#include "config.h" #include "lfptest.h" #include "timevalops.h" #include "unity.h" #include <math.h> /* Required on Solaris for ldexp. */ void test_Seconds(void); void test_MicrosecondsRounded(void); void test_MicrosecondsExact(void); void test_Seconds(void) { struct timeval input = {500, 0}; /* 500.0 s */ l_fp expected = {{500}, 0}; l_fp actual; TVTOTS(&input, &actual); TEST_ASSERT_TRUE(IsEqual(expected, actual)); } void test_MicrosecondsRounded(void) { /* 0.0005 can not be represented exact in a l_fp structure. * It would equal to 2147483,648. This means that * HALF_PROMILLE_UP (which is 2147484) should be * the correct rounding. */ struct timeval input = {0, 500}; /* 0.0005 exact */ l_fp expected = {{0}, HALF_PROMILLE_UP}; l_fp actual; TVTOTS(&input, &actual); TEST_ASSERT_TRUE(IsEqual(expected, actual)); } void test_MicrosecondsExact(void) { /* 0.5 can be represented exact in both l_fp and timeval. */ const struct timeval input = {10, 500000}; /* 0.5 exact */ const l_fp expected = {{10}, HALF}; /* 0.5 exact */ l_fp actual; TVTOTS(&input, &actual); /* Compare the fractional part with an absolute error given. */ TEST_ASSERT_EQUAL_UINT(expected.l_ui, actual.l_ui); double expectedDouble, actualDouble; M_LFPTOD(0, expected.l_uf, expectedDouble); M_LFPTOD(0, actual.l_uf, actualDouble); /* The error should be less than 0.5 us */ TEST_ASSERT_DOUBLE_WITHIN(0.0000005, expectedDouble, actualDouble); } |