/* $Id: tstRTNoCrt-2.cpp 98103 2023-01-17 14:15:46Z vboxsync $ */ /** @file * IPRT Testcase - Testcase for the No-CRT math bits. */ /* * Copyright (C) 2008-2023 Oracle and/or its affiliates. * * This file is part of VirtualBox base platform packages, as * available from https://www.virtualbox.org. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation, in version 3 of the * License. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see . * * The contents of this file may alternatively be used under the terms * of the Common Development and Distribution License Version 1.0 * (CDDL), a copy of it is provided in the "COPYING.CDDL" file included * in the VirtualBox distribution, in which case the provisions of the * CDDL are applicable instead of those of the GPL. * * You may elect to license modified versions of this file under the * terms and conditions of either the GPL or the CDDL or both. * * SPDX-License-Identifier: GPL-3.0-only OR CDDL-1.0 */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #if defined(RT_WITHOUT_NOCRT_WRAPPERS) || !defined(RT_WITHOUT_NOCRT_WRAPPER_ALIASES) # error "Build config error." #endif #include #include #include #define IPRT_NO_CRT_FOR_3RD_PARTY #define IPRT_NOCRT_WITHOUT_CONFLICTING_CONSTANTS /* so we can include both the CRT one and our no-CRT header */ #define IPRT_NOCRT_WITHOUT_CONFLICTING_TYPES /* so we can include both the CRT one and our no-CRT header */ #include #define IPRT_INCLUDED_nocrt_limits_h /* prevent our limits from being included */ #include #include /* Need to test fegetround and stuff. */ #include #include #if defined(RT_ARCH_AMD64) || defined(RT_ARCH_X86) # include #endif /* Stuff we provide in our math, but UCRT apparently doesn't: */ #ifndef M_E # define M_E 2.7182818284590452354 /* e */ #endif #ifndef M_LOG2E # define M_LOG2E 1.4426950408889634074 /* log 2e */ #endif #ifndef M_LOG10E # define M_LOG10E 0.43429448190325182765 /* log 10e */ #endif #ifndef M_LN2 # define M_LN2 0.69314718055994530942 /* log e2 */ #endif #ifndef M_LN10 # define M_LN10 2.30258509299404568402 /* log e10 */ #endif #ifndef M_PI # define M_PI 3.14159265358979323846 /* pi */ #endif #ifndef M_PI_2 # define M_PI_2 1.57079632679489661923 /* pi/2 */ #endif #ifndef M_PI_4 # define M_PI_4 0.78539816339744830962 /* pi/4 */ #endif #ifndef M_1_PI # define M_1_PI 0.31830988618379067154 /* 1/pi */ #endif #ifndef M_2_PI # define M_2_PI 0.63661977236758134308 /* 2/pi */ #endif #ifndef M_2_SQRTPI # define M_2_SQRTPI 1.12837916709551257390 /* 2/sqrt(pi) */ #endif #ifndef M_SQRT2 # define M_SQRT2 1.41421356237309504880 /* sqrt(2) */ #endif #ifndef M_SQRT1_2 # define M_SQRT1_2 0.70710678118654752440 /* 1/sqrt(2) */ #endif /********************************************************************************************************************************* * Defined Constants And Macros * *********************************************************************************************************************************/ /* * Macros checking i n t e g e r returns. */ #define CHECK_INT(a_Expr, a_rcExpect) do { \ int const rcActual = (a_Expr); \ if (rcActual != (a_rcExpect)) \ RTTestFailed(g_hTest, "line %u: %s -> %d, expected %d", __LINE__, #a_Expr, rcActual, (a_rcExpect)); \ } while (0) #define CHECK_INT_SAME(a_Fn, a_Args) do { \ int const rcNoCrt = RT_NOCRT(a_Fn) a_Args; \ int const rcCrt = a_Fn a_Args; \ if (rcNoCrt != rcCrt) \ RTTestFailed(g_hTest, "line %u: %s%s: noCRT => %d; CRT => %d", __LINE__, #a_Fn, #a_Args, rcNoCrt, rcCrt); \ } while (0) /* * Macros checking l o n g returns. */ #define CHECK_LONG(a_Expr, a_rcExpect) do { \ long const rcActual = (a_Expr); \ long const rcExpect = (a_rcExpect); \ if (rcActual != rcExpect) \ RTTestFailed(g_hTest, "line %u: %s -> %ld, expected %ld", __LINE__, #a_Expr, rcActual, rcExpect); \ } while (0) #define CHECK_LONG_SAME(a_Fn, a_Args) do { \ long const rcNoCrt = RT_NOCRT(a_Fn) a_Args; \ long const rcCrt = a_Fn a_Args; \ if (rcNoCrt != rcCrt) \ RTTestFailed(g_hTest, "line %u: %s%s: noCRT => %ld; CRT => %ld", __LINE__, #a_Fn, #a_Args, rcNoCrt, rcCrt); \ } while (0) /* * Macros checking l o n g l o n g returns. */ #define CHECK_LLONG(a_Expr, a_rcExpect) do { \ long long const rcActual = (a_Expr); \ long long const rcExpect = (a_rcExpect); \ if (rcActual != rcExpect) \ RTTestFailed(g_hTest, "line %u: %s -> %lld, expected %lld", __LINE__, #a_Expr, rcActual, rcExpect); \ } while (0) #define CHECK_LLONG_SAME(a_Fn, a_Args) do { \ long long const rcNoCrt = RT_NOCRT(a_Fn) a_Args; \ long long const rcCrt = a_Fn a_Args; \ if (rcNoCrt != rcCrt) \ RTTestFailed(g_hTest, "line %u: %s%s: noCRT => %lld; CRT => %lld", __LINE__, #a_Fn, #a_Args, rcNoCrt, rcCrt); \ } while (0) /* * Macros checking l o n g d o u b l e returns. */ #ifdef RT_COMPILER_WITH_80BIT_LONG_DOUBLE # define CHECK_LDBL(a_Expr, a_lrdExpect) do { \ RTFLOAT80U2 uRet; \ uRet.r = (a_Expr); \ RTFLOAT80U2 uExpect; \ uExpect.r = a_lrdExpect; \ if (!RTFLOAT80U_ARE_IDENTICAL(&uRet, &uExpect)) \ { \ RTStrFormatR80u2(g_szFloat[0], sizeof(g_szFloat[0]), &uRet, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR80u2(g_szFloat[1], sizeof(g_szFloat[0]), &uExpect, 0, 0, RTSTR_F_SPECIAL); \ RTTestFailed(g_hTest, "line %u: %s -> %s, expected %s (%s)", \ __LINE__, #a_Expr, g_szFloat[0], g_szFloat[1], #a_lrdExpect); \ } \ } while (0) # define CHECK_LDBL_SAME(a_Fn, a_Args) do { \ RTFLOAT80U2 uNoCrtRet, uCrtRet; \ uNoCrtRet.r = RT_NOCRT(a_Fn) a_Args; \ uCrtRet.r = a_Fn a_Args; \ if (!RTFLOAT80U_ARE_IDENTICAL(&uNoCrtRet, &uCrtRet)) \ { \ RTStrFormatR80u2(g_szFloat[0], sizeof(g_szFloat[0]), &uNoCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR80u2(g_szFloat[1], sizeof(g_szFloat[0]), &uCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTTestFailed(g_hTest, "line %u: %s%s: noCRT => %s; CRT => %s", \ __LINE__, #a_Fn, #a_Args, g_szFloat[0], g_szFloat[1]); \ } \ } while (0) # define CHECK_LDBL_APPROX_SAME(a_Fn, a_Args) do { \ RTFLOAT80U2 uNoCrtRet, uCrtRet; \ uNoCrtRet.r = RT_NOCRT(a_Fn) a_Args; \ uCrtRet.r = a_Fn a_Args; \ if ( !RTFLOAT80U_ARE_IDENTICAL(&uNoCrtRet, &uCrtRet) \ && ( (uNoCrtRet.u >= uCrtRet.u ? uNoCrtRet.u - uCrtRet.u : uCrtRet.u - uNoCrtRet.u) > 1 /* off by one is okay */ \ || RTFLOAT80U_IS_NAN(&uNoCrtRet) \ || RTFLOAT80U_IS_NAN(&uCrtRet) ) ) \ { \ RTStrFormatR80u2(g_szFloat[0], sizeof(g_szFloat[0]), &uNoCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR80u2(g_szFloat[1], sizeof(g_szFloat[0]), &uCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTTestFailed(g_hTest, "line %u: %s%s: noCRT => %s; CRT => %s", \ __LINE__, #a_Fn, #a_Args, g_szFloat[0], g_szFloat[1]); \ } \ } while (0) # define CHECK_LDBL_SAME_RELAXED_NAN(a_Fn, a_Args) do { \ RTFLOAT80U2 uNoCrtRet, uCrtRet; \ uNoCrtRet.r = RT_NOCRT(a_Fn) a_Args; \ uCrtRet.r = a_Fn a_Args; \ if ( !RTFLOAT80U_ARE_IDENTICAL(&uNoCrtRet, &uCrtRet) \ && ( !RTFLOAT80U_IS_NAN(&uNoCrtRet) \ || !RTFLOAT80U_IS_NAN(&uCrtRet) ) ) \ { \ RTStrFormatR80u2(g_szFloat[0], sizeof(g_szFloat[0]), &uNoCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR80u2(g_szFloat[1], sizeof(g_szFloat[0]), &uCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTTestFailed(g_hTest, "line %u: %s%s: noCRT => %s; CRT => %s", \ __LINE__, #a_Fn, #a_Args, g_szFloat[0], g_szFloat[1]); \ } \ } while (0) #elif defined(RT_COMPILER_WITH_128BIT_LONG_DOUBLE) # error todo #else # define CHECK_LDBL(a_Expr, a_lrdExpect) do { \ RTFLOAT64U uRet; \ uRet.lrd = (a_Expr); \ RTFLOAT64U uExpect; \ uExpect.lrd = a_lrdExpect; \ if (!RTFLOAT64U_ARE_IDENTICAL(&uRet, &uExpect)) \ { \ RTStrFormatR64(g_szFloat[0], sizeof(g_szFloat[0]), &uRet, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR64(g_szFloat[1], sizeof(g_szFloat[0]), &uExpect, 0, 0, RTSTR_F_SPECIAL); \ RTTestFailed(g_hTest, "line %u: %s -> %s, expected %s (%s)", \ __LINE__, #a_Expr, g_szFloat[0], g_szFloat[1], #a_lrdExpect); \ } \ } while (0) # define CHECK_LDBL_SAME(a_Fn, a_Args) do { \ RTFLOAT64U uNoCrtRet, uCrtRet; \ uNoCrtRet.lrd = RT_NOCRT(a_Fn) a_Args; \ uCrtRet.lrd = a_Fn a_Args; \ if (!RTFLOAT64U_ARE_IDENTICAL(&uNoCrtRet, &uCrtRet)) \ { \ RTStrFormatR64(g_szFloat[0], sizeof(g_szFloat[0]), &uNoCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR64(g_szFloat[1], sizeof(g_szFloat[0]), &uCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTTestFailed(g_hTest, "line %u: %s%s: noCRT => %s; CRT => %s", \ __LINE__, #a_Fn, #a_Args, g_szFloat[0], g_szFloat[1]); \ } \ } while (0) # define CHECK_LDBL_APPROX_SAME(a_Fn, a_Args) do { \ RTFLOAT64U uNoCrtRet, uCrtRet; \ uNoCrtRet.lrd = RT_NOCRT(a_Fn) a_Args; \ uCrtRet.lrd = a_Fn a_Args; \ if ( !RTFLOAT64U_ARE_IDENTICAL(&uNoCrtRet, &uCrtRet) \ && ( (uNoCrtRet.u >= uCrtRet.u ? uNoCrtRet.u - uCrtRet.u : uCrtRet.u - uNoCrtRet.u) > 1 /* off by one is okay */ \ || RTFLOAT64U_IS_NAN(&uNoCrtRet) \ || RTFLOAT64U_IS_NAN(&uCrtRet) ) ) \ { \ RTStrFormatR64(g_szFloat[0], sizeof(g_szFloat[0]), &uNoCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR64(g_szFloat[1], sizeof(g_szFloat[0]), &uCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTTestFailed(g_hTest, "line %u: %s%s: noCRT => %s; CRT => %s", \ __LINE__, #a_Fn, #a_Args, g_szFloat[0], g_szFloat[1]); \ } \ } while (0) # define CHECK_LDBL_SAME_RELAXED_NAN(a_Fn, a_Args) do { \ RTFLOAT64U uNoCrtRet, uCrtRet; \ uNoCrtRet.lrd = RT_NOCRT(a_Fn) a_Args; \ uCrtRet.lrd = a_Fn a_Args; \ if ( !RTFLOAT64U_ARE_IDENTICAL(&uNoCrtRet, &uCrtRet) \ && ( !RTFLOAT64U_IS_NAN(&uNoCrtRet) \ || !RTFLOAT64U_IS_NAN(&uCrtRet) ) ) \ { \ RTStrFormatR64(g_szFloat[0], sizeof(g_szFloat[0]), &uNoCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR64(g_szFloat[1], sizeof(g_szFloat[0]), &uCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTTestFailed(g_hTest, "line %u: %s%s: noCRT => %s; CRT => %s", \ __LINE__, #a_Fn, #a_Args, g_szFloat[0], g_szFloat[1]); \ } \ } while (0) #endif /* * Macros checking d o u b l e returns. */ #define CHECK_DBL(a_Expr, a_rdExpect) do { \ RTFLOAT64U uRet; \ uRet.r = (a_Expr); \ RTFLOAT64U uExpect; \ uExpect.r = a_rdExpect; \ if (!RTFLOAT64U_ARE_IDENTICAL(&uRet, &uExpect)) \ { \ RTStrFormatR64(g_szFloat[0], sizeof(g_szFloat[0]), &uRet, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR64(g_szFloat[1], sizeof(g_szFloat[0]), &uExpect, 0, 0, RTSTR_F_SPECIAL); \ RTTestFailed(g_hTest, "line %u: %s -> %s, expected %s (%s)", \ __LINE__, #a_Expr, g_szFloat[0], g_szFloat[1], #a_rdExpect); \ } \ } while (0) #define CHECK_DBL_SAME(a_Fn, a_Args) do { \ RTFLOAT64U uNoCrtRet, uCrtRet; \ uNoCrtRet.r = RT_NOCRT(a_Fn) a_Args; \ uCrtRet.r = a_Fn a_Args; \ if (!RTFLOAT64U_ARE_IDENTICAL(&uNoCrtRet, &uCrtRet)) \ { \ RTStrFormatR64(g_szFloat[0], sizeof(g_szFloat[0]), &uNoCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR64(g_szFloat[1], sizeof(g_szFloat[0]), &uCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTTestFailed(g_hTest, "line %u: %s%s: noCRT => %s; CRT => %s", \ __LINE__, #a_Fn, #a_Args, g_szFloat[0], g_szFloat[1]); \ } \ } while (0) #define CHECK_DBL_APPROX_SAME(a_Fn, a_Args, a_cMaxDelta) do { \ RTFLOAT64U uNoCrtRet, uCrtRet; \ uNoCrtRet.r = RT_NOCRT(a_Fn) a_Args; \ uCrtRet.r = a_Fn a_Args; \ if ( !RTFLOAT64U_ARE_IDENTICAL(&uNoCrtRet, &uCrtRet) \ && ( (uNoCrtRet.u >= uCrtRet.u ? uNoCrtRet.u - uCrtRet.u : uCrtRet.u - uNoCrtRet.u) > (a_cMaxDelta) \ || RTFLOAT64U_IS_NAN(&uNoCrtRet) \ || RTFLOAT64U_IS_NAN(&uCrtRet) ) ) \ { \ RTStrFormatR64(g_szFloat[0], sizeof(g_szFloat[0]), &uNoCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR64(g_szFloat[1], sizeof(g_szFloat[0]), &uCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTTestFailed(g_hTest, "line %u: %s%s: noCRT => %s; CRT => %s (max delta %u)", \ __LINE__, #a_Fn, #a_Args, g_szFloat[0], g_szFloat[1], (a_cMaxDelta)); \ } \ } while (0) #define CHECK_DBL_RANGE(a_Expr, a_rdExpect, a_rdPlusMin) do { \ RTFLOAT64U uRet; \ uRet.r = a_Expr; \ RTFLOAT64U uExpectMin; \ uExpectMin.r = (a_rdExpect) - (a_rdPlusMin); \ RTFLOAT64U uExpectMax; \ uExpectMax.r = (a_rdExpect) + (a_rdPlusMin); \ if ( !(RTFLOAT64U_IS_NORMAL(&uRet) || RTFLOAT64U_IS_ZERO(&uRet))\ || uRet.r < uExpectMin.r \ || uRet.r > uExpectMax.r ) \ { \ RTStrFormatR64(g_szFloat[0], sizeof(g_szFloat[0]), &uRet, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR64(g_szFloat[1], sizeof(g_szFloat[1]), &uExpectMin, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR64(g_szFloat[2], sizeof(g_szFloat[2]), &uExpectMax, 0, 0, RTSTR_F_SPECIAL); \ RTTestFailed(g_hTest, "line %u: %s -> %s, expected [%s,%s] (%s +/- %s)", \ __LINE__, #a_Expr, g_szFloat[0], g_szFloat[1], g_szFloat[2], #a_rdExpect, #a_rdPlusMin); \ } \ } while (0) #define CHECK_DBL_SAME_RELAXED_NAN(a_Fn, a_Args) do { \ RTFLOAT64U uNoCrtRet, uCrtRet; \ uNoCrtRet.r = RT_NOCRT(a_Fn) a_Args; \ uCrtRet.r = a_Fn a_Args; \ if ( !RTFLOAT64U_ARE_IDENTICAL(&uNoCrtRet, &uCrtRet) \ && ( !RTFLOAT64U_IS_NAN(&uNoCrtRet) \ || !RTFLOAT64U_IS_NAN(&uCrtRet) ) ) \ { \ RTStrFormatR64(g_szFloat[0], sizeof(g_szFloat[0]), &uNoCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR64(g_szFloat[1], sizeof(g_szFloat[0]), &uCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTTestFailed(g_hTest, "line %u: %s%s: noCRT => %s; CRT => %s", \ __LINE__, #a_Fn, #a_Args, g_szFloat[0], g_szFloat[1]); \ } \ } while (0) /* * Macros checking f l o a t returns. */ #define CHECK_FLT(a_Expr, a_rExpect) do { \ RTFLOAT32U uRet; \ uRet.r = (a_Expr); \ RTFLOAT32U uExpect; \ uExpect.r = a_rExpect; \ if (!RTFLOAT32U_ARE_IDENTICAL(&uRet, &uExpect)) \ { \ RTStrFormatR32(g_szFloat[0], sizeof(g_szFloat[0]), &uRet, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR32(g_szFloat[1], sizeof(g_szFloat[0]), &uExpect, 0, 0, RTSTR_F_SPECIAL); \ RTTestFailed(g_hTest, "line %u: %s -> %s, expected %s (%s)", \ __LINE__, #a_Expr, g_szFloat[0], g_szFloat[1], #a_rExpect); \ } \ } while (0) #define CHECK_FLT_SAME(a_Fn, a_Args) do { \ RTFLOAT32U uNoCrtRet, uCrtRet; \ uNoCrtRet.r = RT_NOCRT(a_Fn) a_Args; \ uCrtRet.r = a_Fn a_Args; \ if (!RTFLOAT32U_ARE_IDENTICAL(&uNoCrtRet, &uCrtRet)) \ { \ RTStrFormatR32(g_szFloat[0], sizeof(g_szFloat[0]), &uNoCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR32(g_szFloat[1], sizeof(g_szFloat[0]), &uCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTTestFailed(g_hTest, "line %u: %s%s: noCRT => %s; CRT => %s", \ __LINE__, #a_Fn, #a_Args, g_szFloat[0], g_szFloat[1]); \ } \ } while (0) #define CHECK_FLT_APPROX_SAME(a_Fn, a_Args, a_cMaxDelta) do { \ RTFLOAT32U uNoCrtRet, uCrtRet; \ uNoCrtRet.r = RT_NOCRT(a_Fn) a_Args; \ uCrtRet.r = a_Fn a_Args; \ if ( !RTFLOAT32U_ARE_IDENTICAL(&uNoCrtRet, &uCrtRet) \ && ( (uNoCrtRet.u >= uCrtRet.u ? uNoCrtRet.u - uCrtRet.u : uCrtRet.u - uNoCrtRet.u) > (a_cMaxDelta) \ || RTFLOAT32U_IS_NAN(&uNoCrtRet) \ || RTFLOAT32U_IS_NAN(&uCrtRet) ) ) \ { \ RTStrFormatR32(g_szFloat[0], sizeof(g_szFloat[0]), &uNoCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR32(g_szFloat[1], sizeof(g_szFloat[0]), &uCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTTestFailed(g_hTest, "line %u: %s%s: noCRT => %s; CRT => %s (max delta %u)", \ __LINE__, #a_Fn, #a_Args, g_szFloat[0], g_szFloat[1], a_cMaxDelta); \ } \ } while (0) #define CHECK_FLT_RANGE(a_Expr, a_rfExpect, a_rfPlusMin) do { \ RTFLOAT32U uRet; \ uRet.r = a_Expr; \ RTFLOAT32U uExpectMin; \ uExpectMin.r = (a_rfExpect) - (a_rfPlusMin); \ RTFLOAT32U uExpectMax; \ uExpectMax.r = (a_rfExpect) + (a_rfPlusMin); \ if ( !(RTFLOAT32U_IS_NORMAL(&uRet) || RTFLOAT32U_IS_ZERO(&uRet))\ || uRet.r < uExpectMin.r \ || uRet.r > uExpectMax.r ) \ { \ RTStrFormatR32(g_szFloat[0], sizeof(g_szFloat[0]), &uRet, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR32(g_szFloat[1], sizeof(g_szFloat[1]), &uExpectMin, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR32(g_szFloat[2], sizeof(g_szFloat[2]), &uExpectMax, 0, 0, RTSTR_F_SPECIAL); \ RTTestFailed(g_hTest, "line %u: %s -> %s, expected [%s,%s] (%s +/- %s)", \ __LINE__, #a_Expr, g_szFloat[0], g_szFloat[1], g_szFloat[2], #a_rfExpect, #a_rfPlusMin); \ } \ } while (0) #define CHECK_FLT_SAME_RELAXED_NAN(a_Fn, a_Args) do { \ RTFLOAT32U uNoCrtRet, uCrtRet; \ uNoCrtRet.r = RT_NOCRT(a_Fn) a_Args; \ uCrtRet.r = a_Fn a_Args; \ if ( !RTFLOAT32U_ARE_IDENTICAL(&uNoCrtRet, &uCrtRet) \ && ( !RTFLOAT32U_IS_NAN(&uNoCrtRet) \ || !RTFLOAT32U_IS_NAN(&uCrtRet) ) ) \ { \ RTStrFormatR32(g_szFloat[0], sizeof(g_szFloat[0]), &uNoCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTStrFormatR32(g_szFloat[1], sizeof(g_szFloat[0]), &uCrtRet, 0, 0, RTSTR_F_SPECIAL); \ RTTestFailed(g_hTest, "line %u: %s%s: noCRT => %s; CRT => %s", \ __LINE__, #a_Fn, #a_Args, g_szFloat[0], g_szFloat[1]); \ } \ } while (0) #define CHECK_XCPT(a_InnerTestExpr, a_fXcptMask, a_fXcptExpect) do { \ RT_NOCRT(feclearexcept(RT_NOCRT_FE_ALL_EXCEPT)); \ a_InnerTestExpr; \ int const fXcpt = RT_NOCRT(fetestexcept)(RT_NOCRT_FE_ALL_EXCEPT); \ if ((fXcpt & (a_fXcptMask)) != (a_fXcptExpect)) \ RTTestFailed(g_hTest, "line %u: %s -^-> %#x, expected %#x (%s)", \ __LINE__, #a_InnerTestExpr, fXcpt, (a_fXcptExpect), #a_fXcptExpect); \ RT_NOCRT(feclearexcept(RT_NOCRT_FE_ALL_EXCEPT)); \ } while (0) /********************************************************************************************************************************* * Global Variables * *********************************************************************************************************************************/ RTTEST g_hTest; char g_szFloat[4][128]; #ifdef _MSC_VER # pragma fenv_access(on) #endif void testAbs() { RTTestSub(g_hTest, "abs,labs,llabs"); CHECK_INT(RT_NOCRT(abs)(1), 1); CHECK_INT(RT_NOCRT(abs)(-1), 1); CHECK_INT(RT_NOCRT(abs)(9685), 9685); CHECK_INT(RT_NOCRT(abs)(-9685), 9685); CHECK_INT(RT_NOCRT(abs)(589685), 589685); CHECK_INT(RT_NOCRT(abs)(-589685), 589685); CHECK_INT(RT_NOCRT(abs)(INT_MAX), INT_MAX); CHECK_INT(RT_NOCRT(abs)(INT_MIN + 1), INT_MAX); CHECK_INT(RT_NOCRT(abs)(INT_MIN), INT_MIN); /* oddity */ CHECK_INT_SAME(abs,(INT_MIN)); CHECK_INT_SAME(abs,(INT_MAX)); CHECK_LONG(RT_NOCRT(labs)(1), 1); CHECK_LONG(RT_NOCRT(labs)(-1), 1); CHECK_LONG(RT_NOCRT(labs)(9685), 9685); CHECK_LONG(RT_NOCRT(labs)(-9685), 9685); CHECK_LONG(RT_NOCRT(labs)(589685), 589685); CHECK_LONG(RT_NOCRT(labs)(-589685), 589685); CHECK_LONG(RT_NOCRT(labs)(LONG_MAX), LONG_MAX); CHECK_LONG(RT_NOCRT(labs)(LONG_MIN + 1), LONG_MAX); CHECK_LONG(RT_NOCRT(labs)(LONG_MIN), LONG_MIN); /* oddity */ CHECK_LONG_SAME(labs,(LONG_MIN)); CHECK_LONG_SAME(labs,(LONG_MAX)); CHECK_LONG(RT_NOCRT(llabs)(1), 1); CHECK_LONG(RT_NOCRT(llabs)(-1), 1); CHECK_LONG(RT_NOCRT(llabs)(9685), 9685); CHECK_LONG(RT_NOCRT(llabs)(-9685), 9685); CHECK_LONG(RT_NOCRT(llabs)(589685), 589685); CHECK_LONG(RT_NOCRT(llabs)(-589685), 589685); CHECK_LONG(RT_NOCRT(llabs)(LONG_MAX), LONG_MAX); CHECK_LONG(RT_NOCRT(llabs)(LONG_MIN + 1), LONG_MAX); CHECK_LONG(RT_NOCRT(llabs)(LONG_MIN), LONG_MIN); /* oddity */ CHECK_LONG_SAME(llabs,(LONG_MIN)); CHECK_LONG_SAME(llabs,(LONG_MAX)); } void testFAbs() { RTTestSub(g_hTest, "fabs[fl]"); CHECK_DBL(RT_NOCRT(fabs)( +0.0), +0.0); CHECK_DBL(RT_NOCRT(fabs)( -0.0), +0.0); CHECK_DBL(RT_NOCRT(fabs)( -42.5), +42.5); CHECK_DBL(RT_NOCRT(fabs)( +42.5), +42.5); CHECK_DBL(RT_NOCRT(fabs)(+1234.60958634e+20), +1234.60958634e+20); CHECK_DBL(RT_NOCRT(fabs)(-1234.60958634e+20), +1234.60958634e+20); CHECK_DBL(RT_NOCRT(fabs)( +2.1984e-310), +2.1984e-310); /* subnormal */ CHECK_DBL(RT_NOCRT(fabs)( -2.1984e-310), +2.1984e-310); /* subnormal */ CHECK_DBL(RT_NOCRT(fabs)(-INFINITY), +INFINITY); CHECK_DBL(RT_NOCRT(fabs)(+INFINITY), +INFINITY); CHECK_DBL(RT_NOCRT(fabs)(RTStrNanDouble(NULL, true)), RTStrNanDouble(NULL, true)); CHECK_DBL(RT_NOCRT(fabs)(RTStrNanDouble("s", false)), RTStrNanDouble("s", true)); CHECK_DBL_SAME(fabs,( -0.0)); CHECK_DBL_SAME(fabs,( +0.0)); CHECK_DBL_SAME(fabs,( +22.5)); CHECK_DBL_SAME(fabs,( -22.5)); CHECK_DBL_SAME(fabs,( +2.1984e-310)); /* subnormal */ CHECK_DBL_SAME(fabs,( -2.1984e-310)); /* subnormal */ CHECK_DBL_SAME(fabs,(+1234.60958634e+20)); CHECK_DBL_SAME(fabs,(-1234.60958634e+20)); CHECK_DBL_SAME(fabs,(-INFINITY)); CHECK_DBL_SAME(fabs,(+INFINITY)); CHECK_DBL_SAME(fabs,(RTStrNanDouble(NULL, true))); CHECK_DBL_SAME(fabs,(RTStrNanDouble("s", false))); CHECK_FLT(RT_NOCRT(fabsf)( +0.0f), +0.0f); CHECK_FLT(RT_NOCRT(fabsf)( -0.0f), +0.0f); CHECK_FLT(RT_NOCRT(fabsf)( -42.5f), +42.5f); CHECK_FLT(RT_NOCRT(fabsf)( +42.5f), +42.5f); CHECK_FLT(RT_NOCRT(fabsf)(+1234.60958634e+20f), +1234.60958634e+20f); CHECK_FLT(RT_NOCRT(fabsf)(-1234.60958634e+20f), +1234.60958634e+20f); CHECK_FLT(RT_NOCRT(fabsf)( +2.1984e-310f), +2.1984e-310f); /* subnormal */ CHECK_FLT(RT_NOCRT(fabsf)( -2.1984e-310f), +2.1984e-310f); /* subnormal */ CHECK_FLT(RT_NOCRT(fabsf)(-INFINITY), +INFINITY); CHECK_FLT(RT_NOCRT(fabsf)(+INFINITY), +INFINITY); CHECK_FLT(RT_NOCRT(fabsf)(RTStrNanFloat(NULL, true)), RTStrNanFloat(NULL, true)); CHECK_FLT(RT_NOCRT(fabsf)(RTStrNanFloat("s", false)), RTStrNanFloat("s", true)); CHECK_FLT_SAME(fabsf,( -0.0f)); CHECK_FLT_SAME(fabsf,( +0.0f)); CHECK_FLT_SAME(fabsf,( +22.5f)); CHECK_FLT_SAME(fabsf,( -22.5f)); CHECK_FLT_SAME(fabsf,( +2.1984e-310f)); /* subnormal */ CHECK_FLT_SAME(fabsf,( -2.1984e-310f)); /* subnormal */ CHECK_FLT_SAME(fabsf,(+1234.60958634e+20f)); CHECK_FLT_SAME(fabsf,(-1234.60958634e+20f)); CHECK_FLT_SAME(fabsf,(-INFINITY)); CHECK_FLT_SAME(fabsf,(+INFINITY)); CHECK_FLT_SAME(fabsf,(RTStrNanFloat(NULL, true))); #if 0 /* UCRT on windows converts this to a quiet NaN, so skip it. */ CHECK_FLT_SAME(fabsf,(RTStrNanFloat("s", false))); #endif } void testCopySign() { RTTestSub(g_hTest, "copysign[fl]"); CHECK_DBL(RT_NOCRT(copysign)(1.0, 2.0), 1.0); CHECK_DBL(RT_NOCRT(copysign)(-1.0, 2.0), 1.0); CHECK_DBL(RT_NOCRT(copysign)(-1.0, -2.0), -1.0); CHECK_DBL(RT_NOCRT(copysign)(1.0, -2.0), -1.0); CHECK_DBL(RT_NOCRT(copysign)(42.24, -INFINITY), -42.24); CHECK_DBL(RT_NOCRT(copysign)(-42.24, +INFINITY), +42.24); CHECK_DBL(RT_NOCRT(copysign)(-999888777.666, RTStrNanDouble(NULL, true)), +999888777.666); CHECK_DBL(RT_NOCRT(copysign)(-999888777.666, RTStrNanDouble("sig", true)), +999888777.666); CHECK_DBL(RT_NOCRT(copysign)(+999888777.666, RTStrNanDouble(NULL, false)), -999888777.666); CHECK_DBL_SAME(copysign,(1.0, 2.0)); CHECK_DBL_SAME(copysign,(-1.0, 2.0)); CHECK_DBL_SAME(copysign,(-1.0, -2.0)); CHECK_DBL_SAME(copysign,(1.0, -2.0)); CHECK_DBL_SAME(copysign,(42.24, -INFINITY)); CHECK_DBL_SAME(copysign,(-42.24, +INFINITY)); CHECK_DBL_SAME(copysign,(-999888777.666, RTStrNanDouble(NULL, true))); CHECK_DBL_SAME(copysign,(+999888777.666, RTStrNanDouble(NULL, false))); CHECK_DBL_SAME(copysign,(+999888777.666, RTStrNanDouble("sig", false))); CHECK_FLT(RT_NOCRT(copysignf)(1.0f, 