libc/test/src/complex/ConjTest.h - llvm-project - Git at Google

 //===-- Utility class to test different flavors of conj ---------*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_LIBC_TEST_SRC_COMPLEX_CONJTEST_H
 #define LLVM_LIBC_TEST_SRC_COMPLEX_CONJTEST_H

 #include "test/UnitTest/FEnvSafeTest.h"
 #include "test/UnitTest/FPMatcher.h"
 #include "test/UnitTest/Test.h"

 #include "hdr/math_macros.h"

 template <typename CFPT, typename FPT>
 class ConjTest : public LIBC_NAMESPACE::testing::FEnvSafeTest {

   DECLARE_SPECIAL_CONSTANTS(FPT)

 public:
   typedef CFPT (*ConjFunc)(CFPT);

   void testSpecialNumbers(ConjFunc func) {
     EXPECT_CFP_EQ(func(CFPT(aNaN + 67.123i)), CFPT(aNaN - 67.123i));
     EXPECT_CFP_EQ(func(CFPT(neg_aNaN + 78.319i)), CFPT(neg_aNaN - 78.319i));
     EXPECT_CFP_EQ(func(CFPT(sNaN + 7813.131i)), CFPT(sNaN - 7813.131i));
     EXPECT_CFP_EQ(func(CFPT(neg_sNaN + 7824.152i)), CFPT(neg_sNaN - 7824.152i));
     EXPECT_CFP_EQ(func(CFPT(inf + 9024.2442i)), CFPT(inf - 9024.2442i));
     EXPECT_CFP_EQ(func(CFPT(neg_inf + 8923.124i)), CFPT(neg_inf - 8923.124i));
     EXPECT_CFP_EQ(func(CFPT(min_normal + 782.124i)),
                   CFPT(min_normal - 782.124i));
     EXPECT_CFP_EQ(func(CFPT(max_normal + 2141.2352i)),
                   CFPT(max_normal - 2141.2352i));
     EXPECT_CFP_EQ(func(CFPT(neg_max_normal + 341.134i)),
                   CFPT(neg_max_normal - 341.134i));
     EXPECT_CFP_EQ(func(CFPT(min_denormal + 781.142i)),
                   CFPT(min_denormal - 781.142i));
     EXPECT_CFP_EQ(func(CFPT(neg_min_denormal + 781.134i)),
                   CFPT(neg_min_denormal - 781.134i));
     EXPECT_CFP_EQ(func(CFPT(max_denormal + 1241.112i)),
                   CFPT(max_denormal - 1241.112i));
     EXPECT_CFP_EQ(func(CFPT(zero + 121.121i)), CFPT(zero - 121.121i));
     EXPECT_CFP_EQ(func(CFPT(67.123 + aNaN * 1.0i)), CFPT(67.123 - aNaN * 1.0i));
     EXPECT_CFP_EQ(func(CFPT(78.319 + neg_aNaN * 1.0i)),
                   CFPT(78.319 - neg_aNaN * 1.0i));
     EXPECT_CFP_EQ(func(CFPT(7813.131 + sNaN * 1.0i)),
                   CFPT(7813.131 - sNaN * 1.0i));
     EXPECT_CFP_EQ(func(CFPT(7824.152 + neg_sNaN * 1.0i)),
                   CFPT(7824.152 - neg_sNaN * 1.0i));
     EXPECT_CFP_EQ(func(CFPT(9024.2442 + inf * 1.0i)),
                   CFPT(9024.2442 - inf * 1.0i));
     EXPECT_CFP_EQ(func(CFPT(8923.124 + neg_inf * 1.0i)),
                   CFPT(8923.124 - neg_inf * 1.0i));
     EXPECT_CFP_EQ(func(CFPT(782.124 + min_normal * 1.0i)),
                   CFPT(782.124 - min_normal * 1.0i));
     EXPECT_CFP_EQ(func(CFPT(2141.2352 + max_normal * 1.0i)),
                   CFPT(2141.2352 - max_normal * 1.0i));
     EXPECT_CFP_EQ(func(CFPT(341.134 + neg_max_normal * 1.0i)),
                   CFPT(341.134 - neg_max_normal * 1.0i));
     EXPECT_CFP_EQ(func(CFPT(781.142 + min_denormal * 1.0i)),
                   CFPT(781.142 - min_denormal * 1.0i));
     EXPECT_CFP_EQ(func(CFPT(781.134 + neg_min_denormal * 1.0i)),
                   CFPT(781.134 - neg_min_denormal * 1.0i));
     EXPECT_CFP_EQ(func(CFPT(1241.112 + max_denormal * 1.0i)),
                   CFPT(1241.112 - max_denormal * 1.0i));
     EXPECT_CFP_EQ(func(CFPT(121.121 + zero * 1.0i)),
                   CFPT(121.121 - zero * 1.0i));
     EXPECT_CFP_EQ(func(CFPT(0.0 - 0.0i)), CFPT(0.0 + 0.0i));
     EXPECT_CFP_EQ(func(CFPT(0.0 + 0.0i)), CFPT(0.0 - 0.0i));
     // This test passes because the conjugate of -0.0 - 0.0i is CMPLX(-0.0, 0.0)
     // which cannot be represented as -0.0 + 0.0i because -0.0 + 0.0i is
     // actually CMPLX(-0.0, 0.0) + CMPLX(0.0, 0.0) = 0.0 + 0.0i so to represent
     // CMPLX(-0.0, 0.0), we use -0.0
     EXPECT_CFP_EQ(func(CFPT(-0.0 - 0.0i)), CFPT(-0.0));
     // This test passes because -0.0 + 0.0i is actually
     // CMPLX(-0.0, 0.0) + CMPLX(0.0, 0.0) = CMPLX(-0.0 + 0.0, 0.0) = 0.0 + 0.0i
     EXPECT_CFP_EQ(func(CFPT(-0.0 + 0.0i)), CFPT(0.0 - 0.0i));
     EXPECT_CFP_EQ(func(CFPT(0.0)), CFPT(0.0 - 0.0i));
     EXPECT_CFP_EQ(func(CFPT(-0.0)), CFPT(-0.0 - 0.0i));
     EXPECT_CFP_EQ(func(CFPT(0.0i)), CFPT(0.0 - 0.0i));
     EXPECT_CFP_EQ(func(CFPT(-0.0i)), CFPT(-0.0));
   }

