/* $Id: tstStrToNum.cpp 98640 2023-02-20 09:37:09Z vboxsync $ */ /** @file * IPRT Testcase - String To Number Conversion. */ /* * Copyright (C) 2006-2023 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 * *********************************************************************************************************************************/ #include #include #include #include #include /********************************************************************************************************************************* * Structures and Typedefs * *********************************************************************************************************************************/ struct TstI64 { const char *psz; unsigned uBase; int rc; int64_t Result; }; struct TstU64 { const char *psz; unsigned uBase; int rc; uint64_t Result; }; struct TstI32 { const char *psz; unsigned uBase; int rc; int32_t Result; }; struct TstU32 { const char *psz; unsigned uBase; int rc; uint32_t Result; }; struct TstRD { const char *psz; unsigned cchMax; int rc; double rd; }; struct TstR64 { const char *psz; unsigned cchMax; int rc; RTFLOAT64U r64; }; /********************************************************************************************************************************* * Defined Constants And Macros * *********************************************************************************************************************************/ #define TEST(Test, Type, Fmt, Fun, iTest) \ do \ { \ Type Result; \ int rc = Fun(Test.psz, NULL, Test.uBase, &Result); \ if (Result != Test.Result) \ RTTestIFailed("'%s' -> " Fmt " expected " Fmt ". (%s/%u)\n", Test.psz, Result, Test.Result, #Fun, iTest); \ else if (rc != Test.rc) \ RTTestIFailed("'%s' -> rc=%Rrc expected %Rrc. (%s/%u)\n", Test.psz, rc, Test.rc, #Fun, iTest); \ } while (0) #define RUN_TESTS(aTests, Type, Fmt, Fun) \ do \ { \ RTTestISub(#Fun); \ for (unsigned iTest = 0; iTest < RT_ELEMENTS(aTests); iTest++) \ { \ TEST(aTests[iTest], Type, Fmt, Fun, iTest); \ } \ } while (0) #define FULL_TEST(Test, Type, Fmt, Fun, iTest) \ do \ { \ Type Result; \ int rc = Fun(Test.psz, Test.uBase, &Result); \ if (Result != Test.Result) \ RTTestIFailed("'%s' -> " Fmt " expected " Fmt ". (%s/%u)\n", Test.psz, Result, Test.Result, #Fun, iTest); \ else if (rc != Test.rc) \ RTTestIFailed("'%s' -> rc=%Rrc expected %Rrc. (%s/%u)\n", Test.psz, rc, Test.rc, #Fun, iTest); \ } while (0) #define RUN_FULL_TESTS(aTests, Type, Fmt, Fun) \ do \ { \ RTTestISub(#Fun); \ for (unsigned iTest = 0; iTest < RT_ELEMENTS(aTests); iTest++) \ { \ FULL_TEST(aTests[iTest], Type, Fmt, Fun, iTest); \ } \ } while (0) int main() { RTTEST hTest; RTEXITCODE rcExit = RTTestInitAndCreate("tstRTStrToNum", &hTest); if (rcExit != RTEXITCODE_SUCCESS) return rcExit; static const struct TstU64 aTstU64[] = { { "0", 0, VINF_SUCCESS, 0 }, { "1", 0, VINF_SUCCESS, 1 }, { "-1", 0, VWRN_NEGATIVE_UNSIGNED, ~0ULL }, { "0x", 0, VWRN_TRAILING_CHARS, 0 }, { "0x1", 0, VINF_SUCCESS, 1 }, { "0x0fffffffffffffff", 0, VINF_SUCCESS, 0x0fffffffffffffffULL }, { "0x0ffffffffffffffffffffff",0, VWRN_NUMBER_TOO_BIG, 0xffffffffffffffffULL }, { "0x0ffffffffffffffffffffff", 10 << 8, VINF_SUCCESS, 0x0fffffff }, { "asdfasdfasdf", 0, VERR_NO_DIGITS, 0 }, { "0x111111111", 0, VINF_SUCCESS, 0x111111111ULL }, { "4D9702C5CBD9B778", 16, VINF_SUCCESS, UINT64_C(0x4D9702C5CBD9B778) }, }; RUN_TESTS(aTstU64, uint64_t, "%#llx", RTStrToUInt64Ex); static const struct TstU64 aTstFullU64[] = { { "42", 0, VINF_SUCCESS, 42 }, { "42 ", 0, VERR_TRAILING_SPACES, 42 }, { "42! ", 0, VERR_TRAILING_CHARS, 42 }, { "42 !", 0, VERR_TRAILING_CHARS, 42 }, { "42 !", 2<<8, VINF_SUCCESS, 42 }, { "42 !", 3<<8, VERR_TRAILING_SPACES, 42 }, { "42 !", 4<<8, VERR_TRAILING_CHARS, 42 }, { "-1", 0, VWRN_NEGATIVE_UNSIGNED, UINT64_MAX }, { "-1 ", 0, VERR_TRAILING_SPACES, UINT64_MAX }, { "-1 ", 2<<8, VWRN_NEGATIVE_UNSIGNED, UINT64_MAX }, { "-1 ", 3<<8, VERR_TRAILING_SPACES, UINT64_MAX }, { "0x0fffffffffffffff", 0, VINF_SUCCESS, 0x0fffffffffffffffULL }, { "0x0ffffffffffffffffffff", 0, VWRN_NUMBER_TOO_BIG, 0xffffffffffffffffULL }, { "0x0ffffffffffffffffffff ", 0, VERR_TRAILING_SPACES, 0xffffffffffffffffULL }, { "0x0ffffffffffffffffffff! ", 0, VERR_TRAILING_CHARS, 0xffffffffffffffffULL }, { "0x0ffffffffffffffffffff !", 0, VERR_TRAILING_CHARS, 0xffffffffffffffffULL }, { "0x0ffffffffffffffffffff", 10 << 8, VINF_SUCCESS, 0x0fffffff }, }; RUN_FULL_TESTS(aTstFullU64, uint64_t, "%#llx", RTStrToUInt64Full); static const struct TstI64 aTstI64[] = { { "0", 0, VINF_SUCCESS, 0 }, { "1", 0, VINF_SUCCESS, 1 }, { "-1", 0, VINF_SUCCESS, -1 }, { "-1", 10, VINF_SUCCESS, -1 }, { "-31", 0, VINF_SUCCESS, -31 }, { "-31", 10, VINF_SUCCESS, -31 }, { "-32", 0, VINF_SUCCESS, -32 }, { "-33", 0, VINF_SUCCESS, -33 }, { "-64", 0, VINF_SUCCESS, -64 }, { "-127", 0, VINF_SUCCESS, -127 }, { "-128", 0, VINF_SUCCESS, -128 }, { "-129", 0, VINF_SUCCESS, -129 }, { "-254", 0, VINF_SUCCESS, -254 }, { "-255", 0, VINF_SUCCESS, -255 }, { "-256", 0, VINF_SUCCESS, -256 }, { "-257", 0, VINF_SUCCESS, -257 }, { "-511", 0, VINF_SUCCESS, -511 }, { "-512", 0, VINF_SUCCESS, -512 }, { "-513", 