2.0f), 1.0f); CHECK_FLT(RT_NOCRT(copysignf)(-1.0f, 2.0f), 1.0f); CHECK_FLT(RT_NOCRT(copysignf)(-1.0f, -2.0f), -1.0f); CHECK_FLT(RT_NOCRT(copysignf)(1.0f, -2.0f), -1.0f); CHECK_FLT(RT_NOCRT(copysignf)(42.24f, -INFINITY), -42.24f); CHECK_FLT(RT_NOCRT(copysignf)(-42.24f, +INFINITY), +42.24f); CHECK_FLT(RT_NOCRT(copysignf)(-999888777.666f, RTStrNanFloat(NULL, true)), +999888777.666f); CHECK_FLT(RT_NOCRT(copysignf)(+999888777.666f, RTStrNanFloat(NULL, false)), -999888777.666f); CHECK_FLT_SAME(copysignf,(1.0f, 2.0f)); CHECK_FLT_SAME(copysignf,(-3.0f, 2.0f)); CHECK_FLT_SAME(copysignf,(-5.0e3f, -2.0f)); CHECK_FLT_SAME(copysignf,(6.0e-3f, -2.0f)); CHECK_FLT_SAME(copysignf,(434.24f, -INFINITY)); CHECK_FLT_SAME(copysignf,(-42.24f, +INFINITY)); CHECK_FLT_SAME(copysignf,(-39480.6e+33f, RTStrNanFloat(NULL, true))); CHECK_FLT_SAME(copysignf,(+39480.6e-32f, RTStrNanFloat(NULL, false))); CHECK_LDBL(RT_NOCRT(copysignl)(1.0L, 2.0L), 1.0L); CHECK_LDBL(RT_NOCRT(copysignl)(-1.0L, 2.0L), 1.0L); CHECK_LDBL(RT_NOCRT(copysignl)(-1.0L, -2.0L), -1.0L); CHECK_LDBL(RT_NOCRT(copysignl)(1.0L, -2.0L), -1.0L); CHECK_LDBL(RT_NOCRT(copysignl)(42.24L, -INFINITY), -42.24L); CHECK_LDBL(RT_NOCRT(copysignl)(-42.24L, +INFINITY), +42.24L); CHECK_LDBL(RT_NOCRT(copysignl)(-999888777.666L, RTStrNanLongDouble(NULL, true)), +999888777.666L); CHECK_LDBL(RT_NOCRT(copysignl)(+999888777.666L, RTStrNanLongDouble("2343f_sig", false)), -999888777.666L); CHECK_LDBL_SAME(copysignl,(1.0L, 2.0L)); CHECK_LDBL_SAME(copysignl,(-3.0L, 2.0L)); CHECK_LDBL_SAME(copysignl,(-5.0e3L, -2.0L)); CHECK_LDBL_SAME(copysignl,(6.0e-3L, -2.0L)); CHECK_LDBL_SAME(copysignl,(434.24L, -INFINITY)); CHECK_LDBL_SAME(copysignl,(-42.24L, +INFINITY)); CHECK_LDBL_SAME(copysignl,(-39480.6e+33L, RTStrNanLongDouble("8888_s", true))); CHECK_LDBL_SAME(copysignl,(+39480.6e-32L, RTStrNanLongDouble(NULL, false))); } void testFmax() { RTTestSub(g_hTest, "fmax[fl]"); CHECK_DBL(RT_NOCRT(fmax)( 1.0, 1.0), 1.0); CHECK_DBL(RT_NOCRT(fmax)( 4.0, 2.0), 4.0); CHECK_DBL(RT_NOCRT(fmax)( 2.0, 4.0), 4.0); CHECK_DBL(RT_NOCRT(fmax)(-2.0, -4.0), -2.0); CHECK_DBL(RT_NOCRT(fmax)(-2.0, -4.0e-10), -4.0e-10); CHECK_DBL(RT_NOCRT(fmax)(+INFINITY, +INFINITY), +INFINITY); CHECK_DBL(RT_NOCRT(fmax)(-INFINITY, -INFINITY), -INFINITY); CHECK_DBL(RT_NOCRT(fmax)(+INFINITY, -INFINITY), +INFINITY); CHECK_DBL(RT_NOCRT(fmax)(-INFINITY, +INFINITY), +INFINITY); CHECK_DBL_SAME(fmax, ( 99.99, 99.87)); CHECK_DBL_SAME(fmax, ( -99.99, -99.87)); CHECK_DBL_SAME(fmax, (-987.453, 34599.87)); CHECK_DBL_SAME(fmax, (34599.87, -987.453)); CHECK_DBL_SAME(fmax, ( +0.0, -0.0)); CHECK_DBL_SAME(fmax, ( -0.0, +0.0)); CHECK_DBL_SAME(fmax, ( -0.0, -0.0)); CHECK_DBL_SAME(fmax, (+INFINITY, +INFINITY)); CHECK_DBL_SAME(fmax, (-INFINITY, -INFINITY)); CHECK_DBL_SAME(fmax, (+INFINITY, -INFINITY)); CHECK_DBL_SAME(fmax, (-INFINITY, +INFINITY)); CHECK_DBL_SAME(fmax, (RTStrNanDouble(NULL, true), -42.4242424242e222)); CHECK_DBL_SAME(fmax, (RTStrNanDouble(NULL, false), -42.4242424242e222)); CHECK_DBL_SAME(fmax, (-42.4242424242e-222, RTStrNanDouble(NULL, true))); CHECK_DBL_SAME(fmax, (-42.4242424242e-222, RTStrNanDouble(NULL, false))); CHECK_DBL_SAME(fmax, (RTStrNanDouble("2", false), RTStrNanDouble(NULL, false))); CHECK_DBL_SAME(fmax, (RTStrNanDouble("3", true), RTStrNanDouble(NULL, false))); CHECK_DBL_SAME(fmax, (RTStrNanDouble("4sig", true), RTStrNanDouble(NULL, false))); CHECK_FLT(RT_NOCRT(fmaxf)( 1.0f, 1.0f), 1.0f); CHECK_FLT(RT_NOCRT(fmaxf)( 4.0f, 2.0f), 4.0f); CHECK_FLT(RT_NOCRT(fmaxf)( 2.0f, 4.0f), 4.0f); CHECK_FLT(RT_NOCRT(fmaxf)(-2.0f, -4.0f), -2.0f); CHECK_FLT(RT_NOCRT(fmaxf)(-2.0f, -4.0e-10f), -4.0e-10f); CHECK_FLT(RT_NOCRT(fmaxf)(+INFINITY, +INFINITY), +INFINITY); CHECK_FLT(RT_NOCRT(fmaxf)(-INFINITY, -INFINITY), -INFINITY); CHECK_FLT(RT_NOCRT(fmaxf)(+INFINITY, -INFINITY), +INFINITY); CHECK_FLT(RT_NOCRT(fmaxf)(-INFINITY, +INFINITY), +INFINITY); CHECK_FLT_SAME(fmaxf, ( 99.99f, 99.87f)); CHECK_FLT_SAME(fmaxf, ( -99.99f, -99.87f)); CHECK_FLT_SAME(fmaxf, (-987.453f, 34599.87f)); CHECK_FLT_SAME(fmaxf, (34599.87f, -987.453f)); CHECK_FLT_SAME(fmaxf, ( +0.0f, -0.0f)); CHECK_FLT_SAME(fmaxf, ( -0.0f, +0.0f)); CHECK_FLT_SAME(fmaxf, ( -0.0f, -0.0f)); CHECK_FLT_SAME(fmaxf, (+INFINITY, +INFINITY)); CHECK_FLT_SAME(fmaxf, (-INFINITY, -INFINITY)); CHECK_FLT_SAME(fmaxf, (+INFINITY, -INFINITY)); CHECK_FLT_SAME(fmaxf, (-INFINITY, +INFINITY)); CHECK_FLT_SAME(fmaxf, (RTStrNanFloat(NULL, true), -42.4242424242e22f)); CHECK_FLT_SAME(fmaxf, (RTStrNanFloat(NULL, false), -42.4242424242e22f)); CHECK_FLT_SAME(fmaxf, (-42.42424242e-22f, RTStrNanFloat(NULL, true))); CHECK_FLT_SAME(fmaxf, (-42.42424242e-22f, RTStrNanFloat(NULL, false))); CHECK_FLT_SAME(fmaxf, (RTStrNanFloat("2", false), RTStrNanFloat(NULL, false))); CHECK_FLT_SAME(fmaxf, (RTStrNanFloat("3", true), RTStrNanFloat(NULL, false))); CHECK_FLT_SAME(fmaxf, (RTStrNanFloat("4sig", true), RTStrNanFloat(NULL, false))); CHECK_LDBL(RT_NOCRT(fmaxl)( 1.0L, 1.0L), 1.0L); CHECK_LDBL(RT_NOCRT(fmaxl)( 4.0L, 2.0L), 4.0L); CHECK_LDBL(RT_NOCRT(fmaxl)( 2.0L, 4.0L), 4.0L); CHECK_LDBL(RT_NOCRT(fmaxl)(-2.0L, -4.0L), -2.0L); CHECK_LDBL(RT_NOCRT(fmaxl)(-2.0L, -4.0e-10L), -4.0e-10L); CHECK_LDBL(RT_NOCRT(fmaxl)(+INFINITY, +INFINITY), +INFINITY); CHECK_LDBL(RT_NOCRT(fmaxl)(-INFINITY, -INFINITY), -INFINITY); CHECK_LDBL(RT_NOCRT(fmaxl)(+INFINITY, -INFINITY), +INFINITY); CHECK_LDBL(RT_NOCRT(fmaxl)(-INFINITY, +INFINITY), +INFINITY); CHECK_LDBL_SAME(fmaxl, ( 99.99L, 99.87L)); CHECK_LDBL_SAME(fmaxl, ( -99.99L, -99.87L)); CHECK_LDBL_SAME(fmaxl, (-987.453L, 34599.87L)); CHECK_LDBL_SAME(fmaxl, (34599.87L, -987.453L)); CHECK_LDBL_SAME(fmaxl, ( +0.0L, -0.0L)); CHECK_LDBL_SAME(fmaxl, ( -0.0L, +0.0L)); CHECK_LDBL_SAME(fmaxl, ( -0.0L, -0.0L)); CHECK_LDBL_SAME(fmaxl, (+INFINITY, +INFINITY)); CHECK_LDBL_SAME(fmaxl, (-INFINITY, -INFINITY)); CHECK_LDBL_SAME(fmaxl, (+INFINITY, -INFINITY)); CHECK_LDBL_SAME(fmaxl, (-INFINITY, +INFINITY)); CHECK_LDBL_SAME(fmaxl, (RTStrNanLongDouble(NULL, true), -42.4242424242e222L)); CHECK_LDBL_SAME(fmaxl, (RTStrNanLongDouble(NULL, false), -42.4242424242e222L)); CHECK_LDBL_SAME(fmaxl, (-42.4242424242e-222L, RTStrNanLongDouble(NULL, true))); CHECK_LDBL_SAME(fmaxl, (-42.4242424242e-222L, RTStrNanLongDouble(NULL, false))); CHECK_LDBL_SAME(fmaxl, (RTStrNanLongDouble("2", false), RTStrNanLongDouble(NULL, false))); CHECK_LDBL_SAME(fmaxl, (RTStrNanLongDouble("3", true), RTStrNanLongDouble(NULL, false))); CHECK_LDBL_SAME(fmaxl, (RTStrNanLongDouble("4sig", true), RTStrNanLongDouble(NULL, false))); } void testFmin() { RTTestSub(g_hTest, "fmin[fl]"); CHECK_DBL(RT_NOCRT(fmin)( 1.0, 1.0), 1.0); CHECK_DBL(RT_NOCRT(fmin)( 4.0, 2.0), 2.0); CHECK_DBL(RT_NOCRT(fmin)( 2.0, 4.0), 2.0); CHECK_DBL(RT_NOCRT(fmin)(-2.0, -4.0), -4.0); CHECK_DBL(RT_NOCRT(fmin)(-2.0, -4.0e+10), -4.0e+10); CHECK_DBL(RT_NOCRT(fmin)(+INFINITY, +INFINITY), +INFINITY); CHECK_DBL(RT_NOCRT(fmin)(-INFINITY, -INFINITY), -INFINITY); CHECK_DBL(RT_NOCRT(fmin)(+INFINITY, -INFINITY), -INFINITY); CHECK_DBL(RT_NOCRT(fmin)(-INFINITY, +INFINITY), -INFINITY); CHECK_DBL_SAME(fmin, ( 99.99, 99.87)); CHECK_DBL_SAME(fmin, ( -99.99, -99.87)); CHECK_DBL_SAME(fmin, (-987.453, 34599.87)); CHECK_DBL_SAME(fmin, (34599.87, -987.453)); CHECK_DBL_SAME(fmin, ( +0.0, -0.0)); CHECK_DBL_SAME(fmin, ( -0.0, +0.0)); CHECK_DBL_SAME(fmin, ( -0.0, -0.0)); CHECK_DBL_SAME(fmin, (+INFINITY, +INFINITY)); CHECK_DBL_SAME(fmin, (-INFINITY, -INFINITY)); CHECK_DBL_SAME(fmin, (+INFINITY, -INFINITY)); CHECK_DBL_SAME(fmin, (-INFINITY, +INFINITY)); CHECK_DBL_SAME(fmin, (RTStrNanDouble(NULL, true), -42.4242424242e222)); CHECK_DBL_SAME(fmin, (RTStrNanDouble(NULL, false), -42.4242424242e222)); CHECK_DBL_SAME(fmin, (-42.4242424242e-222, RTStrNanDouble(NULL, true))); CHECK_DBL_SAME(fmin, (-42.4242424242e-222, RTStrNanDouble(NULL, false))); CHECK_DBL_SAME(fmin, (RTStrNanDouble("2", false), RTStrNanDouble(NULL, false))); CHECK_DBL_SAME(fmin, (RTStrNanDouble("3", true), RTStrNanDouble(NULL, false))); CHECK_DBL_SAME(fmin, (RTStrNanDouble("4sig", true), RTStrNanDouble(NULL, false))); CHECK_FLT(RT_NOCRT(fmin)( 1.0f, 1.0f), 1.0f); CHECK_FLT(RT_NOCRT(fmin)( 4.0f, 2.0f), 2.0f); CHECK_FLT(RT_NOCRT(fmin)( 2.0f, 4.0f), 2.0f); CHECK_FLT(RT_NOCRT(fmin)(-2.0f, -4.0f), -4.0f); CHECK_FLT(RT_NOCRT(fmin)(-2.0f, -4.0e+10f), -4.0e+10f); CHECK_FLT(RT_NOCRT(fmin)(+INFINITY, +INFINITY), +INFINITY); CHECK_FLT(RT_NOCRT(fmin)(-INFINITY, -INFINITY), -INFINITY); CHECK_FLT(RT_NOCRT(fmin)(+INFINITY, -INFINITY), -INFINITY); CHECK_FLT(RT_NOCRT(fmin)(-INFINITY, +INFINITY), -INFINITY); CHECK_FLT_SAME(fminf, ( 99.99f, 99.87f)); CHECK_FLT_SAME(fminf, ( -99.99f, -99.87f)); CHECK_FLT_SAME(fminf, (-987.453f, 34599.87f)); CHECK_FLT_SAME(fminf, (34599.87f, -987.453f)); CHECK_FLT_SAME(fminf, ( +0.0f, -0.0f)); CHECK_FLT_SAME(fminf, ( -0.0f, +0.0f)); CHECK_FLT_SAME(fminf, ( -0.0f, -0.0f)); CHECK_FLT_SAME(fminf, (+INFINITY, +INFINITY)); CHECK_FLT_SAME(fminf, (-INFINITY, -INFINITY)); CHECK_FLT_SAME(fminf, (+INFINITY, -INFINITY)); CHECK_FLT_SAME(fminf, (-INFINITY, +INFINITY)); CHECK_FLT_SAME(fminf, (RTStrNanFloat(NULL, true), -42.4242424242e22f)); CHECK_FLT_SAME(fminf, (RTStrNanFloat(NULL, false), -42.4242424242e22f)); CHECK_FLT_SAME(fminf, (-42.42424242e-22f, RTStrNanFloat(NULL, true))); CHECK_FLT_SAME(fminf, (-42.42424242e-22f, RTStrNanFloat(NULL, false))); CHECK_FLT_SAME(fminf, (RTStrNanFloat("2", false), RTStrNanFloat(NULL, false))); CHECK_FLT_SAME(fminf, (RTStrNanFloat("3", true), RTStrNanFloat(NULL, false))); CHECK_FLT_SAME(fminf, (RTStrNanFloat("4sig", true), RTStrNanFloat(NULL, false))); CHECK_LDBL(RT_NOCRT(fmin)( 1.0L, 1.0L), 1.0L); CHECK_LDBL(RT_NOCRT(fmin)( 4.0L, 2.0L), 2.0L); CHECK_LDBL(RT_NOCRT(fmin)( 2.0L, 4.0L), 2.0L); CHECK_LDBL(RT_NOCRT(fmin)(-2.0L, -4.0L), -4.0L); CHECK_LDBL(RT_NOCRT(fmin)(-2.0L, -4.0e+10L), -4.0e+10L); CHECK_LDBL(RT_NOCRT(fmin)(+INFINITY, +INFINITY), +INFINITY); CHECK_LDBL(RT_NOCRT(fmin)(-INFINITY, -INFINITY), -INFINITY); CHECK_LDBL(RT_NOCRT(fmin)(+INFINITY, -INFINITY), -INFINITY); CHECK_LDBL(RT_NOCRT(fmin)(-INFINITY, +INFINITY), -INFINITY); CHECK_LDBL_SAME(fminl, ( 99.99L, 99.87L)); CHECK_LDBL_SAME(fminl, ( -99.99L, -99.87L)); CHECK_LDBL_SAME(fminl, (-987.453L, 34599.87L)); CHECK_LDBL_SAME(fminl, (34599.87L, -987.453L)); CHECK_LDBL_SAME(fminl, ( +0.0L, -0.0L)); CHECK_LDBL_SAME(fminl, ( -0.0L, +0.0L)); CHECK_LDBL_SAME(fminl, ( -0.0L, -0.0L)); CHECK_LDBL_SAME(fminl, (+INFINITY, +INFINITY)); CHECK_LDBL_SAME(fminl, (-INFINITY, -INFINITY)); CHECK_LDBL_SAME(fminl, (+INFINITY, -INFINITY)); CHECK_LDBL_SAME(fminl, (-INFINITY, +INFINITY)); CHECK_LDBL_SAME(fminl, (RTStrNanLongDouble(NULL, true), -42.4242424242e222L)); CHECK_LDBL_SAME(fminl, (RTStrNanLongDouble(NULL, false), -42.4242424242e222L)); CHECK_LDBL_SAME(fminl, (-42.4242424242e-222L, RTStrNanLongDouble(NULL, true))); CHECK_LDBL_SAME(fminl, (-42.4242424242e-222L, RTStrNanLongDouble(NULL, false))); CHECK_LDBL_SAME(fminl, (RTStrNanLongDouble("2", false), RTStrNanLongDouble(NULL, false))); CHECK_LDBL_SAME(fminl, (RTStrNanLongDouble("3", true), RTStrNanLongDouble(NULL, false))); CHECK_LDBL_SAME(fminl, (RTStrNanLongDouble("4sig", true), RTStrNanLongDouble(NULL, false))); } void testIsInf() { RTTestSub(g_hTest, "isinf,__isinf[fl]"); #undef isinf CHECK_INT(RT_NOCRT(isinf)( 1.0), 0); CHECK_INT(RT_NOCRT(isinf)( 2394.2340e200), 0); CHECK_INT(RT_NOCRT(isinf)(-2394.2340e200), 0); CHECK_INT(RT_NOCRT(isinf)(-INFINITY), 1); CHECK_INT(RT_NOCRT(isinf)(+INFINITY), 1); CHECK_INT(RT_NOCRT(isinf)(RTStrNanDouble(NULL, true)), 0); CHECK_INT(RT_NOCRT(isinf)(RTStrNanDouble("4sig", false)), 0); CHECK_INT(RT_NOCRT(__isinff)( 1.0f), 0); CHECK_INT(RT_NOCRT(__isinff)( 2394.2340e20f), 0); CHECK_INT(RT_NOCRT(__isinff)(-2394.2340e20f), 0); CHECK_INT(RT_NOCRT(__isinff)(-INFINITY), 1); CHECK_INT(RT_NOCRT(__isinff)(+INFINITY), 1); CHECK_INT(RT_NOCRT(__isinff)(RTStrNanFloat(NULL, true)), 0); CHECK_INT(RT_NOCRT(__isinff)(RTStrNanFloat("4sig", false)), 0); CHECK_INT(RT_NOCRT(__isinfl)( 1.0L), 0); CHECK_INT(RT_NOCRT(__isinfl)( 2394.2340e200L), 0); CHECK_INT(RT_NOCRT(__isinfl)(-2394.2340e200L), 0); CHECK_INT(RT_NOCRT(__isinfl)(-INFINITY), 1); CHECK_INT(RT_NOCRT(__isinfl)(+INFINITY), 1); CHECK_INT(RT_NOCRT(__isinfl)(RTStrNanLongDouble(NULL, true)), 0); CHECK_INT(RT_NOCRT(__isinfl)(RTStrNanLongDouble("4sig", false)), 0); } void testIsNan() { RTTestSub(g_hTest, "isnan[f],__isnanl"); #undef isnan CHECK_INT(RT_NOCRT(isnan)( 0.0), 0); CHECK_INT(RT_NOCRT(isnan)( 1.0), 0); CHECK_INT(RT_NOCRT(isnan)( 2394.2340e200), 0); CHECK_INT(RT_NOCRT(isnan)(-2394.2340e200), 0); CHECK_INT(RT_NOCRT(isnan)(-INFINITY), 0); CHECK_INT(RT_NOCRT(isnan)(+INFINITY), 0); CHECK_INT(RT_NOCRT(isnan)(RTStrNanDouble(NULL, true)), 1); CHECK_INT(RT_NOCRT(isnan)(RTStrNanDouble(NULL, false)), 1); CHECK_INT(RT_NOCRT(isnan)(RTStrNanDouble("435876quiet", false)), 1); CHECK_INT(RT_NOCRT(isnan)(RTStrNanDouble("435876quiet", true)), 1); CHECK_INT(RT_NOCRT(isnan)(RTStrNanDouble("678sig", false)), 1); CHECK_INT(RT_NOCRT(isnan)(RTStrNanDouble("45547absig", true)), 1); CHECK_INT(RT_NOCRT(isnanf)( 0.0f), 0); CHECK_INT(RT_NOCRT(isnanf)( 1.0f), 0); CHECK_INT(RT_NOCRT(isnanf)( 2394.2340e20f), 0); CHECK_INT(RT_NOCRT(isnanf)(-2394.2340e20f), 0); CHECK_INT(RT_NOCRT(isnanf)(-INFINITY), 0); CHECK_INT(RT_NOCRT(isnanf)(+INFINITY), 0); CHECK_INT(RT_NOCRT(isnanf)(RTStrNanFloat(NULL, true)), 1); CHECK_INT(RT_NOCRT(isnanf)(RTStrNanFloat(NULL, false)), 1); CHECK_INT(RT_NOCRT(isnanf)(RTStrNanFloat("9560q", false)), 1); CHECK_INT(RT_NOCRT(isnanf)(RTStrNanFloat("aaaaq", true)), 1); CHECK_INT(RT_NOCRT(isnanf)(RTStrNanFloat("4sig", false)), 1); CHECK_INT(RT_NOCRT(isnanf)(RTStrNanFloat("69504sig", true)), 1); CHECK_INT(RT_NOCRT(__isnanl)( 0.0L), 0); CHECK_INT(RT_NOCRT(__isnanl)( 1.0L), 0); CHECK_INT(RT_NOCRT(__isnanl)( 2394.2340e200L), 0); CHECK_INT(RT_NOCRT(__isnanl)(-2394.2340e200L), 0); CHECK_INT(RT_NOCRT(__isnanl)(-INFINITY), 0); CHECK_INT(RT_NOCRT(__isnanl)(+INFINITY), 0); CHECK_INT(RT_NOCRT(__isnanl)(RTStrNanLongDouble(NULL, true)), 1); CHECK_INT(RT_NOCRT(__isnanl)(RTStrNanLongDouble(NULL, false)), 1); CHECK_INT(RT_NOCRT(__isnanl)(RTStrNanLongDouble("bbbbq", false)), 1); CHECK_INT(RT_NOCRT(__isnanl)(RTStrNanLongDouble("11122q", true)), 1); CHECK_INT(RT_NOCRT(__isnanl)(RTStrNanLongDouble("4sig", false)), 1); CHECK_INT(RT_NOCRT(__isnanl)(RTStrNanLongDouble("23423406sig", true)), 1); } void testIsFinite() { RTTestSub(g_hTest, "__isfinite[fl]"); CHECK_INT(RT_NOCRT(__isfinite)( 1.0), 1); CHECK_INT(RT_NOCRT(__isfinite)( 2394.2340e200), 1); CHECK_INT(RT_NOCRT(__isfinite)(-2394.2340e200), 1); CHECK_INT(RT_NOCRT(__isfinite)(-2.1984e-310), 1); /* subnormal */ CHECK_INT(RT_NOCRT(__isfinite)(-INFINITY), 0); CHECK_INT(RT_NOCRT(__isfinite)(+INFINITY), 0); CHECK_INT(RT_NOCRT(__isfinite)(RTStrNanDouble(NULL, true)), 0); CHECK_INT(RT_NOCRT(__isfinite)(RTStrNanDouble("4sig", false)), 0); CHECK_INT(RT_NOCRT(__isfinitef)( 1.0f), 1); CHECK_INT(RT_NOCRT(__isfinitef)( 2394.2340e20f), 1); CHECK_INT(RT_NOCRT(__isfinitef)(-2394.2340e20f), 1); CHECK_INT(RT_NOCRT(__isfinitef)(-2.1984e-40f), 1); /* subnormal */ CHECK_INT(RT_NOCRT(__isfinitef)(-INFINITY), 0); CHECK_INT(RT_NOCRT(__isfinitef)(+INFINITY), 0); CHECK_INT(RT_NOCRT(__isfinitef)(RTStrNanFloat(NULL, true)), 0); CHECK_INT(RT_NOCRT(__isfinitef)(RTStrNanFloat("4sig", false)), 0); CHECK_INT(RT_NOCRT(__isfinitel)( 1.0L), 1); CHECK_INT(RT_NOCRT(__isfinitel)( 2394.2340e200L), 1); CHECK_INT(RT_NOCRT(__isfinitel)(-2394.2340e200L), 1); #ifdef RT_COMPILER_WITH_64BIT_LONG_DOUBLE CHECK_INT(RT_NOCRT(__isfinitel)(-2.1984e-310L), 1); /* subnormal */ #else CHECK_INT(RT_NOCRT(__isfinitel)(-2.1984e-4935L), 1); /* subnormal */ #endif CHECK_INT(RT_NOCRT(__isfinitel)(-INFINITY), 0); CHECK_INT(RT_NOCRT(__isfinitel)(+INFINITY), 0); CHECK_INT(RT_NOCRT(__isfinitel)(RTStrNanLongDouble(NULL, true)), 0); CHECK_INT(RT_NOCRT(__isfinitel)(RTStrNanLongDouble("4sig", false)), 0); } void testIsNormal() { RTTestSub(g_hTest, "__isnormal[fl]"); CHECK_INT(RT_NOCRT(__isnormal)( 1.0), 1); CHECK_INT(RT_NOCRT(__isnormal)( 2394.2340e200), 1); CHECK_INT(RT_NOCRT(__isnormal)(-2394.2340e200), 1); CHECK_INT(RT_NOCRT(__isnormal)(-2.1984e-310), 0); /* subnormal */ CHECK_INT(RT_NOCRT(__isnormal)(-INFINITY), 0); CHECK_INT(RT_NOCRT(__isnormal)(+INFINITY), 0); CHECK_INT(RT_NOCRT(__isnormal)(RTStrNanDouble(NULL, true)), 0); CHECK_INT(RT_NOCRT(__isnormal)(RTStrNanDouble("4sig", false)), 0); CHECK_INT(RT_NOCRT(__isnormalf)( 1.0f), 1); CHECK_INT(RT_NOCRT(__isnormalf)( 2394.2340e20f), 1); CHECK_INT(RT_NOCRT(__isnormalf)(-2394.2340e20f), 1); CHECK_INT(RT_NOCRT(__isnormalf)(-2.1984e-40f), 0); /* subnormal */ CHECK_INT(RT_NOCRT(__isnormalf)(-INFINITY), 0); CHECK_INT(RT_NOCRT(__isnormalf)(+INFINITY), 0); CHECK_INT(RT_NOCRT(__isnormalf)(RTStrNanFloat(NULL, true)), 0); CHECK_INT(RT_NOCRT(__isnormalf)(RTStrNanFloat("4sig", false)), 0); CHECK_INT(RT_NOCRT(__isnormall)( 1.0L), 1); CHECK_INT(RT_NOCRT(__isnormall)( 2394.2340e200L), 1); CHECK_INT(RT_NOCRT(__isnormall)(-2394.2340e200L), 1); #ifdef RT_COMPILER_WITH_64BIT_LONG_DOUBLE CHECK_INT(RT_NOCRT(__isnormall)(-2.1984e-310L), 0); /* subnormal */ #else CHECK_INT(RT_NOCRT(__isnormall)(-2.1984e-4935L), 0); /* subnormal */ #endif CHECK_INT(RT_NOCRT(__isnormall)(-INFINITY), 0); CHECK_INT(RT_NOCRT(__isnormall)(+INFINITY), 0); CHECK_INT(RT_NOCRT(__isnormall)(RTStrNanLongDouble(NULL, true)), 0); CHECK_INT(RT_NOCRT(__isnormall)(RTStrNanLongDouble("4sig", false)), 0); } void testFpClassify() { RTTestSub(g_hTest, "__fpclassify[dfl]"); CHECK_INT(RT_NOCRT(__fpclassifyd)( +0.0), RT_NOCRT_FP_ZERO); CHECK_INT(RT_NOCRT(__fpclassifyd)( -0.0), RT_NOCRT_FP_ZERO); CHECK_INT(RT_NOCRT(__fpclassifyd)( 1.0), RT_NOCRT_FP_NORMAL); CHECK_INT(RT_NOCRT(__fpclassifyd)( 2394.2340e200), RT_NOCRT_FP_NORMAL); CHECK_INT(RT_NOCRT(__fpclassifyd)(-2394.2340e200), RT_NOCRT_FP_NORMAL); CHECK_INT(RT_NOCRT(__fpclassifyd)(-2.1984e-310), RT_NOCRT_FP_SUBNORMAL); /* subnormal */ CHECK_INT(RT_NOCRT(__fpclassifyd)(-INFINITY), RT_NOCRT_FP_INFINITE); CHECK_INT(RT_NOCRT(__fpclassifyd)(+INFINITY), RT_NOCRT_FP_INFINITE); CHECK_INT(RT_NOCRT(__fpclassifyd)(RTStrNanDouble(NULL, true)), RT_NOCRT_FP_NAN); CHECK_INT(RT_NOCRT(__fpclassifyd)(RTStrNanDouble("4sig", false)), RT_NOCRT_FP_NAN); CHECK_INT(RT_NOCRT(__fpclassifyf)( +0.0f), RT_NOCRT_FP_ZERO); CHECK_INT(RT_NOCRT(__fpclassifyf)( -0.0f), RT_NOCRT_FP_ZERO); CHECK_INT(RT_NOCRT(__fpclassifyf)( 1.0f), RT_NOCRT_FP_NORMAL); CHECK_INT(RT_NOCRT(__fpclassifyf)( 2394.2340e20f), RT_NOCRT_FP_NORMAL); CHECK_INT(RT_NOCRT(__fpclassifyf)(-2394.2340e20f), RT_NOCRT_FP_NORMAL); CHECK_INT(RT_NOCRT(__fpclassifyf)(-2.1984e-40f), RT_NOCRT_FP_SUBNORMAL); /* subnormal */ CHECK_INT(RT_NOCRT(__fpclassifyf)(-INFINITY), RT_NOCRT_FP_INFINITE); CHECK_INT(RT_NOCRT(__fpclassifyf)(+INFINITY), RT_NOCRT_FP_INFINITE); CHECK_INT(RT_NOCRT(__fpclassifyf)(RTStrNanFloat(NULL, true)), RT_NOCRT_FP_NAN); CHECK_INT(RT_NOCRT(__fpclassifyf)(RTStrNanFloat("4sig", false)), RT_NOCRT_FP_NAN); CHECK_INT(RT_NOCRT(__fpclassifyl)( +0.0L), RT_NOCRT_FP_ZERO); CHECK_INT(RT_NOCRT(__fpclassifyl)( -0.0L), RT_NOCRT_FP_ZERO); CHECK_INT(RT_NOCRT(__fpclassifyl)( 1.0L), RT_NOCRT_FP_NORMAL); CHECK_INT(RT_NOCRT(__fpclassifyl)( 2394.2340e200L), RT_NOCRT_FP_NORMAL); CHECK_INT(RT_NOCRT(__fpclassifyl)(-2394.2340e200L), RT_NOCRT_FP_NORMAL); #ifdef RT_COMPILER_WITH_64BIT_LONG_DOUBLE CHECK_INT(RT_NOCRT(__fpclassifyl)(-2.1984e-310L), RT_NOCRT_FP_SUBNORMAL); /* subnormal */ #else CHECK_INT(RT_NOCRT(__fpclassifyl)(-2.1984e-4935L), RT_NOCRT_FP_SUBNORMAL); /* subnormal */ #endif CHECK_INT(RT_NOCRT(__fpclassifyl)(-INFINITY), RT_NOCRT_FP_INFINITE); CHECK_INT(RT_NOCRT(__fpclassifyl)(+INFINITY), RT_NOCRT_FP_INFINITE); CHECK_INT(RT_NOCRT(__fpclassifyl)(RTStrNanLongDouble(NULL, true)), RT_NOCRT_FP_NAN); CHECK_INT(RT_NOCRT(__fpclassifyl)(RTStrNanLongDouble("4sig", false)), RT_NOCRT_FP_NAN); } void testSignBit() { RTTestSub(g_hTest, "__signbit[fl]"); CHECK_INT(RT_NOCRT(__signbit)( +0.0), 0); CHECK_INT(RT_NOCRT(__signbit)( -0.0), 1); CHECK_INT(RT_NOCRT(__signbit)( 1.0), 0); CHECK_INT(RT_NOCRT(__signbit)( 2394.2340e200), 0); CHECK_INT(RT_NOCRT(__signbit)(-2394.2340e200), 1); CHECK_INT(RT_NOCRT(__signbit)(-2.1984e-310), 1); /* subnormal */ CHECK_INT(RT_NOCRT(__signbit)(-INFINITY), 1); CHECK_INT(RT_NOCRT(__signbit)(+INFINITY), 0); CHECK_INT(RT_NOCRT(__signbit)(RTStrNanDouble(NULL, true)), 0); CHECK_INT(RT_NOCRT(__signbit)(RTStrNanDouble("4sig", false)), 1); CHECK_INT(RT_NOCRT(__signbitf)( +0.0f), 0); CHECK_INT(RT_NOCRT(__signbitf)( -0.0f), 1); CHECK_INT(RT_NOCRT(__signbitf)( 1.0f), 0); CHECK_INT(RT_NOCRT(__signbitf)( 2394.2340e20f), 0); CHECK_INT(RT_NOCRT(__signbitf)(-2394.2340e20f), 1); CHECK_INT(RT_NOCRT(__signbitf)(-2.1984e-40f), 1); /* subnormal */ CHECK_INT(RT_NOCRT(__signbitf)(-INFINITY), 1); CHECK_INT(RT_NOCRT(__signbitf)(+INFINITY), 0); CHECK_INT(RT_NOCRT(__signbitf)(RTStrNanFloat(NULL, true)), 0); CHECK_INT(RT_NOCRT(__signbitf)(RTStrNanFloat("4sig", false)), 1); CHECK_INT(RT_NOCRT(__signbitl)( +0.0L), 0); CHECK_INT(RT_NOCRT(__signbitl)( -0.0L), 1); CHECK_INT(RT_NOCRT(__signbitl)( 1.0L), 0); CHECK_INT(RT_NOCRT(__signbitl)( 2394.2340e200L), 0); CHECK_INT(RT_NOCRT(__signbitl)(-2394.2340e200L), 1); #ifdef RT_COMPILER_WITH_64BIT_LONG_DOUBLE CHECK_INT(RT_NOCRT(__signbitl)(-2.1984e-310L), 1); /* subnormal */ #else CHECK_INT(RT_NOCRT(__signbitl)(-2.1984e-4935L), 1); /* subnormal */ #endif CHECK_INT(RT_NOCRT(__signbitl)(-INFINITY), 1); CHECK_INT(RT_NOCRT(__signbitl)(+INFINITY), 0); CHECK_INT(RT_NOCRT(__signbitl)(RTStrNanLongDouble(NULL, true)), 0); CHECK_INT(RT_NOCRT(__signbitl)(RTStrNanLongDouble("4sig", false)), 1); } void testFrExp() { RTTestSub(g_hTest, "frexp[fl]"); int iExp; CHECK_DBL(RT_NOCRT(frexp)( +1.0, &iExp), +0.50000000000000000000); CHECK_INT(iExp, 1); CHECK_DBL(RT_NOCRT(frexp)( -1.0, &iExp), -0.50000000000000000000); CHECK_INT(iExp, 1); CHECK_DBL(RT_NOCRT(frexp)( +42.22, &iExp), +0.65968749999999998224); CHECK_INT(iExp, 6); CHECK_DBL(RT_NOCRT(frexp)( -42.22, &iExp), -0.65968749999999998224); CHECK_INT(iExp, 6); CHECK_DBL(RT_NOCRT(frexp)( +88888.88888, &iExp), +0.67816840270996092688); CHECK_INT(iExp, 17); CHECK_DBL(RT_NOCRT(frexp)( -999999.9999, &iExp), -0.95367431631088261934); CHECK_INT(iExp, 20); CHECK_DBL(RT_NOCRT(frexp)( +1.3942340e+200, &iExp), +0.91072771427195720051); CHECK_INT(iExp, 665); CHECK_DBL(RT_NOCRT(frexp)( -1.3942340e+200, &iExp), -0.91072771427195720051); CHECK_INT(iExp, 