test/math_test.cpp - external/github.com/rive-app/rive-cpp - Git at Google

 #include <catch.hpp>
 #include <rive/math/math_types.hpp>

 using namespace rive;

 constexpr float kInf = std::numeric_limits<float>::infinity();
 constexpr float kNaN = std::numeric_limits<float>::quiet_NaN();

 // Check math::ieee_float_divide.
 TEST_CASE("ieee_float_divide", "[math]")
 {
     // Make sure we're doing division.
     CHECK(math::ieee_float_divide(100, 10) == 10);

     // Returns +/-Inf if b == 0.
     CHECK(math::ieee_float_divide(5, 0) == kInf);
     CHECK(math::ieee_float_divide(5, -0) == kInf);
     CHECK(math::ieee_float_divide(-3, 0) == -kInf);
     CHECK(math::ieee_float_divide(-3, -0) == -kInf);
     CHECK(math::ieee_float_divide(kInf, 0) == kInf);
     CHECK(math::ieee_float_divide(-kInf, 0) == -kInf);
     CHECK(math::ieee_float_divide(kInf, -0) == kInf);
     CHECK(math::ieee_float_divide(-kInf, -0) == -kInf);

     // Returns 0 if b == +/-Inf.
     CHECK(math::ieee_float_divide(1, kInf) == 0);
     CHECK(math::ieee_float_divide(-100, kInf) == 0);
     CHECK(math::ieee_float_divide(std::numeric_limits<float>::max(), kInf) == 0);
     CHECK(math::ieee_float_divide(std::numeric_limits<float>::max(), -kInf) == 0);
     CHECK(math::ieee_float_divide(-std::numeric_limits<float>::max(), -kInf) == 0);
     CHECK(math::ieee_float_divide(-std::numeric_limits<float>::max(), kInf) == 0);
     CHECK(math::ieee_float_divide(0, kInf) == 0);
     CHECK(math::ieee_float_divide(0, -kInf) == 0);
     CHECK(math::ieee_float_divide(-0, -kInf) == 0);
     CHECK(math::ieee_float_divide(-0, kInf) == 0);

     // Returns NaN if a and b are both zero.
     CHECK(std::isnan(math::ieee_float_divide(0, 0)));
     CHECK(std::isnan(math::ieee_float_divide(0, -0)));
     CHECK(std::isnan(math::ieee_float_divide(-0, 0)));
     CHECK(std::isnan(math::ieee_float_divide(-0, -0)));

     // Returns NaN if b and are both infinite.
     CHECK(std::isnan(math::ieee_float_divide(kInf, kInf)));
     CHECK(std::isnan(math::ieee_float_divide(kInf, -kInf)));
     CHECK(std::isnan(math::ieee_float_divide(-kInf, kInf)));
     CHECK(std::isnan(math::ieee_float_divide(kInf, -kInf)));

     // Returns NaN a or b is NaN.
     CHECK(std::isnan(math::ieee_float_divide(kNaN, 1)));
     CHECK(std::isnan(math::ieee_float_divide(kInf, kNaN)));
 }

 // Check math::bit_cast.
 TEST_CASE("bit_cast", "[math]")
 {
     CHECK(math::bit_cast<float>(0x3f800000) == 1);
     CHECK(math::bit_cast<float>((1u << 31) | 0x3f800000) == -1);
     CHECK(math::bit_cast<float>(0x7f800000) == kInf);
     CHECK(math::bit_cast<float>((1u << 31) | 0x7f800000) == -kInf);
     CHECK(std::isnan(math::bit_cast<float>(0x7fc00000)));
 }

 // Check math::clz*
 TEST_CASE("clz", "[math]")
 {
     CHECK(math::clz32(1) == 31);
     CHECK(math::clz32(-1) == 0);
     for (int i = 0; i < 32; ++i)
     {
         CHECK(math::clz32(1 << i) == 31 - i);
         CHECK(math::clz32((1 << i) | (rand() & ((1 << i) - 1))) == 31 - i);
     }