0, VINF_SUCCESS, -513 }, { "-1023", 0, VINF_SUCCESS, -1023 }, { "-1023", 0, VINF_SUCCESS, -1023 }, { "-1023", 0, VINF_SUCCESS, -1023}, { "-1023", 10, VINF_SUCCESS, -1023 }, { "-4564678", 0, VINF_SUCCESS, -4564678 }, { "-4564678", 10, VINF_SUCCESS, -4564678 }, { "-1234567890123456789", 0, VINF_SUCCESS, -1234567890123456789LL }, { "-1234567890123456789", 10, VINF_SUCCESS, -1234567890123456789LL }, { "0x", 0, VWRN_TRAILING_CHARS, 0 }, { "0x1", 0, VINF_SUCCESS, 1 }, { "0x1", 10, VWRN_TRAILING_CHARS, 0 }, { "0x1", 16, VINF_SUCCESS, 1 }, { "0x0fffffffffffffff", 0, VINF_SUCCESS, 0x0fffffffffffffffULL }, { "0x7fffffffffffffff", 0, VINF_SUCCESS, 0x7fffffffffffffffULL }, { "0xffffffffffffffff", 0, VWRN_NUMBER_TOO_BIG, -1 }, { "0x01111111111111111111111",0, VWRN_NUMBER_TOO_BIG, 0x1111111111111111ULL }, { "0x02222222222222222222222",0, VWRN_NUMBER_TOO_BIG, 0x2222222222222222ULL }, { "0x03333333333333333333333",0, VWRN_NUMBER_TOO_BIG, 0x3333333333333333ULL }, { "0x04444444444444444444444",0, VWRN_NUMBER_TOO_BIG, 0x4444444444444444ULL }, { "0x07777777777777777777777",0, VWRN_NUMBER_TOO_BIG, 0x7777777777777777ULL }, { "0x07f7f7f7f7f7f7f7f7f7f7f",0, VWRN_NUMBER_TOO_BIG, 0x7f7f7f7f7f7f7f7fULL }, { "0x0ffffffffffffffffffffff",0, VWRN_NUMBER_TOO_BIG, (int64_t)0xffffffffffffffffULL }, { "0x0ffffffffffffffffffffff", 10 << 8, VINF_SUCCESS, INT64_C(0x0fffffff) }, { "0x0ffffffffffffffffffffff", 18 << 8, VINF_SUCCESS, INT64_C(0x0fffffffffffffff) }, { "0x0ffffffffffffffffffffff", 19 << 8, VWRN_NUMBER_TOO_BIG, -1 }, { "asdfasdfasdf", 0, VERR_NO_DIGITS, 0 }, { "0x111111111", 0, VINF_SUCCESS, 0x111111111ULL }, }; RUN_TESTS(aTstI64, int64_t, "%#lld", RTStrToInt64Ex); static const struct TstI64 aTstI64Full[] = { { "1", 0, VINF_SUCCESS, 1 }, { "1 ", 0, VERR_TRAILING_SPACES, 1 }, { "1! ", 0, VERR_TRAILING_CHARS, 1 }, { "1 !", 0, VERR_TRAILING_CHARS, 1 }, { "1 !", 1<<8, VINF_SUCCESS, 1 }, { "1 !", 2<<8, VERR_TRAILING_SPACES, 1 }, { "1 !", 3<<8, VERR_TRAILING_CHARS, 1 }, { "0xffffffffffffffff", 0, VWRN_NUMBER_TOO_BIG, -1 }, { "0xffffffffffffffff ", 0, VERR_TRAILING_SPACES, -1 }, { "0xffffffffffffffff!", 0, VERR_TRAILING_CHARS, -1 }, { "0xffffffffffffffff !", 18<<8, VWRN_NUMBER_TOO_BIG, -1 }, { "0xffffffffffffffff !", 19<<8, VERR_TRAILING_SPACES, -1 }, { "0xffffffffffffffff !", 20<<8, VERR_TRAILING_CHARS, -1 }, }; RUN_FULL_TESTS(aTstI64Full, int64_t, "%#lld", RTStrToInt64Full); static const struct TstI32 aTstI32[] = { { "0", 0, VINF_SUCCESS, 0 }, { "1", 0, VINF_SUCCESS, 1 }, { "-1", 0, VINF_SUCCESS, -1 }, { "-1", 10, VINF_SUCCESS, -1 }, { "-31", 