libs/libvtrutil/test/test_math.cpp - third_party/vtr-verilog-to-routing - Git at Google

 #include <limits>

 #include "catch.hpp"

 #include "vtr_math.h"

 TEST_CASE("Nearest Integer", "[vtr_math]") {
     REQUIRE(vtr::nint(0.) == 0);
     REQUIRE(vtr::nint(0.1) == 0);
     REQUIRE(vtr::nint(0.5) == 1);
     REQUIRE(vtr::nint(0.9) == 1);

     REQUIRE(vtr::nint(1.) == 1);
     REQUIRE(vtr::nint(1.1) == 1);
     REQUIRE(vtr::nint(1.5) == 2);
     REQUIRE(vtr::nint(1.9) == 2);

     REQUIRE(vtr::nint(42.) == 42);
     REQUIRE(vtr::nint(42.1) == 42);
     REQUIRE(vtr::nint(42.5) == 43);
     REQUIRE(vtr::nint(42.9) == 43);
 }

 TEST_CASE("Safe Ratio", "[vtr_math]") {
     REQUIRE(vtr::safe_ratio(1., 1.) == Approx(1.));
     REQUIRE(vtr::safe_ratio(1., 2.) == Approx(0.5));
     REQUIRE(vtr::safe_ratio(50., 0.) == Approx(0.));
 }

 TEST_CASE("Is Close", "[vtr_math]") {
     //double NAN = std::numeric_limits<double>::quiet_NaN();
     double INF = std::numeric_limits<double>::infinity();

     double num = 32.4;

     double num_close = num - vtr::DEFAULT_REL_TOL * num / 2;
     double num_not_quite_close = num - 2 * vtr::DEFAULT_REL_TOL * num;
     double num_far = 2 * num;

     REQUIRE(vtr::isclose(-1., -1.));
     REQUIRE(vtr::isclose(1., 1.));
     REQUIRE(vtr::isclose(0., 0.));
     REQUIRE(vtr::isclose(num, num));
     REQUIRE(vtr::isclose(num, num_close));
     REQUIRE(!vtr::isclose(num, num_not_quite_close));
     REQUIRE(!vtr::isclose(num, num_far));

     REQUIRE(vtr::isclose(INF, INF));
     REQUIRE(!vtr::isclose(-INF, INF));
     REQUIRE(!vtr::isclose(NAN, NAN));

     //Absolute tolerance tests
     REQUIRE(vtr::isclose(32.2, 32.4, 1e-9, 0.2));
     REQUIRE(!vtr::isclose(32.2, 32.4, 1e-9, 0.1));
 }
	#include <limits>

	#include "catch.hpp"

	#include "vtr_math.h"

	TEST_CASE("Nearest Integer", "[vtr_math]") {
	REQUIRE(vtr::nint(0.) == 0);
	REQUIRE(vtr::nint(0.1) == 0);
	REQUIRE(vtr::nint(0.5) == 1);
	REQUIRE(vtr::nint(0.9) == 1);

	REQUIRE(vtr::nint(1.) == 1);
	REQUIRE(vtr::nint(1.1) == 1);
	REQUIRE(vtr::nint(1.5) == 2);
	REQUIRE(vtr::nint(1.9) == 2);

	REQUIRE(vtr::nint(42.) == 42);
	REQUIRE(vtr::nint(42.1) == 42);
	REQUIRE(vtr::nint(42.5) == 43);
	REQUIRE(vtr::nint(42.9) == 43);
	}

	TEST_CASE("Safe Ratio", "[vtr_math]") {
	REQUIRE(vtr::safe_ratio(1., 1.) == Approx(1.));
	REQUIRE(vtr::safe_ratio(1., 2.) == Approx(0.5));
	REQUIRE(vtr::safe_ratio(50., 0.) == Approx(0.));
	}

	TEST_CASE("Is Close", "[vtr_math]") {
	//double NAN = std::numeric_limits<double>::quiet_NaN();
	double INF = std::numeric_limits<double>::infinity();

	double num = 32.4;

	double num_close = num - vtr::DEFAULT_REL_TOL * num / 2;
	double num_not_quite_close = num - 2 * vtr::DEFAULT_REL_TOL * num;
	double num_far = 2 * num;

	REQUIRE(vtr::isclose(-1., -1.));
	REQUIRE(vtr::isclose(1., 1.));
	REQUIRE(vtr::isclose(0., 0.));
	REQUIRE(vtr::isclose(num, num));
	REQUIRE(vtr::isclose(num, num_close));
	REQUIRE(!vtr::isclose(num, num_not_quite_close));
	REQUIRE(!vtr::isclose(num, num_far));

	REQUIRE(vtr::isclose(INF, INF));
	REQUIRE(!vtr::isclose(-INF, INF));
	REQUIRE(!vtr::isclose(NAN, NAN));

	//Absolute tolerance tests
	REQUIRE(vtr::isclose(32.2, 32.4, 1e-9, 0.2));
	REQUIRE(!vtr::isclose(32.2, 32.4, 1e-9, 0.1));
	}