/* * Cppcheck - A tool for static C/C++ code analysis * Copyright (C) 2007-2018 Cppcheck team. * * 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, either version 3 of the License, or * (at your option) any later version. * * 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 . */ #include "mathlib.h" #include "testsuite.h" struct InternalError; class TestMathLib : public TestFixture { public: TestMathLib() : TestFixture("TestMathLib") { } private: void run() override { TEST_CASE(isint); TEST_CASE(isbin); TEST_CASE(isdec); TEST_CASE(isoct); TEST_CASE(isFloatHex); TEST_CASE(isIntHex); TEST_CASE(isValidIntegerSuffix); TEST_CASE(isnegative); TEST_CASE(ispositive); TEST_CASE(isFloat); TEST_CASE(isDecimalFloat); TEST_CASE(isGreater) TEST_CASE(isGreaterEqual) TEST_CASE(isEqual) TEST_CASE(isNotEqual) TEST_CASE(isLess) TEST_CASE(isLessEqual) TEST_CASE(calculate); TEST_CASE(calculate1); TEST_CASE(typesuffix); TEST_CASE(toLongNumber); TEST_CASE(toDoubleNumber); TEST_CASE(naninf); TEST_CASE(isNullValue); TEST_CASE(incdec); TEST_CASE(sin); TEST_CASE(cos); TEST_CASE(tan); TEST_CASE(abs); TEST_CASE(toString); TEST_CASE(characterLiteralsNormalization); TEST_CASE(CPP14DigitSeparators); } void isGreater() const { ASSERT_EQUALS(true, MathLib::isGreater("1.0", "0.001")); ASSERT_EQUALS(false, MathLib::isGreater("-1.0", "0.001")); } void isGreaterEqual() const { ASSERT_EQUALS(true, MathLib::isGreaterEqual("1.00", "1.0")); ASSERT_EQUALS(true, MathLib::isGreaterEqual("1.001", "1.0")); ASSERT_EQUALS(true, MathLib::isGreaterEqual("1.0", "0.001")); ASSERT_EQUALS(false, MathLib::isGreaterEqual("-1.0", "0.001")); } void isEqual() const { ASSERT_EQUALS(true, MathLib::isEqual("1.0", "1.0")); ASSERT_EQUALS(false, MathLib::isEqual("1.", "1.01")); ASSERT_EQUALS(true, MathLib::isEqual("0.1","1.0E-1")); } void isNotEqual() const { ASSERT_EQUALS(false, MathLib::isNotEqual("1.0", "1.0")); ASSERT_EQUALS(true, MathLib::isNotEqual("1.", "1.01")); } void isLess() const { ASSERT_EQUALS(false, MathLib::isLess("1.0", "0.001")); ASSERT_EQUALS(true, MathLib::isLess("-1.0", "0.001")); } void isLessEqual() const { ASSERT_EQUALS(true, MathLib::isLessEqual("1.00", "1.0")); ASSERT_EQUALS(false, MathLib::isLessEqual("1.001", "1.0")); ASSERT_EQUALS(false, MathLib::isLessEqual("1.0", "0.001")); ASSERT_EQUALS(true, MathLib::isLessEqual("-1.0", "0.001")); } void calculate() const { // addition ASSERT_EQUALS("256", MathLib::add("0xff", "1")); ASSERT_EQUALS("249", MathLib::add("250", "-1")); ASSERT_EQUALS("251", MathLib::add("250", "1")); ASSERT_EQUALS("-2.0", MathLib::add("-1.", "-1")); ASSERT_EQUALS("-1", MathLib::add("0", "-1")); ASSERT_EQUALS("1", MathLib::add("1", "0")); ASSERT_EQUALS("0.0", MathLib::add("0", "0.")); ASSERT_EQUALS("1.00000001", MathLib::add("1", "0.00000001")); // #4016 