diff options
Diffstat (limited to 'memory/jemalloc/src/test/unit/prng.c')
-rw-r--r-- | memory/jemalloc/src/test/unit/prng.c | 263 |
1 files changed, 263 insertions, 0 deletions
diff --git a/memory/jemalloc/src/test/unit/prng.c b/memory/jemalloc/src/test/unit/prng.c new file mode 100644 index 000000000..80c9d733f --- /dev/null +++ b/memory/jemalloc/src/test/unit/prng.c @@ -0,0 +1,263 @@ +#include "test/jemalloc_test.h" + +static void +test_prng_lg_range_u32(bool atomic) +{ + uint32_t sa, sb, ra, rb; + unsigned lg_range; + + sa = 42; + ra = prng_lg_range_u32(&sa, 32, atomic); + sa = 42; + rb = prng_lg_range_u32(&sa, 32, atomic); + assert_u32_eq(ra, rb, + "Repeated generation should produce repeated results"); + + sb = 42; + rb = prng_lg_range_u32(&sb, 32, atomic); + assert_u32_eq(ra, rb, + "Equivalent generation should produce equivalent results"); + + sa = 42; + ra = prng_lg_range_u32(&sa, 32, atomic); + rb = prng_lg_range_u32(&sa, 32, atomic); + assert_u32_ne(ra, rb, + "Full-width results must not immediately repeat"); + + sa = 42; + ra = prng_lg_range_u32(&sa, 32, atomic); + for (lg_range = 31; lg_range > 0; lg_range--) { + sb = 42; + rb = prng_lg_range_u32(&sb, lg_range, atomic); + assert_u32_eq((rb & (UINT32_C(0xffffffff) << lg_range)), + 0, "High order bits should be 0, lg_range=%u", lg_range); + assert_u32_eq(rb, (ra >> (32 - lg_range)), + "Expected high order bits of full-width result, " + "lg_range=%u", lg_range); + } +} + +static void +test_prng_lg_range_u64(void) +{ + uint64_t sa, sb, ra, rb; + unsigned lg_range; + + sa = 42; + ra = prng_lg_range_u64(&sa, 64); + sa = 42; + rb = prng_lg_range_u64(&sa, 64); + assert_u64_eq(ra, rb, + "Repeated generation should produce repeated results"); + + sb = 42; + rb = prng_lg_range_u64(&sb, 64); + assert_u64_eq(ra, rb, + "Equivalent generation should produce equivalent results"); + + sa = 42; + ra = prng_lg_range_u64(&sa, 64); + rb = prng_lg_range_u64(&sa, 64); + assert_u64_ne(ra, rb, + "Full-width results must not immediately repeat"); + + sa = 42; + ra = prng_lg_range_u64(&sa, 64); + for (lg_range = 63; lg_range > 0; lg_range--) { + sb = 42; + rb = prng_lg_range_u64(&sb, lg_range); + assert_u64_eq((rb & (UINT64_C(0xffffffffffffffff) << lg_range)), + 0, "High order bits should be 0, lg_range=%u", lg_range); + assert_u64_eq(rb, (ra >> (64 - lg_range)), + "Expected high order bits of full-width result, " + "lg_range=%u", lg_range); + } +} + +static void +test_prng_lg_range_zu(bool atomic) +{ + size_t sa, sb, ra, rb; + unsigned lg_range; + + sa = 42; + ra = prng_lg_range_zu(&sa, ZU(1) << (3 + LG_SIZEOF_PTR), atomic); + sa = 42; + rb = prng_lg_range_zu(&sa, ZU(1) << (3 + LG_SIZEOF_PTR), atomic); + assert_zu_eq(ra, rb, + "Repeated generation should produce repeated results"); + + sb = 42; + rb = prng_lg_range_zu(&sb, ZU(1) << (3 + LG_SIZEOF_PTR), atomic); + assert_zu_eq(ra, rb, + "Equivalent generation should produce equivalent results"); + + sa = 42; + ra = prng_lg_range_zu(&sa, ZU(1) << (3 + LG_SIZEOF_PTR), atomic); + rb = prng_lg_range_zu(&sa, ZU(1) << (3 + LG_SIZEOF_PTR), atomic); + assert_zu_ne(ra, rb, + "Full-width results must not immediately repeat"); + + sa = 42; + ra = prng_lg_range_zu(&sa, ZU(1) << (3 + LG_SIZEOF_PTR), atomic); + for (lg_range = (ZU(1) << (3 + LG_SIZEOF_PTR)) - 1; lg_range > 0; + lg_range--) { + sb = 42; + rb = prng_lg_range_zu(&sb, lg_range, atomic); + assert_zu_eq((rb & (SIZE_T_MAX << lg_range)), + 0, "High order bits should be 0, lg_range=%u", lg_range); + assert_zu_eq(rb, (ra >> ((ZU(1) << (3 + LG_SIZEOF_PTR)) - + lg_range)), "Expected high order bits of full-width " + "result, lg_range=%u", lg_range); + } +} + +TEST_BEGIN(test_prng_lg_range_u32_nonatomic) +{ + + test_prng_lg_range_u32(false); +} +TEST_END + +TEST_BEGIN(test_prng_lg_range_u32_atomic) +{ + + test_prng_lg_range_u32(true); +} +TEST_END + +TEST_BEGIN(test_prng_lg_range_u64_nonatomic) +{ + + test_prng_lg_range_u64(); +} +TEST_END + +TEST_BEGIN(test_prng_lg_range_zu_nonatomic) +{ + + test_prng_lg_range_zu(false); +} +TEST_END + +TEST_BEGIN(test_prng_lg_range_zu_atomic) +{ + + test_prng_lg_range_zu(true); +} +TEST_END + +static void +test_prng_range_u32(bool atomic) +{ + uint32_t range; +#define MAX_RANGE 10000000 +#define RANGE_STEP 97 +#define NREPS 10 + + for (range = 2; range < MAX_RANGE; range += RANGE_STEP) { + uint32_t s; + unsigned rep; + + s = range; + for (rep = 0; rep < NREPS; rep++) { + uint32_t r = prng_range_u32(&s, range, atomic); + + assert_u32_lt(r, range, "Out of range"); + } + } +} + +static void +test_prng_range_u64(void) +{ + uint64_t range; +#define MAX_RANGE 10000000 +#define RANGE_STEP 97 +#define NREPS 10 + + for (range = 2; range < MAX_RANGE; range += RANGE_STEP) { + uint64_t s; + unsigned rep; + + s = range; + for (rep = 0; rep < NREPS; rep++) { + uint64_t r = prng_range_u64(&s, range); + + assert_u64_lt(r, range, "Out of range"); + } + } +} + +static void +test_prng_range_zu(bool atomic) +{ + size_t range; +#define MAX_RANGE 10000000 +#define RANGE_STEP 97 +#define NREPS 10 + + for (range = 2; range < MAX_RANGE; range += RANGE_STEP) { + size_t s; + unsigned rep; + + s = range; + for (rep = 0; rep < NREPS; rep++) { + size_t r = prng_range_zu(&s, range, atomic); + + assert_zu_lt(r, range, "Out of range"); + } + } +} + +TEST_BEGIN(test_prng_range_u32_nonatomic) +{ + + test_prng_range_u32(false); +} +TEST_END + +TEST_BEGIN(test_prng_range_u32_atomic) +{ + + test_prng_range_u32(true); +} +TEST_END + +TEST_BEGIN(test_prng_range_u64_nonatomic) +{ + + test_prng_range_u64(); +} +TEST_END + +TEST_BEGIN(test_prng_range_zu_nonatomic) +{ + + test_prng_range_zu(false); +} +TEST_END + +TEST_BEGIN(test_prng_range_zu_atomic) +{ + + test_prng_range_zu(true); +} +TEST_END + +int +main(void) +{ + + return (test( + test_prng_lg_range_u32_nonatomic, + test_prng_lg_range_u32_atomic, + test_prng_lg_range_u64_nonatomic, + test_prng_lg_range_zu_nonatomic, + test_prng_lg_range_zu_atomic, + test_prng_range_u32_nonatomic, + test_prng_range_u32_atomic, + test_prng_range_u64_nonatomic, + test_prng_range_zu_nonatomic, + test_prng_range_zu_atomic)); +} |