   void testRoundedNumbers(ConjFunc func) {
     EXPECT_CFP_EQ(func((CFPT)(4523.1413 + 12413.1414i)),
                   CFPT(4523.1413 - 12413.1414i));
     EXPECT_CFP_EQ(func((CFPT)(-4523.1413 + 12413.1414i)),
                   CFPT(-4523.1413 - 12413.1414i));
     EXPECT_CFP_EQ(func((CFPT)(4523.1413 - 12413.1414i)),
                   CFPT(4523.1413 + 12413.1414i));
     EXPECT_CFP_EQ(func((CFPT)(-4523.1413 - 12413.1414i)),
                   CFPT(-4523.1413 + 12413.1414i));

     EXPECT_CFP_EQ(func((CFPT)(3210.5678 + 9876.5432i)),
                   CFPT(3210.5678 - 9876.5432i));
     EXPECT_CFP_EQ(func((CFPT)(-3210.5678 + 9876.5432i)),
                   CFPT(-3210.5678 - 9876.5432i));
     EXPECT_CFP_EQ(func((CFPT)(3210.5678 - 9876.5432i)),
                   CFPT(3210.5678 + 9876.5432i));
     EXPECT_CFP_EQ(func((CFPT)(-3210.5678 - 9876.5432i)),
                   CFPT(-3210.5678 + 9876.5432i));

     EXPECT_CFP_EQ(func((CFPT)(1234.4321 + 4321.1234i)),
                   CFPT(1234.4321 - 4321.1234i));
     EXPECT_CFP_EQ(func((CFPT)(-1234.4321 + 4321.1234i)),
                   CFPT(-1234.4321 - 4321.1234i));
     EXPECT_CFP_EQ(func((CFPT)(1234.4321 - 4321.1234i)),
                   CFPT(1234.4321 + 4321.1234i));
     EXPECT_CFP_EQ(func((CFPT)(-1234.4321 - 4321.1234i)),
                   CFPT(-1234.4321 + 4321.1234i));

     EXPECT_CFP_EQ(func((CFPT)(6789.1234 + 8765.6789i)),
                   CFPT(6789.1234 - 8765.6789i));
     EXPECT_CFP_EQ(func((CFPT)(-6789.1234 + 8765.6789i)),
                   CFPT(-6789.1234 - 8765.6789i));
     EXPECT_CFP_EQ(func((CFPT)(6789.1234 - 8765.6789i)),
                   CFPT(6789.1234 + 8765.6789i));
     EXPECT_CFP_EQ(func((CFPT)(-6789.1234 - 8765.6789i)),
                   CFPT(-6789.1234 + 8765.6789i));
   }
 };

 #define LIST_CONJ_TESTS(U, T, func)                                            \
   using LlvmLibcConjTest = ConjTest<U, T>;                                     \
   TEST_F(LlvmLibcConjTest, SpecialNumbers) { testSpecialNumbers(&func); }      \
   TEST_F(LlvmLibcConjTest, RoundedNumbers) { testRoundedNumbers(&func); }