ASSERT_EQUALS("30666.22", MathLib::add("30666.22", "0.0")); // #4068 // subtraction ASSERT_EQUALS("254", MathLib::subtract("0xff", "1")); ASSERT_EQUALS("251", MathLib::subtract("250", "-1")); ASSERT_EQUALS("249", MathLib::subtract("250", "1")); ASSERT_EQUALS("0.0", MathLib::subtract("-1.", "-1")); ASSERT_EQUALS("1", MathLib::subtract("0", "-1")); ASSERT_EQUALS("1", MathLib::subtract("1", "0")); ASSERT_EQUALS("0.0", MathLib::subtract("0", "0.")); ASSERT_EQUALS("0.99999999", MathLib::subtract("1", "0.00000001")); // #4016 ASSERT_EQUALS("30666.22", MathLib::subtract("30666.22", "0.0")); // #4068 ASSERT_EQUALS("0.0", MathLib::subtract("0.0", "0.0")); // multiply ASSERT_EQUALS("-0.003", MathLib::multiply("-1e-3", "3")); ASSERT_EQUALS("-11.96", MathLib::multiply("-2.3", "5.2")); ASSERT_EQUALS("3000.0", MathLib::multiply("1E3", "3")); ASSERT_EQUALS("3000.0", MathLib::multiply("1E+3", "3")); ASSERT_EQUALS("3000.0", MathLib::multiply("1.0E3", "3")); ASSERT_EQUALS("-3000.0", MathLib::multiply("-1.0E3", "3")); ASSERT_EQUALS("-3000.0", MathLib::multiply("-1.0E+3", "3")); ASSERT_EQUALS("0.0", MathLib::multiply("+1.0E+3", "0")); ASSERT_EQUALS("2147483648", MathLib::multiply("2","1073741824")); ASSERT_EQUALS("536870912", MathLib::multiply("512","1048576")); // divide ASSERT_EQUALS("1", MathLib::divide("1", "1")); ASSERT_EQUALS("0", MathLib::divide("0", "1")); ASSERT_EQUALS("5", MathLib::divide("-10", "-2")); ASSERT_EQUALS("-2.5", MathLib::divide("-10.", "4")); ASSERT_EQUALS("2.5", MathLib::divide("-10.", "-4")); ASSERT_EQUALS("5.0", MathLib::divide("25.5", "5.1")); ASSERT_EQUALS("7.0", MathLib::divide("21.", "3")); ASSERT_EQUALS("1", MathLib::divide("3", "2")); ASSERT_THROW(MathLib::divide("123", "0"), InternalError); // throw ASSERT_THROW(MathLib::divide("-9223372036854775808", "-1"), InternalError); // #4520 - out of range => throw ASSERT_EQUALS("4611686018427387904", MathLib::divide("-9223372036854775808", "-2")); // #6679 MathLib::divide("123", "0.0"); // don't throw // Unknown action should throw exception ASSERT_THROW(MathLib::calculate("1","2",'j'),InternalError); } void calculate1() const { ASSERT_EQUALS("0", MathLib::calculate("2", "1", '%')); ASSERT_EQUALS("2", MathLib::calculate("12", "5", '%')); ASSERT_EQUALS("1", MathLib::calculate("100", "3", '%')); #ifndef TEST_MATHLIB_VALUE // floating point modulo is not defined in C/C++ ASSERT_EQUALS("0.0", MathLib::calculate("2.0", "1.0", '%')); ASSERT_EQUALS("12.0", MathLib::calculate("12.0", "13.0", '%')); ASSERT_EQUALS("1.3", MathLib::calculate("5.3", "2.0", '%')); ASSERT_EQUALS("1.7", MathLib::calculate("18.5", "4.2", '%')); MathLib::calculate("123", "0.0", '%'); // don't