0, VINF_SUCCESS, -31 }, { "-31", 10, VINF_SUCCESS, -31 }, { "-32", 0, VINF_SUCCESS, -32 }, { "-33", 0, VINF_SUCCESS, -33 }, { "-64", 0, VINF_SUCCESS, -64 }, { "-127", 0, VINF_SUCCESS, -127 }, { "-128", 0, VINF_SUCCESS, -128 }, { "-129", 0, VINF_SUCCESS, -129 }, { "-254", 0, VINF_SUCCESS, -254 }, { "-255", 0, VINF_SUCCESS, -255 }, { "-256", 0, VINF_SUCCESS, -256 }, { "-257", 0, VINF_SUCCESS, -257 }, { "-511", 0, VINF_SUCCESS, -511 }, { "-512", 0, VINF_SUCCESS, -512 }, { "-513", 0, VINF_SUCCESS, -513 }, { "-1023", 0, VINF_SUCCESS, -1023 }, { "-1023", 0, VINF_SUCCESS, -1023 }, { "-1023", 0, VINF_SUCCESS, -1023}, { "-1023", 10, VINF_SUCCESS, -1023 }, { "-4564678", 0, VINF_SUCCESS, -4564678 }, { "-4564678", 10, VINF_SUCCESS, -4564678 }, { "4564678", 0, VINF_SUCCESS, 4564678 }, { "4564678", 10, VINF_SUCCESS, 4564678 }, { "-1234567890123456789", 0, VWRN_NUMBER_TOO_BIG, (int32_t)((uint64_t)INT64_C(-1234567890123456789) & UINT32_MAX) }, { "-1234567890123456789", 10, VWRN_NUMBER_TOO_BIG, (int32_t)((uint64_t)INT64_C(-1234567890123456789) & UINT32_MAX) }, { "1234567890123456789", 0, VWRN_NUMBER_TOO_BIG, (int32_t)(INT64_C(1234567890123456789) & UINT32_MAX) }, { "1234567890123456789", 10, VWRN_NUMBER_TOO_BIG, (int32_t)(INT64_C(1234567890123456789) & UINT32_MAX) }, { "0x", 0, VWRN_TRAILING_CHARS, 0 }, { "0x1", 0, VINF_SUCCESS, 1 }, { "0x1", 10, VWRN_TRAILING_CHARS, 0 }, { "0x1", 16, VINF_SUCCESS, 1 }, { "0x7fffffff", 0, VINF_SUCCESS, 0x7fffffff }, { "0x80000000", 0, VWRN_NUMBER_TOO_BIG, INT32_MIN }, { "0xffffffff", 0, VWRN_NUMBER_TOO_BIG, -1 }, { "0x0fffffffffffffff", 0, VWRN_NUMBER_TOO_BIG, (int32_t)0xffffffff }, { "0x01111111111111111111111",0, VWRN_NUMBER_TOO_BIG, 0x11111111 }, { "0x0ffffffffffffffffffffff",0, VWRN_NUMBER_TOO_BIG, (int32_t)0xffffffff }, { "0x0ffffffffffffffffffffff", 10 << 8, VINF_SUCCESS, 0x0fffffff }, { "0x0ffffffffffffffffffffff", 11 << 8, VWRN_NUMBER_TOO_BIG, -1 }, { "asdfasdfasdf", 0, VERR_NO_DIGITS, 0 }, { "0x1111111", 0, VINF_SUCCESS, 0x01111111 }, }; RUN_TESTS(aTstI32, int32_t, "%#d", RTStrToInt32Ex); static const struct TstU32 aTstU32[] = { { "0", 0, VINF_SUCCESS, 0 }, { "1", 0, VINF_SUCCESS, 1 }, /// @todo { "-1", 0, VWRN_NEGATIVE_UNSIGNED, ~0 }, - no longer true. bad idea? { "-1", 0, VWRN_NUMBER_TOO_BIG, ~0U }, { "0x", 0, VWRN_TRAILING_CHARS, 0 }, { "0x1", 0, VINF_SUCCESS, 1 }, { "0x1 ", 0, VWRN_TRAILING_SPACES, 1 }, { "0x0fffffffffffffff", 0, VWRN_NUMBER_TOO_BIG, 0xffffffffU }, { "0x0ffffffffffffffffffffff", 0, VWRN_NUMBER_TOO_BIG, 0xffffffffU }, { "asdfasdfasdf", 0, VERR_NO_DIGITS, 0 }, { "0x1111111", 