#include "test.h" #include "utils/fluid_conv.h" #include "utils/fluid_sys.h" // this test makes sure FLUID_SNPRINTF uses a proper C99 compliant implementation int float_eq(fluid_real_t x, fluid_real_t y) { static const float EPS = 1e-5; FLUID_LOG(FLUID_INFO, "Comparing %.9f and %.9f", x, y); return FLUID_FABS(x-y) < EPS; } int main(void) { // 440 * 2^((x-6900)/1200) where x is the cent value given to ct2hz() TEST_ASSERT(float_eq(fluid_ct2hz_real(38099), 2.9510849101059895e10)); TEST_ASSERT(float_eq(fluid_ct2hz_real(13500), 19912.12696)); TEST_ASSERT(float_eq(fluid_ct2hz_real(12900), 14080)); TEST_ASSERT(float_eq(fluid_ct2hz_real(12899), 14071.86942)); TEST_ASSERT(float_eq(fluid_ct2hz_real(12700), 12543.85395)); TEST_ASSERT(float_eq(fluid_ct2hz_real(6900), 440)); TEST_ASSERT(float_eq(fluid_ct2hz_real(5700), 220)); TEST_ASSERT(float_eq(fluid_ct2hz_real(4500), 110)); TEST_ASSERT(float_eq(fluid_ct2hz_real(901), 13.75794461)); TEST_ASSERT(float_eq(fluid_ct2hz_real(900), 13.75)); TEST_ASSERT(float_eq(fluid_ct2hz_real(899), 13.74205998)); TEST_ASSERT(float_eq(fluid_ct2hz_real(1), 8.180522806)); TEST_ASSERT(float_eq(fluid_ct2hz_real(0), 8.175798916)); // often referred to as Absolute zero in the SF2 spec return EXIT_SUCCESS; }