throw #endif ASSERT_THROW(MathLib::calculate("123", "0", '%'), InternalError); // throw ASSERT_EQUALS("0", MathLib::calculate("1", "1", '^')); ASSERT_EQUALS("3", MathLib::calculate("2", "1", '^')); } void typesuffix() const { ASSERT_EQUALS("2", MathLib::add("1", "1")); ASSERT_EQUALS("2U", MathLib::add("1U", "1")); ASSERT_EQUALS("2L", MathLib::add("1L", "1")); ASSERT_EQUALS("2UL", MathLib::add("1UL", "1")); ASSERT_EQUALS("2LL", MathLib::add("1LL", "1")); ASSERT_EQUALS("2LL", MathLib::add("1i64", "1")); ASSERT_EQUALS("2ULL", MathLib::add("1ULL", "1")); ASSERT_EQUALS("2ULL", MathLib::add("1ui64","1")); ASSERT_EQUALS("2U", MathLib::add("1", "1U")); ASSERT_EQUALS("2U", MathLib::add("1U", "1U")); ASSERT_EQUALS("2L", MathLib::add("1L", "1U")); ASSERT_EQUALS("2UL", MathLib::add("1UL", "1U")); ASSERT_EQUALS("2LL", MathLib::add("1LL", "1U")); ASSERT_EQUALS("2ULL", MathLib::add("1ULL", "1U")); ASSERT_EQUALS("2L", MathLib::add("1", "1L")); ASSERT_EQUALS("2L", MathLib::add("1U", "1L")); ASSERT_EQUALS("2L", MathLib::add("1L", "1L")); ASSERT_EQUALS("2UL", MathLib::add("1UL", "1L")); ASSERT_EQUALS("2LL", MathLib::add("1LL", "1L")); ASSERT_EQUALS("2ULL", MathLib::add("1ULL", "1L")); ASSERT_EQUALS("2UL", MathLib::add("1", "1UL")); ASSERT_EQUALS("2UL", MathLib::add("1U", "1UL")); ASSERT_EQUALS("2UL", MathLib::add("1L", "1UL")); ASSERT_EQUALS("2UL", MathLib::add("1UL", "1UL")); ASSERT_EQUALS("2LL", MathLib::add("1LL", "1UL")); ASSERT_EQUALS("2ULL", MathLib::add("1ULL", "1UL")); ASSERT_EQUALS("2UL", MathLib::add("1", "1LU")); ASSERT_EQUALS("2UL", MathLib::add("1U", "1LU")); ASSERT_EQUALS("2UL", MathLib::add("1L", "1LU")); ASSERT_EQUALS("2UL", MathLib::add("1UL", "1LU")); ASSERT_EQUALS("2LL", MathLib::add("1LL", "1LU")); ASSERT_EQUALS("2ULL", MathLib::add("1ULL", "1LU")); ASSERT_EQUALS("2LL", MathLib::add("1", "1LL")); ASSERT_EQUALS("2LL", MathLib::add("1U", "1LL")); ASSERT_EQUALS("2LL", MathLib::add("1L", "1LL")); ASSERT_EQUALS("2LL", MathLib::add("1UL", "1LL")); ASSERT_EQUALS("2LL", MathLib::add("1LL", "1LL")); ASSERT_EQUALS("2ULL", MathLib::add("1ULL", "1LL")); ASSERT_EQUALS("2ULL", MathLib::add("1", "1ULL")); ASSERT_EQUALS("2ULL", MathLib::add("1U", "1ULL")); ASSERT_EQUALS("2ULL", MathLib::add("1L", "1ULL")); ASSERT_EQUALS("2ULL", MathLib::add("1UL", "1ULL")); ASSERT_EQUALS("2ULL", MathLib::add("1LL", "1ULL")); ASSERT_EQUALS("2ULL", MathLib::add("1ULL", "1ULL")); ASSERT_EQUALS("2ULL", MathLib::add("1", "1LLU")); ASSERT_EQUALS("2ULL", MathLib::add("1U", "1LLU")); ASSERT_EQUALS("2ULL", MathLib::add("1L", "1LLU")); ASSERT_EQUALS("2ULL", MathLib::add("1UL", "1LLU")); ASSERT_EQUALS("2ULL", MathLib::add("1LL", "1LLU")); ASSERT_EQUALS("2ULL", MathLib::add("1ULL", "1LLU")); } void