#include "test/jemalloc_test.h" #define BILLION UINT64_C(1000000000) TEST_BEGIN(test_nstime_init) { nstime_t nst; nstime_init(&nst, 42000000043); expect_u64_eq(nstime_ns(&nst), 42000000043, "ns incorrectly read"); expect_u64_eq(nstime_sec(&nst), 42, "sec incorrectly read"); expect_u64_eq(nstime_nsec(&nst), 43, "nsec incorrectly read"); } TEST_END TEST_BEGIN(test_nstime_init2) { nstime_t nst; nstime_init2(&nst, 42, 43); expect_u64_eq(nstime_sec(&nst), 42, "sec incorrectly read"); expect_u64_eq(nstime_nsec(&nst), 43, "nsec incorrectly read"); } TEST_END TEST_BEGIN(test_nstime_copy) { nstime_t nsta, nstb; nstime_init2(&nsta, 42, 43); nstime_init_zero(&nstb); nstime_copy(&nstb, &nsta); expect_u64_eq(nstime_sec(&nstb), 42, "sec incorrectly copied"); expect_u64_eq(nstime_nsec(&nstb), 43, "nsec incorrectly copied"); } TEST_END TEST_BEGIN(test_nstime_compare) { nstime_t nsta, nstb; nstime_init2(&nsta, 42, 43); nstime_copy(&nstb, &nsta); expect_d_eq(nstime_compare(&nsta, &nstb), 0, "Times should be equal"); expect_d_eq(nstime_compare(&nstb, &nsta), 0, "Times should be equal"); nstime_init2(&nstb, 42, 42); expect_d_eq(nstime_compare(&nsta, &nstb), 1, "nsta should be greater than nstb"); expect_d_eq(nstime_compare(&nstb, &nsta), -1, "nstb should be less than nsta"); nstime_init2(&nstb, 42, 44); expect_d_eq(nstime_compare(&nsta, &nstb), -1, "nsta should be less than nstb"); expect_d_eq(nstime_compare(&nstb, &nsta), 1, "nstb should be greater than nsta"); nstime_init2(&nstb, 41, BILLION - 1); expect_d_eq(nstime_compare(&nsta, &nstb), 1, "nsta should be greater than nstb"); expect_d_eq(nstime_compare(&nstb, &nsta), -1, "nstb should be less than nsta"); nstime_init2(&nstb, 43, 0); expect_d_eq(nstime_compare(&nsta, &nstb), -1, "nsta should be less than nstb"); expect_d_eq(nstime_compare(&nstb, &nsta), 1, "nstb should be greater than nsta"); } TEST_END TEST_BEGIN(test_nstime_add) { nstime_t nsta, nstb; nstime_init2(&nsta, 42, 43); nstime_copy(&nstb, &nsta); nstime_add(&nsta, &nstb); nstime_init2(&nstb, 84, 86); expect_d_eq(nstime_compare(&nsta, &nstb), 0, "Incorrect addition result"); nstime_init2(&nsta, 42, BILLION - 1); nstime_copy(&nstb, &nsta); nstime_add(&nsta, &nstb); nstime_init2(&nstb, 85, BILLION - 2); expect_d_eq(nstime_compare(&nsta, &nstb), 0, "Incorrect addition result"); } TEST_END TEST_BEGIN(test_nstime_iadd) { nstime_t nsta, nstb; nstime_init2(&nsta, 42, BILLION - 1); nstime_iadd(&nsta, 1); nstime_init2(&nstb, 43, 0); expect_d_eq(nstime_compare(&nsta, &nstb), 0, "Incorrect addition result"); nstime_init2(&nsta, 42, 1); nstime_iadd(&nsta, BILLION + 1); nstime_init2(&nstb, 43, 2); expect_d_eq(nstime_compare(&nsta, &nstb), 0, "Incorrect addition result"); } TEST_END TEST_BEGIN(test_nstime_subtract) { nstime_t nsta, nstb; nstime_init2(&nsta, 42, 43); nstime_copy(&nstb, &nsta); nstime_subtract(&nsta, &nstb); nstime_init_zero(&nstb); expect_d_eq(nstime_compare(&nsta, &nstb), 0, "Incorrect subtraction result"); nstime_init2(&nsta, 42, 