665); CHECK_DBL(RT_NOCRT(frexp)( -1.1984e-310, &iExp), -0.68939374490207683266); CHECK_INT(iExp, -1029); /* subnormal */ CHECK_DBL(RT_NOCRT(frexp)( -INFINITY, &iExp), -INFINITY); CHECK_INT(iExp, INT_MIN); CHECK_DBL(RT_NOCRT(frexp)( +INFINITY, &iExp), +INFINITY); CHECK_INT(iExp, INT_MAX); CHECK_DBL(RT_NOCRT(frexp)( RTStrNanDouble(NULL, true), &iExp), RTStrNanDouble(NULL, true)); CHECK_INT(iExp, INT_MAX); CHECK_DBL(RT_NOCRT(frexp)( RTStrNanDouble("4sig", false), &iExp), RTStrNanDouble("4sig", false)); CHECK_INT(iExp, INT_MIN); CHECK_FLT(RT_NOCRT(frexpf)( +1.0f, &iExp), +0.500000000000000f); CHECK_INT(iExp, 1); CHECK_FLT(RT_NOCRT(frexpf)( -1.0f, &iExp), -0.500000000000000f); CHECK_INT(iExp, 1); CHECK_FLT(RT_NOCRT(frexpf)( +42.22f, &iExp), +0.659687519073486f); CHECK_INT(iExp, 6); CHECK_FLT(RT_NOCRT(frexpf)( -42.22f, &iExp), -0.659687519073486f); CHECK_INT(iExp, 6); CHECK_FLT(RT_NOCRT(frexpf)( +88888.88888f, &iExp), +0.678168416023254f); CHECK_INT(iExp, 17); CHECK_FLT(RT_NOCRT(frexpf)( -999999.9999f, &iExp), -0.953674316406250f); CHECK_INT(iExp, 20); CHECK_FLT(RT_NOCRT(frexpf)( +1.3942340e+32f, &iExp), +0.859263062477112f); CHECK_INT(iExp, 107); CHECK_FLT(RT_NOCRT(frexpf)( -1.3942340e+35f, &iExp), -0.839124083518982f); CHECK_INT(iExp, 117); CHECK_FLT(RT_NOCRT(frexpf)( -2.1984e-40f, &iExp), -0.598461151123047f); CHECK_INT(iExp, -131); CHECK_FLT(RT_NOCRT(frexpf)( -(float)INFINITY, &iExp), -(float)INFINITY); CHECK_INT(iExp, INT_MIN); CHECK_FLT(RT_NOCRT(frexpf)( +(float)INFINITY, &iExp), +(float)INFINITY); CHECK_INT(iExp, INT_MAX); CHECK_FLT(RT_NOCRT(frexpf)( RTStrNanFloat(NULL, true), &iExp), RTStrNanFloat(NULL, true)); CHECK_INT(iExp, INT_MAX); CHECK_FLT(RT_NOCRT(frexpf)( RTStrNanFloat("4sig", false), &iExp), RTStrNanFloat("4sig", false)); CHECK_INT(iExp, INT_MIN); #ifdef RT_COMPILER_WITH_64BIT_LONG_DOUBLE CHECK_LDBL(RT_NOCRT(frexpl)( +1.0L, &iExp), +0.50000000000000000000L); CHECK_INT(iExp, 1); CHECK_LDBL(RT_NOCRT(frexpl)( -1.0L, &iExp), -0.50000000000000000000L); CHECK_INT(iExp, 1); CHECK_LDBL(RT_NOCRT(frexpl)( +42.22L, &iExp), +0.65968749999999998224L); CHECK_INT(iExp, 6); CHECK_LDBL(RT_NOCRT(frexpl)( -42.22L, &iExp), -0.65968749999999998224L); CHECK_INT(iExp, 6); CHECK_LDBL(RT_NOCRT(frexpl)( +88888.88888L, &iExp), +0.67816840270996092688L); CHECK_INT(iExp, 17); CHECK_LDBL(RT_NOCRT(frexpl)( -999999.9999L, &iExp), -0.95367431631088261934L); CHECK_INT(iExp, 20); CHECK_LDBL(RT_NOCRT(frexpl)( +1.3942340e+200L, &iExp), +0.91072771427195720051L); CHECK_INT(iExp, 665); CHECK_LDBL(RT_NOCRT(frexpl)( -1.3942340e+200L, &iExp), -0.91072771427195720051L); CHECK_INT(iExp, 665); CHECK_LDBL(RT_NOCRT(frexpl)( -1.1984e-310L, &iExp), -0.68939374490207683266L); CHECK_INT(iExp, -1029); /* subnormal */ #else CHECK_LDBL(RT_NOCRT(frexpl)( +1.0L, &iExp), +0.500000000000000000000000000000000L); CHECK_INT(iExp, 1); CHECK_LDBL(RT_NOCRT(frexpl)( -1.0L, &iExp), -0.500000000000000000000000000000000L); CHECK_INT(iExp, 1); CHECK_LDBL(RT_NOCRT(frexpl)( +42.22L, &iExp), +0.659687500000000000017347234759768L); CHECK_INT(iExp, 6); CHECK_LDBL(RT_NOCRT(frexpl)( -42.22L, &iExp), -0.659687500000000000017347234759768L); CHECK_INT(iExp, 6); CHECK_LDBL(RT_NOCRT(frexpl)( +8888888.88888888L, &iExp), +0.529819064670138359081450613041753L); CHECK_INT(iExp, 24); CHECK_LDBL(RT_NOCRT(frexpl)( -999999999999.9999999L, &iExp), -0.909494701772928237806618845251450L); CHECK_INT(iExp, 40); CHECK_LDBL(RT_NOCRT(frexpl)( +1.3942340e+4001L, &iExp), +0.713893296064537648672014558126619L); CHECK_INT(iExp, 13292); CHECK_LDBL(RT_NOCRT(frexpl)( -1.3942340e+2000L, &iExp), -0.630978384969008136966966970859971L); CHECK_INT(iExp, 6645); CHECK_LDBL(RT_NOCRT(frexpl)( -2.1984e-4935L, &iExp), -0.669569464164694649888076583010843L); CHECK_INT(iExp, -16392); #endif CHECK_LDBL(RT_NOCRT(frexpl)( -(long double)INFINITY, &iExp), -(long double)INFINITY); CHECK_INT(iExp, INT_MIN); CHECK_LDBL(RT_NOCRT(frexpl)( +(long double)INFINITY, &iExp), +(long double)INFINITY); CHECK_INT(iExp, INT_MAX); CHECK_LDBL(RT_NOCRT(frexpl)(RTStrNanLongDouble(NULL, true), &iExp), RTStrNanLongDouble(NULL, true)); CHECK_INT(iExp, INT_MAX); CHECK_LDBL(RT_NOCRT(frexpl)(RTStrNanLongDouble("4sig", false), &iExp), RTStrNanLongDouble("4sig", false)); CHECK_INT(iExp, INT_MIN); } void testCeil() { RTTestSub(g_hTest, "ceil[f]"); CHECK_DBL(RT_NOCRT(ceil)( +0.0), +0.0); CHECK_DBL(RT_NOCRT(ceil)( -0.0), -0.0); CHECK_DBL(RT_NOCRT(ceil)( -42.0), -42.0); CHECK_DBL(RT_NOCRT(ceil)( -42.5), -42.0); CHECK_DBL(RT_NOCRT(ceil)( +42.5), +43.0); CHECK_DBL(RT_NOCRT(ceil)(-42.25), -42.0); CHECK_DBL(RT_NOCRT(ceil)(+42.25), +43.0); CHECK_DBL_SAME(ceil,( -0.0)); CHECK_DBL_SAME(ceil,( +0.0)); CHECK_DBL_SAME(ceil,( +42.25)); CHECK_DBL_SAME(ceil,(+1234.60958634e+10)); CHECK_DBL_SAME(ceil,(-1234.60958634e+10)); CHECK_DBL_SAME(ceil,( -1234.499999e+10)); CHECK_DBL_SAME(ceil,( -1234.499999e-10)); CHECK_DBL_SAME(ceil,( -2.1984e-310)); /* subnormal */ CHECK_DBL_SAME(ceil,(-INFINITY)); CHECK_DBL_SAME(ceil,(+INFINITY)); CHECK_DBL_SAME(ceil,(RTStrNanDouble(NULL, true))); CHECK_DBL_SAME(ceil,(RTStrNanDouble("s", false))); CHECK_DBL(RT_NOCRT(ceilf)( +0.0f), +0.0f); CHECK_DBL(RT_NOCRT(ceilf)( -0.0f), -0.0f); CHECK_DBL(RT_NOCRT(ceilf)( -42.0f), -42.0f); CHECK_DBL(RT_NOCRT(ceilf)( -42.5f), -42.0f); CHECK_DBL(RT_NOCRT(ceilf)( +42.5f), +43.0f); CHECK_DBL(RT_NOCRT(ceilf)(-42.25f), -42.0f); CHECK_DBL(RT_NOCRT(ceilf)(+42.25f), +43.0f); CHECK_DBL_SAME(ceilf,( -0.0f)); CHECK_DBL_SAME(ceilf,( +0.0f)); CHECK_DBL_SAME(ceilf,( +42.25f)); CHECK_DBL_SAME(ceilf,(+1234.60958634e+10f)); CHECK_DBL_SAME(ceilf,(-1234.60958634e+10f)); CHECK_DBL_SAME(ceilf,( -1234.499999e+10f)); CHECK_DBL_SAME(ceilf,( -1234.499999e-10f)); CHECK_DBL_SAME(ceilf,( -2.1984e-40f)); /* subnormal */ CHECK_DBL_SAME(ceilf,(-INFINITY)); CHECK_DBL_SAME(ceilf,(+INFINITY)); CHECK_DBL_SAME(ceilf,(RTStrNanFloat(NULL, true))); CHECK_DBL_SAME(ceilf,(RTStrNanFloat("s", false))); } void testFloor() { RTTestSub(g_hTest, "floor[f]"); CHECK_DBL(RT_NOCRT(floor)( +0.0), +0.0); CHECK_DBL(RT_NOCRT(floor)( -0.0), -0.0); CHECK_DBL(RT_NOCRT(floor)( -42.0), -42.0); CHECK_DBL(RT_NOCRT(floor)( -42.5), -43.0); CHECK_DBL(RT_NOCRT(floor)( +42.5), +42.0); CHECK_DBL(RT_NOCRT(floor)(-42.25), -43.0); CHECK_DBL(RT_NOCRT(floor)(+42.25), +42.0); CHECK_DBL_SAME(floor,( -0.0)); CHECK_DBL_SAME(floor,( +0.0)); CHECK_DBL_SAME(floor,( +42.25)); CHECK_DBL_SAME(floor,(+1234.60958634e+10)); CHECK_DBL_SAME(floor,(-1234.60958634e+10)); CHECK_DBL_SAME(floor,( -1234.499999e+10)); CHECK_DBL_SAME(floor,( -1234.499999e-10)); CHECK_DBL_SAME(floor,( -2.1984e-310)); /* subnormal */ CHECK_DBL_SAME(floor,(-INFINITY)); CHECK_DBL_SAME(floor,(+INFINITY)); CHECK_DBL_SAME(floor,(RTStrNanDouble(NULL, true))); CHECK_DBL_SAME(floor,(RTStrNanDouble("s", false))); CHECK_DBL(RT_NOCRT(floorf)( +0.0f), +0.0f); CHECK_DBL(RT_NOCRT(floorf)( -0.0f), -0.0f); CHECK_DBL(RT_NOCRT(floorf)( -42.0f), -42.0f); CHECK_DBL(RT_NOCRT(floorf)( -42.5f), -43.0f); CHECK_DBL(RT_NOCRT(floorf)( +42.5f), +42.0f); CHECK_DBL(RT_NOCRT(floorf)(-42.25f), -43.0f); CHECK_DBL(RT_NOCRT(floorf)(+42.25f), +42.0f); CHECK_DBL_SAME(floorf,( -0.0f)); CHECK_DBL_SAME(floorf,( +0.0f)); CHECK_DBL_SAME(floorf,( +42.25f)); CHECK_DBL_SAME(floorf,(+1234.60958634e+10f)); CHECK_DBL_SAME(floorf,(-1234.60958634e+10f)); CHECK_DBL_SAME(floorf,( -1234.499999e+10f)); CHECK_DBL_SAME(floorf,( -1234.499999e-10f)); CHECK_DBL_SAME(floorf,( -2.1984e-40f)); /* subnormal */ CHECK_DBL_SAME(floorf,(-INFINITY)); CHECK_DBL_SAME(floorf,(+INFINITY)); CHECK_DBL_SAME(floorf,(RTStrNanFloat(NULL, true))); CHECK_DBL_SAME(floorf,(RTStrNanFloat("s", false))); } void testTrunc() { RTTestSub(g_hTest, "trunc[f]"); CHECK_DBL(RT_NOCRT(trunc)( +0.0), +0.0); CHECK_DBL(RT_NOCRT(trunc)( -0.0), -0.0); CHECK_DBL(RT_NOCRT(trunc)( -42.0), -42.0); CHECK_DBL(RT_NOCRT(trunc)( -42.5), -42.0); CHECK_DBL(RT_NOCRT(trunc)( +42.5), +42.0); CHECK_DBL(RT_NOCRT(trunc)(-42.25), -42.0); CHECK_DBL(RT_NOCRT(trunc)(+42.25), +42.0); CHECK_DBL_SAME(trunc,( -0.0)); CHECK_DBL_SAME(trunc,( +0.0)); CHECK_DBL_SAME(trunc,( +42.25)); CHECK_DBL_SAME(trunc,(+1234.60958634e+10)); CHECK_DBL_SAME(trunc,(-1234.60958634e+10)); CHECK_DBL_SAME(trunc,( -1234.499999e+10)); CHECK_DBL_SAME(trunc,( -1234.499999e-10)); CHECK_DBL_SAME(trunc,( -2.1984e-310)); /* subnormal */ CHECK_DBL_SAME(trunc,(-INFINITY)); CHECK_DBL_SAME(trunc,(+INFINITY)); CHECK_DBL_SAME(trunc,(RTStrNanDouble(NULL, true))); CHECK_DBL_SAME(trunc,(RTStrNanDouble("s", false))); CHECK_DBL(RT_NOCRT(truncf)( +0.0f), +0.0f); CHECK_DBL(RT_NOCRT(truncf)( -0.0f), -0.0f); CHECK_DBL(RT_NOCRT(truncf)( -42.0f), -42.0f); CHECK_DBL(RT_NOCRT(truncf)( -42.5f), -42.0f); CHECK_DBL(RT_NOCRT(truncf)( +42.5f), +42.0f); CHECK_DBL(RT_NOCRT(truncf)(-42.25f), -42.0f); CHECK_DBL(RT_NOCRT(truncf)(+42.25f), +42.0f); CHECK_DBL_SAME(truncf,( -0.0f)); CHECK_DBL_SAME(truncf,( +0.0f)); CHECK_DBL_SAME(truncf,( +42.25f)); CHECK_DBL_SAME(truncf,(+1234.60958634e+10f)); CHECK_DBL_SAME(truncf,(-1234.60958634e+10f)); CHECK_DBL_SAME(truncf,( -1234.499999e+10f)); CHECK_DBL_SAME(truncf,( -1234.499999e-10f)); CHECK_DBL_SAME(truncf,( -2.1984e-40f)); /* subnormal */ CHECK_DBL_SAME(truncf,(-INFINITY)); CHECK_DBL_SAME(truncf,(+INFINITY)); CHECK_DBL_SAME(truncf,(RTStrNanFloat(NULL, true))); CHECK_DBL_SAME(truncf,(RTStrNanFloat("s", false))); } void testRound() { RTTestSub(g_hTest, "round[f]"); CHECK_DBL(RT_NOCRT(round)( +0.0), +0.0); CHECK_DBL(RT_NOCRT(round)( -0.0), -0.0); CHECK_DBL(RT_NOCRT(round)( -42.0), -42.0); CHECK_DBL(RT_NOCRT(round)( -42.5), -43.0); CHECK_DBL(RT_NOCRT(round)( +42.5), +43.0); CHECK_DBL(RT_NOCRT(round)(-42.25), -42.0); CHECK_DBL(RT_NOCRT(round)(+42.25), +42.0); CHECK_DBL_SAME(round,( -0.0)); CHECK_DBL_SAME(round,( +0.0)); CHECK_DBL_SAME(round,( +42.25)); CHECK_DBL_SAME(round,(+1234.60958634e+10)); CHECK_DBL_SAME(round,(-1234.60958634e+10)); CHECK_DBL_SAME(round,( -1234.499999e+10)); CHECK_DBL_SAME(round,( -1234.499999e-10)); CHECK_DBL_SAME(round,( -2.1984e-310)); /* subnormal */ CHECK_DBL_SAME(round,(-INFINITY)); CHECK_DBL_SAME(round,(+INFINITY)); CHECK_DBL_SAME(round,(RTStrNanDouble(NULL, true))); CHECK_DBL_SAME(round,(RTStrNanDouble("s", false))); CHECK_DBL(RT_NOCRT(roundf)( +0.0f), +0.0f); CHECK_DBL(RT_NOCRT(roundf)( -0.0f), -0.0f); CHECK_DBL(RT_NOCRT(roundf)( -42.0f), -42.0f); CHECK_DBL(RT_NOCRT(roundf)( -42.5f), -43.0f); CHECK_DBL(RT_NOCRT(roundf)( +42.5f), +43.0f); CHECK_DBL(RT_NOCRT(roundf)(-42.25f), -42.0f); CHECK_DBL(RT_NOCRT(roundf)(+42.25f), +42.0f); CHECK_DBL_SAME(roundf,( -0.0f)); CHECK_DBL_SAME(roundf,( +0.0f)); CHECK_DBL_SAME(roundf,( +42.25f)); CHECK_DBL_SAME(roundf,(+1234.60958634e+10f)); CHECK_DBL_SAME(roundf,(-1234.60958634e+10f)); CHECK_DBL_SAME(roundf,( -1234.499999e+10f)); CHECK_DBL_SAME(roundf,( -1234.499999e-10f)); CHECK_DBL_SAME(roundf,( -2.1984e-40f)); /* subnormal */ CHECK_DBL_SAME(roundf,(-INFINITY)); CHECK_DBL_SAME(roundf,(+INFINITY)); CHECK_DBL_SAME(roundf,(RTStrNanFloat(NULL, true))); CHECK_DBL_SAME(roundf,(RTStrNanFloat("s", false))); } void testRInt() { RTTestSub(g_hTest, "rint[f]"); /* * Round nearest. */ #if defined(RT_ARCH_AMD64) || defined(RT_ARCH_X86) AssertCompile(RT_NOCRT_FE_TONEAREST == X86_FCW_RC_NEAREST); AssertCompile(RT_NOCRT_FE_DOWNWARD == X86_FCW_RC_DOWN); AssertCompile(RT_NOCRT_FE_UPWARD == X86_FCW_RC_UP); AssertCompile(RT_NOCRT_FE_TOWARDZERO == X86_FCW_RC_ZERO); AssertCompile(RT_NOCRT_FE_ROUND_MASK == X86_FCW_RC_MASK); #endif int const iSavedMode = RT_NOCRT(fegetround)(); if (iSavedMode != FE_TONEAREST) RTTestFailed(g_hTest, "expected FE_TONEAREST as default rounding mode, not %#x (%d)", iSavedMode, iSavedMode); RT_NOCRT(fesetround)(FE_TONEAREST); CHECK_DBL(RT_NOCRT(rint)( +0.0), +0.0); CHECK_DBL(RT_NOCRT(rint)( -0.0), -0.0); CHECK_DBL(RT_NOCRT(rint)( -42.0), -42.0); CHECK_DBL(RT_NOCRT(rint)( -42.5), -42.0); CHECK_DBL(RT_NOCRT(rint)( +42.5), +42.0); CHECK_DBL(RT_NOCRT(rint)( -43.5), -44.0); CHECK_DBL(RT_NOCRT(rint)( +43.5), +44.0); CHECK_DBL(RT_NOCRT(rint)(-42.25), -42.0); CHECK_DBL(RT_NOCRT(rint)(+42.25), +42.0); CHECK_DBL(RT_NOCRT(rint)(-42.75), -43.0); CHECK_DBL(RT_NOCRT(rint)(+42.75), +43.0); CHECK_DBL_SAME(rint,( -0.0)); CHECK_DBL_SAME(rint,( +0.0)); CHECK_DBL_SAME(rint,( +42.25)); CHECK_DBL_SAME(rint,( +42.50)); CHECK_DBL_SAME(rint,( +42.75)); CHECK_DBL_SAME(rint,( -42.25)); CHECK_DBL_SAME(rint,( -42.50)); CHECK_DBL_SAME(rint,( -42.75)); CHECK_DBL_SAME(rint,(+1234.60958634e+10)); CHECK_DBL_SAME(rint,(-1234.60958634e+10)); CHECK_DBL_SAME(rint,( -1234.499999e+10)); CHECK_DBL_SAME(rint,( -1234.499999e-10)); CHECK_DBL_SAME(rint,( -2.1984e-310)); /* subnormal */ CHECK_DBL_SAME(rint,(-INFINITY)); CHECK_DBL_SAME(rint,(+INFINITY)); CHECK_DBL_SAME(rint,(RTStrNanDouble(NULL, true))); CHECK_DBL_SAME(rint,(RTStrNanDouble("s", false))); CHECK_DBL(RT_NOCRT(rintf)( +0.0f), +0.0f); CHECK_DBL(RT_NOCRT(rintf)( -0.0f), -0.0f); CHECK_DBL(RT_NOCRT(rintf)( -42.0f), -42.0f); CHECK_DBL(RT_NOCRT(rintf)( -42.5f), -42.0f); CHECK_DBL(RT_NOCRT(rintf)( +42.5f), +42.0f); CHECK_DBL(RT_NOCRT(rintf)( -43.5f), -44.0f); CHECK_DBL(RT_NOCRT(rintf)( +43.5f), +44.0f); CHECK_DBL(RT_NOCRT(rintf)(-42.25f), -42.0f); CHECK_DBL(RT_NOCRT(rintf)(+42.25f), +42.0f); CHECK_DBL_SAME(rintf,( -0.0f)); CHECK_DBL_SAME(rintf,( +0.0f)); CHECK_DBL_SAME(rintf,( +42.25f)); CHECK_DBL_SAME(rintf,( +42.50f)); CHECK_DBL_SAME(rintf,( +42.75f)); CHECK_DBL_SAME(rintf,( -42.25f)); CHECK_DBL_SAME(rintf,( -42.50f)); CHECK_DBL_SAME(rintf,( -42.75f)); CHECK_DBL_SAME(rintf,(+1234.60958634e+10f)); CHECK_DBL_SAME(rintf,(-1234.60958634e+10f)); CHECK_DBL_SAME(rintf,( -1234.499999e+10f)); CHECK_DBL_SAME(rintf,( -1234.499999e-10f)); CHECK_DBL_SAME(rintf,( -2.1984e-40f)); /* subnormal */ CHECK_DBL_SAME(rintf,(-INFINITY)); CHECK_DBL_SAME(rintf,(+INFINITY)); CHECK_DBL_SAME(rintf,(RTStrNanFloat(NULL, true))); CHECK_DBL_SAME(rintf,(RTStrNanFloat("s", false))); /* * Round UP. */ RT_NOCRT(fesetround)(FE_UPWARD); CHECK_DBL(RT_NOCRT(rint)( +0.0), +0.0); CHECK_DBL(RT_NOCRT(rint)( -0.0), -0.0); CHECK_DBL(RT_NOCRT(rint)( -42.0), -42.0); CHECK_DBL(RT_NOCRT(rint)( -42.5), -42.0); CHECK_DBL(RT_NOCRT(rint)( +42.5), +43.0); CHECK_DBL(RT_NOCRT(rint)( -43.5), -43.0); CHECK_DBL(RT_NOCRT(rint)( +43.5), +44.0); CHECK_DBL(RT_NOCRT(rint)(-42.25), -42.0); CHECK_DBL(RT_NOCRT(rint)(+42.25), +43.0); CHECK_DBL(RT_NOCRT(rint)(-42.75), -42.0); CHECK_DBL(RT_NOCRT(rint)(+42.75), +43.0); CHECK_DBL_SAME(rint,( -0.0)); CHECK_DBL_SAME(rint,( +0.0)); CHECK_DBL_SAME(rint,( +42.25)); CHECK_DBL_SAME(rint,( +42.50)); CHECK_DBL_SAME(rint,( +42.75)); CHECK_DBL_SAME(rint,( -42.25)); CHECK_DBL_SAME(rint,( -42.50)); CHECK_DBL_SAME(rint,( -42.75)); CHECK_DBL_SAME(rint,(+1234.60958634e+10)); CHECK_DBL_SAME(rint,(-1234.60958634e+10)); CHECK_DBL_SAME(rint,( -1234.499999e+10)); CHECK_DBL_SAME(rint,( -1234.499999e-10)); CHECK_DBL_SAME(rint,( -2.1984e-310)); /* subnormal */ CHECK_DBL_SAME(rint,(-INFINITY)); CHECK_DBL_SAME(rint,(+INFINITY)); CHECK_DBL_SAME(rint,(RTStrNanDouble(NULL, true))); CHECK_DBL_SAME(rint,(RTStrNanDouble("s", false))); CHECK_DBL(RT_NOCRT(rintf)( +0.0f), +0.0f); CHECK_DBL(RT_NOCRT(rintf)( -0.0f), -0.0f); CHECK_DBL(RT_NOCRT(rintf)( -42.0f), -42.0f); CHECK_DBL(RT_NOCRT(rintf)( -42.5f), -42.0f); CHECK_DBL(RT_NOCRT(rintf)( +42.5f), +43.0f); CHECK_DBL(RT_NOCRT(rintf)( -43.5f), -43.0f); CHECK_DBL(RT_NOCRT(rintf)( +43.5f), +44.0f); CHECK_DBL(RT_NOCRT(rintf)(-42.25f), -42.0f); CHECK_DBL(RT_NOCRT(rintf)(+42.25f), +43.0f); CHECK_DBL_SAME(rintf,( -0.0f)); CHECK_DBL_SAME(rintf,( +0.0f)); CHECK_DBL_SAME(rintf,( +42.25f)); CHECK_DBL_SAME(rintf,( +42.50f)); CHECK_DBL_SAME(rintf,( +42.75f)); CHECK_DBL_SAME(rintf,( -42.25f)); CHECK_DBL_SAME(rintf,( -42.50f)); CHECK_DBL_SAME(rintf,( -42.75f)); CHECK_DBL_SAME(rintf,(+1234.60958634e+10f)); CHECK_DBL_SAME(rintf,(-1234.60958634e+10f)); CHECK_DBL_SAME(rintf,( -1234.499999e+10f)); CHECK_DBL_SAME(rintf,( -1234.499999e-10f)); CHECK_DBL_SAME(rintf,( -2.1984e-40f)); /* subnormal */ CHECK_DBL_SAME(rintf,(-INFINITY)); CHECK_DBL_SAME(rintf,(+INFINITY)); CHECK_DBL_SAME(rintf,(RTStrNanFloat(NULL, true))); CHECK_DBL_SAME(rintf,(RTStrNanFloat("s", false))); /* * Round DOWN. */ RT_NOCRT(fesetround)(FE_DOWNWARD); CHECK_DBL(RT_NOCRT(rint)( +0.0), +0.0); CHECK_DBL(RT_NOCRT(rint)( -0.0), -0.0); CHECK_DBL(RT_NOCRT(rint)( -42.0), -42.0); CHECK_DBL(RT_NOCRT(rint)( -42.5), -43.0); CHECK_DBL(RT_NOCRT(rint)( +42.5), +42.0); CHECK_DBL(RT_NOCRT(rint)( -43.5), -44.0); CHECK_DBL(RT_NOCRT(rint)( +43.5), +43.0); CHECK_DBL(RT_NOCRT(rint)(-42.25), -43.0); CHECK_DBL(RT_NOCRT(rint)(+42.25), +42.0); CHECK_DBL(RT_NOCRT(rint)(-42.75), -43.0); CHECK_DBL(RT_NOCRT(rint)(+42.75), +42.0); CHECK_DBL_SAME(rint,( -0.0)); CHECK_DBL_SAME(rint,( +0.0)); CHECK_DBL_SAME(rint,( +42.25)); CHECK_DBL_SAME(rint,( +42.50)); CHECK_DBL_SAME(rint,( +42.75)); CHECK_DBL_SAME(rint,( -42.25)); CHECK_DBL_SAME(rint,( -42.50)); CHECK_DBL_SAME(rint,( -42.75)); CHECK_DBL_SAME(rint,(+1234.60958634e+10)); CHECK_DBL_SAME(rint,(-1234.60958634e+10)); CHECK_DBL_SAME(rint,( -1234.499999e+10)); CHECK_DBL_SAME(rint,( -1234.499999e-10)); CHECK_DBL_SAME(rint,( -2.1984e-310)); /* subnormal */ CHECK_DBL_SAME(rint,(-INFINITY)); CHECK_DBL_SAME(rint,(+INFINITY)); CHECK_DBL_SAME(rint,(RTStrNanDouble(NULL, true))); CHECK_DBL_SAME(rint,(RTStrNanDouble("s", false))); CHECK_DBL(RT_NOCRT(rintf)( +0.0f), +0.0f); CHECK_DBL(RT_NOCRT(rintf)( -0.0f), -0.0f); CHECK_DBL(RT_NOCRT(rintf)( -42.0f), -42.0f); CHECK_DBL(RT_NOCRT(rintf)( -42.5f), -43.0f); CHECK_DBL(RT_NOCRT(rintf)( +42.5f), +42.0f); CHECK_DBL(RT_NOCRT(rintf)( -43.5f), -44.0f); CHECK_DBL(RT_NOCRT(rintf)( +43.5f), +43.0f); CHECK_DBL(RT_NOCRT(rintf)(-42.25f), -43.0f); CHECK_DBL(RT_NOCRT(rintf)(+42.25f), +42.0f); CHECK_DBL_SAME(rintf,( -0.0f)); CHECK_DBL_SAME(rintf,( +0.0f)); CHECK_DBL_SAME(rintf,( +42.25f)); CHECK_DBL_SAME(rintf,( +42.50f)); CHECK_DBL_SAME(rintf,( +42.75f)); CHECK_DBL_SAME(rintf,( -42.25f)); CHECK_DBL_SAME(rintf,( -42.50f)); CHECK_DBL_SAME(rintf,( -42.75f)); CHECK_DBL_SAME(rintf,(+1234.60958634e+10f)); CHECK_DBL_SAME(rintf,(-1234.60958634e+10f)); CHECK_DBL_SAME(rintf,( -1234.499999e+10f)); CHECK_DBL_SAME(rintf,( -1234.499999e-10f)); CHECK_DBL_SAME(rintf,( -2.1984e-40f)); /* subnormal */ CHECK_DBL_SAME(rintf,(-INFINITY)); CHECK_DBL_SAME(rintf,(+INFINITY)); CHECK_DBL_SAME(rintf,(RTStrNanFloat(NULL, true))); CHECK_DBL_SAME(rintf,(RTStrNanFloat("s", false))); /* * Round towards ZERO. */ RT_NOCRT(fesetround)(FE_TOWARDZERO); CHECK_DBL(RT_NOCRT(rint)( +0.0), +0.0); CHECK_DBL(RT_NOCRT(rint)( -0.0), -0.0); CHECK_DBL(RT_NOCRT(rint)( -42.0), -42.0); CHECK_DBL(RT_NOCRT(rint)( -42.5), -42.0); CHECK_DBL(RT_NOCRT(rint)( +42.5), +42.0); CHECK_DBL(RT_NOCRT(rint)( -43.5), -43.0); CHECK_DBL(RT_NOCRT(rint)( +43.5), +43.0); CHECK_DBL(RT_NOCRT(rint)(-42.25), -42.0); CHECK_DBL(RT_NOCRT(rint)(+42.25), +42.0); CHECK_DBL(RT_NOCRT(rint)(-42.75), -42.0); CHECK_DBL(RT_NOCRT(rint)(+42.75), +42.0); CHECK_DBL_SAME(rint,( -0.0)); CHECK_DBL_SAME(rint,( +0.0)); CHECK_DBL_SAME(rint,( +42.25)); CHECK_DBL_SAME(rint,( +42.50)); CHECK_DBL_SAME(rint,( +42.75)); CHECK_DBL_SAME(rint,( -42.25)); CHECK_DBL_SAME(rint,( -42.50)); CHECK_DBL_SAME(rint,( -42.75)); CHECK_DBL_SAME(rint,(+1234.60958634e+10)); CHECK_DBL_SAME(rint,(-1234.60958634e+10)); CHECK_DBL_SAME(rint,( -1234.499999e+10)); CHECK_DBL_SAME(rint,( -1234.499999e-10)); CHECK_DBL_SAME(rint,( -2.1984e-310)); /* subnormal */ CHECK_DBL_SAME(rint,(-INFINITY)); CHECK_DBL_SAME(rint,(+INFINITY)); CHECK_DBL_SAME(rint,(RTStrNanDouble(NULL, true))); CHECK_DBL_SAME(rint,(RTStrNanDouble("s", false))); CHECK_DBL(RT_NOCRT(rintf)( +0.0f), +0.0f); CHECK_DBL(RT_NOCRT(rintf)( -0.0f), -0.0f); CHECK_DBL(RT_NOCRT(rintf)( -42.0f), -42.0f); CHECK_DBL(RT_NOCRT(rintf)( -42.5f), -42.0f); CHECK_DBL(RT_NOCRT(rintf)( +42.5f), +42.0f); CHECK_DBL(RT_NOCRT(rintf)( -43.5f), -43.0f); CHECK_DBL(RT_NOCRT(rintf)( +43.5f), +43.0f); CHECK_DBL(RT_NOCRT(rintf)(-42.25f), -42.0f); CHECK_DBL(RT_NOCRT(rintf)(+42.25f), +42.0f); CHECK_DBL_SAME(rintf,( -0.0f)); CHECK_DBL_SAME(rintf,( +0.0f)); CHECK_DBL_SAME(rintf,( +42.25f)); CHECK_DBL_SAME(rintf,( +42.50f)); CHECK_DBL_SAME(rintf,( +42.75f)); CHECK_DBL_SAME(rintf,( -42.25f)); CHECK_DBL_SAME(rintf,( -42.50f)); CHECK_DBL_SAME(rintf,( -42.75f)); CHECK_DBL_SAME(rintf,(+1234.60958634e+10f)); CHECK_DBL_SAME(rintf,(-1234.60958634e+10f)); CHECK_DBL_SAME(rintf,( -1234.499999e+10f)); CHECK_DBL_SAME(rintf,( -1234.499999e-10f)); CHECK_DBL_SAME(rintf,( -2.1984e-40f)); /* subnormal */ CHECK_DBL_SAME(rintf,(-INFINITY)); CHECK_DBL_SAME(rintf,(+INFINITY)); CHECK_DBL_SAME(rintf,(RTStrNanFloat(NULL, true))); CHECK_DBL_SAME(rintf,(RTStrNanFloat("s", false))); RT_NOCRT(fesetround)(iSavedMode); } void testLRound() { RTTestSub(g_hTest, "lround[f]"); CHECK_LONG(RT_NOCRT(lround)( +0.0), 0); CHECK_LONG(RT_NOCRT(lround)( -0.0), 0); CHECK_LONG(RT_NOCRT(lround)( -42.0), -42); CHECK_LONG(RT_NOCRT(lround)( -42.5), -43); CHECK_LONG(RT_NOCRT(lround)( +42.5), +43); CHECK_LONG(RT_NOCRT(lround)( -42.25), -42); CHECK_LONG(RT_NOCRT(lround)( +42.25), +42); CHECK_LONG(RT_NOCRT(lround)(+1234.60958634e+20), LONG_MAX); CHECK_LONG(RT_NOCRT(lround)(-1234.60958634e+20), LONG_MIN); CHECK_LONG(RT_NOCRT(lround)( -1234.499999e+20), LONG_MIN); CHECK_LONG(RT_NOCRT(lround)( -1234.499999e-10), 0); CHECK_LONG(RT_NOCRT(lround)( -2.1984e-310), 0); /* subnormal */ CHECK_LONG(RT_NOCRT(lround)(-INFINITY), LONG_MIN); CHECK_LONG(RT_NOCRT(lround)(+INFINITY), LONG_MAX); CHECK_LONG(RT_NOCRT(lround)(RTStrNanDouble(NULL, true)), LONG_MAX); CHECK_LONG(RT_NOCRT(lround)(RTStrNanDouble("s", false)), LONG_MAX); CHECK_LONG_SAME(lround,( -0.0)); CHECK_LONG_SAME(lround,( +0.0)); CHECK_LONG_SAME(lround,( +42.25)); CHECK_LONG_SAME(lround,( +42.25e+6)); CHECK_LONG_SAME(lround,( -42.25e+6)); CHECK_LONG_SAME(lround,( -1234.499999e-10)); CHECK_LONG_SAME(lround,( -2.1984e-310)); /* subnormal */ #if 0 /* unspecified, we test our expected behavior above */ CHECK_LONG_SAME(lround,(+1234.60958634e+20)); CHECK_LONG_SAME(lround,(-1234.60958634e+20)); CHECK_LONG_SAME(lround,( -1234.499999e+20)); CHECK_LONG_SAME(lround,(-INFINITY)); CHECK_LONG_SAME(lround,(+INFINITY)); CHECK_LONG_SAME(lround,(RTStrNanDouble(NULL, true))); CHECK_LONG_SAME(lround,(RTStrNanDouble("s", false))); #endif CHECK_LONG(RT_NOCRT(lroundf)( +0.0f), 0); CHECK_LONG(RT_NOCRT(lroundf)( -0.0f), 0); CHECK_LONG(RT_NOCRT(lroundf)( -42.0f), -42); CHECK_LONG(RT_NOCRT(lroundf)( -42.5f), -43); CHECK_LONG(RT_NOCRT(lroundf)( +42.5f), +43); CHECK_LONG(RT_NOCRT(lroundf)( -42.25f), -42); CHECK_LONG(RT_NOCRT(lroundf)( +42.25f), +42); CHECK_LONG(RT_NOCRT(lroundf)(+1234.60958634e+20f), LONG_MAX); CHECK_LONG(RT_NOCRT(lroundf)(-1234.60958634e+20f), LONG_MIN); CHECK_LONG(RT_NOCRT(lroundf)( -1234.499999e+20f), LONG_MIN); CHECK_LONG(RT_NOCRT(lroundf)( -1234.499999e-10f), 