toLongNumber() const { // from hex ASSERT_EQUALS(0, MathLib::toLongNumber("0x0")); ASSERT_EQUALS(0, MathLib::toLongNumber("-0x0")); ASSERT_EQUALS(0, MathLib::toLongNumber("+0x0")); ASSERT_EQUALS(10, MathLib::toLongNumber("0xa")); ASSERT_EQUALS(10995, MathLib::toLongNumber("0x2AF3")); ASSERT_EQUALS(-10, MathLib::toLongNumber("-0xa")); ASSERT_EQUALS(-10995, MathLib::toLongNumber("-0x2AF3")); ASSERT_EQUALS(10, MathLib::toLongNumber("+0xa")); ASSERT_EQUALS(10995, MathLib::toLongNumber("+0x2AF3")); // from octal ASSERT_EQUALS(8, MathLib::toLongNumber("010")); ASSERT_EQUALS(8, MathLib::toLongNumber("+010")); ASSERT_EQUALS(-8, MathLib::toLongNumber("-010")); ASSERT_EQUALS(125, MathLib::toLongNumber("0175")); ASSERT_EQUALS(125, MathLib::toLongNumber("+0175")); ASSERT_EQUALS(-125, MathLib::toLongNumber("-0175")); // from binary ASSERT_EQUALS(0, MathLib::toLongNumber("0b0")); ASSERT_EQUALS(1, MathLib::toLongNumber("0b1")); ASSERT_EQUALS(1, MathLib::toLongNumber("+0b1")); ASSERT_EQUALS(-1, MathLib::toLongNumber("-0b1")); ASSERT_EQUALS(215, MathLib::toLongNumber("0b11010111")); ASSERT_EQUALS(-215, MathLib::toLongNumber("-0b11010111")); ASSERT_EQUALS(215, MathLib::toLongNumber("0B11010111")); // from base 10 ASSERT_EQUALS(10, MathLib::toLongNumber("10")); ASSERT_EQUALS(10, MathLib::toLongNumber("10.")); ASSERT_EQUALS(10, MathLib::toLongNumber("10.0")); ASSERT_EQUALS(100, MathLib::toLongNumber("10E+1")); ASSERT_EQUALS(1, MathLib::toLongNumber("10E-1")); ASSERT_EQUALS(100, MathLib::toLongNumber("+10E+1")); ASSERT_EQUALS(-1, MathLib::toLongNumber("-10E-1")); ASSERT_EQUALS(100, MathLib::toLongNumber("+10.E+1")); ASSERT_EQUALS(-1, MathLib::toLongNumber("-10.E-1")); ASSERT_EQUALS(100, MathLib::toLongNumber("+10.0E+1")); ASSERT_EQUALS(-1, MathLib::toLongNumber("-10.0E-1")); // from char ASSERT_EQUALS((int)('A'), MathLib::toLongNumber("'A'")); ASSERT_EQUALS((int)('\x10'), MathLib::toLongNumber("'\\x10'")); ASSERT_EQUALS((int)('\100'), MathLib::toLongNumber("'\\100'")); ASSERT_EQUALS((int)('\200'), MathLib::toLongNumber("'\\200'")); #ifdef __GNUC__ // BEGIN Implementation-specific results ASSERT_EQUALS((int)('AB'), MathLib::toLongNumber("'AB'")); ASSERT_EQUALS((int)('ABC'), MathLib::toLongNumber("'ABC'")); ASSERT_EQUALS((int)('ABCD'), MathLib::toLongNumber("'ABCD'")); ASSERT_EQUALS((int)('ABCDE'), MathLib::toLongNumber("'ABCDE'")); // END Implementation-specific results #endif