1*71db0c75SAndroid Build Coastguard Worker //===-- Utility class to test different flavors of ldexp --------*- C++ -*-===// 2*71db0c75SAndroid Build Coastguard Worker // 3*71db0c75SAndroid Build Coastguard Worker // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4*71db0c75SAndroid Build Coastguard Worker // See https://llvm.org/LICENSE.txt for license information. 5*71db0c75SAndroid Build Coastguard Worker // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6*71db0c75SAndroid Build Coastguard Worker // 7*71db0c75SAndroid Build Coastguard Worker //===----------------------------------------------------------------------===// 8*71db0c75SAndroid Build Coastguard Worker 9*71db0c75SAndroid Build Coastguard Worker #ifndef LLVM_LIBC_TEST_SRC_MATH_LDEXPTEST_H 10*71db0c75SAndroid Build Coastguard Worker #define LLVM_LIBC_TEST_SRC_MATH_LDEXPTEST_H 11*71db0c75SAndroid Build Coastguard Worker 12*71db0c75SAndroid Build Coastguard Worker #include "src/__support/CPP/limits.h" // INT_MAX 13*71db0c75SAndroid Build Coastguard Worker #include "src/__support/FPUtil/FPBits.h" 14*71db0c75SAndroid Build Coastguard Worker #include "src/__support/FPUtil/NormalFloat.h" 15*71db0c75SAndroid Build Coastguard Worker #include "test/UnitTest/FEnvSafeTest.h" 16*71db0c75SAndroid Build Coastguard Worker #include "test/UnitTest/FPMatcher.h" 17*71db0c75SAndroid Build Coastguard Worker #include "test/UnitTest/Test.h" 18*71db0c75SAndroid Build Coastguard Worker 19*71db0c75SAndroid Build Coastguard Worker #include "hdr/math_macros.h" 20*71db0c75SAndroid Build Coastguard Worker #include <stdint.h> 21*71db0c75SAndroid Build Coastguard Worker 22*71db0c75SAndroid Build Coastguard Worker using LIBC_NAMESPACE::Sign; 23*71db0c75SAndroid Build Coastguard Worker 24*71db0c75SAndroid Build Coastguard Worker template <typename T> 25*71db0c75SAndroid Build Coastguard Worker class LdExpTestTemplate : public LIBC_NAMESPACE::testing::FEnvSafeTest { 26*71db0c75SAndroid Build Coastguard Worker using FPBits = LIBC_NAMESPACE::fputil::FPBits<T>; 27*71db0c75SAndroid Build Coastguard Worker using NormalFloat = LIBC_NAMESPACE::fputil::NormalFloat<T>; 28*71db0c75SAndroid Build Coastguard Worker using StorageType = typename FPBits::StorageType; 29*71db0c75SAndroid Build Coastguard Worker 30*71db0c75SAndroid Build Coastguard Worker const T inf = FPBits::inf(Sign::POS).get_val(); 31*71db0c75SAndroid Build Coastguard Worker const T neg_inf = FPBits::inf(Sign::NEG).get_val(); 32*71db0c75SAndroid Build Coastguard Worker const T zero = FPBits::zero(Sign::POS).get_val(); 33*71db0c75SAndroid Build Coastguard Worker const T neg_zero = FPBits::zero(Sign::NEG).get_val(); 34*71db0c75SAndroid Build Coastguard Worker const T nan = FPBits::quiet_nan().get_val(); 35*71db0c75SAndroid Build Coastguard Worker 36*71db0c75SAndroid Build Coastguard Worker // A normalized mantissa to be used with tests. 37*71db0c75SAndroid Build Coastguard Worker static constexpr StorageType MANTISSA = NormalFloat::ONE + 0x1234; 38*71db0c75SAndroid Build Coastguard Worker 39*71db0c75SAndroid Build Coastguard Worker public: 40*71db0c75SAndroid Build Coastguard Worker typedef T (*LdExpFunc)(T, int); 41*71db0c75SAndroid Build Coastguard Worker testSpecialNumbers(LdExpFunc func)42*71db0c75SAndroid Build Coastguard Worker void testSpecialNumbers(LdExpFunc func) { 43*71db0c75SAndroid Build Coastguard Worker int exp_array[5] = {-INT_MAX - 1, -10, 0, 10, INT_MAX}; 44*71db0c75SAndroid Build Coastguard Worker for (int