0, VINF_SUCCESS, 0x1111111 }, }; RUN_TESTS(aTstU32, uint32_t, "%#x", RTStrToUInt32Ex); static const struct TstU32 aTstFullU32[] = { { "0", 0, VINF_SUCCESS, 0 }, { "0x0fffffffffffffff", 0, VWRN_NUMBER_TOO_BIG, 0xffffffffU }, { "0x0fffffffffffffffffffff", 0, VWRN_NUMBER_TOO_BIG, 0xffffffffU }, { "asdfasdfasdf", 0, VERR_NO_DIGITS, 0 }, { "42 ", 0, VERR_TRAILING_SPACES, 42 }, { "42 ", 2<<8, VINF_SUCCESS, 42 }, { "42! ", 0, VERR_TRAILING_CHARS, 42 }, { "42! ", 2<<8, VINF_SUCCESS, 42 }, { "42 !", 0, VERR_TRAILING_CHARS, 42 }, { "42 !", 2<<8, VINF_SUCCESS, 42 }, { "42 !", 3<<8, VERR_TRAILING_SPACES, 42 }, { "42 !", 4<<8, VERR_TRAILING_CHARS, 42 }, { "0x0fffffffffffffffffffff ", 0, VERR_TRAILING_SPACES, 0xffffffffU }, { "0x0fffffffffffffffffffff !", 0, VERR_TRAILING_CHARS, 0xffffffffU }, }; RUN_FULL_TESTS(aTstFullU32, uint32_t, "%#x", RTStrToUInt32Full); /* * Test the some hex stuff too. */ RTTestSub(hTest, "RTStrConvertHexBytesEx"); static const struct { const char *pszHex; size_t cbOut; size_t offNext; uint8_t bLast; bool fColon; int rc; } s_aConvertHexTests[] = { { "00", 1, 2, 0x00, true, VINF_SUCCESS }, { "00", 1, 2, 0x00, false, VINF_SUCCESS }, { "000102", 3, 6, 0x02, true, VINF_SUCCESS }, { "00019", 2, 4, 0x01, false, VERR_UNEVEN_INPUT }, { "00019", 2, 4, 0x01, true, VERR_UNEVEN_INPUT }, { "0001:9", 3, 6, 0x09, true, VINF_SUCCESS}, { "000102", 3, 6, 0x02, false, VINF_SUCCESS }, { "0:1", 2, 3, 0x01, true, VINF_SUCCESS }, { ":", 2, 1, 0x00, true, VINF_SUCCESS }, { "0:01", 2, 4, 0x01, true, VINF_SUCCESS }, { "00:01", 2, 5, 0x01, true, VINF_SUCCESS }, { ":1:2:3:4:5", 6, 10, 0x05, true, VINF_SUCCESS }, { ":1:2:3::5", 6, 9, 0x05, true, VINF_SUCCESS }, { ":1:2:3:4:", 6, 9, 0x00, true, VINF_SUCCESS }, }; for (unsigned i = 0; i < RT_ELEMENTS(s_aConvertHexTests); i++) { uint8_t abBuf[1024]; memset(abBuf, 0xf6, sizeof(abBuf)); const char *pszExpectNext = &s_aConvertHexTests[i].pszHex[s_aConvertHexTests[i].offNext]; const char *pszNext = ""; size_t cbReturned = 77777; int rc = RTStrConvertHexBytesEx(s_aConvertHexTests[i].pszHex, abBuf, s_aConvertHexTests[i].cbOut, s_aConvertHexTests[i].fColon ? RTSTRCONVERTHEXBYTES_F_SEP_COLON : 0, &pszNext, &cbReturned); if ( rc != s_aConvertHexTests[i].rc || pszNext != pszExpectNext || abBuf[s_aConvertHexTests[i].cbOut - 1] != s_aConvertHexTests[i].bLast ) RTTestFailed(hTest, "RTStrConvertHexBytesEx/#%u %s -> %Rrc %p %#zx %#02x, expected %Rrc %p %#zx %#02x\n", i, s_aConvertHexTests[i].pszHex, rc, pszNext, cbReturned, abBuf[s_aConvertHexTests[i].cbOut - 