 #endif // LLVM_LIBC_TEST_SRC_COMPLEX_CONJTEST_H
	//===-- Utility class to test different flavors of conj ---------- C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_LIBC_TEST_SRC_COMPLEX_CONJTEST_H
	#define LLVM_LIBC_TEST_SRC_COMPLEX_CONJTEST_H

	#include "test/UnitTest/FEnvSafeTest.h"
	#include "test/UnitTest/FPMatcher.h"
	#include "test/UnitTest/Test.h"

	#include "hdr/math_macros.h"

	template <typename CFPT, typename FPT>
	class ConjTest : public LIBC_NAMESPACE::testing::FEnvSafeTest {

	DECLARE_SPECIAL_CONSTANTS(FPT)

	public:
	typedef CFPT (*ConjFunc)(CFPT);

	void testSpecialNumbers(ConjFunc func) {
	EXPECT_CFP_EQ(func(CFPT(aNaN + 67.123i)), CFPT(aNaN - 67.123i));
	EXPECT_CFP_EQ(func(CFPT(neg_aNaN + 78.319i)), CFPT(neg_aNaN - 78.319i));
	EXPECT_CFP_EQ(func(CFPT(sNaN + 7813.131i)), CFPT(sNaN - 7813.131i));
	EXPECT_CFP_EQ(func(CFPT(neg_sNaN + 7824.152i)), CFPT(neg_sNaN - 7824.152i));
	EXPECT_CFP_EQ(func(CFPT(inf + 9024.2442i)), CFPT(inf - 9024.2442i));
	EXPECT_CFP_EQ(func(CFPT(neg_inf + 8923.124i)), CFPT(neg_inf - 8923.124i));
	EXPECT_CFP_EQ(func(CFPT(min_normal + 782.124i)),
	CFPT(min_normal - 782.124i));
	EXPECT_CFP_EQ(func(CFPT(max_normal + 2141.2352i)),
	CFPT(max_normal - 2141.2352i));
	EXPECT_CFP_EQ(func(CFPT(neg_max_normal + 341.134i)),
	CFPT(neg_max_normal - 341.134i));
	EXPECT_CFP_EQ(func(CFPT(min_denormal + 781.142i)),
	CFPT(min_denormal - 781.142i));
	EXPECT_CFP_EQ(func(CFPT(neg_min_denormal + 781.134i)),
	CFPT(neg_min_denormal - 781.134i));
	EXPECT_CFP_EQ(func(CFPT(max_denormal + 1241.112i)),
	CFPT(max_denormal - 1241.112i));
	EXPECT_CFP_EQ(func(CFPT(zero + 121.121i)), CFPT(zero - 121.121i));
	EXPECT_CFP_EQ(func(CFPT(67.123 + aNaN * 1.0i)), CFPT(67.123 - aNaN * 1.0i));
	EXPECT_CFP_EQ(func(CFPT(78.319 + neg_aNaN * 1.0i)),
	CFPT(78.319 - neg_aNaN * 1.0i));
	EXPECT_CFP_EQ(func(CFPT(7813.131 + sNaN * 1.0i)),
	CFPT(7813.131 - sNaN * 1.0i));
	EXPECT_CFP_EQ(func(CFPT(7824.152 + neg_sNaN * 1.0i)),
	CFPT(7824.152 - neg_sNaN * 1.0i));
	EXPECT_CFP_EQ(func(CFPT(9024.2442 + inf * 1.0i)),
	CFPT(9024.2442 - inf * 1.0i));
	EXPECT_CFP_EQ(func(CFPT(8923.124 + neg_inf * 1.0i)),
	CFPT(8923.124 - neg_inf * 1.0i));
	EXPECT_CFP_EQ(func(CFPT(782.124 + min_normal * 1.0i)),
	CFPT(782.124 - min_normal * 1.0i));
	EXPECT_CFP_EQ(func(CFPT(2141.2352 + max_normal * 1.0i)),
	CFPT(2141.2352 - max_normal * 1.0i));
	EXPECT_CFP_EQ(func(CFPT(341.134 + neg_max_normal * 1.0i)),
	CFPT(341.134 - neg_max_normal * 1.0i));
	EXPECT_CFP_EQ(func(CFPT(781.142 + min_denormal * 1.0i)),
	CFPT(781.142 - min_denormal * 1.0i));
	EXPECT_CFP_EQ(func(CFPT(781.134 + neg_min_denormal * 1.0i)),
	CFPT(781.134 - neg_min_denormal * 1.0i));
	EXPECT_CFP_EQ(func(CFPT(1241.112 + max_denormal * 1.0i)),
	CFPT(1241.112 - max_denormal * 1.0i));
	EXPECT_CFP_EQ(func(CFPT(121.121 + zero * 1.0i)),
	CFPT(121.121 - zero * 1.0i));
	EXPECT_CFP_EQ(func(CFPT(0.0 - 0.0i)), CFPT(0.0 + 0.0i));
	EXPECT_CFP_EQ(func(CFPT(0.0 + 0.0i)), CFPT(0.0 - 0.0i));
	// This test passes because the conjugate of -0.0 - 0.0i is CMPLX(-0.0, 0.0)
	// which cannot be represented as -0.0 + 0.0i because -0.0 + 0.0i is
	// actually CMPLX(-0.0, 0.0) + CMPLX(0.0, 0.0) = 0.0 + 0.0i so to represent
	// CMPLX(-0.0, 0.0), we use -0.0
	EXPECT_CFP_EQ(func(CFPT(-0.0 - 0.0i)), CFPT(-0.0));
	// This test passes because -0.0 + 0.0i is actually
	// CMPLX(-0.0, 0.0) + CMPLX(0.0, 0.0) = CMPLX(-0.0 + 0.0, 0.0) = 0.0 + 0.0i
	EXPECT_CFP_EQ(func(CFPT(-0.0 + 0.0i)), CFPT(0.0 - 0.0i));
	EXPECT_CFP_EQ(func(CFPT(0.0)), CFPT(0.0 - 0.0i));
	EXPECT_CFP_EQ(func(CFPT(-0.0)), CFPT(-0.0 - 0.0i));
	EXPECT_CFP_EQ(func(CFPT(0.0i)), CFPT(0.0 - 0.0i));
	EXPECT_CFP_EQ(func(CFPT(-0.0i)), CFPT(-0.0));
	}