0); CHECK_LONG(RT_NOCRT(lroundf)( -2.1984e-40f), 0); /* subnormal */ CHECK_LONG(RT_NOCRT(lroundf)(-INFINITY), LONG_MIN); CHECK_LONG(RT_NOCRT(lroundf)(+INFINITY), LONG_MAX); CHECK_LONG(RT_NOCRT(lroundf)(RTStrNanFloat(NULL, true)), LONG_MAX); CHECK_LONG(RT_NOCRT(lroundf)(RTStrNanFloat("s", false)), LONG_MAX); CHECK_LONG_SAME(lroundf,( -0.0f)); CHECK_LONG_SAME(lroundf,( +0.0f)); CHECK_LONG_SAME(lroundf,( +42.25f)); CHECK_LONG_SAME(lroundf,( +42.25e+6f)); CHECK_LONG_SAME(lroundf,( -42.25e+6f)); CHECK_LONG_SAME(lroundf,( -1234.499999e-10f)); CHECK_LONG_SAME(lroundf,( -2.1984e-40f)); /* subnormal */ #if 0 /* unspecified, we test our expected behavior above */ CHECK_LONG_SAME(lroundf,(+1234.60958634e+20f)); CHECK_LONG_SAME(lroundf,(-1234.60958634e+20f)); CHECK_LONG_SAME(lroundf,( -1234.499999e+20f)); CHECK_LONG_SAME(lroundf,(-INFINITY)); CHECK_LONG_SAME(lroundf,(+INFINITY)); CHECK_LONG_SAME(lroundf,(RTStrNanFloat(NULL, true))); CHECK_LONG_SAME(lroundf,(RTStrNanFloat("s", false))); #endif } void testLLRound() { RTTestSub(g_hTest, "llround[f]"); CHECK_LLONG(RT_NOCRT(llround)( +0.0), 0); CHECK_LLONG(RT_NOCRT(llround)( -0.0), 0); CHECK_LLONG(RT_NOCRT(llround)( -42.0), -42); CHECK_LLONG(RT_NOCRT(llround)( -42.5), -43); CHECK_LLONG(RT_NOCRT(llround)( +42.5), +43); CHECK_LLONG(RT_NOCRT(llround)(-42.25), -42); CHECK_LLONG(RT_NOCRT(llround)(+42.25), +42); CHECK_LLONG(RT_NOCRT(llround)(+42.25e4), +422500); CHECK_LLONG(RT_NOCRT(llround)(+42.25e12), +42250000000000LL); CHECK_LLONG(RT_NOCRT(llround)(+1234.60958634e+20), LLONG_MAX); CHECK_LLONG(RT_NOCRT(llround)(-1234.60958634e+20), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llround)( -1234.499999e+20), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llround)( -1234.499999e-10), 0); CHECK_LLONG(RT_NOCRT(llround)( -2.1984e-310), 0); /* subnormal */ CHECK_LLONG(RT_NOCRT(llround)(-INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llround)(+INFINITY), LLONG_MAX); CHECK_LLONG(RT_NOCRT(llround)(RTStrNanDouble(NULL, true)), LLONG_MAX); CHECK_LLONG(RT_NOCRT(llround)(RTStrNanDouble("s", false)), LLONG_MAX); CHECK_LLONG_SAME(llround,( -0.0)); CHECK_LLONG_SAME(llround,( +0.0)); CHECK_LLONG_SAME(llround,( +42.25)); CHECK_LLONG_SAME(llround,( +42.25e+6)); CHECK_LLONG_SAME(llround,( -42.25e+6)); CHECK_LLONG_SAME(llround,( -42.25e+12)); CHECK_LLONG_SAME(llround,( +42.265785e+13)); CHECK_LLONG_SAME(llround,( -1234.499999e-10)); CHECK_LLONG_SAME(llround,( -2.1984e-310)); /* subnormal */ #if 0 /* unspecified, we test our expected behavior above */ CHECK_LLONG_SAME(llround,(+1234.60958634e+20)); CHECK_LLONG_SAME(llround,(-1234.60958634e+20)); CHECK_LLONG_SAME(llround,( -1234.499999e+20)); CHECK_LLONG_SAME(llround,(-INFINITY)); CHECK_LLONG_SAME(llround,(+INFINITY)); CHECK_LLONG_SAME(llround,(RTStrNanDouble(NULL, true))); CHECK_LLONG_SAME(llround,(RTStrNanDouble("s", false))); #endif CHECK_LLONG(RT_NOCRT(llroundf)( +0.0f), 0); CHECK_LLONG(RT_NOCRT(llroundf)( -0.0f), 0); CHECK_LLONG(RT_NOCRT(llroundf)( -42.0f), -42); CHECK_LLONG(RT_NOCRT(llroundf)( -42.5f), -43); CHECK_LLONG(RT_NOCRT(llroundf)( +42.5f), +43); CHECK_LLONG(RT_NOCRT(llroundf)(-42.25f), -42); CHECK_LLONG(RT_NOCRT(llroundf)(+42.25f), +42); CHECK_LLONG(RT_NOCRT(llroundf)(+42.25e4f), +422500); CHECK_LLONG(RT_NOCRT(llroundf)(+42.24e10f), +422400000000LL); CHECK_LLONG(RT_NOCRT(llroundf)(+1234.60958634e+20f), LLONG_MAX); CHECK_LLONG(RT_NOCRT(llroundf)(-1234.60958634e+20f), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llroundf)( -1234.499999e+20f), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llroundf)( -1234.499999e-10f), 0); CHECK_LLONG(RT_NOCRT(llroundf)( -2.1984e-40f), 0); /* subnormal */ CHECK_LLONG(RT_NOCRT(llroundf)(-INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llroundf)(+INFINITY), LLONG_MAX); CHECK_LLONG(RT_NOCRT(llroundf)(RTStrNanFloat(NULL, true)), LLONG_MAX); CHECK_LLONG(RT_NOCRT(llroundf)(RTStrNanFloat("s", false)), LLONG_MAX); CHECK_LLONG_SAME(llroundf,( -0.0f)); CHECK_LLONG_SAME(llroundf,( +0.0f)); CHECK_LLONG_SAME(llroundf,( +42.25f)); CHECK_LLONG_SAME(llroundf,( +42.25e+6f)); CHECK_LLONG_SAME(llroundf,( -42.25e+6f)); CHECK_LLONG_SAME(llroundf,( -42.25e+12f)); CHECK_LLONG_SAME(llroundf,( +42.265785e+13f)); CHECK_LLONG_SAME(llroundf,( -1234.499999e-10f)); CHECK_LLONG_SAME(llroundf,( -2.1984e-40f)); /* subnormal */ #if 0 /* unspecified, we test our expected behavior above */ CHECK_LLONG_SAME(llroundf,(+1234.60958634e+20f)); CHECK_LLONG_SAME(llroundf,(-1234.60958634e+20f)); CHECK_LLONG_SAME(llroundf,( -1234.499999e+20f)); CHECK_LLONG_SAME(llroundf,(-INFINITY)); CHECK_LLONG_SAME(llroundf,(+INFINITY)); CHECK_LLONG_SAME(llroundf,(RTStrNanFloat(NULL, true))); CHECK_LLONG_SAME(llroundf,(RTStrNanFloat("s", false))); #endif #if 0 CHECK_LLONG(RT_NOCRT(llroundl)( +0.0L), 0); CHECK_LLONG(RT_NOCRT(llroundl)( -0.0L), 0); CHECK_LLONG(RT_NOCRT(llroundl)( -42.0L), -42); CHECK_LLONG(RT_NOCRT(llroundl)( -42.5L), -43); CHECK_LLONG(RT_NOCRT(llroundl)( +42.5L), +43); CHECK_LLONG(RT_NOCRT(llroundl)(-42.25L), -42); CHECK_LLONG(RT_NOCRT(llroundl)(+42.25L), +42); CHECK_LLONG(RT_NOCRT(llroundl)(+42.25e4L), +422500); CHECK_LLONG(RT_NOCRT(llroundl)(+42.24e12L), +42240000000000LL); CHECK_LLONG(RT_NOCRT(llroundl)(+1234.60958634e+20L), LLONG_MAX); CHECK_LLONG(RT_NOCRT(llroundl)(-1234.60958634e+20L), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llroundl)( -1234.499999e+20L), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llroundl)( -1234.499999e-10L), 0); #ifdef RT_COMPILER_WITH_64BIT_LONG_DOUBLE CHECK_LLONG(RT_NOCRT(llroundl)( -2.1984e-310L), 0); /* subnormal */ #else CHECK_LLONG(RT_NOCRT(llroundl)( -2.1984e-4935L), 0); /* subnormal */ #endif CHECK_LLONG(RT_NOCRT(llroundl)(-INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llroundl)(+INFINITY), LLONG_MAX); CHECK_LLONG(RT_NOCRT(llroundl)(RTStrNanLongDouble(NULL, true)), LLONG_MAX); CHECK_LLONG(RT_NOCRT(llroundl)(RTStrNanLongDouble("s", false)), LLONG_MAX); CHECK_LLONG_SAME(llroundl,( -0.0)); CHECK_LLONG_SAME(llroundl,( +0.0)); CHECK_LLONG_SAME(llroundl,( +42.25)); CHECK_LLONG_SAME(llroundl,( +42.25e+6)); CHECK_LLONG_SAME(llroundl,( -42.25e+6)); CHECK_LLONG_SAME(llroundl,( -42.25e+12)); CHECK_LLONG_SAME(llroundl,( +42.265785e+13)); CHECK_LLONG_SAME(llroundl,( -1234.499999e-10L)); # ifdef RT_COMPILER_WITH_64BIT_LONG_DOUBLE CHECK_LLONG_SAME(llroundl,( -2.1984e-310L)); /* subnormal */ # else CHECK_LLONG_SAME(llroundl,( -2.1984e-4935L)); /* subnormal */ # endif #if 0 /* unspecified, we test our expected behavior above */ CHECK_LLONG_SAME(llroundl,(+1234.60958634e+20L)); CHECK_LLONG_SAME(llroundl,(-1234.60958634e+20L)); CHECK_LLONG_SAME(llroundl,( -1234.499999e+20L)); CHECK_LLONG_SAME(llroundl,(-INFINITY)); CHECK_LLONG_SAME(llroundl,(+INFINITY)); CHECK_LLONG_SAME(llroundl,(RTStrNanLongDouble(NULL, true))); CHECK_LLONG_SAME(llroundl,(RTStrNanLongDouble("s", false))); #endif #endif } void testLRInt() { RTTestSub(g_hTest, "lrint[f]"); /* * Round nearest. */ int const iSavedMode = RT_NOCRT(fegetround)(); if (iSavedMode != FE_TONEAREST) RTTestFailed(g_hTest, "expected FE_TONEAREST as default rounding mode, not %#x (%d)", iSavedMode, iSavedMode); RT_NOCRT(fesetround)(FE_TONEAREST); CHECK_LONG(RT_NOCRT(lrint)( +0.0), 0); CHECK_LONG(RT_NOCRT(lrint)( -0.0), 0); CHECK_LONG(RT_NOCRT(lrint)( -42.0), -42); CHECK_LONG(RT_NOCRT(lrint)( -42.5), -42); CHECK_LONG(RT_NOCRT(lrint)( +42.5), +42); CHECK_LONG(RT_NOCRT(lrint)( -43.5), -44); CHECK_LONG(RT_NOCRT(lrint)( +43.5), +44); CHECK_LONG(RT_NOCRT(lrint)( -42.25), -42); CHECK_LONG(RT_NOCRT(lrint)( +42.25), +42); CHECK_LONG(RT_NOCRT(lrint)( -42.75), -43); CHECK_LONG(RT_NOCRT(lrint)( +42.75), +43); CHECK_LONG(RT_NOCRT(lrint)(+1234.60958634e+20), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)(-1234.60958634e+20), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)( -1234.499999e+20), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)( -1234.499999e-10), 0); CHECK_LONG(RT_NOCRT(lrint)( -2.1984e-310), 0); /* subnormal */ CHECK_LONG(RT_NOCRT(lrint)(-INFINITY), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)(+INFINITY), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)(RTStrNanDouble(NULL, true)), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)(RTStrNanDouble("s", false)), LONG_MIN); CHECK_LONG_SAME(lrint,( -0.0)); CHECK_LONG_SAME(lrint,( +0.0)); CHECK_LONG_SAME(lrint,( +42.25)); CHECK_LONG_SAME(lrint,( -42.25)); CHECK_LONG_SAME(lrint,( +42.75)); CHECK_LONG_SAME(lrint,( -42.75)); CHECK_LONG_SAME(lrint,( +22.5)); CHECK_LONG_SAME(lrint,( -22.5)); CHECK_LONG_SAME(lrint,( +23.5)); CHECK_LONG_SAME(lrint,( -23.5)); CHECK_LONG_SAME(lrint,( +42.25e+6)); CHECK_LONG_SAME(lrint,( -42.25e+6)); CHECK_LONG_SAME(lrint,( -1234.499999e-10)); CHECK_LONG_SAME(lrint,( -2.1984e-310)); /* subnormal */ #if 0 /* Undefined, we disagree with UCRT on windows. */ CHECK_LONG_SAME(lrint,(+1234.60958634e+20)); CHECK_LONG_SAME(lrint,(-1234.60958634e+20)); CHECK_LONG_SAME(lrint,( -1234.499999e+20)); CHECK_LONG_SAME(lrint,(-INFINITY)); CHECK_LONG_SAME(lrint,(+INFINITY)); CHECK_LONG_SAME(lrint,(RTStrNanDouble(NULL, true))); CHECK_LONG_SAME(lrint,(RTStrNanDouble("s", false))); #endif CHECK_LONG(RT_NOCRT(lrintf)( +0.0f), 0); CHECK_LONG(RT_NOCRT(lrintf)( -0.0f), 0); CHECK_LONG(RT_NOCRT(lrintf)( -42.0f), -42); CHECK_LONG(RT_NOCRT(lrintf)( -42.5f), -42); CHECK_LONG(RT_NOCRT(lrintf)( +42.5f), +42); CHECK_LONG(RT_NOCRT(lrintf)( -43.5f), -44); CHECK_LONG(RT_NOCRT(lrintf)( +43.5f), +44); CHECK_LONG(RT_NOCRT(lrintf)( -42.25f), -42); CHECK_LONG(RT_NOCRT(lrintf)( +42.25f), +42); CHECK_LONG(RT_NOCRT(lrintf)( -42.75f), -43); CHECK_LONG(RT_NOCRT(lrintf)( +42.75f), +43); CHECK_LONG(RT_NOCRT(lrintf)(+1234.60958634e+20f), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)(-1234.60958634e+20f), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)( -1234.499999e+20f), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)( -1234.499999e-10f), 0); CHECK_LONG(RT_NOCRT(lrintf)( -2.1984e-40f), 0); /* subnormal */ CHECK_LONG(RT_NOCRT(lrintf)(-INFINITY), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)(+INFINITY), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)(RTStrNanDouble(NULL, true)), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)(RTStrNanDouble("s", false)), LONG_MIN); CHECK_LONG_SAME(lrintf,( -0.0f)); CHECK_LONG_SAME(lrintf,( +0.0f)); CHECK_LONG_SAME(lrintf,( +42.25f)); CHECK_LONG_SAME(lrintf,( -42.25f)); CHECK_LONG_SAME(lrintf,( +42.75f)); CHECK_LONG_SAME(lrintf,( -42.75f)); CHECK_LONG_SAME(lrintf,( +22.5f)); CHECK_LONG_SAME(lrintf,( -22.5f)); CHECK_LONG_SAME(lrintf,( +23.5f)); CHECK_LONG_SAME(lrintf,( -23.5f)); CHECK_LONG_SAME(lrintf,( +42.25e+6f)); CHECK_LONG_SAME(lrintf,( -42.25e+6f)); CHECK_LONG_SAME(lrintf,( -1234.499999e-10f)); CHECK_LONG_SAME(lrintf,( -2.1984e-40f)); /* subnormal */ #if 0 /* Undefined, we disagree with UCRT on windows. */ CHECK_LONG_SAME(lrintf,(+1234.60958634e+20f)); CHECK_LONG_SAME(lrintf,(-1234.60958634e+20f)); CHECK_LONG_SAME(lrintf,( -1234.499999e+20f)); CHECK_LONG_SAME(lrintf,(-INFINITY)); CHECK_LONG_SAME(lrintf,(+INFINITY)); CHECK_LONG_SAME(lrintf,(RTStrNanFloat(NULL, true))); CHECK_LONG_SAME(lrintf,(RTStrNanFloat("s", false))); #endif /* * Round UP. */ RT_NOCRT(fesetround)(FE_UPWARD); CHECK_LONG(RT_NOCRT(lrint)( +0.0), 0); CHECK_LONG(RT_NOCRT(lrint)( -0.0), 0); CHECK_LONG(RT_NOCRT(lrint)( -42.0), -42); CHECK_LONG(RT_NOCRT(lrint)( -42.5), -42); CHECK_LONG(RT_NOCRT(lrint)( +42.5), +43); CHECK_LONG(RT_NOCRT(lrint)( -43.5), -43); CHECK_LONG(RT_NOCRT(lrint)( +43.5), +44); CHECK_LONG(RT_NOCRT(lrint)( -42.25), -42); CHECK_LONG(RT_NOCRT(lrint)( +42.25), +43); CHECK_LONG(RT_NOCRT(lrint)( -42.75), -42); CHECK_LONG(RT_NOCRT(lrint)( +42.75), +43); CHECK_LONG(RT_NOCRT(lrint)(+1234.60958634e+20), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)(-1234.60958634e+20), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)( -1234.499999e+20), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)( -1234.499999e-10), 0); CHECK_LONG(RT_NOCRT(lrint)( -2.1984e-310), 0); /* subnormal */ CHECK_LONG(RT_NOCRT(lrint)(-INFINITY), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)(+INFINITY), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)(RTStrNanDouble(NULL, true)), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)(RTStrNanDouble("s", false)), LONG_MIN); CHECK_LONG_SAME(lrint,( -0.0)); CHECK_LONG_SAME(lrint,( +0.0)); CHECK_LONG_SAME(lrint,( +42.25)); CHECK_LONG_SAME(lrint,( -42.25)); CHECK_LONG_SAME(lrint,( +42.75)); CHECK_LONG_SAME(lrint,( -42.75)); CHECK_LONG_SAME(lrint,( +22.5)); CHECK_LONG_SAME(lrint,( -22.5)); CHECK_LONG_SAME(lrint,( +23.5)); CHECK_LONG_SAME(lrint,( -23.5)); CHECK_LONG_SAME(lrint,( +42.25e+6)); CHECK_LONG_SAME(lrint,( -42.25e+6)); CHECK_LONG_SAME(lrint,( -1234.499999e-10)); CHECK_LONG_SAME(lrint,( -2.1984e-310)); /* subnormal */ #if 0 /* Undefined, we disagree with UCRT on windows. */ CHECK_LONG_SAME(lrint,(+1234.60958634e+20)); CHECK_LONG_SAME(lrint,(-1234.60958634e+20)); CHECK_LONG_SAME(lrint,( -1234.499999e+20)); CHECK_LONG_SAME(lrint,(-INFINITY)); CHECK_LONG_SAME(lrint,(+INFINITY)); CHECK_LONG_SAME(lrint,(RTStrNanDouble(NULL, true))); CHECK_LONG_SAME(lrint,(RTStrNanDouble("s", false))); #endif CHECK_LONG(RT_NOCRT(lrintf)( +0.0f), 0); CHECK_LONG(RT_NOCRT(lrintf)( -0.0f), 0); CHECK_LONG(RT_NOCRT(lrintf)( -42.0f), -42); CHECK_LONG(RT_NOCRT(lrintf)( -42.5f), -42); CHECK_LONG(RT_NOCRT(lrintf)( +42.5f), +43); CHECK_LONG(RT_NOCRT(lrintf)( -43.5f), -43); CHECK_LONG(RT_NOCRT(lrintf)( +43.5f), +44); CHECK_LONG(RT_NOCRT(lrintf)( -42.25f), -42); CHECK_LONG(RT_NOCRT(lrintf)( +42.25f), +43); CHECK_LONG(RT_NOCRT(lrintf)( -42.75f), -42); CHECK_LONG(RT_NOCRT(lrintf)( +42.75f), +43); CHECK_LONG(RT_NOCRT(lrintf)(+1234.60958634e+20f), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)(-1234.60958634e+20f), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)( -1234.499999e+20f), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)( -1234.499999e-10f), 0); CHECK_LONG(RT_NOCRT(lrintf)( -2.1984e-40f), 0); /* subnormal */ CHECK_LONG(RT_NOCRT(lrintf)(-INFINITY), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)(+INFINITY), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)(RTStrNanDouble(NULL, true)), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)(RTStrNanDouble("s", false)), LONG_MIN); CHECK_LONG_SAME(lrintf,( -0.0f)); CHECK_LONG_SAME(lrintf,( +0.0f)); CHECK_LONG_SAME(lrintf,( +42.25f)); CHECK_LONG_SAME(lrintf,( -42.25f)); CHECK_LONG_SAME(lrintf,( +42.75f)); CHECK_LONG_SAME(lrintf,( -42.75f)); CHECK_LONG_SAME(lrintf,( +22.5f)); CHECK_LONG_SAME(lrintf,( -22.5f)); CHECK_LONG_SAME(lrintf,( +23.5f)); CHECK_LONG_SAME(lrintf,( -23.5f)); CHECK_LONG_SAME(lrintf,( +42.25e+6f)); CHECK_LONG_SAME(lrintf,( -42.25e+6f)); CHECK_LONG_SAME(lrintf,( -1234.499999e-10f)); CHECK_LONG_SAME(lrintf,( -2.1984e-40f)); /* subnormal */ #if 0 /* Undefined, we disagree with UCRT on windows. */ CHECK_LONG_SAME(lrintf,(+1234.60958634e+20f)); CHECK_LONG_SAME(lrintf,(-1234.60958634e+20f)); CHECK_LONG_SAME(lrintf,( -1234.499999e+20f)); CHECK_LONG_SAME(lrintf,(-INFINITY)); CHECK_LONG_SAME(lrintf,(+INFINITY)); CHECK_LONG_SAME(lrintf,(RTStrNanFloat(NULL, true))); CHECK_LONG_SAME(lrintf,(RTStrNanFloat("s", false))); #endif /* * Round DOWN. */ RT_NOCRT(fesetround)(FE_DOWNWARD); CHECK_LONG(RT_NOCRT(lrint)( +0.0), 0); CHECK_LONG(RT_NOCRT(lrint)( -0.0), 0); CHECK_LONG(RT_NOCRT(lrint)( -42.0), -42); CHECK_LONG(RT_NOCRT(lrint)( -42.5), -43); CHECK_LONG(RT_NOCRT(lrint)( +42.5), +42); CHECK_LONG(RT_NOCRT(lrint)( -43.5), -44); CHECK_LONG(RT_NOCRT(lrint)( +43.5), +43); CHECK_LONG(RT_NOCRT(lrint)( -42.25), -43); CHECK_LONG(RT_NOCRT(lrint)( +42.25), +42); CHECK_LONG(RT_NOCRT(lrint)( -42.75), -43); CHECK_LONG(RT_NOCRT(lrint)( +42.75), +42); CHECK_LONG(RT_NOCRT(lrint)(+1234.60958634e+20), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)(-1234.60958634e+20), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)( -1234.499999e+20), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)( -1234.499999e-10), -1); CHECK_LONG(RT_NOCRT(lrint)( -2.1984e-310), -1); /* subnormal */ CHECK_LONG(RT_NOCRT(lrint)(-INFINITY), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)(+INFINITY), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)(RTStrNanDouble(NULL, true)), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)(RTStrNanDouble("s", false)), LONG_MIN); CHECK_LONG_SAME(lrint,( -0.0)); CHECK_LONG_SAME(lrint,( +0.0)); CHECK_LONG_SAME(lrint,( +42.25)); CHECK_LONG_SAME(lrint,( -42.25)); CHECK_LONG_SAME(lrint,( +42.75)); CHECK_LONG_SAME(lrint,( -42.75)); CHECK_LONG_SAME(lrint,( +22.5)); CHECK_LONG_SAME(lrint,( -22.5)); CHECK_LONG_SAME(lrint,( +23.5)); CHECK_LONG_SAME(lrint,( -23.5)); CHECK_LONG_SAME(lrint,( +42.25e+6)); CHECK_LONG_SAME(lrint,( -42.25e+6)); CHECK_LONG_SAME(lrint,( -1234.499999e-10)); CHECK_LONG_SAME(lrint,( -2.1984e-310)); /* subnormal */ #if 0 /* Undefined, we disagree with UCRT on windows. */ CHECK_LONG_SAME(lrint,(+1234.60958634e+20)); CHECK_LONG_SAME(lrint,(-1234.60958634e+20)); CHECK_LONG_SAME(lrint,( -1234.499999e+20)); CHECK_LONG_SAME(lrint,(-INFINITY)); CHECK_LONG_SAME(lrint,(+INFINITY)); CHECK_LONG_SAME(lrint,(RTStrNanDouble(NULL, true))); CHECK_LONG_SAME(lrint,(RTStrNanDouble("s", false))); #endif CHECK_LONG(RT_NOCRT(lrintf)( +0.0f), 0); CHECK_LONG(RT_NOCRT(lrintf)( -0.0f), 0); CHECK_LONG(RT_NOCRT(lrintf)( -42.0f), -42); CHECK_LONG(RT_NOCRT(lrintf)( -42.5f), -43); CHECK_LONG(RT_NOCRT(lrintf)( +42.5f), +42); CHECK_LONG(RT_NOCRT(lrintf)( -43.5f), -44); CHECK_LONG(RT_NOCRT(lrintf)( +43.5f), +43); CHECK_LONG(RT_NOCRT(lrintf)( -42.25f), -43); CHECK_LONG(RT_NOCRT(lrintf)( +42.25f), +42); CHECK_LONG(RT_NOCRT(lrintf)( -42.75f), -43); CHECK_LONG(RT_NOCRT(lrintf)( +42.75f), +42); CHECK_LONG(RT_NOCRT(lrintf)(+1234.60958634e+20f), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)(-1234.60958634e+20f), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)( -1234.499999e+20f), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)( -1234.499999e-10f), -1); CHECK_LONG(RT_NOCRT(lrintf)( -2.1984e-40f), -1); /* subnormal */ CHECK_LONG(RT_NOCRT(lrintf)(-INFINITY), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)(+INFINITY), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)(RTStrNanDouble(NULL, true)), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)(RTStrNanDouble("s", false)), LONG_MIN); CHECK_LONG_SAME(lrintf,( -0.0f)); CHECK_LONG_SAME(lrintf,( +0.0f)); CHECK_LONG_SAME(lrintf,( +42.25f)); CHECK_LONG_SAME(lrintf,( -42.25f)); CHECK_LONG_SAME(lrintf,( +42.75f)); CHECK_LONG_SAME(lrintf,( -42.75f)); CHECK_LONG_SAME(lrintf,( +22.5f)); CHECK_LONG_SAME(lrintf,( -22.5f)); CHECK_LONG_SAME(lrintf,( +23.5f)); CHECK_LONG_SAME(lrintf,( -23.5f)); CHECK_LONG_SAME(lrintf,( +42.25e+6f)); CHECK_LONG_SAME(lrintf,( -42.25e+6f)); CHECK_LONG_SAME(lrintf,( -1234.499999e-10f)); CHECK_LONG_SAME(lrintf,( -2.1984e-40f)); /* subnormal */ #if 0 /* Undefined, we disagree with UCRT on windows. */ CHECK_LONG_SAME(lrintf,(+1234.60958634e+20f)); CHECK_LONG_SAME(lrintf,(-1234.60958634e+20f)); CHECK_LONG_SAME(lrintf,( -1234.499999e+20f)); CHECK_LONG_SAME(lrintf,(-INFINITY)); CHECK_LONG_SAME(lrintf,(+INFINITY)); CHECK_LONG_SAME(lrintf,(RTStrNanFloat(NULL, true))); CHECK_LONG_SAME(lrintf,(RTStrNanFloat("s", false))); #endif /* * Round towards ZERO. */ RT_NOCRT(fesetround)(FE_TOWARDZERO); CHECK_LONG(RT_NOCRT(lrint)( +0.0), 0); CHECK_LONG(RT_NOCRT(lrint)( -0.0), 0); CHECK_LONG(RT_NOCRT(lrint)( -42.0), -42); CHECK_LONG(RT_NOCRT(lrint)( -42.5), -42); CHECK_LONG(RT_NOCRT(lrint)( +42.5), +42); CHECK_LONG(RT_NOCRT(lrint)( -43.5), -43); CHECK_LONG(RT_NOCRT(lrint)( +43.5), +43); CHECK_LONG(RT_NOCRT(lrint)( -42.25), -42); CHECK_LONG(RT_NOCRT(lrint)( +42.25), +42); CHECK_LONG(RT_NOCRT(lrint)( -42.75), -42); CHECK_LONG(RT_NOCRT(lrint)( +42.75), +42); CHECK_LONG(RT_NOCRT(lrint)(+1234.60958634e+20), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)(-1234.60958634e+20), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)( -1234.499999e+20), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)( -1234.499999e-10), 0); CHECK_LONG(RT_NOCRT(lrint)( -2.1984e-310), 0); /* subnormal */ CHECK_LONG(RT_NOCRT(lrint)(-INFINITY), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)(+INFINITY), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)(RTStrNanDouble(NULL, true)), LONG_MIN); CHECK_LONG(RT_NOCRT(lrint)(RTStrNanDouble("s", false)), LONG_MIN); CHECK_LONG_SAME(lrint,( -0.0)); CHECK_LONG_SAME(lrint,( +0.0)); CHECK_LONG_SAME(lrint,( +42.25)); CHECK_LONG_SAME(lrint,( -42.25)); CHECK_LONG_SAME(lrint,( +42.75)); CHECK_LONG_SAME(lrint,( -42.75)); CHECK_LONG_SAME(lrint,( +22.5)); CHECK_LONG_SAME(lrint,( -22.5)); CHECK_LONG_SAME(lrint,( +23.5)); CHECK_LONG_SAME(lrint,( -23.5)); CHECK_LONG_SAME(lrint,( +42.25e+6)); CHECK_LONG_SAME(lrint,( -42.25e+6)); CHECK_LONG_SAME(lrint,( -1234.499999e-10)); CHECK_LONG_SAME(lrint,( -2.1984e-310)); /* subnormal */ #if 0 /* Undefined, we disagree with UCRT on windows. */ CHECK_LONG_SAME(lrint,(+1234.60958634e+20)); CHECK_LONG_SAME(lrint,(-1234.60958634e+20)); CHECK_LONG_SAME(lrint,( -1234.499999e+20)); CHECK_LONG_SAME(lrint,(-INFINITY)); CHECK_LONG_SAME(lrint,(+INFINITY)); CHECK_LONG_SAME(lrint,(RTStrNanDouble(NULL, true))); CHECK_LONG_SAME(lrint,(RTStrNanDouble("s", false))); #endif CHECK_LONG(RT_NOCRT(lrintf)( +0.0f), 0); CHECK_LONG(RT_NOCRT(lrintf)( -0.0f), 0); CHECK_LONG(RT_NOCRT(lrintf)( -42.0f), -42); CHECK_LONG(RT_NOCRT(lrintf)( -42.5f), -42); CHECK_LONG(RT_NOCRT(lrintf)( +42.5f), +42); CHECK_LONG(RT_NOCRT(lrintf)( -43.5f), -43); CHECK_LONG(RT_NOCRT(lrintf)( +43.5f), +43); CHECK_LONG(RT_NOCRT(lrintf)( -42.25f), -42); CHECK_LONG(RT_NOCRT(lrintf)( +42.25f), +42); CHECK_LONG(RT_NOCRT(lrintf)( -42.75f), -42); CHECK_LONG(RT_NOCRT(lrintf)( +42.75f), +42); CHECK_LONG(RT_NOCRT(lrintf)(+1234.60958634e+20f), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)(-1234.60958634e+20f), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)( -1234.499999e+20f), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)( -1234.499999e-10f), 0); CHECK_LONG(RT_NOCRT(lrintf)( -2.1984e-40f), 0); /* subnormal */ CHECK_LONG(RT_NOCRT(lrintf)(-INFINITY), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)(+INFINITY), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)(RTStrNanDouble(NULL, true)), LONG_MIN); CHECK_LONG(RT_NOCRT(lrintf)(RTStrNanDouble("s", false)), LONG_MIN); CHECK_LONG_SAME(lrintf,( -0.0f)); CHECK_LONG_SAME(lrintf,( +0.0f)); CHECK_LONG_SAME(lrintf,( +42.25f)); CHECK_LONG_SAME(lrintf,( -42.25f)); CHECK_LONG_SAME(lrintf,( +42.75f)); CHECK_LONG_SAME(lrintf,( -42.75f)); CHECK_LONG_SAME(lrintf,( +22.5f)); CHECK_LONG_SAME(lrintf,( -22.5f)); CHECK_LONG_SAME(lrintf,( +23.5f)); CHECK_LONG_SAME(lrintf,( -23.5f)); CHECK_LONG_SAME(lrintf,( +42.25e+6f)); CHECK_LONG_SAME(lrintf,( -42.25e+6f)); CHECK_LONG_SAME(lrintf,( -1234.499999e-10f)); CHECK_LONG_SAME(lrintf,( -2.1984e-40f)); /* subnormal */ #if 0 /* Undefined, we disagree with UCRT on windows. */ CHECK_LONG_SAME(lrintf,(+1234.60958634e+20f)); CHECK_LONG_SAME(lrintf,(-1234.60958634e+20f)); CHECK_LONG_SAME(lrintf,( -1234.499999e+20f)); CHECK_LONG_SAME(lrintf,(-INFINITY)); CHECK_LONG_SAME(lrintf,(+INFINITY)); CHECK_LONG_SAME(lrintf,(RTStrNanFloat(NULL, true))); CHECK_LONG_SAME(lrintf,(RTStrNanFloat("s", false))); #endif RT_NOCRT(fesetround)(iSavedMode); } void testLLRInt() { RTTestSub(g_hTest, "llrint[f]"); /* * Round nearest. */ int const iSavedMode = RT_NOCRT(fegetround)(); if (iSavedMode != FE_TONEAREST) RTTestFailed(g_hTest, "expected FE_TONEAREST as default rounding mode, not %#x (%d)", iSavedMode, iSavedMode); RT_NOCRT(fesetround)(FE_TONEAREST); CHECK_LLONG(RT_NOCRT(llrint)( +0.0), 0); CHECK_LLONG(RT_NOCRT(llrint)( -0.0), 0); CHECK_LLONG(RT_NOCRT(llrint)( -42.0), -42); CHECK_LLONG(RT_NOCRT(llrint)( -42.5), -42); CHECK_LLONG(RT_NOCRT(llrint)( +42.5), +42); CHECK_LLONG(RT_NOCRT(llrint)( -43.5), -44); CHECK_LLONG(RT_NOCRT(llrint)( +43.5), +44); CHECK_LLONG(RT_NOCRT(llrint)( -42.25), -42); CHECK_LLONG(RT_NOCRT(llrint)( +42.25), +42); CHECK_LLONG(RT_NOCRT(llrint)( -42.75), -43); CHECK_LLONG(RT_NOCRT(llrint)( +42.75), +43); CHECK_LLONG(RT_NOCRT(llrint)(+1234.60958634e+20), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)(-1234.60958634e+20), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)( -1234.499999e+20), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)( -1234.499999e-10), 0); CHECK_LLONG(RT_NOCRT(llrint)( -2.1984e-310), 0); /* subnormal */ CHECK_LLONG(RT_NOCRT(llrint)(-INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)(+INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)(RTStrNanDouble(NULL, true)),LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)(RTStrNanDouble("s", false)),LLONG_MIN); CHECK_LLONG_SAME(llrint,( -0.0)); CHECK_LLONG_SAME(llrint,( +0.0)); CHECK_LLONG_SAME(llrint,( +42.25)); CHECK_LLONG_SAME(llrint,( -42.25)); CHECK_LLONG_SAME(llrint,( +42.75)); CHECK_LLONG_SAME(llrint,( -42.75)); CHECK_LLONG_SAME(llrint,( +22.5)); CHECK_LLONG_SAME(llrint,( -22.5)); CHECK_LLONG_SAME(llrint,( +23.5)); CHECK_LLONG_SAME(llrint,( -23.5)); CHECK_LLONG_SAME(llrint,( +42.25e+6)); CHECK_LLONG_SAME(llrint,( -42.25e+6)); CHECK_LLONG_SAME(llrint,( -1234.499999e-10)); CHECK_LLONG_SAME(llrint,( -2.1984e-310)); /* subnormal */ #if 0 /* Undefined, we disagree with UCRT on windows. */ CHECK_LLONG_SAME(llrint,(+1234.60958634e+20)); CHECK_LLONG_SAME(llrint,(-1234.60958634e+20)); CHECK_LLONG_SAME(llrint,( -1234.499999e+20)); CHECK_LLONG_SAME(llrint,(-INFINITY)); CHECK_LLONG_SAME(llrint,(+INFINITY)); CHECK_LLONG_SAME(llrint,(RTStrNanDouble(NULL, true))); CHECK_LLONG_SAME(llrint,(RTStrNanDouble("s", false))); #endif CHECK_LLONG(RT_NOCRT(llrintf)( +0.0f), 0); CHECK_LLONG(RT_NOCRT(llrintf)( -0.0f), 0); CHECK_LLONG(RT_NOCRT(llrintf)( -42.0f), -42); CHECK_LLONG(RT_NOCRT(llrintf)( -42.5f), -42); CHECK_LLONG(RT_NOCRT(llrintf)( +42.5f), +42); CHECK_LLONG(RT_NOCRT(llrintf)( -43.5f), -44); CHECK_LLONG(RT_NOCRT(llrintf)( +43.5f), +44); CHECK_LLONG(RT_NOCRT(llrintf)( -42.25f), -42); CHECK_LLONG(RT_NOCRT(llrintf)( +42.25f), +42); CHECK_LLONG(RT_NOCRT(llrintf)( -42.75f), -43); CHECK_LLONG(RT_NOCRT(llrintf)( +42.75f), +43); CHECK_LLONG(RT_NOCRT(llrintf)(+1234.60958634e+20f), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)(-1234.60958634e+20f), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)( -1234.499999e+20f), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)( -1234.499999e-10f), 0); CHECK_LLONG(RT_NOCRT(llrintf)( -2.1984e-40f), 0); /* subnormal */ CHECK_LLONG(RT_NOCRT(llrintf)(-INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)(+INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)(RTStrNanDouble(NULL, true)), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)(RTStrNanDouble("s", false)), LLONG_MIN); CHECK_LLONG_SAME(llrintf,( -0.0f)); CHECK_LLONG_SAME(llrintf,( +0.0f)); CHECK_LLONG_SAME(llrintf,( +42.25f)); CHECK_LLONG_SAME(llrintf,( -42.25f)); CHECK_LLONG_SAME(llrintf,( +42.75f)); CHECK_LLONG_SAME(llrintf,( -42.75f)); CHECK_LLONG_SAME(llrintf,( +22.5f)); CHECK_LLONG_SAME(llrintf,( -22.5f)); CHECK_LLONG_SAME(llrintf,( +23.5f)); CHECK_LLONG_SAME(llrintf,( -23.5f)); CHECK_LLONG_SAME(llrintf,( +42.25e+6f)); CHECK_LLONG_SAME(llrintf,( -42.25e+6f)); CHECK_LLONG_SAME(llrintf,( -1234.499999e-10f)); CHECK_LLONG_SAME(llrintf,( -2.1984e-40f)); /* subnormal */ #if 0 /* Undefined, we disagree with UCRT on windows. */ CHECK_LLONG_SAME(llrintf,(+1234.60958634e+20f)); CHECK_LLONG_SAME(llrintf,(-1234.60958634e+20f)); CHECK_LLONG_SAME(llrintf,( -1234.499999e+20f)); CHECK_LLONG_SAME(llrintf,(-INFINITY)); CHECK_LLONG_SAME(llrintf,(+INFINITY)); CHECK_LLONG_SAME(llrintf,(RTStrNanFloat(NULL, true))); CHECK_LLONG_SAME(llrintf,(RTStrNanFloat("s", false))); #endif /* * Round UP. */ RT_NOCRT(fesetround)(FE_UPWARD); CHECK_LLONG(RT_NOCRT(llrint)( +0.0), 0); CHECK_LLONG(RT_NOCRT(llrint)( -0.0), 0); CHECK_LLONG(RT_NOCRT(llrint)( -42.0), -42); CHECK_LLONG(RT_NOCRT(llrint)( -42.5), -42); CHECK_LLONG(RT_NOCRT(llrint)( +42.5), +43); CHECK_LLONG(RT_NOCRT(llrint)( -43.5), -43); CHECK_LLONG(RT_NOCRT(llrint)( +43.5), +44); CHECK_LLONG(RT_NOCRT(llrint)( -42.25), -42); CHECK_LLONG(RT_NOCRT(llrint)( +42.25), +43); CHECK_LLONG(RT_NOCRT(llrint)( -42.75), -42); CHECK_LLONG(RT_NOCRT(llrint)( +42.75), +43); CHECK_LLONG(RT_NOCRT(llrint)(+1234.60958634e+20), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)(-1234.60958634e+20), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)( -1234.499999e+20), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)( -1234.499999e-10), 0); CHECK_LLONG(RT_NOCRT(llrint)( -2.1984e-310), 0); /* subnormal */ CHECK_LLONG(RT_NOCRT(llrint)(-INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)(+INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)(RTStrNanDouble(NULL, true)),LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)(RTStrNanDouble("s", false)),LLONG_MIN); CHECK_LLONG_SAME(llrint,( -0.0)); CHECK_LLONG_SAME(llrint,( +0.0)); CHECK_LLONG_SAME(llrint,( +42.25)); CHECK_LLONG_SAME(llrint,( -42.25)); CHECK_LLONG_SAME(llrint,( +42.75)); CHECK_LLONG_SAME(llrint,( -42.75)); CHECK_LLONG_SAME(llrint,( +22.5)); CHECK_LLONG_SAME(llrint,( -22.5)); CHECK_LLONG_SAME(llrint,( +23.5)); CHECK_LLONG_SAME(llrint,( -23.5)); CHECK_LLONG_SAME(llrint,( +42.25e+6)); CHECK_LLONG_SAME(llrint,( -42.25e+6)); CHECK_LLONG_SAME(llrint,( -1234.499999e-10)); CHECK_LLONG_SAME(llrint,( -2.1984e-310)); /* subnormal */ #if 0 /* Undefined, we disagree with UCRT on windows. */ CHECK_LLONG_SAME(llrint,(+1234.60958634e+20)); CHECK_LLONG_SAME(llrint,(-1234.60958634e+20)); CHECK_LLONG_SAME(llrint,( -1234.499999e+20)); CHECK_LLONG_SAME(llrint,(-INFINITY)); CHECK_LLONG_SAME(llrint,(+INFINITY)); CHECK_LLONG_SAME(llrint,(RTStrNanDouble(NULL, true))); CHECK_LLONG_SAME(llrint,(RTStrNanDouble("s", false))); #endif CHECK_LLONG(RT_NOCRT(llrintf)( +0.0f), 0); CHECK_LLONG(RT_NOCRT(llrintf)( -0.0f), 0); CHECK_LLONG(RT_NOCRT(llrintf)( -42.0f), -42); CHECK_LLONG(RT_NOCRT(llrintf)( -42.5f), -42); CHECK_LLONG(RT_NOCRT(llrintf)( +42.5f), +43); CHECK_LLONG(RT_NOCRT(llrintf)( -43.5f), -43); CHECK_LLONG(RT_NOCRT(llrintf)( +43.5f), +44); CHECK_LLONG(RT_NOCRT(llrintf)( -42.25f), -42); CHECK_LLONG(RT_NOCRT(llrintf)( +42.25f), +43); CHECK_LLONG(RT_NOCRT(llrintf)( -42.75f), -42); CHECK_LLONG(RT_NOCRT(llrintf)( +42.75f), +43); CHECK_LLONG(RT_NOCRT(llrintf)(+1234.60958634e+20f), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)(-1234.60958634e+20f), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)( -1234.499999e+20f), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)( -1234.499999e-10f), 0); CHECK_LLONG(RT_NOCRT(llrintf)( -2.1984e-40f), 0); /* subnormal */ CHECK_LLONG(RT_NOCRT(llrintf)(-INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)(+INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)(RTStrNanDouble(NULL, true)), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)(RTStrNanDouble("s", false)), LLONG_MIN); CHECK_LLONG_SAME(llrintf,( -0.0f)); CHECK_LLONG_SAME(llrintf,( +0.0f)); CHECK_LLONG_SAME(llrintf,( +42.25f)); CHECK_LLONG_SAME(llrintf,( -42.25f)); CHECK_LLONG_SAME(llrintf,( +42.75f)); CHECK_LLONG_SAME(llrintf,( -42.75f)); CHECK_LLONG_SAME(llrintf,( +22.5f)); CHECK_LLONG_SAME(llrintf,( -22.5f)); CHECK_LLONG_SAME(llrintf,( +23.5f)); CHECK_LLONG_SAME(llrintf,( -23.5f)); CHECK_LLONG_SAME(llrintf,( +42.25e+6f)); CHECK_LLONG_SAME(llrintf,( -42.25e+6f)); CHECK_LLONG_SAME(llrintf,( -1234.499999e-10f)); CHECK_LLONG_SAME(llrintf,( -2.1984e-40f)); /* subnormal */ #if 0 /* Undefined, we disagree with UCRT on windows. */ CHECK_LLONG_SAME(llrintf,(+1234.60958634e+20f)); CHECK_LLONG_SAME(llrintf,(-1234.60958634e+20f)); CHECK_LLONG_SAME(llrintf,( -1234.499999e+20f)); CHECK_LLONG_SAME(llrintf,(-INFINITY)); CHECK_LLONG_SAME(llrintf,(+INFINITY)); CHECK_LLONG_SAME(llrintf,(RTStrNanFloat(NULL, true))); CHECK_LLONG_SAME(llrintf,(RTStrNanFloat("s", false))); #endif /* * Round DOWN. */ RT_NOCRT(fesetround)(FE_DOWNWARD); CHECK_LLONG(RT_NOCRT(llrint)( +0.0), 0); CHECK_LLONG(RT_NOCRT(llrint)( -0.0), 0); CHECK_LLONG(RT_NOCRT(llrint)( -42.0), -42); CHECK_LLONG(RT_NOCRT(llrint)( -42.5), -43); CHECK_LLONG(RT_NOCRT(llrint)( +42.5), +42); CHECK_LLONG(RT_NOCRT(llrint)( -43.5), -44); CHECK_LLONG(RT_NOCRT(llrint)( +43.5), +43); CHECK_LLONG(RT_NOCRT(llrint)( -42.25), -43); CHECK_LLONG(RT_NOCRT(llrint)( +42.25), +42); CHECK_LLONG(RT_NOCRT(llrint)( -42.75), -43); CHECK_LLONG(RT_NOCRT(llrint)( +42.75), +42); CHECK_LLONG(RT_NOCRT(llrint)(+1234.60958634e+20), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)(-1234.60958634e+20), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)( -1234.499999e+20), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)( -1234.499999e-10), -1); CHECK_LLONG(RT_NOCRT(llrint)( -2.1984e-310), -1); /* subnormal */ CHECK_LLONG(RT_NOCRT(llrint)(-INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)(+INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)(RTStrNanDouble(NULL, true)),LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)(RTStrNanDouble("s", false)),LLONG_MIN); CHECK_LLONG_SAME(llrint,( -0.0)); CHECK_LLONG_SAME(llrint,( +0.0)); CHECK_LLONG_SAME(llrint,( +42.25)); CHECK_LLONG_SAME(llrint,( -42.25)); CHECK_LLONG_SAME(llrint,( +42.75)); CHECK_LLONG_SAME(llrint,( -42.75)); CHECK_LLONG_SAME(llrint,( +22.5)); CHECK_LLONG_SAME(llrint,( -22.5)); CHECK_LLONG_SAME(llrint,( +23.5)); CHECK_LLONG_SAME(llrint,( -23.5)); CHECK_LLONG_SAME(llrint,( +42.25e+6)); CHECK_LLONG_SAME(llrint,( -42.25e+6)); CHECK_LLONG_SAME(llrint,( -1234.499999e-10)); CHECK_LLONG_SAME(llrint,( -2.1984e-310)); /* subnormal */ #if 0 /* Undefined, we disagree with UCRT on windows. */ CHECK_LLONG_SAME(llrint,(+1234.60958634e+20)); CHECK_LLONG_SAME(llrint,(-1234.60958634e+20)); CHECK_LLONG_SAME(llrint,( -1234.499999e+20)); CHECK_LLONG_SAME(llrint,(-INFINITY)); CHECK_LLONG_SAME(llrint,(+INFINITY)); CHECK_LLONG_SAME(llrint,(RTStrNanDouble(NULL, true))); CHECK_LLONG_SAME(llrint,(RTStrNanDouble("s", false))); #endif CHECK_LLONG(RT_NOCRT(llrintf)( +0.0f), 0); CHECK_LLONG(RT_NOCRT(llrintf)( -0.0f), 0); CHECK_LLONG(RT_NOCRT(llrintf)( -42.0f), -42); CHECK_LLONG(RT_NOCRT(llrintf)( -42.5f), -43); CHECK_LLONG(RT_NOCRT(llrintf)( +42.5f), +42); CHECK_LLONG(RT_NOCRT(llrintf)( -43.5f), -44); CHECK_LLONG(RT_NOCRT(llrintf)( +43.5f), +43); CHECK_LLONG(RT_NOCRT(llrintf)( -42.25f), -43); CHECK_LLONG(RT_NOCRT(llrintf)( +42.25f), +42); CHECK_LLONG(RT_NOCRT(llrintf)( -42.75f), -43); CHECK_LLONG(RT_NOCRT(llrintf)( +42.75f), +42); CHECK_LLONG(RT_NOCRT(llrintf)(+1234.60958634e+20f), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)(-1234.60958634e+20f), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)( -1234.499999e+20f), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)( -1234.499999e-10f), -1); CHECK_LLONG(RT_NOCRT(llrintf)( -2.1984e-40f), -1); /* subnormal */ CHECK_LLONG(RT_NOCRT(llrintf)(-INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)(+INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)(RTStrNanDouble(NULL, true)), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)(RTStrNanDouble("s", false)), LLONG_MIN); CHECK_LLONG_SAME(llrintf,( -0.0f)); CHECK_LLONG_SAME(llrintf,( +0.0f)); CHECK_LLONG_SAME(llrintf,( +42.25f)); CHECK_LLONG_SAME(llrintf,( -42.25f)); CHECK_LLONG_SAME(llrintf,( +42.75f)); CHECK_LLONG_SAME(llrintf,( -42.75f)); CHECK_LLONG_SAME(llrintf,( +22.5f)); CHECK_LLONG_SAME(llrintf,( -22.5f)); CHECK_LLONG_SAME(llrintf,( +23.5f)); CHECK_LLONG_SAME(llrintf,( -23.5f)); CHECK_LLONG_SAME(llrintf,( +42.25e+6f)); CHECK_LLONG_SAME(llrintf,( -42.25e+6f)); CHECK_LLONG_SAME(llrintf,( -1234.499999e-10f)); CHECK_LLONG_SAME(llrintf,( -2.1984e-40f)); /* subnormal */ #if 0 /* Undefined, we disagree with UCRT on windows. */ CHECK_LLONG_SAME(llrintf,(+1234.60958634e+20f)); CHECK_LLONG_SAME(llrintf,(-1234.60958634e+20f)); CHECK_LLONG_SAME(llrintf,( -1234.499999e+20f)); CHECK_LLONG_SAME(llrintf,(-INFINITY)); CHECK_LLONG_SAME(llrintf,(+INFINITY)); CHECK_LLONG_SAME(llrintf,(RTStrNanFloat(NULL, true))); CHECK_LLONG_SAME(llrintf,(RTStrNanFloat("s", false))); #endif /* * Round towards ZERO. */ RT_NOCRT(fesetround)(FE_TOWARDZERO); CHECK_LLONG(RT_NOCRT(llrint)( +0.0), 0); CHECK_LLONG(RT_NOCRT(llrint)( -0.0), 0); CHECK_LLONG(RT_NOCRT(llrint)( -42.0), -42); CHECK_LLONG(RT_NOCRT(llrint)( -42.5), -42); CHECK_LLONG(RT_NOCRT(llrint)( +42.5), +42); CHECK_LLONG(RT_NOCRT(llrint)( -43.5), -43); CHECK_LLONG(RT_NOCRT(llrint)( +43.5), +43); CHECK_LLONG(RT_NOCRT(llrint)( -42.25), -42); CHECK_LLONG(RT_NOCRT(llrint)( +42.25), +42); CHECK_LLONG(RT_NOCRT(llrint)( -42.75), -42); CHECK_LLONG(RT_NOCRT(llrint)( +42.75), +42); CHECK_LLONG(RT_NOCRT(llrint)(+1234.60958634e+20), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)(-1234.60958634e+20), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)( -1234.499999e+20), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)( -1234.499999e-10), 0); CHECK_LLONG(RT_NOCRT(llrint)( -2.1984e-310), 0); /* subnormal */ CHECK_LLONG(RT_NOCRT(llrint)(-INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)(+INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)(RTStrNanDouble(NULL, true)),LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrint)(RTStrNanDouble("s", false)),LLONG_MIN); CHECK_LLONG_SAME(llrint,( -0.0)); CHECK_LLONG_SAME(llrint,( +0.0)); CHECK_LLONG_SAME(llrint,( +42.25)); CHECK_LLONG_SAME(llrint,( -42.25)); CHECK_LLONG_SAME(llrint,( +42.75)); CHECK_LLONG_SAME(llrint,( -42.75)); CHECK_LLONG_SAME(llrint,( +22.5)); CHECK_LLONG_SAME(llrint,( -22.5)); CHECK_LLONG_SAME(llrint,( +23.5)); CHECK_LLONG_SAME(llrint,( -23.5)); CHECK_LLONG_SAME(llrint,( +42.25e+6)); CHECK_LLONG_SAME(llrint,( -42.25e+6)); CHECK_LLONG_SAME(llrint,( -1234.499999e-10)); CHECK_LLONG_SAME(llrint,( -2.1984e-310)); /* subnormal */ #if 0 /* Undefined, we disagree with UCRT on windows. */ CHECK_LLONG_SAME(llrint,(+1234.60958634e+20)); CHECK_LLONG_SAME(llrint,(-1234.60958634e+20)); CHECK_LLONG_SAME(llrint,( -1234.499999e+20)); CHECK_LLONG_SAME(llrint,(-INFINITY)); CHECK_LLONG_SAME(llrint,(+INFINITY)); CHECK_LLONG_SAME(llrint,(RTStrNanDouble(NULL, true))); CHECK_LLONG_SAME(llrint,(RTStrNanDouble("s", false))); #endif CHECK_LLONG(RT_NOCRT(llrintf)( +0.0f), 0); CHECK_LLONG(RT_NOCRT(llrintf)( -0.0f), 0); CHECK_LLONG(RT_NOCRT(llrintf)( -42.0f), -42); CHECK_LLONG(RT_NOCRT(llrintf)( -42.5f), -42); CHECK_LLONG(RT_NOCRT(llrintf)( +42.5f), +42); CHECK_LLONG(RT_NOCRT(llrintf)( -43.5f), -43); CHECK_LLONG(RT_NOCRT(llrintf)( +43.5f), +43); CHECK_LLONG(RT_NOCRT(llrintf)( -42.25f), -42); CHECK_LLONG(RT_NOCRT(llrintf)( +42.25f), +42); CHECK_LLONG(RT_NOCRT(llrintf)( -42.75f), -42); CHECK_LLONG(RT_NOCRT(llrintf)( +42.75f), +42); CHECK_LLONG(RT_NOCRT(llrintf)(+1234.60958634e+20f), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)(-1234.60958634e+20f), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)( -1234.499999e+20f), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)( -1234.499999e-10f), 0); CHECK_LLONG(RT_NOCRT(llrintf)( -2.1984e-40f), 0); /* subnormal */ CHECK_LLONG(RT_NOCRT(llrintf)(-INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)(+INFINITY), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)(RTStrNanDouble(NULL, true)), LLONG_MIN); CHECK_LLONG(RT_NOCRT(llrintf)(RTStrNanDouble("s", false)), LLONG_MIN); CHECK_LLONG_SAME(llrintf,( -0.0f)); CHECK_LLONG_SAME(llrintf,( +0.0f)); CHECK_LLONG_SAME(llrintf,( +42.25f)); CHECK_LLONG_SAME(llrintf,( -42.25f)); CHECK_LLONG_SAME(llrintf,( +42.75f)); CHECK_LLONG_SAME(llrintf,( -42.75f)); CHECK_LLONG_SAME(llrintf,( +22.5f)); CHECK_LLONG_SAME(llrintf,( -22.5f)); CHECK_LLONG_SAME(llrintf,( +23.5f)); CHECK_LLONG_SAME(llrintf,( -23.5f)); CHECK_LLONG_SAME(llrintf,( +42.25e+6f)); CHECK_LLONG_SAME(llrintf,( -42.25e+6f)); CHECK_LLONG_SAME(llrintf,( -1234.499999e-10f)); CHECK_LLONG_SAME(llrintf,( -2.1984e-40f)); /* subnormal */ #if 0 /* Undefined, we disagree with UCRT on windows. */ CHECK_LLONG_SAME(llrintf,(+1234.60958634e+20f)); CHECK_LLONG_SAME(llrintf,(-1234.60958634e+20f)); CHECK_LLONG_SAME(llrintf,( -1234.499999e+20f)); CHECK_LLONG_SAME(llrintf,(-INFINITY)); CHECK_LLONG_SAME(llrintf,(+INFINITY)); CHECK_LLONG_SAME(llrintf,(RTStrNanFloat(NULL, true))); CHECK_LLONG_SAME(llrintf,(RTStrNanFloat("s", false))); #endif RT_NOCRT(fesetround)(iSavedMode); } void testExp() { RTTestSub(g_hTest, "exp[f]"); CHECK_DBL( RT_NOCRT(exp)( +1.0), M_E); CHECK_DBL_RANGE( RT_NOCRT(exp)( +2.0), M_E * M_E, 0.000000000000001); CHECK_DBL( RT_NOCRT(exp)( +INFINITY), +INFINITY); CHECK_DBL( RT_NOCRT(exp)( -INFINITY), +0.0); CHECK_DBL( RT_NOCRT(exp)( +0.0), +1.0); CHECK_DBL( RT_NOCRT(exp)( -0.0), +1.0); CHECK_DBL_SAME( exp,( +0.0)); CHECK_DBL_SAME( exp,( -0.0)); CHECK_DBL_SAME( exp,( +1.0)); CHECK_DBL_SAME( exp,( +2.0)); CHECK_DBL_SAME( exp,( -1.0)); CHECK_DBL_APPROX_SAME( exp,( +0.5), 1); CHECK_DBL_APPROX_SAME( exp,( -0.5), 1); CHECK_DBL_APPROX_SAME( exp,( +1.5), 1); CHECK_DBL_APPROX_SAME( exp,( -1.5), 1); CHECK_DBL_APPROX_SAME( exp,( +3.25), 16); CHECK_DBL_APPROX_SAME( exp,( 99.2559430), 16); CHECK_DBL_APPROX_SAME( exp,( -99.2559430), 32); CHECK_DBL_APPROX_SAME( exp,( +305.2559430), 128); CHECK_DBL_APPROX_SAME( exp,( -305.2559430), 128); CHECK_DBL_APPROX_SAME( exp,( +309.99884), 128); CHECK_DBL_APPROX_SAME( exp,( -309.111048), 128); CHECK_DBL_APPROX_SAME( exp,( +999.864597634), 1); CHECK_DBL_APPROX_SAME( exp,( -999.098234837), 1); CHECK_DBL_SAME( exp,( +DBL_MAX)); CHECK_DBL_SAME( exp,( -DBL_MAX)); CHECK_DBL_SAME( exp,( -DBL_MIN)); CHECK_DBL_SAME( exp,( +DBL_MIN)); CHECK_DBL_SAME( exp,( +INFINITY)); CHECK_DBL_SAME( exp,( -INFINITY)); CHECK_DBL_SAME( exp,(RTStrNanDouble(NULL, false))); CHECK_DBL_SAME( exp,(RTStrNanDouble("ab305f", true))); CHECK_DBL_SAME_RELAXED_NAN(exp,(RTStrNanDouble("fffffffff_signaling", true))); CHECK_DBL_SAME_RELAXED_NAN(exp,(RTStrNanDouble("7777777777778_sig", false))); CHECK_FLT( RT_NOCRT(expf)( +1.0f), (float)M_E); CHECK_FLT( RT_NOCRT(expf)( +2.0f), (float)(M_E * M_E)); CHECK_FLT( RT_NOCRT(expf)(+(float)INFINITY),+(float)INFINITY); CHECK_FLT( RT_NOCRT(expf)(-(float)INFINITY),+0.0f); CHECK_FLT( RT_NOCRT(expf)( +0.0f), +1.0f); CHECK_FLT( RT_NOCRT(expf)( -0.0f), +1.0f); CHECK_FLT_SAME( expf,( +0.0f)); CHECK_FLT_SAME( expf,( -0.0f)); CHECK_FLT_SAME( expf,( +1.0f)); CHECK_FLT_SAME( expf,( +2.0f)); CHECK_FLT_SAME( expf,( -1.0f)); CHECK_FLT_SAME( expf,( +0.5f)); CHECK_FLT_SAME( expf,( -0.5f)); CHECK_FLT_SAME( expf,( +1.5f)); CHECK_FLT_SAME( expf,( -1.5f)); CHECK_FLT_SAME( expf,( +3.25f)); CHECK_FLT_SAME( expf,( 99.2559430f)); CHECK_FLT_SAME( expf,( -99.2559430f)); CHECK_FLT_SAME( expf,( +305.2559430f)); CHECK_FLT_SAME( expf,( -305.2559430f)); CHECK_FLT_SAME( expf,( +309.99884f)); CHECK_FLT_SAME( expf,( -309.111048f)); CHECK_FLT_SAME( expf,( +999.864597634f)); CHECK_FLT_SAME( expf,( -999.098234837f)); CHECK_FLT_SAME( expf,( +FLT_MAX)); CHECK_FLT_SAME( expf,( -FLT_MAX)); CHECK_FLT_SAME( expf,( -FLT_MIN)); CHECK_FLT_SAME( expf,( +FLT_MIN)); CHECK_FLT_SAME( expf,(+(float)INFINITY)); CHECK_FLT_SAME( expf,(-(float)INFINITY)); CHECK_FLT_SAME( expf,(RTStrNanFloat(NULL, false))); CHECK_FLT_SAME( expf,(RTStrNanFloat("ab305f", true))); CHECK_FLT_SAME_RELAXED_NAN(expf,(RTStrNanFloat("fffffffff_signaling", true))); CHECK_FLT_SAME_RELAXED_NAN(expf,(RTStrNanFloat("7777777777778_sig", false))); } void testExp2() { RTTestSub(g_hTest, "exp2[f]"); CHECK_DBL( RT_NOCRT(exp2)( 1.0), 2.0); CHECK_DBL( RT_NOCRT(exp2)( 2.0), 4.0); CHECK_DBL( RT_NOCRT(exp2)( 32.0), 4294967296.0); CHECK_DBL( RT_NOCRT(exp2)( -1.0), 0.5); CHECK_DBL( RT_NOCRT(exp2)( -3.0), 0.125); CHECK_DBL_SAME( exp2,( 0.0)); CHECK_DBL_SAME( exp2,( 1.0)); CHECK_DBL_SAME( exp2,( 2.0)); CHECK_DBL_SAME( exp2,( -1.0)); CHECK_DBL_APPROX_SAME(exp2,( +0.5), 1); CHECK_DBL_APPROX_SAME(exp2,( -0.5), 1); CHECK_DBL_APPROX_SAME(exp2,( +1.5), 1); CHECK_DBL_APPROX_SAME(exp2,( -1.5), 1); CHECK_DBL_APPROX_SAME(exp2,( +3.25), 1); CHECK_DBL_APPROX_SAME(exp2,( 99.2559430), 1); CHECK_DBL_APPROX_SAME(exp2,( -99.2559430), 1); CHECK_DBL_APPROX_SAME(exp2,( +305.2559430), 1); CHECK_DBL_APPROX_SAME(exp2,( -305.2559430), 1); CHECK_DBL_APPROX_SAME(exp2,( +309.99884), 1); CHECK_DBL_APPROX_SAME(exp2,( -309.111048), 1); CHECK_DBL_APPROX_SAME(exp2,(+999.864597634), 1); CHECK_DBL_APPROX_SAME(exp2,(-999.098234837), 1); CHECK_DBL_SAME( exp2,( +INFINITY)); CHECK_DBL_SAME( exp2,( -INFINITY)); CHECK_DBL_SAME( exp2,( nan("1"))); CHECK_DBL_SAME( exp2,(RTStrNanDouble("ab305f", true))); CHECK_DBL_SAME( exp2,(RTStrNanDouble("fffffffff_signaling", true))); CHECK_DBL_SAME( exp2,(RTStrNanDouble("7777777777778_sig", false))); CHECK_FLT( RT_NOCRT(exp2f)( 