1], s_aConvertHexTests[i].rc, pszExpectNext, s_aConvertHexTests[i].cbOut, s_aConvertHexTests[i].bLast); } /* * Floating point string conversion. */ #ifdef RT_OS_WINDOWS /** @todo debug elsewhere */ char szActual[128], szExpect[128]; RTTestSub(hTest, "RTStrToDoubleEx"); static const struct TstRD s_aTstDouble[] = { { "1", 0, VINF_SUCCESS, 1.0 }, { "2.0", 0, VINF_SUCCESS, 2.0 }, { "2.0000", 0, VINF_SUCCESS, 2.0 }, { "-2.0000", 0, VINF_SUCCESS, -2.0 }, { "-2.0000", 1, VERR_NO_DIGITS, -0.0 }, { "-2.0000", 2, VINF_SUCCESS, -2.0 }, { "0.5", 0, VINF_SUCCESS, 0.5 }, { "1.5", 0, VINF_SUCCESS, 1.5 }, { "42.", 0, VINF_SUCCESS, 42.0 }, { "243.598605987", 0, VINF_SUCCESS, 243.598605987 }, { "3.14159265358979323846", 0, VINF_SUCCESS, 3.14159265358979323846 }, { "3.1415926535897932384626433832", 0, VINF_SUCCESS, 3.14159265358979323846 }, { "2.9979245800e+008", 0, VINF_SUCCESS, 299792458.0 }, /* speed of light (c) */ { "1.602176487e-19", 0, VINF_SUCCESS, 1.602176487e-19 }, /* electron volt (eV) */ { "6.62606896e-34", 0, VINF_SUCCESS, 6.62606896e-34 }, /* Planck's constant (h) */ { "6.02214199e+23", 0, VINF_SUCCESS, 6.02214199e23 }, /* Avogadro's number (Na) */ { "1.66053e-0", 0, VINF_SUCCESS, 1.66053e-0 }, { "1.66053e-1", 0, VINF_SUCCESS, 1.66053e-1 }, { "1.66053e-2", 0, VINF_SUCCESS, 1.66053e-2 }, { "1.66053e-3", 0, VINF_SUCCESS, 1.66053e-3 }, { "1.66053e-4", 0, VINF_SUCCESS, 1.66053e-4 }, { "1.66053e-5", 0, VINF_SUCCESS, 1.66053e-5 }, { "1.66053e-6", 0, VINF_SUCCESS, 1.66053e-6 }, { "1.660538780e-27", 0, VINF_SUCCESS, 1.660538780e-27 }, { "1.660538781e-27", 0, VINF_SUCCESS, 1.660538781e-27 }, { "1.660538782e-27", 0, VINF_SUCCESS, 1.660538782e-27 }, /* Unified atomic mass (amu) [rounding issue with simple scale10 code] */ { "1.660538783e-27", 0, VINF_SUCCESS, 1.660538783e-27 }, { "1.660538784e-27", 0, VINF_SUCCESS, 1.660538784e-27 }, { "1.660538785e-27", 0, VINF_SUCCESS, 1.660538785e-27 }, { "1e1", 0, VINF_SUCCESS, 1.0e1 }, { "99e98", 0, VINF_SUCCESS, 99.0e98 }, { "1.2398039e206", 0, VINF_SUCCESS, 1.2398039e206 }, { "-1.2398039e-205", 0, VINF_SUCCESS, -1.2398039e-205 }, { "-1.2398039e-305", 0, VINF_SUCCESS, -1.2398039e-305 }, { "-1.2398039e-306", 0, VINF_SUCCESS, -1.2398039e-306 }, /* RTStrFormatR64 get weird about these numbers... */ { "-1.2398039e-307", 0, VINF_SUCCESS, -1.2398039e-307 }, { "-1.2398039e-308", 0, VWRN_FLOAT_UNDERFLOW, -1.2398039e-308 }, /* subnormal */ { "-1.2398039e-309", 0, VWRN_FLOAT_UNDERFLOW, -1.2398039e-309 }, /* subnormal */ { "-1.2398039e-310", 0, VWRN_FLOAT_UNDERFLOW, -1.2398039e-310 }, /* subnormal */ { "-1.2398039e-315", 