exp : exp_array) { 45*71db0c75SAndroid Build Coastguard Worker ASSERT_FP_EQ(zero, func(zero, exp)); 46*71db0c75SAndroid Build Coastguard Worker ASSERT_FP_EQ(neg_zero, func(neg_zero, exp)); 47*71db0c75SAndroid Build Coastguard Worker ASSERT_FP_EQ(inf, func(inf, exp)); 48*71db0c75SAndroid Build Coastguard Worker ASSERT_FP_EQ(neg_inf, func(neg_inf, exp)); 49*71db0c75SAndroid Build Coastguard Worker ASSERT_FP_EQ(nan, func(nan, exp)); 50*71db0c75SAndroid Build Coastguard Worker } 51*71db0c75SAndroid Build Coastguard Worker } 52*71db0c75SAndroid Build Coastguard Worker testPowersOfTwo(LdExpFunc func)53*71db0c75SAndroid Build Coastguard Worker void testPowersOfTwo(LdExpFunc func) { 54*71db0c75SAndroid Build Coastguard Worker int32_t exp_array[5] = {1, 2, 3, 4, 5}; 55*71db0c75SAndroid Build Coastguard Worker int32_t val_array[6] = {1, 2, 4, 8, 16, 32}; 56*71db0c75SAndroid Build Coastguard Worker for (int32_t exp : exp_array) { 57*71db0c75SAndroid Build Coastguard Worker for (int32_t val : val_array) { 58*71db0c75SAndroid Build Coastguard Worker ASSERT_FP_EQ(T(val << exp), func(T(val), exp)); 59*71db0c75SAndroid Build Coastguard Worker ASSERT_FP_EQ(T(-1 * (val << exp)), func(T(-val), exp)); 60*71db0c75SAndroid Build Coastguard Worker } 61*71db0c75SAndroid Build Coastguard Worker } 62*71db0c75SAndroid Build Coastguard Worker } 63*71db0c75SAndroid Build Coastguard Worker testOverflow(LdExpFunc func)64*71db0c75SAndroid Build Coastguard Worker void testOverflow(LdExpFunc func) { 65*71db0c75SAndroid Build Coastguard Worker NormalFloat x(Sign::POS, FPBits::MAX_BIASED_EXPONENT - 10, 66*71db0c75SAndroid Build Coastguard Worker NormalFloat::ONE + 0xF00BA); 67*71db0c75SAndroid Build Coastguard Worker for (int32_t exp = 10; exp < 100; ++exp) { 68*71db0c75SAndroid Build Coastguard Worker ASSERT_FP_EQ(inf, func(T(x), exp)); 69*71db0c75SAndroid Build Coastguard Worker ASSERT_FP_EQ(neg_inf, func(-T(x), exp)); 70*71db0c75SAndroid Build Coastguard Worker } 71*71db0c75SAndroid Build Coastguard Worker } 72*71db0c75SAndroid Build Coastguard Worker testUnderflowToZeroOnNormal(LdExpFunc func)73*71db0c75SAndroid Build Coastguard Worker void testUnderflowToZeroOnNormal(LdExpFunc func) { 74*71db0c75SAndroid Build Coastguard Worker // In this test, we pass a normal nubmer to func and expect zero 75*71db0c75SAndroid Build Coastguard Worker // to be returned due to underflow. 76*71db0c75SAndroid Build Coastguard Worker int32_t base_exponent = FPBits::EXP_BIAS + FPBits::FRACTION_LEN; 77*71db0c75SAndroid Build Coastguard Worker int32_t exp_array[] = {base_exponent + 5, base_exponent + 4, 78*71db0c75SAndroid Build Coastguard Worker base_exponent + 3, base_exponent + 2, 79*71db0c75SAndroid Build Coastguard Worker base_exponent + 1}; 80*71db0c75SAndroid Build Coastguard Worker T x = NormalFloat(Sign::POS, 0, MANTISSA); 81*71db0c75SAndroid Build Coastguard Worker for (int32_t exp : exp_array) { 82*71db0c75SAndroid Build Coastguard Worker ASSERT_FP_EQ(func(x, -exp), x > 0 ? zero : neg_zero); 83*71db0c75SAndroid Build Coastguard Worker } 84*71db0c75SAndroid Build Coastguard Worker } 85*71db0c75SAndroid Build Coastguard Worker testUnderflowToZeroOnSubnormal(LdExpFunc func)86*71db0c75SAndroid Build Coastguard Worker void testUnderflowToZeroOnSubnormal(LdExpFunc func) { 87*71db0c75SAndroid Build Coastguard Worker // In this test, we pass a normal nubmer to func and expect zero 88*71db0c75SAndroid Build Coastguard Worker // to be returned due to underflow. 