ASSERT_EQUALS((int)('\0'), MathLib::toLongNumber("'\\0'")); ASSERT_EQUALS(0x1B, MathLib::toLongNumber("'\\e'")); ASSERT_EQUALS((int)('\r'), MathLib::toLongNumber("'\\r'")); ASSERT_EQUALS((int)('\x12'), MathLib::toLongNumber("'\\x12'")); // may cause some compile problems: ASSERT_EQUALS((int)('\x123'), MathLib::toLongNumber("'\\x123'")); // may cause some compile problems: ASSERT_EQUALS((int)('\x1234'), MathLib::toLongNumber("'\\x1234'")); ASSERT_EQUALS((int)('\3'), MathLib::toLongNumber("'\\3'")); ASSERT_EQUALS((int)('\34'), MathLib::toLongNumber("'\\34'")); ASSERT_EQUALS((int)('\034'), MathLib::toLongNumber("'\\034'")); ASSERT_EQUALS((int)('\x34'), MathLib::toLongNumber("'\\x34'")); ASSERT_EQUALS((int)('\134'), MathLib::toLongNumber("'\\134'")); ASSERT_EQUALS((int)('\134t'), MathLib::toLongNumber("'\\134t'")); // Ticket #7452 ASSERT_THROW(MathLib::toLongNumber("'\\9'"), InternalError); ASSERT_THROW(MathLib::toLongNumber("'\\934'"), InternalError); // that is not gcc/clang encoding ASSERT_EQUALS(959657011, MathLib::toLongNumber("'\\u9343'")); ASSERT_EQUALS(1714631779, MathLib::toLongNumber("'\\U0001f34c'")); { // some unit-testing for a utility function ASSERT_EQUALS(0, MathLib::characterLiteralToLongNumber(std::string())); ASSERT_EQUALS(32, MathLib::characterLiteralToLongNumber(std::string(" "))); ASSERT_EQUALS(538976288, MathLib::characterLiteralToLongNumber(std::string(" "))); ASSERT_THROW(MathLib::characterLiteralToLongNumber(std::string("\\u")), InternalError); } ASSERT_EQUALS(-8552249625308161526, MathLib::toLongNumber("0x89504e470d0a1a0a")); ASSERT_EQUALS(-8481036456200365558, MathLib::toLongNumber("0x8a4d4e470d0a1a0a")); ASSERT_EQUALS(9894494448401390090ULL, MathLib::toULongNumber("0x89504e470d0a1a0a")); ASSERT_EQUALS(9965707617509186058ULL, MathLib::toULongNumber("0x8a4d4e470d0a1a0a")); // zero input ASSERT_EQUALS(0, MathLib::toULongNumber("0")); ASSERT_EQUALS(0, MathLib::toULongNumber("-0")); ASSERT_EQUALS(0, MathLib::toULongNumber("+0")); ASSERT_EQUALS(0U, MathLib::toULongNumber("0U")); ASSERT_EQUALS(0, MathLib::toULongNumber("-0x0")); ASSERT_EQUALS(1U, MathLib::toULongNumber("1U")); ASSERT_EQUALS(10000U, MathLib::toULongNumber("1e4")); ASSERT_EQUALS(10000U, MathLib::toULongNumber("1e4")); ASSERT_EQUALS(0xFF00000000000000UL, MathLib::toULongNumber("0xFF00000000000000UL")); ASSERT_EQUALS(0x0A00000000000000UL, MathLib::toULongNumber("0x0A00000000000000UL")); ASSERT_EQUALS(9U, MathLib::toULongNumber("011")); ASSERT_EQUALS(5U, MathLib::toULongNumber("0b101")); // from long long /* * ASSERT_EQUALS(0xFF00000000000000LL, MathLib::toLongNumber("0xFF00000000000000LL")); * This does not work in a portable way! * While it succeeds on 32bit Visual Studio it fails on Linux 64bit because it is greater than 0x7FFFFFFFFFFFFFFF (=LLONG_MAX) */ ASSERT_EQUALS(0x0A00000000000000LL, MathLib::toLongNumber("0x0A00000000000000LL")); } void toDoubleNumber() const { ASSERT_EQUALS_DOUBLE(10.0, MathLib::toDoubleNumber("10"), 0.001); ASSERT_EQUALS_DOUBLE(1000.0, MathLib::toDoubleNumber("10E+2"), 0.001); ASSERT_EQUALS_DOUBLE(100.0, MathLib::toDoubleNumber("1.0E+2"), 0.001); ASSERT_EQUALS_DOUBLE(-100.0, MathLib::toDoubleNumber("-1.0E+2"), 0.001); ASSERT_EQUALS_DOUBLE(-1e+10, MathLib::toDoubleNumber("-1.0E+10"), 1); ASSERT_EQUALS_DOUBLE(100.0, MathLib::toDoubleNumber("+1.0E+2"), 0.001); ASSERT_EQUALS_DOUBLE(1e+10, MathLib::toDoubleNumber("+1.0E+10"), 1); ASSERT_EQUALS_DOUBLE(100.0, MathLib::toDoubleNumber("1.0E+2"), 0.001); ASSERT_EQUALS_DOUBLE(1e+10, MathLib::toDoubleNumber("1.0E+10"), 1); ASSERT_EQUALS_DOUBLE(0.0, MathLib::toDoubleNumber("0E+0"), 0.000001); ASSERT_EQUALS_DOUBLE(0.0, MathLib::toDoubleNumber("0E-0"), 0.000001); ASSERT_EQUALS_DOUBLE(0.0, MathLib::toDoubleNumber("0E+00"), 0.000001); ASSERT_EQUALS_DOUBLE(0.0, MathLib::toDoubleNumber("0E-00"), 0.000001); ASSERT_EQUALS_DOUBLE(0.0, MathLib::toDoubleNumber("-0E+00"), 0.000001); ASSERT_EQUALS_DOUBLE(0.0, MathLib::toDoubleNumber("+0E-00"), 0.000001); ASSERT_EQUALS_DOUBLE(0.0, MathLib::toDoubleNumber("0"), 0.000001); ASSERT_EQUALS_DOUBLE(0.0, MathLib::toDoubleNumber("0."), 0.000001); ASSERT_EQUALS_DOUBLE(0.0, MathLib::toDoubleNumber("0.0"), 0.000001); ASSERT_EQUALS_DOUBLE(0.0, MathLib::toDoubleNumber("-0"), 0.000001); ASSERT_EQUALS_DOUBLE(0.0, MathLib::toDoubleNumber("+0"), 0.000001); ASSERT_EQUALS_DOUBLE(0.0, MathLib::toDoubleNumber("-0."), 0.000001); ASSERT_EQUALS_DOUBLE(0.0, MathLib::toDoubleNumber("+0."), 0.000001); ASSERT_EQUALS_DOUBLE(0.0, MathLib::toDoubleNumber("-0.0"), 0.000001); ASSERT_EQUALS_DOUBLE(0.0, MathLib::toDoubleNumber("+0.0"), 0.000001); ASSERT_EQUALS_DOUBLE('0', MathLib::toDoubleNumber("'0'"), 0.000001); ASSERT_EQUALS_DOUBLE(192, MathLib::toDoubleNumber("0x0.3p10"), 0.000001); ASSERT_EQUALS_DOUBLE(5.42101e-20, MathLib::toDoubleNumber("0x1p-64"), 1e-20); // verify: string --> double --> string conversion ASSERT_EQUALS("1.0", MathLib::toString(MathLib::toDoubleNumber("1.0f"))); ASSERT_EQUALS("1.0", MathLib::toString(MathLib::toDoubleNumber("1.0"))); ASSERT_EQUALS("0.0", MathLib::toString(MathLib::toDoubleNumber("0.0f"))); ASSERT_EQUALS("0.0", MathLib::toString(MathLib::toDoubleNumber("0.0"))); ASSERT_EQUALS("-1.0", MathLib::toString(MathLib::toDoubleNumber("-1.0f"))); ASSERT_EQUALS("-1.0", MathLib::toString(MathLib::toDoubleNumber("-1.0"))); ASSERT_EQUALS("0.0", MathLib::toString(MathLib::toDoubleNumber("-0.0f"))); ASSERT_EQUALS("0.0", MathLib::toString(MathLib::toDoubleNumber("-0.0"))); ASSERT_EQUALS("1.0", MathLib::toString(MathLib::toDoubleNumber("+1.0f"))); ASSERT_EQUALS("1.0", MathLib::toString(MathLib::toDoubleNumber("+1.0"))); ASSERT_EQUALS("0.0", MathLib::toString(MathLib::toDoubleNumber("+0.0f"))); ASSERT_EQUALS("0.0", MathLib::toString(MathLib::toDoubleNumber("+0.0"))); ASSERT_EQUALS("0.0", MathLib::toString(MathLib::toDoubleNumber("-0"))); ASSERT_EQUALS("0.0", MathLib::toString(MathLib::toDoubleNumber("-0."))); ASSERT_EQUALS("0.0", MathLib::toString(MathLib::toDoubleNumber("-0.0"))); } void isint() const { // zero tests ASSERT_EQUALS(true, MathLib::isInt("0")); ASSERT_EQUALS(false, MathLib::isInt("0.")); ASSERT_EQUALS(false, MathLib::isInt("0.0")); ASSERT_EQUALS(false, MathLib::isInt("-0.")); ASSERT_EQUALS(false, MathLib::isInt("+0.")); ASSERT_EQUALS(false, MathLib::isInt("-0.0")); ASSERT_EQUALS(false, MathLib::isInt("+0.0")); ASSERT_EQUALS(false, MathLib::isInt("+0.0E+1")); ASSERT_EQUALS(false, MathLib::isInt("+0.0E-1")); ASSERT_EQUALS(false, MathLib::isInt("-0.0E+1")); ASSERT_EQUALS(false, MathLib::isInt("-0.0E-1")); ASSERT_EQUALS(true, MathLib::isInt("1")); ASSERT_EQUALS(true, MathLib::isInt("-1")); ASSERT_EQUALS(true, MathLib::isInt("+1")); ASSERT_EQUALS(false, MathLib::isInt("+1E+1")); ASSERT_EQUALS(false, MathLib::isInt("+1E+10000")); ASSERT_EQUALS(false, MathLib::isInt("-1E+1")); ASSERT_EQUALS(false, MathLib::isInt("-1E+10000")); ASSERT_EQUALS(false, MathLib::isInt("-1E-1")); ASSERT_EQUALS(false, MathLib::isInt("-1E-10000")); ASSERT_EQUALS(true, MathLib::isInt("0xff")); ASSERT_EQUALS(true, MathLib::isInt("0xa")); ASSERT_EQUALS(true, MathLib::isInt("0b1000")); ASSERT_EQUALS(true, MathLib::isInt("0B1000")); ASSERT_EQUALS(true, MathLib::isInt("0l")); ASSERT_EQUALS(true, MathLib::isInt("0L")); ASSERT_EQUALS(true, MathLib::isInt("0ul")); ASSERT_EQUALS(true, MathLib::isInt("0ull")); ASSERT_EQUALS(true, MathLib::isInt("0llu")); ASSERT_EQUALS(true, MathLib::isInt("333L")); ASSERT_EQUALS(true, MathLib::isInt("330L")); ASSERT_EQUALS(true, MathLib::isInt("330llu")); ASSERT_EQUALS(true, MathLib::isInt("07")); ASSERT_EQUALS(true, MathLib::isInt("0123")); ASSERT_EQUALS(false, MathLib::isInt("0.4")); ASSERT_EQUALS(false, MathLib::isInt("2352.3f")); ASSERT_EQUALS(false, MathLib::isInt("0.00004")); ASSERT_EQUALS(false, MathLib::isInt("2352.00001f")); ASSERT_EQUALS(false, MathLib::isInt(".4")); ASSERT_EQUALS(false, MathLib::isInt("1.0E+1")); ASSERT_EQUALS(false, MathLib::isInt("1.0E-1")); ASSERT_EQUALS(false, MathLib::isInt("-1.0E+1")); ASSERT_EQUALS(false, MathLib::isInt("+1.0E-1")); ASSERT_EQUALS(false, MathLib::isInt("-1.E+1")); ASSERT_EQUALS(false, MathLib::isInt("+1.E-1")); ASSERT_EQUALS(false, MathLib::isInt(" 