0, VWRN_FLOAT_UNDERFLOW, -1.2398039e-315 }, /* subnormal */ { "-1.2398039e-323", 0, VWRN_FLOAT_UNDERFLOW, -1.2398039e-323 }, /* subnormal */ #if 0 /* problematic in softfloat mode */ { "-1.2398039e-324", 0, VWRN_FLOAT_UNDERFLOW, -1.2398039e-324 }, /* subnormal */ #endif { "-1.2398039e-325", 0, VERR_FLOAT_UNDERFLOW, -0.0 }, { "1.7976931348623158e+308", 0, VINF_SUCCESS, +DBL_MAX }, { "-1.7976931348623158e+308", 0, VINF_SUCCESS, -DBL_MAX }, { "2.2250738585072014e-308", 0, VINF_SUCCESS, +DBL_MIN }, { "-2.2250738585072014e-308", 0, VINF_SUCCESS, -DBL_MIN }, { "-2.2250738585072010e-308", 0, VWRN_FLOAT_UNDERFLOW, -2.2250738585072010E-308 }, /* subnormal close to -DBL_MIN */ #if __cplusplus >= 201700 { "0x1", 0, VINF_SUCCESS, 0x1.0p0 }, { "0x2", 0, VINF_SUCCESS, 0x2.0p0 }, { "0x3", 0, VINF_SUCCESS, 0x3.0p0 }, { "0x3p1", 0, VINF_SUCCESS, 0x3.0p1 }, { "0x9.2p42", 0, VINF_SUCCESS, 0x9.2p42 }, { "-0x48f0405.24986e5f794bp42", 0, VINF_SUCCESS, -0x48f0405.24986e5f794bp42 }, #endif }; for (unsigned i = 0; i < RT_ELEMENTS(s_aTstDouble); i++) { //RTTestPrintf(hTest,RTTESTLVL_ALWAYS, "----- #%u: %s\n", i, s_aTstDouble[i].psz); RTFLOAT64U uRes = RTFLOAT64U_INIT_ZERO(1); char *pszNext = (char *)42; int rc = RTStrToDoubleEx(s_aTstDouble[i].psz, &pszNext, s_aTstDouble[i].cchMax, &uRes.rd); RTFLOAT64U uExpect; uExpect.rd = s_aTstDouble[i].rd; if (rc != s_aTstDouble[i].rc || !RTFLOAT64U_ARE_IDENTICAL(&uRes, &uExpect)) { RTStrFormatR64(szActual, sizeof(szActual), &uRes, 0, 0, RTSTR_F_SPECIAL); RTStrFormatR64(szExpect, sizeof(szExpect), &uExpect, 0, 0, RTSTR_F_SPECIAL); RTTestFailed(hTest, "RTStrToDoubleEx/%#u: '%s' L %u -> %Rrc & %s, expected %Rrc & %s\n", i, s_aTstDouble[i].psz, s_aTstDouble[i].cchMax, rc, szActual, s_aTstDouble[i].rc, szExpect); } } static const struct TstR64 s_aTstR64[] = { { "Inf", 0, VINF_SUCCESS, RTFLOAT64U_INIT_INF(0) }, { "+Inf", 0, VINF_SUCCESS, RTFLOAT64U_INIT_INF(0) }, { "-Inf", 0, VINF_SUCCESS, RTFLOAT64U_INIT_INF(1) }, { "-Inf0", 0, VWRN_TRAILING_CHARS, RTFLOAT64U_INIT_INF(1) }, { "-Inf ", 0, VWRN_TRAILING_SPACES, RTFLOAT64U_INIT_INF(1) }, { "-Inf 0", 0, VWRN_TRAILING_CHARS, RTFLOAT64U_INIT_INF(1) }, { "-Inf 0", 1, VERR_NO_DIGITS, RTFLOAT64U_INIT_ZERO(1) }, { "-Inf 0", 2, VERR_NO_DIGITS, RTFLOAT64U_INIT_ZERO(1) }, { "-Inf 0", 3, VERR_NO_DIGITS, RTFLOAT64U_INIT_ZERO(1) }, { "-Inf 0", 4, VINF_SUCCESS, RTFLOAT64U_INIT_INF(1) }, { "Nan", 0, VINF_SUCCESS, RTFLOAT64U_INIT_QNAN(0) }, { "+Nan", 0, VINF_SUCCESS, RTFLOAT64U_INIT_QNAN(0) }, { "+Nan(1)", 0, VINF_SUCCESS, RTFLOAT64U_INIT_QNAN_EX(0, 1) }, { "-NaN", 