89*71db0c75SAndroid Build Coastguard Worker int32_t base_exponent = FPBits::EXP_BIAS + FPBits::FRACTION_LEN; 90*71db0c75SAndroid Build Coastguard Worker int32_t exp_array[] = {base_exponent + 5, base_exponent + 4, 91*71db0c75SAndroid Build Coastguard Worker base_exponent + 3, base_exponent + 2, 92*71db0c75SAndroid Build Coastguard Worker base_exponent + 1}; 93*71db0c75SAndroid Build Coastguard Worker T x = NormalFloat(Sign::POS, -FPBits::EXP_BIAS, MANTISSA); 94*71db0c75SAndroid Build Coastguard Worker for (int32_t exp : exp_array) { 95*71db0c75SAndroid Build Coastguard Worker ASSERT_FP_EQ(func(x, -exp), x > 0 ? zero : neg_zero); 96*71db0c75SAndroid Build Coastguard Worker } 97*71db0c75SAndroid Build Coastguard Worker } 98*71db0c75SAndroid Build Coastguard Worker testNormalOperation(LdExpFunc func)99*71db0c75SAndroid Build Coastguard Worker void testNormalOperation(LdExpFunc func) { 100*71db0c75SAndroid Build Coastguard Worker T val_array[] = {// Normal numbers 101*71db0c75SAndroid Build Coastguard Worker NormalFloat(Sign::POS, 100, MANTISSA), 102*71db0c75SAndroid Build Coastguard Worker NormalFloat(Sign::POS, -100, MANTISSA), 103*71db0c75SAndroid Build Coastguard Worker NormalFloat(Sign::NEG, 100, MANTISSA), 104*71db0c75SAndroid Build Coastguard Worker NormalFloat(Sign::NEG, -100, MANTISSA), 105*71db0c75SAndroid Build Coastguard Worker // Subnormal numbers 106*71db0c75SAndroid Build Coastguard Worker NormalFloat(Sign::POS, -FPBits::EXP_BIAS, MANTISSA), 107*71db0c75SAndroid Build Coastguard Worker NormalFloat(Sign::NEG, -FPBits::EXP_BIAS, MANTISSA)}; 108*71db0c75SAndroid Build Coastguard Worker for (int32_t exp = 0; exp <= FPBits::FRACTION_LEN; ++exp) { 109*71db0c75SAndroid Build Coastguard Worker for (T x : val_array) { 110*71db0c75SAndroid Build Coastguard Worker // We compare the result of ldexp with the result 111*71db0c75SAndroid Build Coastguard Worker // of the native multiplication/division instruction. 112*71db0c75SAndroid Build Coastguard Worker 113*71db0c75SAndroid Build Coastguard Worker // We need to use a NormalFloat here (instead of 1 << exp), because 114*71db0c75SAndroid Build Coastguard Worker // there are 32 bit systems that don't support 128bit long ints but 115*71db0c75SAndroid Build Coastguard Worker // support long doubles. This test can do 1 << 64, which would fail 116*71db0c75SAndroid Build Coastguard Worker // in these systems. 117*71db0c75SAndroid Build Coastguard Worker NormalFloat two_to_exp = NormalFloat(static_cast<T>(1.L)); 118*71db0c75SAndroid Build Coastguard Worker two_to_exp = two_to_exp.mul2(exp); 119*71db0c75SAndroid Build Coastguard Worker 120*71db0c75SAndroid Build Coastguard Worker ASSERT_FP_EQ(func(x, exp), x * two_to_exp); 121*71db0c75SAndroid Build Coastguard Worker ASSERT_FP_EQ(func(x, -exp), x / two_to_exp); 122*71db0c75SAndroid Build Coastguard Worker } 123*71db0c75SAndroid Build Coastguard Worker } 124*71db0c75SAndroid Build Coastguard Worker 125*71db0c75SAndroid Build Coastguard Worker // Normal which trigger mantissa overflow. 126*71db0c75SAndroid Build Coastguard Worker T x = NormalFloat(Sign::POS, -FPBits::EXP_BIAS + 1, 127*71db0c75SAndroid Build Coastguard Worker StorageType(2) * NormalFloat::ONE - StorageType(1)); 128*71db0c75SAndroid Build Coastguard Worker ASSERT_FP_EQ(func(x, -1), x / 2); 129*71db0c75SAndroid Build Coastguard Worker ASSERT_FP_EQ(func(-x, -1), -x / 2); 130*71db0c75SAndroid Build Coastguard Worker 131*71db0c75SAndroid Build Coastguard Worker // Start with a normal number high exponent but pass a very low number for 132*71db0c75SAndroid Build Coastguard Worker // exp. The result should be a subnormal number. 133*71db0c75SAndroid Build Coastguard Worker x = NormalFloat(Sign::POS, FPBits::EXP_BIAS, NormalFloat::ONE); 134*71db0c75SAndroid Build Coastguard Worker int exp = -FPBits::MAX_BIASED_EXPONENT - 5; 135*71db0c75SAndroid Build Coastguard Worker T result = func(x, exp); 136*71db0c75SAndroid Build Coastguard Worker FPBits result_bits(result); 137*71db0c75SAndroid Build Coastguard Worker ASSERT_FALSE(result_bits.is_zero()); 138*71db0c75SAndroid Build Coastguard Worker // Verify that the result is indeed subnormal. 139*71db0c75SAndroid Build Coastguard Worker ASSERT_EQ(result_bits.get_biased_exponent(), uint16_t(0)); 140*71db0c75SAndroid Build Coastguard Worker // But if the exp is so less that normalization leads to zero, then 141*71db0c75SAndroid Build Coastguard Worker // the result should be zero. 142*71db0c75SAndroid Build Coastguard Worker result = func(x, -FPBits::MAX_BIASED_EXPONENT - FPBits::FRACTION_LEN - 5); 143*71db0c75SAndroid Build Coastguard Worker ASSERT_TRUE(FPBits(result).is_zero()); 144*71db0c75SAndroid Build Coastguard Worker 145*71db0c75SAndroid Build Coastguard Worker // Start with a subnormal number but pass a very high number for exponent. 146*71db0c75SAndroid Build Coastguard Worker // The result should not be infinity. 147*71db0c75SAndroid Build Coastguard Worker x = NormalFloat(Sign::POS, -FPBits::EXP_BIAS + 1, NormalFloat::ONE >> 10); 148*71db0c75SAndroid Build Coastguard Worker exp = FPBits::MAX_BIASED_EXPONENT + 5; 149*71db0c75SAndroid Build Coastguard Worker ASSERT_FALSE(FPBits(func(x, exp)).is_inf()); 150*71db0c75SAndroid Build Coastguard Worker // But if the exp is large enough to oversome than the normalization shift, 151*71db0c75SAndroid Build Coastguard Worker // then it should result in infinity. 152*71db0c75SAndroid Build Coastguard Worker exp = FPBits::MAX_BIASED_EXPONENT + 15; 153*71db0c75SAndroid Build Coastguard Worker ASSERT_FP_EQ(func(x, exp), inf); 154*71db0c75SAndroid Build Coastguard Worker } 155*71db0c75SAndroid Build Coastguard Worker }; 156*71db0c75SAndroid Build Coastguard Worker 157*71db0c75SAndroid Build Coastguard Worker #define LIST_LDEXP_TESTS(T, func) \ 158*71db0c75SAndroid Build Coastguard Worker using LlvmLibcLdExpTest = LdExpTestTemplate<T>; \ 159*71db0c75SAndroid Build Coastguard Worker TEST_F(LlvmLibcLdExpTest, SpecialNumbers) { testSpecialNumbers(&func); } \ 160*71db0c75SAndroid Build Coastguard Worker TEST_F(LlvmLibcLdExpTest, PowersOfTwo) { testPowersOfTwo(&func); } \ 161*71db0c75SAndroid Build Coastguard Worker TEST_F(LlvmLibcLdExpTest, OverFlow) { testOverflow(&func); } \ 162*71db0c75SAndroid Build Coastguard Worker TEST_F(LlvmLibcLdExpTest, UnderflowToZeroOnNormal) { \ 163*71db0c75SAndroid Build Coastguard Worker testUnderflowToZeroOnNormal(&func); \ 164*71db0c75SAndroid Build Coastguard Worker } \ 165*71db0c75SAndroid Build Coastguard Worker TEST_F(LlvmLibcLdExpTest, UnderflowToZeroOnSubnormal) { \ 166*71db0c75SAndroid Build Coastguard Worker testUnderflowToZeroOnSubnormal(&func); \ 167*71db0c75SAndroid Build Coastguard Worker } \ 168*71db0c75SAndroid Build Coastguard Worker TEST_F(LlvmLibcLdExpTest, NormalOperation) { testNormalOperation(&func); } 169*71db0c75SAndroid Build Coastguard Worker 170*71db0c75SAndroid Build Coastguard Worker #endif // LLVM_LIBC_TEST_SRC_MATH_LDEXPTEST_H 171