1.0f), 2.0f); CHECK_FLT( RT_NOCRT(exp2f)( 2.0f), 4.0f); CHECK_FLT( RT_NOCRT(exp2f)( 32.0f), 4294967296.0f); CHECK_FLT( RT_NOCRT(exp2f)( -1.0f), 0.5f); CHECK_FLT( RT_NOCRT(exp2f)( -3.0f), 0.125f); CHECK_FLT_SAME( exp2f,( 0.0f)); CHECK_FLT_SAME( exp2f,(+(float)INFINITY)); CHECK_FLT_SAME( exp2f,(-(float)INFINITY)); CHECK_FLT_SAME( exp2f,( nan("1"))); CHECK_FLT_SAME( exp2f,(RTStrNanFloat("ab305f", true))); CHECK_FLT_SAME( exp2f,(RTStrNanFloat("3fffff_signaling", true))); CHECK_FLT_SAME( exp2f,(RTStrNanFloat("79778_sig", false))); CHECK_FLT_SAME( exp2f,( 1.0f)); CHECK_FLT_SAME( exp2f,( 2.0f)); CHECK_FLT_SAME( exp2f,( -1.0f)); CHECK_FLT_APPROX_SAME(exp2f,( +0.5f), 1); CHECK_FLT_APPROX_SAME(exp2f,( -0.5f), 1); CHECK_FLT_APPROX_SAME(exp2f,( +1.5f), 1); CHECK_FLT_APPROX_SAME(exp2f,( -1.5f), 1); CHECK_FLT_APPROX_SAME(exp2f,( +3.25f), 1); CHECK_FLT_APPROX_SAME(exp2f,( 99.25594f), 1); CHECK_FLT_APPROX_SAME(exp2f,( -99.25594f), 1); CHECK_FLT_APPROX_SAME(exp2f,( +305.25594f), 1); CHECK_FLT_APPROX_SAME(exp2f,( -305.25594f), 1); CHECK_FLT_APPROX_SAME(exp2f,( +309.99884f), 1); CHECK_FLT_APPROX_SAME(exp2f,( -309.111048f), 1); CHECK_FLT_APPROX_SAME(exp2f,( +999.86459f), 1); CHECK_FLT_APPROX_SAME(exp2f,( -999.09823f), 1); } void testLdExp() { RTTestSub(g_hTest, "ldexp[f]"); CHECK_DBL(RT_NOCRT(ldexp)(1.0, 1), 2.0); CHECK_DBL(RT_NOCRT(ldexp)(1.0, 2), 4.0); CHECK_DBL(RT_NOCRT(ldexp)(1.0, 32), 4294967296.0); CHECK_DBL(RT_NOCRT(ldexp)(2.0, 31), 4294967296.0); CHECK_DBL(RT_NOCRT(ldexp)(0.5, 33), 4294967296.0); CHECK_DBL(RT_NOCRT(ldexp)(1.0, -1), 0.5); CHECK_DBL(RT_NOCRT(ldexp)(1.0, -3), 0.125); CHECK_DBL_SAME(ldexp, (0.0, 0)); CHECK_DBL_SAME(ldexp, (+INFINITY, 1)); CHECK_DBL_SAME(ldexp, (+INFINITY, 2)); CHECK_DBL_SAME(ldexp, (-INFINITY, 1)); CHECK_DBL_SAME(ldexp, (-INFINITY, 2)); CHECK_DBL_SAME(ldexp, (nan("1"), 1)); CHECK_DBL_SAME(ldexp, (RTStrNanDouble("ab305f", true), 2)); CHECK_DBL_SAME(ldexp, (RTStrNanDouble("fffffffff_signaling", true), 3)); CHECK_DBL_SAME(ldexp, (RTStrNanDouble("7777777777778_sig", false), -4)); CHECK_DBL_SAME(ldexp, ( 1.0, 1)); CHECK_DBL_SAME(ldexp, ( 2.0, 2)); CHECK_DBL_SAME(ldexp, ( -1.0, -1)); CHECK_DBL_SAME(ldexp, ( +0.5, 63)); CHECK_DBL_SAME(ldexp, ( -0.5, -73)); CHECK_DBL_SAME(ldexp, ( +1.5, -88)); CHECK_DBL_SAME(ldexp, ( -1.5, 99)); CHECK_DBL_SAME(ldexp, ( +3.25, -102)); CHECK_DBL_SAME(ldexp, ( 99.2559430, -256)); CHECK_DBL_SAME(ldexp, ( -99.2559430, 256)); CHECK_DBL_SAME(ldexp, ( +305.2559430, 34)); CHECK_DBL_SAME(ldexp, ( -305.2559430, 79)); CHECK_DBL_SAME(ldexp, ( +309.99884, -99)); CHECK_DBL_SAME(ldexp, ( -309.111048, -38)); CHECK_DBL_SAME(ldexp, (+999.864597634, -21)); CHECK_DBL_SAME(ldexp, (-999.098234837, 21)); CHECK_FLT(RT_NOCRT(ldexpf)(1.0f, 1), 2.0f); CHECK_FLT(RT_NOCRT(ldexpf)(1.0f, 2), 4.0f); CHECK_FLT(RT_NOCRT(ldexpf)(1.0f, 32), 4294967296.0f); CHECK_FLT(RT_NOCRT(ldexpf)(2.0f, 31), 4294967296.0f); CHECK_FLT(RT_NOCRT(ldexpf)(0.5f, 33), 4294967296.0f); CHECK_FLT(RT_NOCRT(ldexpf)(1.0f, -1), 0.5f); CHECK_FLT(RT_NOCRT(ldexpf)(1.0f, -3), 0.125f); CHECK_FLT_SAME(ldexpf, (0.0f, 0)); CHECK_FLT_SAME(ldexpf, (+INFINITY, 1)); CHECK_FLT_SAME(ldexpf, (+INFINITY, 2)); CHECK_FLT_SAME(ldexpf, (-INFINITY, 1)); CHECK_FLT_SAME(ldexpf, (-INFINITY, 2)); CHECK_FLT_SAME(ldexpf, (nan("1"), 1)); CHECK_FLT_SAME(ldexpf, (RTStrNanDouble("ab305f", true), 2)); CHECK_FLT_SAME(ldexpf, (RTStrNanDouble("fffffffff_signaling", true), 3)); CHECK_FLT_SAME(ldexpf, (RTStrNanDouble("7777777777778_sig", false), -4)); CHECK_FLT_SAME(ldexpf, ( 1.0f, 1)); CHECK_FLT_SAME(ldexpf, ( 2.0f, 2)); CHECK_FLT_SAME(ldexpf, ( -1.0f, -1)); CHECK_FLT_SAME(ldexpf, ( +0.5f, 63)); CHECK_FLT_SAME(ldexpf, ( -0.5f, -73)); CHECK_FLT_SAME(ldexpf, ( +1.5f, -88)); CHECK_FLT_SAME(ldexpf, ( -1.5f, 99)); CHECK_FLT_SAME(ldexpf, ( +3.25f, -102)); CHECK_FLT_SAME(ldexpf, ( 99.2559430f, -256)); CHECK_FLT_SAME(ldexpf, ( -99.2559430f, 256)); CHECK_FLT_SAME(ldexpf, ( +305.2559430f, 34)); CHECK_FLT_SAME(ldexpf, ( -305.2559430f, 79)); CHECK_FLT_SAME(ldexpf, ( +309.99884f, -99)); CHECK_FLT_SAME(ldexpf, ( -309.111048f, -38)); CHECK_FLT_SAME(ldexpf, (+999.864597634f, -21)); CHECK_FLT_SAME(ldexpf, (-999.098234837f, 21)); } void testPow() { RTTestSub(g_hTest, "pow[f]"); /* * pow */ CHECK_DBL( RT_NOCRT(pow)( +1.0, +1.0), +1.0); CHECK_DBL( RT_NOCRT(pow)( +2.0, +1.0), +2.0); CHECK_DBL( RT_NOCRT(pow)( +2.0, +2.0), +4.0); CHECK_DBL( RT_NOCRT(pow)( +2.0, +43.0), +8796093022208.0); /* special values: */ CHECK_DBL( RT_NOCRT(pow)( +1.0, 43.0), +1.0); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_DBL( RT_NOCRT(pow)( +1.0, +0.0), +1.0); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_DBL( RT_NOCRT(pow)( +1.0, -0.0), +1.0); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_DBL( RT_NOCRT(pow)( +1.0, -34.5534), +1.0); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_DBL( RT_NOCRT(pow)( +1.0, +1.0e+128), +1.0); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_DBL( RT_NOCRT(pow)( +1.0, -1.0e+128), +1.0); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_DBL( RT_NOCRT(pow)( +1.0, +INFINITY), +1.0); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_DBL( RT_NOCRT(pow)( +1.0, -INFINITY), +1.0); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_DBL( RT_NOCRT(pow)( +1.0, RTStrNanDouble(NULL, true)), +1.0); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_DBL( RT_NOCRT(pow)( +1.0, RTStrNanDouble("s", false)), +1.0); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_DBL( RT_NOCRT(pow)( -1.0, +INFINITY), +1.0); /* 10. Exponent = +/-Inf and base = -1: Return 1.0 */ CHECK_DBL( RT_NOCRT(pow)( +0.9, -INFINITY), +INFINITY); /* 11. Exponent = -Inf and |base| < 1: Return +Inf */ CHECK_DBL( RT_NOCRT(pow)( +0.3490, -INFINITY), +INFINITY); /* 11. Exponent = -Inf and |base| < 1: Return +Inf */ CHECK_DBL( RT_NOCRT(pow)( -0.9, -INFINITY), +INFINITY); /* 11. Exponent = -Inf and |base| < 1: Return +Inf */ CHECK_DBL( RT_NOCRT(pow)( -0.165634, -INFINITY), +INFINITY); /* 11. Exponent = -Inf and |base| < 1: Return +Inf */ CHECK_DBL( RT_NOCRT(pow)( -1.000001, -INFINITY), +0.0); /* 12. Exponent = -Inf and |base| > 1: Return +0 */ CHECK_DBL( RT_NOCRT(pow)( +1.000001, -INFINITY), +0.0); /* 12. Exponent = -Inf and |base| > 1: Return +0 */ CHECK_DBL( RT_NOCRT(pow)( +42.1, -INFINITY), +0.0); /* 12. Exponent = -Inf and |base| > 1: Return +0 */ CHECK_DBL( RT_NOCRT(pow)( -42.1e+34, -INFINITY), +0.0); /* 12. Exponent = -Inf and |base| > 1: Return +0 */ CHECK_DBL( RT_NOCRT(pow)( +42.1e+99, -INFINITY), +0.0); /* 12. Exponent = -Inf and |base| > 1: Return +0 */ CHECK_DBL( RT_NOCRT(pow)( +0.8, +INFINITY), +0.0); /* 13. Exponent = +Inf and |base| < 1: Return +0 */ CHECK_DBL( RT_NOCRT(pow)( -0.8, +INFINITY), +0.0); /* 13. Exponent = +Inf and |base| < 1: Return +0 */ CHECK_DBL( RT_NOCRT(pow)( +1.000003, +INFINITY), +INFINITY); /* 14. Exponent = +Inf and |base| > 1: Return +Inf */ CHECK_DBL( RT_NOCRT(pow)( -1.000003, +INFINITY), +INFINITY); /* 14. Exponent = +Inf and |base| > 1: Return +Inf */ CHECK_DBL( RT_NOCRT(pow)( +42.000003e+67, +INFINITY), +INFINITY); /* 14. Exponent = +Inf and |base| > 1: Return +Inf */ CHECK_DBL( RT_NOCRT(pow)( -996.6567e+109, +INFINITY), +INFINITY); /* 14. Exponent = +Inf and |base| > 1: Return +Inf */ CHECK_DBL( RT_NOCRT(pow)( -1.23, 1.1), RTStrNanDouble(NULL, false)); /* 1. Finit base < 0 and finit non-interger exponent: -> domain error (#IE) + NaN. */ CHECK_DBL( RT_NOCRT(pow)( -2.0, -42.353), RTStrNanDouble(NULL, false)); /* 1. Finit base < 0 and finit non-interger exponent: -> domain error (#IE) + NaN. */ CHECK_DBL( RT_NOCRT(pow)( -2.0, -0.0), +1.0); /* 7. Exponent = +/-0.0, any base value including NaN: return +1.0 */ CHECK_DBL( RT_NOCRT(pow)( -2.0, +0.0), +1.0); /* 7. Exponent = +/-0.0, any base value including NaN: return +1.0 */ CHECK_DBL( RT_NOCRT(pow)( -INFINITY, -0.0), +1.0); /* 7. Exponent = +/-0.0, any base value including NaN: return +1.0 */ CHECK_DBL( RT_NOCRT(pow)( -INFINITY, +0.0), +1.0); /* 7. Exponent = +/-0.0, any base value including NaN: return +1.0 */ CHECK_DBL( RT_NOCRT(pow)( +INFINITY, -0.0), +1.0); /* 7. Exponent = +/-0.0, any base value including NaN: return +1.0 */ CHECK_DBL( RT_NOCRT(pow)( +INFINITY, +0.0), +1.0); /* 7. Exponent = +/-0.0, any base value including NaN: return +1.0 */ CHECK_DBL( RT_NOCRT(pow)( RTStrNanDouble("s", false), -0.0), +1.0); /* 7. Exponent = +/-0.0, any base value including NaN: return +1.0 */ CHECK_DBL( RT_NOCRT(pow)( RTStrNanDouble(NULL, true), +0.0), +1.0); /* 7. Exponent = +/-0.0, any base value including NaN: return +1.0 */ CHECK_DBL( RT_NOCRT(pow)( -0.0, -19.0), -INFINITY); /* 4a. base == +/-0.0 and exp < 0 and exp is odd integer: Return +/-Inf, raise div/0. */ CHECK_DBL( RT_NOCRT(pow)( +0.0, -7.0), +INFINITY); /* 4a. base == +/-0.0 and exp < 0 and exp is odd integer: Return +/-Inf, raise div/0. */ CHECK_DBL( RT_NOCRT(pow)( -0.0, -8.0), +INFINITY); /* 4b. base == +/-0.0 and exp < 0 and exp is not odd int: Return +Inf, raise div/0. */ CHECK_DBL( RT_NOCRT(pow)( +0.0, -8.0), +INFINITY); /* 4b. base == +/-0.0 and exp < 0 and exp is not odd int: Return +Inf, raise div/0. */ CHECK_DBL( RT_NOCRT(pow)( -0.0, -9.1), +INFINITY); /* 4b. base == +/-0.0 and exp < 0 and exp is not odd int: Return +Inf, raise div/0. */ CHECK_DBL( RT_NOCRT(pow)( +0.0, -9.1), +INFINITY); /* 4b. base == +/-0.0 and exp < 0 and exp is not odd int: Return +Inf, raise div/0. */ CHECK_DBL( RT_NOCRT(pow)( -0.0, +49.0), -0.0); /* 8. base == +/-0.0 and exp > 0 and exp is odd integer: Return +/-0.0 */ CHECK_DBL( RT_NOCRT(pow)( -0.0, +999999999.0), -0.0); /* 8. base == +/-0.0 and exp > 0 and exp is odd integer: Return +/-0.0 */ CHECK_DBL( RT_NOCRT(pow)( +0.0, +88888881.0), +0.0); /* 8. base == +/-0.0 and exp > 0 and exp is odd integer: Return +/-0.0 */ CHECK_DBL( RT_NOCRT(pow)( +0.0, +3.0), +0.0); /* 8. base == +/-0.0 and exp > 0 and exp is odd integer: Return +/-0.0 */ CHECK_DBL( RT_NOCRT(pow)( +0.0, +4.0), +0.0); /* 9. base == +/-0.0 and exp > 0 and exp is not odd int: Return +0 */ CHECK_DBL( RT_NOCRT(pow)( -0.0, +4.0), +0.0); /* 9. base == +/-0.0 and exp > 0 and exp is not odd int: Return +0 */ CHECK_DBL( RT_NOCRT(pow)( +0.0, +3.1), +0.0); /* 9. base == +/-0.0 and exp > 0 and exp is not odd int: Return +0 */ CHECK_DBL( RT_NOCRT(pow)( -0.0, +3.1), +0.0); /* 9. base == +/-0.0 and exp > 0 and exp is not odd int: Return +0 */ CHECK_DBL( RT_NOCRT(pow)( +0.0, +999999999.9), +0.0); /* 9. base == +/-0.0 and exp > 0 and exp is not odd int: Return +0 */ CHECK_DBL( RT_NOCRT(pow)( -0.0, +999999999.9), +0.0); /* 9. base == +/-0.0 and exp > 0 and exp is not odd int: Return +0 */ CHECK_DBL( RT_NOCRT(pow)( -INFINITY, -999999999.0), -0.0); /* 15. base == -Inf and exp < 0 and exp is odd integer: Return -0 */ CHECK_DBL( RT_NOCRT(pow)( -INFINITY, -3.0), -0.0); /* 15. base == -Inf and exp < 0 and exp is odd integer: Return -0 */ CHECK_DBL( RT_NOCRT(pow)( -INFINITY, -3.1), +0.0); /* 16. base == -Inf and exp < 0 and exp is not odd int: Return +0 */ CHECK_DBL( RT_NOCRT(pow)( -INFINITY, -4.0), +0.0); /* 16. base == -Inf and exp < 0 and exp is not odd int: Return +0 */ CHECK_DBL( RT_NOCRT(pow)( -INFINITY, +3.0), -INFINITY); /* 17. base == -Inf and exp > 0 and exp is odd integer: Return -Inf */ CHECK_DBL( RT_NOCRT(pow)( -INFINITY, +7777777777.0), -INFINITY); /* 17. base == -Inf and exp > 0 and exp is odd integer: Return -Inf */ CHECK_DBL( RT_NOCRT(pow)( -INFINITY, +7777777777.7), +INFINITY); /* 18. base == -Inf and exp > 0 and exp is not odd int: Return +Inf */ CHECK_DBL( RT_NOCRT(pow)( -INFINITY, +4.0), +INFINITY); /* 18. base == -Inf and exp > 0 and exp is not odd int: Return +Inf */ CHECK_DBL( RT_NOCRT(pow)( +INFINITY, -4.0), +0.0); /* 19. base == +Inf and exp < 0: Return +0 */ CHECK_DBL( RT_NOCRT(pow)( +INFINITY, -0.9), +0.0); /* 19. base == +Inf and exp < 0: Return +0 */ CHECK_DBL( RT_NOCRT(pow)( +INFINITY, -4.4), +0.0); /* 19. base == +Inf and exp < 0: Return +0 */ CHECK_DBL( RT_NOCRT(pow)( +INFINITY, +4.0), +INFINITY); /* 20. base == +Inf and exp > 0: Return +Inf */ CHECK_DBL( RT_NOCRT(pow)( +INFINITY, +4.4), +INFINITY); /* 20. base == +Inf and exp > 0: Return +Inf */ CHECK_DBL( RT_NOCRT(pow)( +INFINITY, +0.3), +INFINITY); /* 20. base == +Inf and exp > 0: Return +Inf */ /* Integer exponents: */ //lvbe /mnt/e/misc/float/pow +1.0 +1.0 +2.0 +1.0 +2.0 +2.0 +2.0 +15.0 +2.0 +42.0 -2.5 +3.0 -2.5 +4.0 -2.5 +16.0 +2.0 -1.0 +2.0 -2.0 +2.0 -3.0 -42.5 -7.0 | clip CHECK_DBL( RT_NOCRT(pow)( +1.0, +1.0), +1); CHECK_DBL( RT_NOCRT(pow)( +2.0, +1.0), +2); CHECK_DBL( RT_NOCRT(pow)( +2.0, +2.0), +4); CHECK_DBL( RT_NOCRT(pow)( +2.0, +15.0), +32768); CHECK_DBL( RT_NOCRT(pow)( +2.0, +42.0), +4398046511104); CHECK_DBL( RT_NOCRT(pow)( -2.5, +3.0), -15.625); CHECK_DBL( RT_NOCRT(pow)( -2.5, +4.0), +39.0625); CHECK_DBL( RT_NOCRT(pow)( -2.5, +16.0), +2328306.4365386962891); CHECK_DBL( RT_NOCRT(pow)( +2.0, -1.0), +0.5); CHECK_DBL( RT_NOCRT(pow)( +2.0, -2.0), +0.25); CHECK_DBL( RT_NOCRT(pow)( +2.0, -3.0), +0.125); /* Fractional exponents: */ //lvbe /mnt/e/misc/float/pow +2.0 +1.0001 +2.0 +1.5 +2.0 -1.5 +2.0 -1.1 +2.0 -0.98 +2.5 +0.39 +42.424242 +22.34356458 +88888888.9999999e+10 +2.7182818284590452354 +9999387.349569 -2.7182818284590452354| clip CHECK_DBL( RT_NOCRT(pow)( +2.0, +1.0001), +2.0001386342407529995); CHECK_DBL( RT_NOCRT(pow)( +2.0, +1.5), +2.8284271247461902909); CHECK_DBL( RT_NOCRT(pow)( +2.0, -1.5), +0.35355339059327378637); CHECK_DBL( RT_NOCRT(pow)( +2.0, -1.1), +0.46651649576840370504); CHECK_DBL( RT_NOCRT(pow)( +2.0, -0.98), +0.50697973989501454728); CHECK_DBL( RT_NOCRT(pow)( +2.5, +0.39), +1.4295409595509598333); CHECK_DBL_RANGE(RT_NOCRT(pow)( +42.424242, +22.34356458), +2.3264866447369911544e+36, 0.00000000000001e+36); CHECK_DBL_RANGE(RT_NOCRT(pow)( +88888888.9999999e+10, +2.7182818284590452354), +6.1663183371503584444e+48, 0.00000000000001e+48); CHECK_DBL_RANGE(RT_NOCRT(pow)( +9999387.349569, -2.7182818284590452354), +9.3777689533441608684e-20, 0.00000000000001e-20); /* * powf */ CHECK_FLT( RT_NOCRT(powf)( +1.0f, +1.0f), +1.0f); CHECK_FLT( RT_NOCRT(powf)( +2.0f, +1.0f), +2.0f); CHECK_FLT( RT_NOCRT(powf)( +2.0f, +2.0f), +4.0f); CHECK_FLT( RT_NOCRT(powf)( +2.0f, +43.0f), +8796093022208.0f); /* Integer exponents: */ //lvbe /mnt/e/misc/float/pow -f +1.0 +1.0 +2.0 +1.0 +2.0 +2.0 +2.0 +15.0 +2.0 +42.0 -2.5 +3.0 -2.5 +4.0 -2.5 +16.0 +2.0 -1.0 +2.0 -2.0 +2.0 -3.0 -42.5 -7.0 | clip CHECK_FLT( RT_NOCRT(powf)( +1.0f, +1.0f), +1.0f); CHECK_FLT( RT_NOCRT(powf)( +2.0f, +1.0f), +2.0f); CHECK_FLT( RT_NOCRT(powf)( +2.0f, +2.0f), +4.0f); CHECK_FLT( RT_NOCRT(powf)( +2.0f, +15.0f), +32768.0f); CHECK_FLT( RT_NOCRT(powf)( +2.0f, +42.0f), +4398046511104.0f); CHECK_FLT( RT_NOCRT(powf)( -2.5f, +3.0f), -15.625f); CHECK_FLT( RT_NOCRT(powf)( -2.5f, +4.0f), +39.0625f); CHECK_FLT( RT_NOCRT(powf)( -2.5f, +16.0f), +2328306.5f); CHECK_FLT( RT_NOCRT(powf)( +2.0f, -1.0f), +0.5f); CHECK_FLT( RT_NOCRT(powf)( +2.0f, -2.0f), +0.25f); CHECK_FLT( RT_NOCRT(powf)( +2.0f, -3.0f), +0.125f); CHECK_FLT( RT_NOCRT(powf)( -42.5f, -7.0f), -3.99279958054888e-12f); /* Fractional exponents: */ //lvbe /mnt/e/misc/float/pow -f +2.0 +1.0001 +2.0 +1.5 +2.0 -1.5 +2.0 -1.1 +2.0 -0.98 +2.5 +0.39 +42.424242 +22.34356458 +88888888.9999999e+6 +2.7182818284590452354 +9999387.349569 -2.7182818284590452354| clip CHECK_FLT( RT_NOCRT(powf)( +2.0f, +1.0001f), +2.00013875961304f); CHECK_FLT( RT_NOCRT(powf)( +2.0f, +1.5f), +2.82842707633972f); CHECK_FLT( RT_NOCRT(powf)( +2.0f, -1.5f), +0.353553384542465f); CHECK_FLT( RT_NOCRT(powf)( +2.0f, -1.1f), +0.466516494750977f); CHECK_FLT( RT_NOCRT(powf)( +2.0f, -0.98f), +0.506979703903198f); CHECK_FLT( RT_NOCRT(powf)( +2.5f, +0.39f), +1.42954099178314f); CHECK_FLT( RT_NOCRT(powf)( +42.424242f, +22.34356458f), +2.32648793070284e+36f); CHECK_FLT( RT_NOCRT(powf)( +88888888.9999999e+6f, +2.7182818284590452354f), +8.25842928313806e+37f); CHECK_FLT( RT_NOCRT(powf)( +9999387.349569f, -2.7182818284590452354f), +9.37778214743062e-20f); /* special values: */ CHECK_FLT( RT_NOCRT(powf)( +1.0f, 43.0f), +1.0f); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_FLT( RT_NOCRT(powf)( +1.0f, +0.0f), +1.0f); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_FLT( RT_NOCRT(powf)( +1.0f, -0.0f), +1.0f); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_FLT( RT_NOCRT(powf)( +1.0f, -34.5534f), +1.0f); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_FLT( RT_NOCRT(powf)( +1.0f, +1.0e+37f), +1.0f); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_FLT( RT_NOCRT(powf)( +1.0f, -1.0e+37f), +1.0f); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_FLT( RT_NOCRT(powf)( +1.0f, +(float)INFINITY), +1.0f); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_FLT( RT_NOCRT(powf)( +1.0f, -(float)INFINITY), +1.0f); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_FLT( RT_NOCRT(powf)( +1.0f, RTStrNanFloat(NULL, true)), +1.0f); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_FLT( RT_NOCRT(powf)( +1.0f, RTStrNanFloat("s", false)), +1.0f); /* 6. base=1 exp=wathever -> +1.0 */ CHECK_FLT( RT_NOCRT(powf)( -1.0f, +(float)INFINITY), +1.0f); /* 10. Exponent = +/-Inf and base = -1: Return 1.0 */ CHECK_FLT( RT_NOCRT(powf)( +0.9f, -(float)INFINITY), +(float)INFINITY); /* 11. Exponent = -Inf and |base| < 1: Return +Inf */ CHECK_FLT( RT_NOCRT(powf)( +0.3490f, -(float)INFINITY), +(float)INFINITY); /* 11. Exponent = -Inf and |base| < 1: Return +Inf */ CHECK_FLT( RT_NOCRT(powf)( -0.9f, -(float)INFINITY), +(float)INFINITY); /* 11. Exponent = -Inf and |base| < 1: Return +Inf */ CHECK_FLT( RT_NOCRT(powf)( -0.165634f, -(float)INFINITY), +(float)INFINITY); /* 11. Exponent = -Inf and |base| < 1: Return +Inf */ CHECK_FLT( RT_NOCRT(powf)( -1.000001f, -(float)INFINITY), +0.0f); /* 12. Exponent = -Inf and |base| > 1: Return +0 */ CHECK_FLT( RT_NOCRT(powf)( +1.000001f, -(float)INFINITY), +0.0f); /* 12. Exponent = -Inf and |base| > 1: Return +0 */ CHECK_FLT( RT_NOCRT(powf)( +42.1f, -(float)INFINITY), +0.0f); /* 12. Exponent = -Inf and |base| > 1: Return +0 */ CHECK_FLT( RT_NOCRT(powf)( -42.1e+34f, -(float)INFINITY), +0.0f); /* 12. Exponent = -Inf and |base| > 1: Return +0 */ CHECK_FLT( RT_NOCRT(powf)( +42.1e+32f, -(float)INFINITY), +0.0f); /* 12. Exponent = -Inf and |base| > 1: Return +0 */ CHECK_FLT( RT_NOCRT(powf)( +0.8f, +(float)INFINITY), +0.0f); /* 13. Exponent = +Inf and |base| < 1: Return +0 */ CHECK_FLT( RT_NOCRT(powf)( -0.8f, +(float)INFINITY), +0.0f); /* 13. Exponent = +Inf and |base| < 1: Return +0 */ CHECK_FLT( RT_NOCRT(powf)( +1.000003f, +(float)INFINITY), +(float)INFINITY); /* 14. Exponent = +Inf and |base| > 1: Return +Inf */ CHECK_FLT( RT_NOCRT(powf)( -1.000003f, +(float)INFINITY), +(float)INFINITY); /* 14. Exponent = +Inf and |base| > 1: Return +Inf */ CHECK_FLT( RT_NOCRT(powf)( +42.000003e+33f, +(float)INFINITY), +(float)INFINITY); /* 14. Exponent = +Inf and |base| > 1: Return +Inf */ CHECK_FLT( RT_NOCRT(powf)( -996.6567e+30f, +(float)INFINITY), +(float)INFINITY); /* 14. Exponent = +Inf and |base| > 1: Return +Inf */ CHECK_FLT( RT_NOCRT(powf)( -1.23f, 1.1f), RTStrNanFloat(NULL, false)); /* 1. Finit base < 0 and finit non-interger exponent: -> domain error (#IE) + NaN. */ CHECK_FLT( RT_NOCRT(powf)( -2.0f, -42.32f), RTStrNanFloat(NULL, false)); /* 1. Finit base < 0 and finit non-interger exponent: -> domain error (#IE) + NaN. */ CHECK_FLT( RT_NOCRT(powf)( -2.0f, -0.0f), +1.0f); /* 7. Exponent = +/-0.0, any base value including NaN: return +1.0 */ CHECK_FLT( RT_NOCRT(powf)( -2.0f, +0.0f), +1.0f); /* 7. Exponent = +/-0.0, any base value including NaN: return +1.0 */ CHECK_FLT( RT_NOCRT(powf)( -(float)INFINITY, -0.0f), +1.0f); /* 7. Exponent = +/-0.0, any base value including NaN: return +1.0 */ CHECK_FLT( RT_NOCRT(powf)( -(float)INFINITY, +0.0f), +1.0f); /* 7. Exponent = +/-0.0, any base value including NaN: return +1.0 */ CHECK_FLT( RT_NOCRT(powf)( +(float)INFINITY, -0.0f), +1.0f); /* 7. Exponent = +/-0.0, any base value including NaN: return +1.0 */ CHECK_FLT( RT_NOCRT(powf)( +(float)INFINITY, +0.0f), +1.0f); /* 7. Exponent = +/-0.0, any base value including NaN: return +1.0 */ CHECK_FLT( RT_NOCRT(powf)( RTStrNanFloat("s", false), -0.0f), +1.0f); /* 7. Exponent = +/-0.0, any base value including NaN: return +1.0 */ CHECK_FLT( RT_NOCRT(powf)( RTStrNanFloat(NULL, true), +0.0f), +1.0f); /* 7. Exponent = +/-0.0, any base value including NaN: return +1.0 */ CHECK_FLT( RT_NOCRT(powf)( -0.0f, -19.0f), -(float)INFINITY); /* 4a. base == +/-0.0 and exp < 0 and exp is odd integer: Return +/-Inf, raise div/0. */ CHECK_FLT( RT_NOCRT(powf)( +0.0f, -7.0f), +(float)INFINITY); /* 4a. base == +/-0.0 and exp < 0 and exp is odd integer: Return +/-Inf, raise div/0. */ CHECK_FLT( RT_NOCRT(powf)( -0.0f, -8.0f), +(float)INFINITY); /* 4b. base == +/-0.0 and exp < 0 and exp is not odd int: Return +Inf, raise div/0. */ CHECK_FLT( RT_NOCRT(powf)( +0.0f, -8.0f), +(float)INFINITY); /* 4b. base == +/-0.0 and exp < 0 and exp is not odd int: Return +Inf, raise div/0. */ CHECK_FLT( RT_NOCRT(powf)( -0.0f, -9.1f), +(float)INFINITY); /* 4b. base == +/-0.0 and exp < 0 and exp is not odd int: Return +Inf, raise div/0. */ CHECK_FLT( RT_NOCRT(powf)( +0.0f, -9.1f), +(float)INFINITY); /* 4b. base == +/-0.0 and exp < 0 and exp is not odd int: Return +Inf, raise div/0. */ CHECK_FLT( RT_NOCRT(powf)( -0.0f, +49.0f), -0.0f); /* 8. base == +/-0.0 and exp > 0 and exp is odd integer: Return +/-0.0 */ CHECK_FLT( RT_NOCRT(powf)( -0.0f, +999999.0f), -0.0f); /* 8. base == +/-0.0 and exp > 0 and exp is odd integer: Return +/-0.0 */ CHECK_FLT( RT_NOCRT(powf)( +0.0f, +88881.0f), +0.0f); /* 8. base == +/-0.0 and exp > 0 and exp is odd integer: Return +/-0.0 */ CHECK_FLT( RT_NOCRT(powf)( +0.0f, +3.0f), +0.0f); /* 8. base == +/-0.0 and exp > 0 and exp is odd integer: Return +/-0.0 */ CHECK_FLT( RT_NOCRT(powf)( +0.0f, +4.0f), +0.0f); /* 9. base == +/-0.0 and exp > 0 and exp is not odd int: Return +0 */ CHECK_FLT( RT_NOCRT(powf)( -0.0f, +4.0f), +0.0f); /* 9. base == +/-0.0 and exp > 0 and exp is not odd int: Return +0 */ CHECK_FLT( RT_NOCRT(powf)( +0.0f, +3.1f), +0.0f); /* 9. base == +/-0.0 and exp > 0 and exp is not odd int: Return +0 */ CHECK_FLT( RT_NOCRT(powf)( -0.0f, +3.1f), +0.0f); /* 9. base == +/-0.0 and exp > 0 and exp is not odd int: Return +0 */ CHECK_FLT( RT_NOCRT(powf)( +0.0f, +99999.9f), +0.0f); /* 9. base == +/-0.0 and exp > 0 and exp is not odd int: Return +0 */ CHECK_FLT( RT_NOCRT(powf)( -0.0f, +99999.9f), +0.0f); /* 9. base == +/-0.0 and exp > 0 and exp is not odd int: Return +0 */ CHECK_FLT( RT_NOCRT(powf)( -(float)INFINITY, -99999.0f), -0.0f); /* 15. base == -Inf and exp < 0 and exp is odd integer: Return -0 */ CHECK_FLT( RT_NOCRT(powf)( -(float)INFINITY, -3.0f), -0.0f); /* 15. base == -Inf and exp < 0 and exp is odd integer: Return -0 */ CHECK_FLT( RT_NOCRT(powf)( -(float)INFINITY, -3.1f), +0.0f); /* 16. base == -Inf and exp < 0 and exp is not odd int: Return +0 */ CHECK_FLT( RT_NOCRT(powf)( -(float)INFINITY, -4.0f), +0.0f); /* 16. base == -Inf and exp < 0 and exp is not odd int: Return +0 */ CHECK_FLT( RT_NOCRT(powf)( -(float)INFINITY, +3.0f), -(float)INFINITY); /* 17. base == -Inf and exp > 0 and exp is odd integer: Return -Inf */ CHECK_FLT( RT_NOCRT(powf)( -(float)INFINITY, +777777.0f), -(float)INFINITY); /* 17. base == -Inf and exp > 0 and exp is odd integer: Return -Inf */ CHECK_FLT( RT_NOCRT(powf)( -(float)INFINITY, +77777.7f), +(float)INFINITY); /* 18. base == -Inf and exp > 0 and exp is not odd int: Return +Inf */ CHECK_FLT( RT_NOCRT(powf)( -(float)INFINITY, +4.0f), +(float)INFINITY); /* 18. base == -Inf and exp > 0 and exp is not odd int: Return +Inf */ CHECK_FLT( RT_NOCRT(powf)( +(float)INFINITY, -4.0f), +0.0f); /* 19. base == +Inf and exp < 0: Return +0 */ CHECK_FLT( RT_NOCRT(powf)( +(float)INFINITY, -0.9f), +0.0f); /* 19. base == +Inf and exp < 0: Return +0 */ CHECK_FLT( RT_NOCRT(powf)( +(float)INFINITY, -4.4f), +0.0f); /* 19. base == +Inf and exp < 0: Return +0 */ CHECK_FLT( RT_NOCRT(powf)( +(float)INFINITY, +4.0f), +(float)INFINITY); /* 20. base == +Inf and exp > 0: Return +Inf */ CHECK_FLT( RT_NOCRT(powf)( +(float)INFINITY, +4.4f), +(float)INFINITY); /* 20. base == +Inf and exp > 0: Return +Inf */ CHECK_FLT( RT_NOCRT(powf)( +(float)INFINITY, +0.3f), +(float)INFINITY); /* 20. base == +Inf and exp > 0: Return +Inf */ } void testFma() { RTTestSub(g_hTest, "fma[f]"); CHECK_DBL(RT_NOCRT(fma)(1.0, 1.0, 1.0), 2.0); CHECK_DBL(RT_NOCRT(fma)(4.0, 2.0, 1.0), 9.0); CHECK_DBL(RT_NOCRT(fma)(4.0, 2.0, -1.0), 7.0); CHECK_DBL_SAME(fma, (0.0, 0.0, 0.0)); CHECK_DBL_SAME(fma, (999999.0, 33334.0, 29345.0)); CHECK_DBL_SAME(fma, (39560.32334, 9605.5546, -59079.345069)); CHECK_DBL_SAME(fma, (39560.32334, -59079.345069, 9605.5546)); CHECK_DBL_SAME(fma, (-59079.345069, 39560.32334, 9605.5546)); CHECK_DBL_SAME(fma, (+INFINITY, +INFINITY, -INFINITY)); CHECK_DBL_SAME(fma, (4.0, +INFINITY, 2.0)); CHECK_DBL_SAME(fma, (4.0, 4.0, +INFINITY)); CHECK_DBL_SAME(fma, (-INFINITY, 4.0, 4.0)); CHECK_DBL_SAME(fma, (2.34960584706e100, 7.6050698459e-13, 9.99996777e77)); CHECK_FLT(RT_NOCRT(fmaf)(1.0f, 1.0f, 1.0), 2.0); CHECK_FLT(RT_NOCRT(fmaf)(4.0f, 2.0f, 1.0), 9.0); CHECK_FLT(RT_NOCRT(fmaf)(4.0f, 2.0f, -1.0), 7.0); CHECK_FLT_SAME(fmaf, (0.0f, 0.0f, 0.0f)); CHECK_FLT_SAME(fmaf, (999999.0f, 33334.0f, 29345.0f)); CHECK_FLT_SAME(fmaf, (39560.32334f, 9605.5546f, -59079.345069f)); CHECK_FLT_SAME(fmaf, (39560.32334f, -59079.345069f, 9605.5546f)); CHECK_FLT_SAME(fmaf, (-59079.345069f, 39560.32334f, 9605.5546f)); CHECK_FLT_SAME(fmaf, (+INFINITY, +INFINITY, -INFINITY)); CHECK_FLT_SAME(fmaf, (4.0f, +INFINITY, 2.0f)); CHECK_FLT_SAME(fmaf, (4.0f, 4.0f, +INFINITY)); CHECK_FLT_SAME(fmaf, (-INFINITY, 4.0f, 4.0f)); CHECK_FLT_SAME(fmaf, (2.34960584706e22f, 7.6050698459e-13f, 9.99996777e27f)); } void testRemainder() { RTTestSub(g_hTest, "remainder[f]"); /* The UCRT and x87 FPU generally disagree on the sign of the NaN, so don't be too picky here for now. */ CHECK_DBL( RT_NOCRT(remainder)( 1.0, 1.0), +0.0); CHECK_DBL( RT_NOCRT(remainder)( 1.5, 1.0), -0.5); CHECK_DBL_SAME_RELAXED_NAN(remainder,( 1.0, 1.0)); CHECK_DBL_SAME_RELAXED_NAN(remainder,( 1.5, 1.0)); CHECK_DBL_SAME_RELAXED_NAN(remainder,( +0.0, +0.0)); CHECK_DBL_SAME_RELAXED_NAN(remainder,( +0.0, -0.0)); CHECK_DBL_SAME_RELAXED_NAN(remainder,( -0.0, -0.0)); CHECK_DBL_SAME_RELAXED_NAN(remainder,( -0.0, +0.0)); CHECK_DBL_SAME_RELAXED_NAN(remainder,( 999999.0, 33334.0)); CHECK_DBL_SAME_RELAXED_NAN(remainder,( -999999.0, 33334.0)); CHECK_DBL_SAME_RELAXED_NAN(remainder,( -999999.0, -33334.0)); CHECK_DBL_SAME_RELAXED_NAN(remainder,( 999999.0, -33334.0)); CHECK_DBL_SAME_RELAXED_NAN(remainder,( 39560.32334, 9605.5546)); CHECK_DBL_SAME_RELAXED_NAN(remainder,( 39560.32334, -59079.345069)); CHECK_DBL_SAME_RELAXED_NAN(remainder,( +INFINITY, +INFINITY)); CHECK_DBL_SAME_RELAXED_NAN(remainder,( 2.4, +INFINITY)); CHECK_DBL_SAME_RELAXED_NAN(remainder,( +INFINITY, 2.4)); CHECK_DBL_SAME_RELAXED_NAN(remainder,(2.34960584706e100, 7.6050698459e+13)); CHECK_DBL_SAME_RELAXED_NAN(remainder,(2.34960584706e300, -7.6050698459e-13)); CHECK_DBL_SAME_RELAXED_NAN(remainder,(2.34960584706e300, RTStrNanDouble(NULL, true))); CHECK_DBL_SAME_RELAXED_NAN(remainder,(RTStrNanDouble(NULL, true), 2.0)); CHECK_DBL_SAME_RELAXED_NAN(remainder,(RTStrNanDouble(NULL, true), RTStrNanDouble("s", false))); CHECK_FLT( RT_NOCRT(remainderf)( 1.0f, 1.0f), +0.0f); CHECK_FLT( RT_NOCRT(remainderf)( 1.5f, 1.0f), -0.5f); CHECK_FLT_SAME_RELAXED_NAN(remainderf,( 1.0f, 1.0f)); CHECK_FLT_SAME_RELAXED_NAN(remainderf,( 1.5f, 1.0f)); CHECK_FLT_SAME_RELAXED_NAN(remainderf,( +0.0f, +0.0f)); CHECK_FLT_SAME_RELAXED_NAN(remainderf,( +0.0f, -0.0f)); CHECK_FLT_SAME_RELAXED_NAN(remainderf,( -0.0f, -0.0f)); CHECK_FLT_SAME_RELAXED_NAN(remainderf,( -0.0f, +0.0f)); CHECK_FLT_SAME_RELAXED_NAN(remainderf,( 999999.0f, 33334.0f)); CHECK_FLT_SAME_RELAXED_NAN(remainderf,( -999999.0f, 33334.0f)); CHECK_FLT_SAME_RELAXED_NAN(remainderf,( -999999.0f, -33334.0f)); CHECK_FLT_SAME_RELAXED_NAN(remainderf,( 999999.0f, -33334.0f)); CHECK_FLT_SAME_RELAXED_NAN(remainderf,( 39560.32334f, 9605.5546f)); CHECK_FLT_SAME_RELAXED_NAN(remainderf,( 39560.32334f, -59079.345069f)); CHECK_FLT_SAME_RELAXED_NAN(remainderf,( +INFINITY, +INFINITY)); CHECK_FLT_SAME_RELAXED_NAN(remainderf,( 2.4f, +INFINITY)); CHECK_FLT_SAME_RELAXED_NAN(remainderf,( +INFINITY, 2.4f)); CHECK_FLT_SAME_RELAXED_NAN(remainderf,(-2.34960584706e+35f, 7.6050698459e-23f)); CHECK_FLT_SAME_RELAXED_NAN(remainderf,(2.34960584706e+35f, 7.6050698459e-13f)); CHECK_FLT_SAME_RELAXED_NAN(remainderf,(2.34960584706e+30f, RTStrNanFloat(NULL, true))); CHECK_FLT_SAME_RELAXED_NAN(remainderf,(RTStrNanFloat(NULL, true), 2.0f)); CHECK_FLT_SAME_RELAXED_NAN(remainderf,(RTStrNanFloat(NULL, true), RTStrNanFloat("s", false))); } void testLog() { RTTestSub(g_hTest, "log[f]"); CHECK_DBL(RT_NOCRT(log)( 1.0), +0.0); CHECK_DBL(RT_NOCRT(log)(2.7182818284590452354), +1.0); CHECK_DBL(RT_NOCRT(log)(2.0), 0.69314718055994530942); CHECK_DBL_SAME(log,( 1.0)); CHECK_DBL_SAME(log,( 1.5)); CHECK_DBL_SAME(log,( +0.0)); CHECK_DBL_SAME(log,( +0.0)); CHECK_DBL_SAME(log,( -0.0)); CHECK_DBL_SAME(log,( -0.0)); CHECK_DBL_SAME(log,( 999999.0)); CHECK_DBL_SAME(log,( -999999.0)); CHECK_DBL_SAME(log,( -999999.0)); CHECK_DBL_SAME(log,( 999999.0)); CHECK_DBL_SAME(log,( 39560.32334)); CHECK_DBL_SAME(log,( 39560.32334)); CHECK_DBL_SAME(log,( +INFINITY)); CHECK_DBL_SAME(log,( -INFINITY)); CHECK_DBL_SAME(log,( +DBL_MAX)); CHECK_DBL_SAME(log,( -DBL_MAX)); CHECK_DBL_SAME(log,(2.34960584706e100)); CHECK_DBL_SAME(log,(2.34960584706e300)); CHECK_DBL_SAME(log,(2.34960584706e300)); CHECK_DBL_SAME(log,(RTStrNanDouble(NULL, true))); CHECK_DBL_SAME(log,(RTStrNanDouble("s", true))); CHECK_DBL_SAME(log,(RTStrNanDouble("s", false))); CHECK_FLT(RT_NOCRT(logf)( 1.0f), +0.0f); CHECK_FLT(RT_NOCRT(logf)((float)2.7182818284590452354), +0.99999995f); /* floating point is fun */ CHECK_FLT(RT_NOCRT(logf)(2.0f), (float)0.69314718055994530942); CHECK_FLT_SAME(logf,((float)2.7182818284590452354)); CHECK_FLT_SAME(logf,( 1.0f)); CHECK_FLT_SAME(logf,( 1.5f)); CHECK_FLT_SAME(logf,( +0.0f)); CHECK_FLT_SAME(logf,( +0.0f)); CHECK_FLT_SAME(logf,( -0.0f)); CHECK_FLT_SAME(logf,( -0.0f)); CHECK_FLT_SAME(logf,( 999999.0f)); CHECK_FLT_SAME(logf,( -999999.0f)); CHECK_FLT_SAME(logf,( -999999.0f)); CHECK_FLT_SAME(logf,( 999999.0f)); CHECK_FLT_SAME(logf,( 39560.32334f)); CHECK_FLT_SAME(logf,( 39560.32334f)); CHECK_FLT_SAME(logf,( +INFINITY)); CHECK_FLT_SAME(logf,( -INFINITY)); CHECK_FLT_SAME(logf,( +FLT_MAX)); CHECK_FLT_SAME(logf,( -FLT_MAX)); CHECK_FLT_SAME(logf,(2.34960584706e+10f)); CHECK_FLT_SAME(logf,(2.34960584706e+30f)); CHECK_FLT_SAME(logf,(2.34960584706e+30f)); CHECK_FLT_SAME(logf,(RTStrNanFloat(NULL, true))); CHECK_FLT_SAME(logf,(RTStrNanFloat("s", true))); CHECK_FLT_SAME(logf,(RTStrNanFloat("s", false))); } void testLog2() { RTTestSub(g_hTest, "log2[f]"); CHECK_DBL( RT_NOCRT(log2)(RTStrNanDouble(NULL, true)), RTStrNanDouble(NULL, true)); CHECK_DBL( RT_NOCRT(log2)(RTStrNanDouble("234", false)), RTStrNanDouble("234", false)); CHECK_DBL( RT_NOCRT(log2)(RTStrNanDouble("999s", false)), RTStrNanDouble("999s", false)); CHECK_DBL( RT_NOCRT(log2)(RTStrNanDouble("fffs", true)), RTStrNanDouble("fffs", true)); CHECK_XCPT(CHECK_DBL(RT_NOCRT(log2)( +0.0), -INFINITY), RT_NOCRT_FE_DIVBYZERO, RT_NOCRT_FE_DIVBYZERO); CHECK_XCPT(CHECK_DBL(RT_NOCRT(log2)( -0.0), -INFINITY), RT_NOCRT_FE_DIVBYZERO, RT_NOCRT_FE_DIVBYZERO); CHECK_XCPT(CHECK_DBL(RT_NOCRT(log2)(-123.0), RTStrNanDouble(NULL, false)), RT_NOCRT_FE_INVALID, RT_NOCRT_FE_INVALID); CHECK_DBL( RT_NOCRT(log2)( 1.0), +0.0); CHECK_DBL( RT_NOCRT(log2)( 2.0), +1.0); CHECK_DBL( RT_NOCRT(log2)( 1024.0), +10.0); CHECK_DBL( RT_NOCRT(log2)( 1099511627776.0), +40.0); /* _1T */ CHECK_DBL_SAME( log2,( 1.0)); CHECK_DBL_SAME( log2,( 2.0)); CHECK_DBL_SAME( log2,( 1024.0)); CHECK_DBL_SAME( log2,( 1099511627776.0)); /* _1T */ CHECK_DBL_SAME( log2,( 1.5)); CHECK_DBL_SAME( log2,( 1.234485e-5)); CHECK_DBL_SAME( log2,( 1.234485e+9)); CHECK_DBL_SAME( log2,( 1.234485e+253)); CHECK_DBL_SAME( log2,( +INFINITY)); CHECK_DBL_SAME( log2,( -INFINITY)); CHECK_DBL_SAME( log2,( +DBL_MAX)); CHECK_DBL_SAME( log2,( -DBL_MAX)); CHECK_DBL_SAME( log2,(RTStrNanDouble(NULL, true))); CHECK_DBL_SAME( log2,(RTStrNanDouble(NULL, false))); #if 0 /* UCRT doesn't preserve signalling NaN */ CHECK_DBL_SAME( log2,(RTStrNanDouble("s", true))); CHECK_DBL_SAME( log2,(RTStrNanDouble("s", false))); #endif CHECK_FLT( RT_NOCRT(log2f)(RTStrNanFloat(NULL, true)), RTStrNanFloat(NULL, true)); CHECK_FLT( RT_NOCRT(log2f)(RTStrNanFloat("234", false)), RTStrNanFloat("234", false)); CHECK_FLT( RT_NOCRT(log2f)(RTStrNanFloat("999s", false)), RTStrNanFloat("999s", false)); CHECK_FLT( RT_NOCRT(log2f)(RTStrNanFloat("fffs", true)), RTStrNanFloat("fffs", true)); CHECK_XCPT(CHECK_FLT(RT_NOCRT(log2f)( +0.0f), -(float)INFINITY), RT_NOCRT_FE_DIVBYZERO, RT_NOCRT_FE_DIVBYZERO); CHECK_XCPT(CHECK_FLT(RT_NOCRT(log2f)( -0.0f), -(float)INFINITY), RT_NOCRT_FE_DIVBYZERO, RT_NOCRT_FE_DIVBYZERO); CHECK_XCPT(CHECK_FLT(RT_NOCRT(log2f)(-123.0f), RTStrNanFloat(NULL, false)), RT_NOCRT_FE_INVALID, RT_NOCRT_FE_INVALID); CHECK_FLT( RT_NOCRT(log2f)( 1.0f), +0.0f); CHECK_FLT( RT_NOCRT(log2f)( 2.0f), +1.0f); CHECK_FLT( RT_NOCRT(log2f)( 1024.0f), +10.0f); CHECK_FLT( RT_NOCRT(log2f)( 1099511627776.0f), +40.0f); /* _1T */ CHECK_FLT_SAME( log2f,( 1.0f)); CHECK_FLT_SAME( log2f,( 2.0f)); CHECK_FLT_SAME( log2f,( 1024.0f)); CHECK_FLT_SAME( log2f,( 1099511627776.0f)); /* _1T */ CHECK_FLT_SAME( log2f,( 1.5f)); CHECK_FLT_SAME( log2f,( 1.234485e-5f)); CHECK_FLT_SAME( log2f,( 1.234485e+9f)); CHECK_FLT_SAME( log2f,( 1.234485e+35f)); CHECK_FLT_SAME_RELAXED_NAN( log2f,( +(float)INFINITY)); /* UCRT returns +QNaN here, but log2 reutrn -QNaN. */ CHECK_FLT_SAME_RELAXED_NAN( log2f,( -(float)INFINITY)); /* ditto */ CHECK_FLT_SAME( log2f,( +FLT_MAX)); CHECK_FLT_SAME_RELAXED_NAN( log2f,( -FLT_MAX)); /* UCRT returns +QNaN here, but log2 reutrn -QNaN. */ CHECK_FLT_SAME( log2f,(RTStrNanFloat(NULL, true))); CHECK_FLT_SAME( log2f,(RTStrNanFloat(NULL, false))); #if 0 /* UCRT doesn't preserve signalling NaN */ CHECK_FLT_SAME( log2f,(RTStrNanDouble("s", true))); CHECK_FLT_SAME( log2f,(RTStrNanDouble("s", false))); #endif } void testSqRt() { RTTestSub(g_hTest, "sqrt[f]"); CHECK_DBL(RT_NOCRT(sqrt)( 1.0), +1.0); CHECK_DBL(RT_NOCRT(sqrt)( 4.0), +2.0); CHECK_DBL(RT_NOCRT(sqrt)( 144.0), +12.0); CHECK_DBL(RT_NOCRT(sqrt)( -1.0), RTStrNanDouble(NULL, false)); CHECK_DBL(RT_NOCRT(sqrt)( -995.4547), RTStrNanDouble(NULL, false)); CHECK_DBL_SAME( sqrt,( 1.0)); CHECK_DBL_SAME( sqrt,( 1.5)); CHECK_DBL_SAME( sqrt,( +0.0)); CHECK_DBL_SAME( sqrt,( +0.0)); CHECK_DBL_SAME( sqrt,( -0.0)); CHECK_DBL_SAME( sqrt,( -0.0)); CHECK_DBL_SAME( sqrt,( 999999.0)); CHECK_DBL_SAME( sqrt,( -999999.0)); CHECK_DBL_SAME( sqrt,( -999999.0)); CHECK_DBL_SAME( sqrt,( 999999.0)); CHECK_DBL_SAME( sqrt,( 39560.32334)); CHECK_DBL_SAME( sqrt,( 39560.32334)); CHECK_DBL_SAME( sqrt,( +INFINITY)); CHECK_DBL_SAME( sqrt,( -INFINITY)); CHECK_DBL_SAME( sqrt,( +DBL_MAX)); CHECK_DBL_SAME( sqrt,( -DBL_MAX)); CHECK_DBL_SAME( sqrt,(2.34960584706e100)); CHECK_DBL_SAME( sqrt,(2.34960584706e300)); CHECK_DBL_SAME( sqrt,(2.34960584706e300)); CHECK_DBL_SAME( sqrt,(RTStrNanDouble(NULL, true))); CHECK_DBL_SAME( sqrt,(RTStrNanDouble("s", true))); CHECK_DBL_SAME( sqrt,(RTStrNanDouble("s", false))); CHECK_FLT(RT_NOCRT(sqrtf)( 1.0f), +1.0f); CHECK_FLT(RT_NOCRT(sqrtf)( 4.0f), +2.0f); CHECK_FLT(RT_NOCRT(sqrtf)( 144.0f), +12.0f); CHECK_FLT(RT_NOCRT(sqrtf)( -1.0f), RTStrNanDouble(NULL, false)); CHECK_FLT(RT_NOCRT(sqrtf)( -995.4547f), RTStrNanDouble(NULL, false)); CHECK_FLT_SAME( sqrtf,( 1.0f)); CHECK_FLT_SAME( sqrtf,( 1.5f)); CHECK_FLT_SAME( sqrtf,( +0.0f)); CHECK_FLT_SAME( sqrtf,( +0.0f)); CHECK_FLT_SAME( sqrtf,( -0.0f)); CHECK_FLT_SAME( sqrtf,( -0.0f)); CHECK_FLT_SAME( sqrtf,( 999999.0f)); CHECK_FLT_SAME( sqrtf,( -999999.0f)); CHECK_FLT_SAME( sqrtf,( -999999.0f)); CHECK_FLT_SAME( sqrtf,( 999999.0f)); CHECK_FLT_SAME( sqrtf,( 39560.32334f)); CHECK_FLT_SAME( sqrtf,( 39560.32334f)); CHECK_FLT_SAME( sqrtf,( +INFINITY)); CHECK_FLT_SAME( sqrtf,( -INFINITY)); CHECK_FLT_SAME( sqrtf,( +FLT_MAX)); CHECK_FLT_SAME( sqrtf,( -FLT_MAX)); CHECK_FLT_SAME( sqrtf,(2.34960584706e+10f)); CHECK_FLT_SAME( sqrtf,(2.34960584706e+30f)); CHECK_FLT_SAME( sqrtf,(2.34960584706e+30f)); CHECK_FLT_SAME( sqrtf,(RTStrNanDouble(NULL, true))); CHECK_FLT_SAME( sqrtf,(RTStrNanDouble("s", true))); CHECK_FLT_SAME( sqrtf,(RTStrNanDouble("s", false))); } void testATan() { RTTestSub(g_hTest, "atan[f]"); CHECK_DBL(RT_NOCRT(atan)( +1.0), +M_PI_4); CHECK_DBL(RT_NOCRT(atan)( -1.0), -M_PI_4); CHECK_DBL(RT_NOCRT(atan)( +INFINITY), +M_PI_2); CHECK_DBL(RT_NOCRT(atan)( -INFINITY), -M_PI_2); CHECK_DBL_SAME( atan,( 1.0)); CHECK_DBL_SAME( atan,( 1.5)); CHECK_DBL_SAME( atan,( +0.0)); CHECK_DBL_SAME( atan,( +0.0)); CHECK_DBL_SAME( atan,( -0.0)); CHECK_DBL_SAME( atan,( -0.0)); CHECK_DBL_SAME( atan,( 238.6634566)); CHECK_DBL_SAME( atan,( -49.4578999)); CHECK_DBL_SAME( atan,( 999999.0)); CHECK_DBL_SAME( atan,( -999999.0)); CHECK_DBL_SAME( atan,( -999999.0)); CHECK_DBL_SAME( atan,( 999999.0)); CHECK_DBL_SAME( atan,( 39560.32334)); CHECK_DBL_SAME( atan,( 39560.32334)); CHECK_DBL_SAME( atan,( +INFINITY)); CHECK_DBL_SAME( atan,( -INFINITY)); CHECK_DBL_SAME( atan,( +DBL_MAX)); CHECK_DBL_SAME( atan,( -DBL_MAX)); CHECK_DBL_SAME( atan,(2.34960584706e100)); CHECK_DBL_SAME( atan,(2.34960584706e300)); CHECK_DBL_SAME( atan,(2.34960584706e300)); CHECK_DBL_SAME( atan,(RTStrNanDouble(NULL, true))); CHECK_DBL_SAME( atan,(RTStrNanDouble("s", true))); CHECK_DBL_SAME( atan,(RTStrNanDouble("s", false))); CHECK_DBL(RT_NOCRT(atanf)( +1.0f), (float)+M_PI_4); CHECK_DBL(RT_NOCRT(atanf)( -1.0f), (float)-M_PI_4); CHECK_DBL(RT_NOCRT(atanf)( +INFINITY), (float)+M_PI_2); CHECK_DBL(RT_NOCRT(atanf)( -INFINITY), (float)-M_PI_2); CHECK_DBL_SAME( atanf,( 1.0f)); CHECK_DBL_SAME( atanf,( 1.5f)); CHECK_DBL_SAME( atanf,( +0.0f)); CHECK_DBL_SAME( atanf,( +0.0f)); CHECK_DBL_SAME( atanf,( -0.0f)); CHECK_DBL_SAME( atanf,( -0.0f)); CHECK_DBL_SAME( atanf,( 238.6634566f)); CHECK_DBL_SAME( atanf,( -49.4578999f)); CHECK_DBL_SAME( atanf,( 999999.0f)); CHECK_DBL_SAME( atanf,( -999999.0f)); CHECK_DBL_SAME( atanf,( -999999.0f)); CHECK_DBL_SAME( atanf,( 999999.0f)); CHECK_DBL_SAME( atanf,( 39560.32334f)); CHECK_DBL_SAME( atanf,( 39560.32334f)); CHECK_DBL_SAME( atanf,( +INFINITY)); CHECK_DBL_SAME( atanf,( -INFINITY)); CHECK_DBL_SAME( atanf,( +FLT_MAX)); CHECK_DBL_SAME( atanf,( -FLT_MAX)); CHECK_DBL_SAME( atanf,(2.34960584706e+10f)); CHECK_DBL_SAME( atanf,(2.34960584706e+30f)); CHECK_DBL_SAME( atanf,(2.34960584706e+30f)); CHECK_DBL_SAME( atanf,(RTStrNanFloat(NULL, true))); CHECK_DBL_SAME( atanf,(RTStrNanFloat("s", true))); CHECK_DBL_SAME( atanf,(RTStrNanFloat("s", false))); } void testATan2() { RTTestSub(g_hTest, "atan2[f]"); CHECK_DBL(RT_NOCRT(atan2)( +1.0, 0.0), +M_PI_2); CHECK_DBL(RT_NOCRT(atan2)( -1.0, 0.0), -M_PI_2); CHECK_DBL(RT_NOCRT(atan2)( +1.0, +1.0), +M_PI_4); CHECK_DBL(RT_NOCRT(atan2)( -1.0, -1.0), -M_PI_2 - M_PI_4); CHECK_DBL_SAME( atan2,( +1.0, 0.0)); CHECK_DBL_SAME( atan2,( +1.0, -0.0)); CHECK_DBL_SAME( atan2,( -1.0, 0.0)); CHECK_DBL_SAME( atan2,( -1.0, -0.0)); CHECK_DBL_SAME( atan2,( +1.0, +1.0)); CHECK_DBL_SAME( atan2,( -1.0, +1.0)); CHECK_DBL_SAME( atan2,( +1.0, -1.0)); CHECK_DBL_SAME( atan2,( -1.0, -1.0)); CHECK_DBL_SAME( atan2,( 238.6634566, -999999.0)); CHECK_DBL_SAME( atan2,( -905698045.1, 490876.0)); CHECK_DBL_SAME( atan2,( 1.333334e-10, -1.9993e+200)); CHECK_DBL_SAME( atan2,( 1.333334e+168, -1.9993e+299)); CHECK_DBL_SAME( atan2,( +DBL_MAX, +DBL_MAX)); CHECK_DBL_SAME( atan2,( -DBL_MAX, +DBL_MAX)); CHECK_DBL_SAME( atan2,( +INFINITY, +INFINITY)); CHECK_DBL_SAME( atan2,( -INFINITY, +INFINITY)); CHECK_DBL_SAME( atan2,( -INFINITY, 42.242424)); CHECK_DBL_SAME( atan2,(RTStrNanDouble(NULL, true), RTStrNanDouble(NULL, true))); CHECK_DBL_SAME( atan2,(RTStrNanDouble(NULL, false), RTStrNanDouble(NULL, false))); CHECK_DBL_SAME( atan2,(RTStrNanDouble(NULL, false), RTStrNanDouble(NULL, true))); //CHECK_DBL_SAME( atan2,(RTStrNanDouble(NULL, true), RTStrNanDouble(NULL, false))); - UCRT returns -QNaN, we +QNaN CHECK_DBL_SAME( atan2,(RTStrNanDouble(NULL, true), RTStrNanDouble("s", false))); CHECK_FLT(RT_NOCRT(atan2f)( +1.0f, 0.0f), (float)+M_PI_2); CHECK_FLT(RT_NOCRT(atan2f)( -1.0f, 0.0f), (float)-M_PI_2); CHECK_FLT(RT_NOCRT(atan2f)( +1.0f, +1.0f), (float)+M_PI_4); CHECK_FLT(RT_NOCRT(atan2f)( -1.0f, -1.0f), (float)(-M_PI_2 - M_PI_4)); CHECK_FLT_SAME( atan2f,( +1.0f, 0.0f)); CHECK_FLT_SAME( atan2f,( +1.0f, -0.0f)); CHECK_FLT_SAME( atan2f,( -1.0f, 0.0f)); CHECK_FLT_SAME( atan2f,( -1.0f, -0.0f)); CHECK_FLT_SAME( atan2f,( +1.0f, +1.0f)); CHECK_FLT_SAME( atan2f,( -1.0f, +1.0f)); CHECK_FLT_SAME( atan2f,( +1.0f, -1.0f)); CHECK_FLT_SAME( atan2f,( -1.0f, -1.0f)); CHECK_FLT_SAME( atan2f,( 238.6634566f, -999999.0f)); CHECK_FLT_SAME( atan2f,( -905698045.1f, 490876.0f)); CHECK_FLT_SAME( atan2f,( 1.333334e-10f, -1.9993e+20f)); CHECK_FLT_SAME( atan2f,( 1.333334e+35f, -1.9993e+29f)); CHECK_FLT_SAME( atan2f,( +FLT_MAX, +FLT_MAX)); CHECK_FLT_SAME( atan2f,( -FLT_MAX, +FLT_MAX)); CHECK_FLT_SAME( atan2f,( +INFINITY, +INFINITY)); CHECK_FLT_SAME( atan2f,( -INFINITY, +INFINITY)); CHECK_FLT_SAME( atan2f,( -INFINITY, 42.242424f)); CHECK_FLT_SAME( atan2f,(RTStrNanFloat(NULL, true), RTStrNanFloat(NULL, true))); CHECK_FLT_SAME( atan2f,(RTStrNanFloat(NULL, false), RTStrNanFloat(NULL, false))); CHECK_FLT_SAME( atan2f,(RTStrNanFloat(NULL, false), RTStrNanFloat(NULL, true))); //CHECK_FLT_SAME( atan2f,(RTStrNanFloat(NULL, true), RTStrNanFloat(NULL, false))); - UCRT returns -QNaN, we +QNaN CHECK_FLT_SAME( atan2f,(RTStrNanFloat(NULL, true), RTStrNanFloat("s", false))); } void testSin() { RTTestSub(g_hTest, "sin[f]"); /* * Note! sin, cos and friends are complicated the results may differ between * implementations. The numbers below was computed using amd64 glibc * (2.27-3ubuntu1.4) sinl() and a %.33Lf printf. * * Our code is based on the x87 CPU and does not have the best * reduction code is inaccurate, so accuracy drops. Also, with the * input accuracy difference we must expect differences too. */ CHECK_DBL( RT_NOCRT(sin)( +0.0), +0.0); CHECK_DBL( RT_NOCRT(sin)( -0.0), -0.0); CHECK_DBL( RT_NOCRT(sin)( +M_PI), +0.0); CHECK_DBL( RT_NOCRT(sin)( -M_PI), +0.0); CHECK_DBL( RT_NOCRT(sin)( +M_PI_2), +1.0); CHECK_DBL( RT_NOCRT(sin)( -M_PI_2), -1.0); CHECK_DBL( RT_NOCRT(sin)( +M_PI_2 + M_PI*4), +1.0); CHECK_DBL( RT_NOCRT(sin)( -M_PI_2 - M_PI*4), -1.0); CHECK_DBL( RT_NOCRT(sin)( +M_PI_2 + M_PI*2), +1.0); CHECK_DBL( RT_NOCRT(sin)( -M_PI_2 - M_PI*2), -1.0); CHECK_DBL( RT_NOCRT(sin)( +1.0), +0.84147098480789650488); CHECK_DBL( RT_NOCRT(sin)( +2.0), +0.90929742682568170942); CHECK_DBL( RT_NOCRT(sin)( +3.0), +0.14112000805986721352); CHECK_DBL( RT_NOCRT(sin)( +4.0), -0.75680249530792820245); CHECK_DBL( RT_NOCRT(sin)( +5.0), -0.95892427466313845397); CHECK_DBL( RT_NOCRT(sin)( +6.0), -0.27941549819892586015); CHECK_DBL( RT_NOCRT(sin)( +7.0), +0.65698659871878906102); CHECK_DBL( RT_NOCRT(sin)( +8.0), +0.98935824662338178737); CHECK_DBL( RT_NOCRT(sin)( +9.0), +0.41211848524175659358); CHECK_DBL( RT_NOCRT(sin)( +10.0), -0.54402111088936977445); CHECK_DBL( RT_NOCRT(sin)( +100.0), -0.50636564110975879061); CHECK_DBL( RT_NOCRT(sin)( +654.216812456), +0.69292681127157818022); CHECK_DBL( RT_NOCRT(sin)( 10.1010101010101010101010), -0.62585878258501614901); CHECK_DBL( RT_NOCRT(sin)( +25.2525252525252525252525), +0.11949778146891366915); CHECK_DBL( RT_NOCRT(sin)( +252.2525252525252525252525), +0.79868874455343841223); CHECK_DBL( RT_NOCRT(sin)( +2525.2525252525252525252525), -0.55467159842968405403); CHECK_DBL_RANGE(RT_NOCRT(sin)( +25252.2525252525252525252525), +0.13040325588994761130, 0.0000000000000010000); CHECK_DBL_RANGE(RT_NOCRT(sin)(+252525.2525252525252525252525), -0.77923047482990159818, 0.0000000000000100000); CHECK_DBL( RT_NOCRT(sin)( -1.0), -0.84147098480789650488); CHECK_DBL( RT_NOCRT(sin)( -2.0), -0.90929742682568170942); CHECK_DBL( RT_NOCRT(sin)( -3.0), -0.14112000805986721352); CHECK_DBL( RT_NOCRT(sin)( -4.0), +0.75680249530792820245); CHECK_DBL( RT_NOCRT(sin)( -5.0), +0.95892427466313845397); CHECK_DBL( RT_NOCRT(sin)( -6.0), +0.27941549819892586015); CHECK_DBL( RT_NOCRT(sin)( -7.0), -0.65698659871878906102); CHECK_DBL( RT_NOCRT(sin)( -8.0), -0.98935824662338178737); CHECK_DBL( RT_NOCRT(sin)( -9.0), -0.41211848524175659358); CHECK_DBL( RT_NOCRT(sin)( -10.0), +0.54402111088936977445); CHECK_DBL( RT_NOCRT(sin)( -100.0), +0.50636564110975879061); CHECK_DBL( RT_NOCRT(sin)( -654.216812456), -0.69292681127157818022); CHECK_DBL( RT_NOCRT(sin)( -10.1010101010101010101010), +0.62585878258501614901); CHECK_DBL( RT_NOCRT(sin)( -25.2525252525252525252525), -0.11949778146891366915); CHECK_DBL( RT_NOCRT(sin)( -252.2525252525252525252525), -0.79868874455343841223); CHECK_DBL( RT_NOCRT(sin)( -2525.2525252525252525252525), +0.55467159842968405403); CHECK_DBL_RANGE(RT_NOCRT(sin)( -25252.2525252525252525252525), -0.13040325588994761130, 