0, VINF_SUCCESS, RTFLOAT64U_INIT_QNAN(1) }, { "-nAn(1)", 0, VINF_SUCCESS, RTFLOAT64U_INIT_QNAN_EX(1, 1) }, { "-nAn(q)", 0, VINF_SUCCESS, RTFLOAT64U_INIT_QNAN(1) }, { "-nAn(s)", 0, VINF_SUCCESS, RTFLOAT64U_INIT_SNAN(1) }, { "-nAn(_sig)", 0, VINF_SUCCESS, RTFLOAT64U_INIT_SNAN(1) }, { "-nAn(22420102_sig)12", 0, VWRN_TRAILING_CHARS, RTFLOAT64U_INIT_SNAN_EX(1, 0x22420102) }, { "-nAn(22420102_sig) ", 0, VWRN_TRAILING_SPACES, RTFLOAT64U_INIT_SNAN_EX(1, 0x22420102) }, { "-nAn(22420102_sig) 2", 0, VWRN_TRAILING_CHARS, RTFLOAT64U_INIT_SNAN_EX(1, 0x22420102) }, { "-1.2398039e-500", 0, VERR_FLOAT_UNDERFLOW, RTFLOAT64U_INIT_ZERO(1) }, { "-1.2398039e-5000", 0, VERR_FLOAT_UNDERFLOW, RTFLOAT64U_INIT_ZERO(1) }, { "-1.2398039e-50000", 0, VERR_FLOAT_UNDERFLOW, RTFLOAT64U_INIT_ZERO(1) }, { "-1.2398039e-500000", 0, VERR_FLOAT_UNDERFLOW, RTFLOAT64U_INIT_ZERO(1) }, { "-1.2398039e-500000000", 0, VERR_FLOAT_UNDERFLOW, RTFLOAT64U_INIT_ZERO(1) }, { "+1.7976931348623159e+308", 0, VERR_FLOAT_OVERFLOW, RTFLOAT64U_INIT_INF(0) }, { "-1.7976931348623159e+308", 0, VERR_FLOAT_OVERFLOW, RTFLOAT64U_INIT_INF(1) }, { "-1.2398039e+309", 0, VERR_FLOAT_OVERFLOW, RTFLOAT64U_INIT_INF(1) }, { "-1.2398039e+350", 0, VERR_FLOAT_OVERFLOW, RTFLOAT64U_INIT_INF(1) }, { "-1.2398039e+400", 0, VERR_FLOAT_OVERFLOW, RTFLOAT64U_INIT_INF(1) }, { "-1.2398039e+450", 0, VERR_FLOAT_OVERFLOW, RTFLOAT64U_INIT_INF(1) }, { "-1.2398039e+500", 0, VERR_FLOAT_OVERFLOW, RTFLOAT64U_INIT_INF(1) }, { "-1.2398039e+5000", 0, VERR_FLOAT_OVERFLOW, RTFLOAT64U_INIT_INF(1) }, { "-1.2398039e+50000", 0, VERR_FLOAT_OVERFLOW, RTFLOAT64U_INIT_INF(1) }, { "-1.2398039e+500000", 0, VERR_FLOAT_OVERFLOW, RTFLOAT64U_INIT_INF(1) }, { "-1.2398039e+5000000000", 0, VERR_FLOAT_OVERFLOW, RTFLOAT64U_INIT_INF(1) }, }; for (unsigned i = 0; i < RT_ELEMENTS(s_aTstR64); i++) { //RTTestPrintf(hTest,RTTESTLVL_ALWAYS, "----- #%u: %s\n", i, s_aTstDouble[i].psz); RTFLOAT64U uRes = RTFLOAT64U_INIT_ZERO(1); char *pszNext = (char *)42; int rc = RTStrToDoubleEx(s_aTstR64[i].psz, &pszNext, s_aTstR64[i].cchMax, &uRes.rd); if (rc != s_aTstR64[i].rc || !RTFLOAT64U_ARE_IDENTICAL(&uRes, &s_aTstR64[i].r64)) { RTStrFormatR64(szActual, sizeof(szActual), &uRes, 0, 0, RTSTR_F_SPECIAL); RTStrFormatR64(szExpect, sizeof(szExpect), &s_aTstR64[i].r64, 0, 0, RTSTR_F_SPECIAL); RTTestFailed(hTest, "RTStrToDoubleEx/%#u: '%s' L %u -> %Rrc & %s, expected %Rrc & %s\n", i, s_aTstR64[i].psz, s_aTstR64[i].cchMax, rc, szActual, s_aTstR64[i].rc, szExpect); } } #endif /* RT_OS_WINDOWS - debug elsewhere first */ /* * Summary. */ return RTTestSummaryAndDestroy(hTest); }