     CHECK(math::clz64(1) == 63);
     CHECK(math::clz64(-1) == 0);
     for (int i = 0; i < 64; ++i)
     {
         CHECK(math::clz64(1ll << i) == 63 - i);
         CHECK(math::clz64((1ll << i) | (rand() & ((1ll << i) - 1))) == 63 - i);
     }
 }

 // Check math::rotateleft32
 TEST_CASE("rotateleft32", "[math]")
 {
     CHECK(math::rotateleft32(0xabcdef01, 24) == 0x01abcdef);
     CHECK(math::rotateleft32(0xffff0000, 16) == 0x0000ffff);
 }

 // Check math::msb.
 TEST_CASE("msb", "[math]")
 {
     CHECK(math::msb(0) == 0);
     CHECK(math::msb(1) == 1);
     CHECK(math::msb(2) == 2);
     CHECK(math::msb(3) == 2);
     CHECK(math::msb(4) == 3);
     CHECK(math::msb(5) == 3);
     CHECK(math::msb(6) == 3);
     CHECK(math::msb(7) == 3);
     CHECK(math::msb(8) == 4);
     CHECK(math::msb(9) == 4);
     for (int i = 0; i < 29; ++i)
     {
         CHECK(math::msb(10 << i) == 4 + i);
     }
     CHECK(math::msb(0xffffffff) == 32);
 }

 // Check math::round_up_to_multiple_of.
 TEST_CASE("round_up_to_multiple_of", "[math]")
 {
     CHECK(math::round_up_to_multiple_of<4>(0) == 0);
     CHECK(math::round_up_to_multiple_of<4>(3) == 4);
     CHECK(math::round_up_to_multiple_of<8>(16) == 16);
     CHECK(math::round_up_to_multiple_of<8>(24) == 24);
     CHECK(math::round_up_to_multiple_of<8>(25) == 32);
     CHECK(math::round_up_to_multiple_of<8>(31) == 32);
     CHECK(math::round_up_to_multiple_of<8>(32) == 32);
     for (size_t i = 0; i < 10; ++i)
     {
         CHECK(math::round_up_to_multiple_of<1>(i) == i);
     }
     CHECK(math::round_up_to_multiple_of<2>(~size_t(0)) == 0);
 }
	#include <catch.hpp>
	#include <rive/math/math_types.hpp>

	using namespace rive;

	constexpr float kInf = std::numeric_limits<float>::infinity();
	constexpr float kNaN = std::numeric_limits<float>::quiet_NaN();

	// Check math::ieee_float_divide.
	TEST_CASE("ieee_float_divide", "[math]")
	{
	// Make sure we're doing division.
	CHECK(math::ieee_float_divide(100, 10) == 10);

	// Returns +/-Inf if b == 0.
	CHECK(math::ieee_float_divide(5, 0) == kInf);
	CHECK(math::ieee_float_divide(5, -0) == kInf);
	CHECK(math::ieee_float_divide(-3, 0) == -kInf);
	CHECK(math::ieee_float_divide(-3, -0) == -kInf);
	CHECK(math::ieee_float_divide(kInf, 0) == kInf);
	CHECK(math::ieee_float_divide(-kInf, 0) == -kInf);
	CHECK(math::ieee_float_divide(kInf, -0) == kInf);
	CHECK(math::ieee_float_divide(-kInf, -0) == -kInf);

	// Returns 0 if b == +/-Inf.
	CHECK(math::ieee_float_divide(1, kInf) == 0);
	CHECK(math::ieee_float_divide(-100, kInf) == 0);
	CHECK(math::ieee_float_divide(std::numeric_limits<float>::max(), kInf) == 0);
	CHECK(math::ieee_float_divide(std::numeric_limits<float>::max(), -kInf) == 0);
	CHECK(math::ieee_float_divide(-std::numeric_limits<float>::max(), -kInf) == 0);
	CHECK(math::ieee_float_divide(-std::numeric_limits<float>::max(), kInf) == 0);
	CHECK(math::ieee_float_divide(0, kInf) == 0);
	CHECK(math::ieee_float_divide(0, -kInf) == 0);
	CHECK(math::ieee_float_divide(-0, -kInf) == 0);
	CHECK(math::ieee_float_divide(-0, kInf) == 0);