0.0000000000000010000); CHECK_DBL_RANGE(RT_NOCRT(sin)(-252525.2525252525252525252525), +0.77923047482990159818, 0.0000000000000100000); CHECK_DBL( RT_NOCRT(sin)( RTStrNanDouble("s", true)), RTStrNanDouble("s", true)); CHECK_DBL( RT_NOCRT(sin)(RTStrNanDouble("9999s", false)), RTStrNanDouble("9999s", false)); CHECK_DBL_SAME( sin,( 1.0)); CHECK_DBL_SAME( sin,( 1.5)); CHECK_DBL_SAME( sin,( +0.0)); CHECK_DBL_SAME( sin,( +0.0)); CHECK_DBL_SAME( sin,( -0.0)); CHECK_DBL_SAME( sin,( -0.0)); CHECK_DBL_SAME( sin,( -10.0)); #if 0 /* UCRT returns tiny fractions for these in the 2**-53 range, we return 0.0 */ CHECK_DBL_SAME( sin,( +M_PI)); CHECK_DBL_SAME( sin,( -M_PI)); #endif CHECK_DBL_SAME( sin,( +M_PI_2)); CHECK_DBL_SAME( sin,( -M_PI_2)); CHECK_DBL_SAME( sin,( +INFINITY)); CHECK_DBL_SAME( sin,( -INFINITY)); CHECK_DBL_SAME( sin,(RTStrNanDouble(NULL, true))); #if 0 /*UCRT converts these to quiet ones, we check above */ //CHECK_DBL_SAME( sin,(RTStrNanDouble("s", true))); //CHECK_DBL_SAME( sin,(RTStrNanDouble("s", false))); #endif CHECK_FLT( RT_NOCRT(sinf)( +0.0f), +0.0f); CHECK_FLT( RT_NOCRT(sinf)( -0.0f), -0.0f); CHECK_FLT( RT_NOCRT(sinf)( (float)+M_PI), +0.0f); CHECK_FLT( RT_NOCRT(sinf)( (float)-M_PI), +0.0f); CHECK_FLT( RT_NOCRT(sinf)( (float)+M_PI_2), +1.0f); CHECK_FLT( RT_NOCRT(sinf)( (float)-M_PI_2), -1.0f); CHECK_FLT( RT_NOCRT(sinf)( (float)(+M_PI_2 + M_PI*4)), +1.0f); CHECK_FLT( RT_NOCRT(sinf)( (float)(-M_PI_2 - M_PI*4)), -1.0f); CHECK_FLT( RT_NOCRT(sinf)( (float)(+M_PI_2 + M_PI*2)), +1.0f); CHECK_FLT( RT_NOCRT(sinf)( (float)(-M_PI_2 - M_PI*2)), -1.0f); CHECK_FLT( RT_NOCRT(sinf)( +1.0f), +0.841470956802368f); CHECK_FLT( RT_NOCRT(sinf)( +2.0f), +0.909297406673431f); CHECK_FLT( RT_NOCRT(sinf)( +3.0f), +0.141120001673698f); CHECK_FLT( RT_NOCRT(sinf)( +4.0f), -0.756802499294281f); CHECK_FLT( RT_NOCRT(sinf)( +5.0f), -0.958924293518066f); CHECK_FLT( RT_NOCRT(sinf)( +6.0f), -0.279415488243103f); CHECK_FLT( RT_NOCRT(sinf)( +7.0f), +0.656986594200134f); CHECK_FLT( RT_NOCRT(sinf)( +8.0f), +0.989358246326447f); CHECK_FLT( RT_NOCRT(sinf)( +9.0f), +0.412118494510651f); CHECK_FLT( RT_NOCRT(sinf)( +10.0f), -0.544021129608154f); CHECK_FLT( RT_NOCRT(sinf)( +100.0f), -0.506365656852722f); CHECK_FLT( RT_NOCRT(sinf)( +654.216812456f), +0.692915558815002f); CHECK_FLT( RT_NOCRT(sinf)( 10.10101010101010f), -0.625858962535858f); CHECK_FLT( RT_NOCRT(sinf)( +25.25252525252525f), +0.119497857987881f); CHECK_FLT( RT_NOCRT(sinf)( +252.25252525252525f), +0.798684179782867f); CHECK_FLT( RT_NOCRT(sinf)( +2525.25252525252525f), -0.554741382598877f); CHECK_FLT( RT_NOCRT(sinf)( +25252.25252525252525f), +0.129835993051529f); CHECK_FLT( RT_NOCRT(sinf)( +252525.25252525252525f), -0.777645349502563f); CHECK_FLT( RT_NOCRT(sinf)( -1.0f), -0.841470956802368f); CHECK_FLT( RT_NOCRT(sinf)( -2.0f), -0.909297406673431f); CHECK_FLT( RT_NOCRT(sinf)( -3.0f), -0.141120001673698f); CHECK_FLT( RT_NOCRT(sinf)( -4.0f), +0.756802499294281f); CHECK_FLT( RT_NOCRT(sinf)( -5.0f), +0.958924293518066f); CHECK_FLT( RT_NOCRT(sinf)( -6.0f), +0.279415488243103f); CHECK_FLT( RT_NOCRT(sinf)( -7.0f), -0.656986594200134f); CHECK_FLT( RT_NOCRT(sinf)( -8.0f), -0.989358246326447f); CHECK_FLT( RT_NOCRT(sinf)( -9.0f), -0.412118494510651f); CHECK_FLT( RT_NOCRT(sinf)( -10.0f), +0.544021129608154f); CHECK_FLT( RT_NOCRT(sinf)( -100.0f), +0.506365656852722f); CHECK_FLT( RT_NOCRT(sinf)( -654.216812456f), -0.692915558815002f); CHECK_FLT( RT_NOCRT(sinf)( -10.10101010101010f), +0.625858962535858f); CHECK_FLT( RT_NOCRT(sinf)( -25.25252525252525f), -0.119497857987881f); CHECK_FLT( RT_NOCRT(sinf)( -252.25252525252525f), -0.798684179782867f); CHECK_FLT( RT_NOCRT(sinf)( -2525.25252525252525f), +0.554741382598877f); CHECK_FLT( RT_NOCRT(sinf)( -25252.25252525252525f), -0.129835993051529f); CHECK_FLT( RT_NOCRT(sinf)( -252525.25252525252525f), +0.777645349502563f); CHECK_FLT( RT_NOCRT(sinf)( RTStrNanDouble("s", true)), RTStrNanDouble("s", true)); CHECK_FLT( RT_NOCRT(sinf)( RTStrNanDouble("9999s", false)), RTStrNanDouble("9999s", false)); CHECK_FLT_SAME( sinf,( 1.0f)); CHECK_FLT_SAME( sinf,( 1.5f)); CHECK_FLT_SAME( sinf,( +0.0f)); CHECK_FLT_SAME( sinf,( +0.0f)); CHECK_FLT_SAME( sinf,( -0.0f)); CHECK_FLT_SAME( sinf,( -0.0f)); CHECK_FLT_SAME( sinf,( -10.0f)); #if 0 /* UCRT returns tiny fractions for these in the 2**-53 range, we return 0.0 */ CHECK_FLT_SAME( sinf,( (float)+M_PI)); CHECK_FLT_SAME( sinf,( (float)-M_PI)); #endif CHECK_FLT_SAME( sinf,( (float)+M_PI_2)); CHECK_FLT_SAME( sinf,( (float)-M_PI_2)); CHECK_FLT_SAME( sinf,( (float)+INFINITY)); CHECK_FLT_SAME( sinf,( (float)-INFINITY)); CHECK_FLT_SAME( sinf,(RTStrNanDouble(NULL, true))); #if 0 /*UCRT converts these to quiet ones, we check above */ //CHECK_FLT_SAME( sin,(RTStrNanDouble("s", true))); //CHECK_FLT_SAME( sin,(RTStrNanDouble("s", false))); #endif } void testCos() { RTTestSub(g_hTest, "cos[f]"); /* See comment in testSin regarding testing and accuracy. */ CHECK_DBL( RT_NOCRT(cos)( +0.0), +1.0); CHECK_DBL( RT_NOCRT(cos)( -0.0), +1.0); CHECK_DBL( RT_NOCRT(cos)( +M_PI), -1.0); CHECK_DBL( RT_NOCRT(cos)( -M_PI), -1.0); CHECK_DBL( RT_NOCRT(cos)( +M_PI_2), 0.0); CHECK_DBL( RT_NOCRT(cos)( -M_PI_2), 0.0); CHECK_DBL( RT_NOCRT(cos)( +(M_PI_2 + M_PI*4)), 0.0); CHECK_DBL( RT_NOCRT(cos)( -(M_PI_2 + M_PI*4)), 0.0); CHECK_DBL( RT_NOCRT(cos)( +(M_PI_2 + M_PI*2)), 0.0); CHECK_DBL( RT_NOCRT(cos)( -(M_PI_2 + M_PI*2)), 0.0); CHECK_DBL( RT_NOCRT(cos)( +1.0), +0.54030230586813976501); CHECK_DBL( RT_NOCRT(cos)( +2.0), -0.41614683654714240690); CHECK_DBL( RT_NOCRT(cos)( +3.0), -0.98999249660044541521); CHECK_DBL( RT_NOCRT(cos)( +4.0), -0.65364362086361194049); CHECK_DBL( RT_NOCRT(cos)( +5.0), +0.28366218546322624627); CHECK_DBL( RT_NOCRT(cos)( +6.0), +0.96017028665036596724); CHECK_DBL( RT_NOCRT(cos)( +7.0), +0.75390225434330460086); CHECK_DBL( RT_NOCRT(cos)( +8.0), -0.14550003380861353808); CHECK_DBL( RT_NOCRT(cos)( +9.0), -0.91113026188467693967); CHECK_DBL( RT_NOCRT(cos)( +10.0), -0.83907152907645243811); CHECK_DBL( RT_NOCRT(cos)( +100.0), +0.86231887228768389075); CHECK_DBL( RT_NOCRT(cos)( +654.216812456), +0.72100792937456847920); CHECK_DBL( RT_NOCRT(cos)( 10.10101010101010), -0.77993639757431598714); CHECK_DBL( RT_NOCRT(cos)( +25.25252525252525), +0.99283446768532801485); CHECK_DBL( RT_NOCRT(cos)( +252.25252525252525), +0.60174437207476427769); CHECK_DBL( RT_NOCRT(cos)( +2525.25252525252525), +0.83206935882500765445); CHECK_DBL_RANGE(RT_NOCRT(cos)( +25252.25252525252525), +0.99146103849485722748, 0.0000000000000010000); CHECK_DBL_RANGE(RT_NOCRT(cos)( +252525.25252525252525), -0.62673747861155237882, 0.0000000000000100000); CHECK_DBL( RT_NOCRT(cos)( 3.14), -0.99999873172753950268); CHECK_DBL( RT_NOCRT(cos)( -1.0), +0.54030230586813976501); CHECK_DBL( RT_NOCRT(cos)( -2.0), -0.41614683654714240690); CHECK_DBL( RT_NOCRT(cos)( -3.0), -0.98999249660044541521); CHECK_DBL( RT_NOCRT(cos)( -4.0), -0.65364362086361194049); CHECK_DBL( RT_NOCRT(cos)( -5.0), +0.28366218546322624627); CHECK_DBL( RT_NOCRT(cos)( -6.0), +0.96017028665036596724); CHECK_DBL( RT_NOCRT(cos)( -7.0), +0.75390225434330460086); CHECK_DBL( RT_NOCRT(cos)( -8.0), -0.14550003380861353808); CHECK_DBL( RT_NOCRT(cos)( -9.0), -0.91113026188467693967); CHECK_DBL( RT_NOCRT(cos)( -10.0), -0.83907152907645243811); CHECK_DBL( RT_NOCRT(cos)( -100.0), +0.86231887228768389075); CHECK_DBL( RT_NOCRT(cos)( -654.216812456), +0.72100792937456847920); CHECK_DBL( RT_NOCRT(cos)( -10.10101010101010), -0.77993639757431598714); CHECK_DBL( RT_NOCRT(cos)( -25.25252525252525), +0.99283446768532801485); CHECK_DBL( RT_NOCRT(cos)( -252.25252525252525), +0.60174437207476427769); CHECK_DBL( RT_NOCRT(cos)( -2525.25252525252525), +0.83206935882500765445); CHECK_DBL_RANGE(RT_NOCRT(cos)( -25252.25252525252525), +0.99146103849485722748, 0.0000000000000010000); CHECK_DBL_RANGE(RT_NOCRT(cos)( -252525.25252525252525), -0.62673747861155237882, 0.0000000000000100000); CHECK_DBL( RT_NOCRT(cos)( -3.14), -0.99999873172753950268); CHECK_DBL( RT_NOCRT(cos)( RTStrNanDouble("123s", false)), RTStrNanDouble("123s", false)); CHECK_DBL( RT_NOCRT(cos)( RTStrNanDouble("9991s", true)), RTStrNanDouble("9991s", true)); CHECK_DBL_SAME( cos,( 1.0)); CHECK_DBL_SAME( cos,( 1.5)); CHECK_DBL_SAME( cos,( +0.0)); CHECK_DBL_SAME( cos,( +0.0)); CHECK_DBL_SAME( cos,( -0.0)); CHECK_DBL_SAME( cos,( -0.0)); CHECK_DBL_SAME( cos,( 238.6634566)); CHECK_DBL_SAME( cos,( -49.4578999)); CHECK_DBL_SAME( cos,( +M_PI)); CHECK_DBL_SAME( cos,( -M_PI)); #if 0 /* UCRT does not produce 0.0 here, but some 2**-54 value */ CHECK_DBL_SAME( cos,( +M_PI_2)); CHECK_DBL_SAME( cos,( -M_PI_2)); #endif CHECK_DBL_SAME( cos,( +INFINITY)); CHECK_DBL_SAME( cos,( -INFINITY)); CHECK_DBL_SAME( cos,(RTStrNanDouble(NULL, false))); CHECK_DBL_SAME( cos,(RTStrNanDouble(NULL, true))); CHECK_FLT( RT_NOCRT(cosf)( +0.0f), +1.0f); CHECK_FLT( RT_NOCRT(cosf)( -0.0f), +1.0f); CHECK_FLT( RT_NOCRT(cosf)( +(float)M_PI), -1.0f); CHECK_FLT( RT_NOCRT(cosf)( -(float)M_PI), -1.0f); CHECK_FLT( RT_NOCRT(cosf)( +(float)M_PI_2), 0.0f); CHECK_FLT( RT_NOCRT(cosf)( -(float)M_PI_2), 0.0f); CHECK_FLT( RT_NOCRT(cosf)( +(float)(M_PI_2 + M_PI*4)), 0.0f); CHECK_FLT( RT_NOCRT(cosf)( -(float)(M_PI_2 + M_PI*4)), 0.0f); CHECK_FLT( RT_NOCRT(cosf)( +(float)(M_PI_2 + M_PI*2)), 0.0f); CHECK_FLT( RT_NOCRT(cosf)( -(float)(M_PI_2 + M_PI*2)), 0.0f); CHECK_FLT( RT_NOCRT(cosf)( +1.0f), +0.540302276611328f); CHECK_FLT( RT_NOCRT(cosf)( +2.0f), -0.416146844625473f); CHECK_FLT( RT_NOCRT(cosf)( +3.0f), -0.989992499351501f); CHECK_FLT( RT_NOCRT(cosf)( +4.0f), -0.653643608093262f); CHECK_FLT( RT_NOCRT(cosf)( +5.0f), +0.283662199974060f); CHECK_FLT( RT_NOCRT(cosf)( +6.0f), +0.960170269012451f); CHECK_FLT( RT_NOCRT(cosf)( +7.0f), +0.753902256488800f); CHECK_FLT( RT_NOCRT(cosf)( +8.0f), -0.145500034093857f); CHECK_FLT( RT_NOCRT(cosf)( +9.0f), -0.911130249500275f); CHECK_FLT( RT_NOCRT(cosf)( +10.0f), -0.839071512222290f); CHECK_FLT( RT_NOCRT(cosf)( +100.0f), +0.862318873405457f); CHECK_FLT( RT_NOCRT(cosf)( +654.216812456f), +0.721018731594086f); CHECK_FLT( RT_NOCRT(cosf)( 10.10101010101010f), -0.779936254024506f); CHECK_FLT( RT_NOCRT(cosf)( +25.25252525252525f), +0.992834448814392f); CHECK_FLT( RT_NOCRT(cosf)( +252.25252525252525f), +0.601750433444977f); CHECK_FLT( RT_NOCRT(cosf)( +2525.25252525252525f), +0.832022845745087f); CHECK_FLT( RT_NOCRT(cosf)( +25252.25252525252525f), +0.991535484790802f); CHECK_FLT( RT_NOCRT(cosf)( +252525.25252525252525f), -0.628703236579895f); CHECK_FLT( RT_NOCRT(cosf)( +3.14f), -0.999998748302460f); CHECK_FLT( RT_NOCRT(cosf)( -1.0f), +0.540302276611328f); CHECK_FLT( RT_NOCRT(cosf)( -2.0f), -0.416146844625473f); CHECK_FLT( RT_NOCRT(cosf)( -3.0f), -0.989992499351501f); CHECK_FLT( RT_NOCRT(cosf)( -4.0f), -0.653643608093262f); CHECK_FLT( RT_NOCRT(cosf)( -5.0f), +0.283662199974060f); CHECK_FLT( RT_NOCRT(cosf)( -6.0f), +0.960170269012451f); CHECK_FLT( RT_NOCRT(cosf)( -7.0f), +0.753902256488800f); CHECK_FLT( RT_NOCRT(cosf)( -8.0f), -0.145500034093857f); CHECK_FLT( RT_NOCRT(cosf)( -9.0f), -0.911130249500275f); CHECK_FLT( RT_NOCRT(cosf)( -10.0f), -0.839071512222290f); CHECK_FLT( RT_NOCRT(cosf)( -100.0f), +0.862318873405457f); CHECK_FLT( RT_NOCRT(cosf)( -654.216812456f), +0.721018731594086f); CHECK_FLT( RT_NOCRT(cosf)( -10.10101010101010f), -0.779936254024506f); CHECK_FLT( RT_NOCRT(cosf)( -25.25252525252525f), +0.992834448814392f); CHECK_FLT( RT_NOCRT(cosf)( -252.25252525252525f), +0.601750433444977f); CHECK_FLT( RT_NOCRT(cosf)( -2525.25252525252525f), +0.832022845745087f); CHECK_FLT( RT_NOCRT(cosf)( -25252.25252525252525f), +0.991535484790802f); CHECK_FLT( RT_NOCRT(cosf)( -252525.25252525252525f), -0.628703236579895f); CHECK_FLT( RT_NOCRT(cosf)( -3.14f), -0.999998748302460f); CHECK_FLT( RT_NOCRT(cosf)( RTStrNanFloat("123s", false)), RTStrNanFloat("123s", false)); CHECK_FLT( RT_NOCRT(cosf)( RTStrNanFloat("9991s", true)), RTStrNanFloat("9991s", true)); CHECK_FLT_SAME( cos,( 1.0f)); CHECK_FLT_SAME( cos,( 1.5f)); CHECK_FLT_SAME( cos,( +0.0f)); CHECK_FLT_SAME( cos,( +0.0f)); CHECK_FLT_SAME( cos,( -0.0f)); CHECK_FLT_SAME( cos,( -0.0f)); CHECK_FLT_SAME( cos,( 238.6634566f)); CHECK_FLT_SAME( cos,( -49.4578999f)); CHECK_FLT_SAME( cos,( +(float)M_PI)); CHECK_FLT_SAME( cos,( -(float)M_PI)); CHECK_FLT_SAME( cos,( +(float)M_PI_2)); CHECK_FLT_SAME( cos,( -(float)M_PI_2)); CHECK_FLT_SAME( cos,( +(float)INFINITY)); CHECK_FLT_SAME( cos,( -(float)INFINITY)); CHECK_FLT_SAME( cos,(RTStrNanFloat(NULL, false))); CHECK_FLT_SAME( cos,(RTStrNanFloat(NULL, true))); } void testTan() { RTTestSub(g_hTest, "tan[f]"); /* See comment in testSin regarding testing and accuracy. Note that tan and tanf have receive no extra attention yet and are solely based on the FPU capabilities. */ //lvbe /mnt/e/misc/float/tan -d +1.0 +2.0 +3.0 +4.0 +5.0 +6.0 +7.0 +8.0 +9.0 +10.0 +100.0 +654.216812456 +10.10101010101010 +25.25252525252525 +252.25252525252525 +2525.25252525252525 +25252.25252525252525 +252525.25252525252525 +3.14 +1.57 +2.355 +1.1775 CHECK_DBL( RT_NOCRT(tan)( +0.0), +0.0); CHECK_DBL( RT_NOCRT(tan)( -0.0), -0.0); CHECK_DBL( tan( -0.0), -0.0); CHECK_DBL_RANGE(RT_NOCRT(tan)( +M_PI), +0.0, 0.0000000000000100000); CHECK_DBL_RANGE(RT_NOCRT(tan)( -M_PI), +0.0, 0.0000000000000100000); CHECK_DBL( RT_NOCRT(tan)( +1.0), +1.55740772465490229237); CHECK_DBL( RT_NOCRT(tan)( +2.0), -2.18503986326151888875); CHECK_DBL( RT_NOCRT(tan)( +3.0), -0.14254654307427780391); CHECK_DBL( RT_NOCRT(tan)( +4.0), +1.15782128234957748525); CHECK_DBL( RT_NOCRT(tan)( +5.0), -3.38051500624658585181); CHECK_DBL( RT_NOCRT(tan)( +6.0), -0.29100619138474914660); CHECK_DBL( RT_NOCRT(tan)( +7.0), +0.87144798272431878150); CHECK_DBL( RT_NOCRT(tan)( +8.0), -6.79971145522037900832); CHECK_DBL( RT_NOCRT(tan)( +9.0), -0.45231565944180984751); CHECK_DBL( RT_NOCRT(tan)( +10.0), +0.64836082745908663050); CHECK_DBL( RT_NOCRT(tan)( +100.0), -0.58721391515692911156); CHECK_DBL( RT_NOCRT(tan)( +654.216812456), +0.96105296910208881656); CHECK_DBL( RT_NOCRT(tan)( +10.10101010101010), +0.80244848750680519700); CHECK_DBL( RT_NOCRT(tan)( +25.25252525252525), +0.12036022656173953060); CHECK_DBL( RT_NOCRT(tan)( +252.25252525252525), +1.32728909752762014307); CHECK_DBL( RT_NOCRT(tan)( +2525.25252525252525), -0.66661702242341180913); CHECK_DBL_RANGE(RT_NOCRT(tan)( +25252.25252525252525), +0.13152635436679746550, 0.0000000000000010000); CHECK_DBL_RANGE(RT_NOCRT(tan)( +252525.25252525252525), +1.24331239382105529501, 0.0000000000000100000); CHECK_DBL( RT_NOCRT(tan)( +3.14), -0.00159265493640722302); CHECK_DBL( RT_NOCRT(tan)( +1.57), +1255.76559150078969651076); CHECK_DBL( RT_NOCRT(tan)( +2.355), -1.00239183854994351464); CHECK_DBL( RT_NOCRT(tan)( +1.1775), +2.41014118913622787943); CHECK_DBL( RT_NOCRT(tan)( -1.0), -1.55740772465490229237); CHECK_DBL( RT_NOCRT(tan)( -2.0), +2.18503986326151888875); CHECK_DBL( RT_NOCRT(tan)( -3.0), +0.14254654307427780391); CHECK_DBL( RT_NOCRT(tan)( -4.0), -1.15782128234957748525); CHECK_DBL( RT_NOCRT(tan)( -5.0), +3.38051500624658585181); CHECK_DBL( RT_NOCRT(tan)( -6.0), +0.29100619138474914660); CHECK_DBL( RT_NOCRT(tan)( -7.0), -0.87144798272431878150); CHECK_DBL( RT_NOCRT(tan)( -8.0), +6.79971145522037900832); CHECK_DBL( RT_NOCRT(tan)( -9.0), +0.45231565944180984751); CHECK_DBL( RT_NOCRT(tan)( -10.0), -0.64836082745908663050); CHECK_DBL( RT_NOCRT(tan)( -100.0), +0.58721391515692911156); CHECK_DBL( RT_NOCRT(tan)( -654.216812456), -0.96105296910208881656); CHECK_DBL( RT_NOCRT(tan)( -10.10101010101010), -0.80244848750680519700); CHECK_DBL( RT_NOCRT(tan)( -25.25252525252525), -0.12036022656173953060); CHECK_DBL( RT_NOCRT(tan)( -252.25252525252525), -1.32728909752762014307); CHECK_DBL( RT_NOCRT(tan)( -2525.25252525252525), +0.66661702242341180913); CHECK_DBL_RANGE(RT_NOCRT(tan)( -25252.25252525252525), -0.13152635436679746550, 0.0000000000000010000); CHECK_DBL_RANGE(RT_NOCRT(tan)( -252525.25252525252525), -1.24331239382105529501, 0.0000000000000100000); CHECK_DBL( RT_NOCRT(tan)( -3.14), +0.00159265493640722302); CHECK_DBL( RT_NOCRT(tan)( RTStrNanDouble(NULL, true)), RTStrNanDouble(NULL, true)); CHECK_DBL( RT_NOCRT(tan)( RTStrNanDouble("4940", false)), RTStrNanDouble("4940", false)); //CHECK_DBL( RT_NOCRT(tan)( RTStrNanDouble("494s", false)), RTStrNanDouble("494s", false)); //- not preserved CHECK_DBL_SAME(tan,( +0.0)); CHECK_DBL_SAME(tan,( -0.0)); CHECK_DBL_SAME(tan,( +1.0)); CHECK_DBL_SAME(tan,( -1.0)); #if 0 /* the FPU reduction isn't accurate enough, don't want to spend time on this now. */ CHECK_DBL_SAME(tan,( +M_PI)); CHECK_DBL_SAME(tan,( -M_PI)); #endif CHECK_DBL_SAME(tan,( -6.0)); CHECK_DBL_SAME(tan,( -6.333)); CHECK_DBL_SAME(tan,( +6.666)); CHECK_DBL_SAME(tan,( 246.36775)); CHECK_DBL_SAME(tan,( +INFINITY)); CHECK_DBL_SAME(tan,( -INFINITY)); CHECK_DBL_SAME(tan,(RTStrNanDouble(NULL, true))); CHECK_DBL_SAME(tan,(RTStrNanDouble("s", true))); //lvbe /mnt/e/misc/float/tan -f +1.0 +2.0 +3.0 +4.0 +5.0 +6.0 +7.0 +8.0 +9.0 +10.0 +100.0 +654.216812456 +10.10101010101010 +25.25252525252525 +252.25252525252525 +2525.25252525252525 +25252.25252525252525 +252525.25252525252525 +3.14 +1.57 +2.355 +1.1775 //lvbe /mnt/e/misc/float/tan -f -1.0 -2.0 -3.0 -4.0 -5.0 -6.0 -7.0 -8.0 -9.0 -10.0 -100.0 -654.216812456 -10.10101010101010 -25.25252525252525 -252.25252525252525 -2525.25252525252525 -25252.25252525252525 -252525.25252525252525 -3.14 -1.57 -2.355 -1.1775 CHECK_FLT( RT_NOCRT(tanf)( +0.0f), +0.0f); CHECK_FLT( RT_NOCRT(tanf)( -0.0f), -0.0f); CHECK_FLT_RANGE(RT_NOCRT(tanf)( +(float)M_PI), +0.0f, 0.000000100000000f); CHECK_FLT_RANGE(RT_NOCRT(tanf)( -(float)M_PI), +0.0f, 0.000000100000000f); CHECK_FLT( RT_NOCRT(tanf)( +1.0f), +1.557407736778259f); CHECK_FLT( RT_NOCRT(tanf)( +2.0f), -2.185039758682251f); CHECK_FLT( RT_NOCRT(tanf)( +3.0f), -0.142546549439430f); CHECK_FLT( RT_NOCRT(tanf)( +4.0f), +1.157821297645569f); CHECK_FLT( RT_NOCRT(tanf)( +5.0f), -3.380515098571777f); CHECK_FLT( RT_NOCRT(tanf)( +6.0f), -0.291006177663803f); CHECK_FLT( RT_NOCRT(tanf)( +7.0f), +0.871447980403900f); CHECK_FLT( RT_NOCRT(tanf)( +8.0f), -6.799711227416992f); CHECK_FLT( RT_NOCRT(tanf)( +9.0f), -0.452315658330917f); CHECK_FLT( RT_NOCRT(tanf)( +10.0f), +0.648360848426819f); CHECK_FLT( RT_NOCRT(tanf)( +100.0f), -0.587213933467865f); CHECK_FLT( RT_NOCRT(tanf)( +654.216812456f), +0.961022973060608f); CHECK_FLT( RT_NOCRT(tanf)( +10.10101010101010f), +0.802448868751526f); CHECK_FLT( RT_NOCRT(tanf)( +25.25252525252525f), +0.120360307395458f); CHECK_FLT( RT_NOCRT(tanf)( +252.25252525252525f), +1.327268242835999f); CHECK_FLT( RT_NOCRT(tanf)( +2525.25252525252525f), -0.666738152503967f); CHECK_FLT( RT_NOCRT(tanf)( +25252.25252525252525f), +0.130944371223450f); CHECK_FLT( RT_NOCRT(tanf)( +252525.25252525252525f), +1.236903667449951f); CHECK_FLT( RT_NOCRT(tanf)( +3.14f), -0.001592550077476f); CHECK_FLT( RT_NOCRT(tanf)( +1.57f), +1255.848266601562500f); CHECK_FLT( RT_NOCRT(tanf)( +2.355f), -1.002391815185547f); CHECK_FLT( RT_NOCRT(tanf)( +1.1775f), +2.410141229629517f); CHECK_FLT( RT_NOCRT(tanf)( -1.0f), -1.557407736778259f); CHECK_FLT( RT_NOCRT(tanf)( -2.0f), +2.185039758682251f); CHECK_FLT( RT_NOCRT(tanf)( -3.0f), +0.142546549439430f); CHECK_FLT( RT_NOCRT(tanf)( -4.0f), -1.157821297645569f); CHECK_FLT( RT_NOCRT(tanf)( -5.0f), +3.380515098571777f); CHECK_FLT( RT_NOCRT(tanf)( -6.0f), +0.291006177663803f); CHECK_FLT( RT_NOCRT(tanf)( -7.0f), -0.871447980403900f); CHECK_FLT( RT_NOCRT(tanf)( -8.0f), +6.799711227416992f); CHECK_FLT( RT_NOCRT(tanf)( -9.0f), +0.452315658330917f); CHECK_FLT( RT_NOCRT(tanf)( -10.0f), -0.648360848426819f); CHECK_FLT( RT_NOCRT(tanf)( -100.0f), +0.587213933467865f); CHECK_FLT( RT_NOCRT(tanf)( -654.216812456f), -0.961022973060608f); CHECK_FLT( RT_NOCRT(tanf)( -10.10101010101010f), -0.802448868751526f); CHECK_FLT( RT_NOCRT(tanf)( -25.25252525252525f), -0.120360307395458f); CHECK_FLT( RT_NOCRT(tanf)( -252.25252525252525f), -1.327268242835999f); CHECK_FLT( RT_NOCRT(tanf)( -2525.25252525252525f), +0.666738152503967f); CHECK_FLT( RT_NOCRT(tanf)( -25252.25252525252525f), -0.130944371223450f); CHECK_FLT( RT_NOCRT(tanf)( -252525.25252525252525f), -1.236903667449951f); CHECK_FLT( RT_NOCRT(tanf)( -3.14f), +0.001592550077476f); CHECK_FLT( RT_NOCRT(tanf)( -1.57f), -1255.848266601562500f); CHECK_FLT( RT_NOCRT(tanf)( -2.355f), +1.002391815185547f); CHECK_FLT( RT_NOCRT(tanf)( -1.1775f), -2.410141229629517f); CHECK_FLT( RT_NOCRT(tanf)( RTStrNanFloat(NULL, true)), RTStrNanFloat(NULL, true)); CHECK_FLT( RT_NOCRT(tanf)( RTStrNanFloat("4940", false)), RTStrNanFloat("4940", false)); //CHECK_FLT( RT_NOCRT(tanf)( RTStrNanFloat("494s", false)), RTStrNanFloat("494s", false)); - not preserved CHECK_FLT_SAME(tanf,( +0.0f)); CHECK_FLT_SAME(tanf,( -0.0f)); CHECK_FLT_SAME(tanf,( +1.0f)); CHECK_FLT_SAME(tanf,( -1.0f)); CHECK_FLT_SAME(tanf,( -6.0f)); CHECK_FLT_SAME(tanf,( -6.333f)); CHECK_FLT_SAME(tanf,( +6.666f)); CHECK_FLT_SAME(tanf,( 246.36775f)); CHECK_FLT_SAME(tanf,( +(float)INFINITY)); CHECK_FLT_SAME(tanf,( -(float)INFINITY)); CHECK_FLT_SAME(tanf,(RTStrNanFloat(NULL, true))); CHECK_FLT_SAME(tanf,(RTStrNanFloat("s", true))); } int main() { RTEXITCODE rcExit = RTTestInitAndCreate("tstRTNoCrt-2", &g_hTest); if (rcExit != RTEXITCODE_SUCCESS) return rcExit; /* Some preconditions: */ RTFLOAT32U r32; r32.r = RTStrNanFloat("s", false); RTTEST_CHECK(g_hTest, RTFLOAT32U_IS_SIGNALLING_NAN(&r32)); r32.r = RTStrNanFloat("q", false); RTTEST_CHECK(g_hTest, RTFLOAT32U_IS_QUIET_NAN(&r32)); r32.r = RTStrNanFloat(NULL, false); RTTEST_CHECK(g_hTest, RTFLOAT32U_IS_QUIET_NAN(&r32)); RTFLOAT64U r64; r64.r = RTStrNanDouble("s", false); RTTEST_CHECK(g_hTest, RTFLOAT64U_IS_SIGNALLING_NAN(&r64)); r64.r = RTStrNanDouble("q", false); RTTEST_CHECK(g_hTest, RTFLOAT64U_IS_QUIET_NAN(&r64)); r64.r = RTStrNanDouble(NULL, false); RTTEST_CHECK(g_hTest, RTFLOAT64U_IS_QUIET_NAN(&r64)); /* stdlib.h (integer) */ testAbs(); /* math.h */ testFAbs(); testCopySign(); testFmax(); testFmin(); testIsInf(); testIsNan(); testIsFinite(); testIsNormal(); testFpClassify(); testSignBit(); testFrExp(); testCeil(); testFloor(); testTrunc(); testRound(); testRInt(); testLRound(); testLLRound(); testLRInt(); testLLRInt(); testExp(); testExp2(); testLdExp(); testPow(); testFma(); testRemainder(); testLog(); testLog2(); testSqRt(); testATan(); testATan2(); testSin(); testCos(); testTan(); return RTTestSummaryAndDestroy(g_hTest); }