43); nstime_init2(&nstb, 41, 44); nstime_subtract(&nsta, &nstb); nstime_init2(&nstb, 0, BILLION - 1); expect_d_eq(nstime_compare(&nsta, &nstb), 0, "Incorrect subtraction result"); } TEST_END TEST_BEGIN(test_nstime_isubtract) { nstime_t nsta, nstb; nstime_init2(&nsta, 42, 43); nstime_isubtract(&nsta, 42*BILLION + 43); nstime_init_zero(&nstb); expect_d_eq(nstime_compare(&nsta, &nstb), 0, "Incorrect subtraction result"); nstime_init2(&nsta, 42, 43); nstime_isubtract(&nsta, 41*BILLION + 44); nstime_init2(&nstb, 0, BILLION - 1); expect_d_eq(nstime_compare(&nsta, &nstb), 0, "Incorrect subtraction result"); } TEST_END TEST_BEGIN(test_nstime_imultiply) { nstime_t nsta, nstb; nstime_init2(&nsta, 42, 43); nstime_imultiply(&nsta, 10); nstime_init2(&nstb, 420, 430); expect_d_eq(nstime_compare(&nsta, &nstb), 0, "Incorrect multiplication result"); nstime_init2(&nsta, 42, 666666666); nstime_imultiply(&nsta, 3); nstime_init2(&nstb, 127, 999999998); expect_d_eq(nstime_compare(&nsta, &nstb), 0, "Incorrect multiplication result"); } TEST_END TEST_BEGIN(test_nstime_idivide) { nstime_t nsta, nstb; nstime_init2(&nsta, 42, 43); nstime_copy(&nstb, &nsta); nstime_imultiply(&nsta, 10); nstime_idivide(&nsta, 10); expect_d_eq(nstime_compare(&nsta, &nstb), 0, "Incorrect division result"); nstime_init2(&nsta, 42, 666666666); nstime_copy(&nstb, &nsta); nstime_imultiply(&nsta, 3); nstime_idivide(&nsta, 3); expect_d_eq(nstime_compare(&nsta, &nstb), 0, "Incorrect division result"); } TEST_END TEST_BEGIN(test_nstime_divide) { nstime_t nsta, nstb, nstc; nstime_init2(&nsta, 42, 43); nstime_copy(&nstb, &nsta); nstime_imultiply(&nsta, 10); expect_u64_eq(nstime_divide(&nsta, &nstb), 10, "Incorrect division result"); nstime_init2(&nsta, 42, 43); nstime_copy(&nstb, &nsta); nstime_imultiply(&nsta, 10); nstime_init(&nstc, 1); nstime_add(&nsta, &nstc); expect_u64_eq(nstime_divide(&nsta, &nstb), 10, "Incorrect division result"); nstime_init2(&nsta, 42, 43); nstime_copy(&nstb, &nsta); nstime_imultiply(&nsta, 10); nstime_init(&nstc, 1); nstime_subtract(&nsta, &nstc); expect_u64_eq(nstime_divide(&nsta, &nstb), 9, "Incorrect division result"); } TEST_END void test_nstime_since_once(nstime_t *t) { nstime_t old_t; nstime_copy(&old_t, t); uint64_t ns_since = nstime_ns_since(t); nstime_update(t); nstime_t new_t; nstime_copy(&new_t, t); nstime_subtract(&new_t, &old_t); expect_u64_ge(nstime_ns(&new_t), ns_since, "Incorrect time since result"); } TEST_BEGIN(test_nstime_ns_since) { nstime_t t; nstime_init_update(&t); for (uint64_t i = 0; i < 10000; i++) { /* Keeps updating t and verifies ns_since is valid. */ test_nstime_since_once(&t); } } TEST_END TEST_BEGIN(test_nstime_monotonic) { nstime_monotonic(); } TEST_END int main(void) { return test( test_nstime_init, test_nstime_init2, test_nstime_copy, test_nstime_compare, test_nstime_add, test_nstime_iadd, test_nstime_subtract, test_nstime_isubtract, test_nstime_imultiply, test_nstime_idivide, test_nstime_divide, test_nstime_ns_since, test_nstime_monotonic); }