	void testRoundedNumbers(ConjFunc func) {
	EXPECT_CFP_EQ(func((CFPT)(4523.1413 + 12413.1414i)),
	CFPT(4523.1413 - 12413.1414i));
	EXPECT_CFP_EQ(func((CFPT)(-4523.1413 + 12413.1414i)),
	CFPT(-4523.1413 - 12413.1414i));
	EXPECT_CFP_EQ(func((CFPT)(4523.1413 - 12413.1414i)),
	CFPT(4523.1413 + 12413.1414i));
	EXPECT_CFP_EQ(func((CFPT)(-4523.1413 - 12413.1414i)),
	CFPT(-4523.1413 + 12413.1414i));

	EXPECT_CFP_EQ(func((CFPT)(3210.5678 + 9876.5432i)),
	CFPT(3210.5678 - 9876.5432i));
	EXPECT_CFP_EQ(func((CFPT)(-3210.5678 + 9876.5432i)),
	CFPT(-3210.5678 - 9876.5432i));
	EXPECT_CFP_EQ(func((CFPT)(3210.5678 - 9876.5432i)),
	CFPT(3210.5678 + 9876.5432i));
	EXPECT_CFP_EQ(func((CFPT)(-3210.5678 - 9876.5432i)),
	CFPT(-3210.5678 + 9876.5432i));

	EXPECT_CFP_EQ(func((CFPT)(1234.4321 + 4321.1234i)),
	CFPT(1234.4321 - 4321.1234i));
	EXPECT_CFP_EQ(func((CFPT)(-1234.4321 + 4321.1234i)),
	CFPT(-1234.4321 - 4321.1234i));
	EXPECT_CFP_EQ(func((CFPT)(1234.4321 - 4321.1234i)),
	CFPT(1234.4321 + 4321.1234i));
	EXPECT_CFP_EQ(func((CFPT)(-1234.4321 - 4321.1234i)),
	CFPT(-1234.4321 + 4321.1234i));

	EXPECT_CFP_EQ(func((CFPT)(6789.1234 + 8765.6789i)),
	CFPT(6789.1234 - 8765.6789i));
	EXPECT_CFP_EQ(func((CFPT)(-6789.1234 + 8765.6789i)),
	CFPT(-6789.1234 - 8765.6789i));
	EXPECT_CFP_EQ(func((CFPT)(6789.1234 - 8765.6789i)),
	CFPT(6789.1234 + 8765.6789i));
	EXPECT_CFP_EQ(func((CFPT)(-6789.1234 - 8765.6789i)),
	CFPT(-6789.1234 + 8765.6789i));
	}
	};

	#define LIST_CONJ_TESTS(U, T, func) \
	using LlvmLibcConjTest = ConjTest<U, T>; \
	TEST_F(LlvmLibcConjTest, SpecialNumbers) { testSpecialNumbers(&func); } \
	TEST_F(LlvmLibcConjTest, RoundedNumbers) { testRoundedNumbers(&func); }

	#endif // LLVM_LIBC_TEST_SRC_COMPLEX_CONJTEST_H