	// Returns NaN if a and b are both zero.
	CHECK(std::isnan(math::ieee_float_divide(0, 0)));
	CHECK(std::isnan(math::ieee_float_divide(0, -0)));
	CHECK(std::isnan(math::ieee_float_divide(-0, 0)));
	CHECK(std::isnan(math::ieee_float_divide(-0, -0)));

	// Returns NaN if b and are both infinite.
	CHECK(std::isnan(math::ieee_float_divide(kInf, kInf)));
	CHECK(std::isnan(math::ieee_float_divide(kInf, -kInf)));
	CHECK(std::isnan(math::ieee_float_divide(-kInf, kInf)));
	CHECK(std::isnan(math::ieee_float_divide(kInf, -kInf)));

	// Returns NaN a or b is NaN.
	CHECK(std::isnan(math::ieee_float_divide(kNaN, 1)));
	CHECK(std::isnan(math::ieee_float_divide(kInf, kNaN)));
	}

	// Check math::bit_cast.
	TEST_CASE("bit_cast", "[math]")
	{
	CHECK(math::bit_cast<float>(0x3f800000) == 1);
	CHECK(math::bit_cast<float>((1u << 31) \| 0x3f800000) == -1);
	CHECK(math::bit_cast<float>(0x7f800000) == kInf);
	CHECK(math::bit_cast<float>((1u << 31) \| 0x7f800000) == -kInf);
	CHECK(std::isnan(math::bit_cast<float>(0x7fc00000)));
	}

	// Check math::clz*
	TEST_CASE("clz", "[math]")
	{
	CHECK(math::clz32(1) == 31);
	CHECK(math::clz32(-1) == 0);
	for (int i = 0; i < 32; ++i)
	{
	CHECK(math::clz32(1 << i) == 31 - i);
	CHECK(math::clz32((1 << i) \| (rand() & ((1 << i) - 1))) == 31 - i);
	}

	CHECK(math::clz64(1) == 63);
	CHECK(math::clz64(-1) == 0);
	for (int i = 0; i < 64; ++i)
	{
	CHECK(math::clz64(1ll << i) == 63 - i);
	CHECK(math::clz64((1ll << i) \| (rand() & ((1ll << i) - 1))) == 63 - i);
	}
	}

	// Check math::rotateleft32
	TEST_CASE("rotateleft32", "[math]")
	{
	CHECK(math::rotateleft32(0xabcdef01, 24) == 0x01abcdef);
	CHECK(math::rotateleft32(0xffff0000, 16) == 0x0000ffff);
	}

	// Check math::msb.
	TEST_CASE("msb", "[math]")
	{
	CHECK(math::msb(0) == 0);
	CHECK(math::msb(1) == 1);
	CHECK(math::msb(2) == 2);
	CHECK(math::msb(3) == 2);
	CHECK(math::msb(4) == 3);
	CHECK(math::msb(5) == 3);
	CHECK(math::msb(6) == 3);
	CHECK(math::msb(7) == 3);
	CHECK(math::msb(8) == 4);
	CHECK(math::msb(9) == 4);
	for (int i = 0; i < 29; ++i)
	{
	CHECK(math::msb(10 << i) == 4 + i);
	}
	CHECK(math::msb(0xffffffff) == 32);
	}

	// Check math::round_up_to_multiple_of.
	TEST_CASE("round_up_to_multiple_of", "[math]")
	{
	CHECK(math::round_up_to_multiple_of<4>(0) == 0);
	CHECK(math::round_up_to_multiple_of<4>(3) == 4);
	CHECK(math::round_up_to_multiple_of<8>(16) == 16);
	CHECK(math::round_up_to_multiple_of<8>(24) == 24);
	CHECK(math::round_up_to_multiple_of<8>(25) == 32);
	CHECK(math::round_up_to_multiple_of<8>(31) == 32);
	CHECK(math::round_up_to_multiple_of<8>(32) == 32);
	for (size_t i = 0; i < 10; ++i)
	{
	CHECK(math::round_up_to_multiple_of<1>(i) == i);
	}
	CHECK(math::round_up_to_multiple_of<2>(~size_t(0)) == 0);
	}