=%u", i); \
	\
	assert_##ta##_eq(atomic_add_##p(&accum, tests[i].x), \
	(t)((tc)tests[i].accum0 + (tc)tests[i].x), \
	"i=%u, accum=%"FMT", x=%"FMT, \
	i, tests[i].accum0, tests[i].x); \
	assert_##ta##_eq(atomic_read_##p(&accum), accum, \
	"Erroneous add, i=%u", i); \
	\
	accum = tests[i].accum0; \
	assert_##ta##_eq(atomic_sub_##p(&accum, tests[i].x), \
	(t)((tc)tests[i].accum0 - (tc)tests[i].x), \
	"i=%u, accum=%"FMT", x=%"FMT, \
	i, tests[i].accum0, tests[i].x); \
	assert_##ta##_eq(atomic_read_##p(&accum), accum, \
	"Erroneous sub, i=%u", i); \
	\
	accum = tests[i].accum0; \
	err = atomic_cas_##p(&accum, tests[i].x, tests[i].s); \
	assert_b_eq(err, tests[i].accum0 != tests[i].x, \
	"Erroneous cas success/failure result"); \
	assert_##ta##_eq(accum, err ? tests[i].accum0 : \
	tests[i].s, "Erroneous cas effect, i=%u", i); \
	\
	accum = tests[i].accum0; \
	atomic_write_##p(&accum, tests[i].s); \
	assert_##ta##_eq(accum, tests[i].s, \
	"Erroneous write, i=%u", i); \
	} \
	} while (0)

	TEST_STRUCT(uint64, uint64_t)
	TEST_BEGIN(test_atomic_uint64)
	{

	#if !(LG_SIZEOF_PTR == 3 \|\| LG_SIZEOF_INT == 3)
	test_skip("64-bit atomic operations not supported");
	#else
	TEST_BODY(uint64, uint64_t, uint64_t, u64, FMTx64);
	#endif
	}
	TEST_END

	TEST_STRUCT(uint32, uint32_t)
	TEST_BEGIN(test_atomic_uint32)
	{

	TEST_BODY(uint32, uint32_t, uint32_t, u32, "#"FMTx32);
	}
	TEST_END

	TEST_STRUCT(p, void *)
	TEST_BEGIN(test_atomic_p)
	{

	TEST_BODY(p, void *, uintptr_t, ptr, "p");
	}
	TEST_END

	TEST_STRUCT(z, size_t)
	TEST_BEGIN(test_atomic_z)
	{

	TEST_BODY(z, size_t, size_t, zu, "#zx");
	}
	TEST_END

	TEST_STRUCT(u, unsigned)
	TEST_BEGIN(test_atomic_u)
	{

	TEST_BODY(u, unsigned, unsigned, u, "#x");
	}
	TEST_END

	int
	main(void)
	{

	return (test(
	test_atomic_uint64,
	test_atomic_uint32,
	test_atomic_p,
	test_atomic_z,
	test_atomic_u));
	}