1.0E+1")); // with whitespace in front ASSERT_EQUALS(false, MathLib::isInt(" 1.0E-1")); ASSERT_EQUALS(false, MathLib::isInt(" -1.0E+1")); ASSERT_EQUALS(false, MathLib::isInt(" +1.0E-1")); ASSERT_EQUALS(false, MathLib::isInt(" -1.E+1")); ASSERT_EQUALS(false, MathLib::isInt(" +1.E-1")); // with whitespace in front and end ASSERT_EQUALS(false, MathLib::isInt(" 1.0E-1 ")); ASSERT_EQUALS(false, MathLib::isInt(" -1.0E+1 ")); ASSERT_EQUALS(false, MathLib::isInt(" +1.0E-1 ")); ASSERT_EQUALS(false, MathLib::isInt(" -1.E+1 ")); ASSERT_EQUALS(false, MathLib::isInt(" +1.E-1 ")); // with whitespace in front and end ASSERT_EQUALS(false, MathLib::isInt("1.0E-1 ")); ASSERT_EQUALS(false, MathLib::isInt("-1.0E+1 ")); ASSERT_EQUALS(false, MathLib::isInt("+1.0E-1 ")); ASSERT_EQUALS(false, MathLib::isInt("-1.E+1 ")); ASSERT_EQUALS(false, MathLib::isInt("+1.E-1 ")); // test some garbage ASSERT_EQUALS(false, MathLib::isInt("u")); ASSERT_EQUALS(false, MathLib::isInt("l")); ASSERT_EQUALS(false, MathLib::isInt("ul")); ASSERT_EQUALS(false, MathLib::isInt("ll")); ASSERT_EQUALS(false, MathLib::isInt("U")); ASSERT_EQUALS(false, MathLib::isInt("L")); ASSERT_EQUALS(false, MathLib::isInt("uL")); ASSERT_EQUALS(false, MathLib::isInt("LL")); ASSERT_EQUALS(false, MathLib::isInt("e2")); ASSERT_EQUALS(false, MathLib::isInt("E2")); ASSERT_EQUALS(false, MathLib::isInt(".e2")); ASSERT_EQUALS(false, MathLib::isInt(".E2")); ASSERT_EQUALS(false, MathLib::isInt("0x")); ASSERT_EQUALS(false, MathLib::isInt("0xu")); ASSERT_EQUALS(false, MathLib::isInt("0xl")); ASSERT_EQUALS(false, MathLib::isInt("0xul")); // test empty string ASSERT_EQUALS(false, MathLib::isInt("")); } void isbin() const { // positive testing ASSERT_EQUALS(true, MathLib::isBin("0b0")); ASSERT_EQUALS(true, MathLib::isBin("0b1")); ASSERT_EQUALS(true, MathLib::isBin("+0b1")); ASSERT_EQUALS(true, MathLib::isBin("-0b1")); ASSERT_EQUALS(true, MathLib::isBin("0b11010111")); ASSERT_EQUALS(true, MathLib::isBin("-0b11010111")); ASSERT_EQUALS(true, MathLib::isBin("0B11010111")); ASSERT_EQUALS(true, MathLib::isBin("0b11010111u")); ASSERT_EQUALS(true, MathLib::isBin("0b11010111ul")); ASSERT_EQUALS(true, MathLib::isBin("0b11010111ull")); ASSERT_EQUALS(true, MathLib::isBin("0b11010111l")); ASSERT_EQUALS(true, MathLib::isBin("0b11010111ll")); ASSERT_EQUALS(true, MathLib::isBin("0b11010111llu")); ASSERT_EQUALS(true, MathLib::isBin("0b11010111l")); ASSERT_EQUALS(true, MathLib::isBin("0b11010111lu")); ASSERT_EQUALS(false, MathLib::isBin("0b11010111lul")); // Suffix LUL not allowed // negative testing ASSERT_EQUALS(false, MathLib::isBin("100101bx")); ASSERT_EQUALS(false, MathLib::isBin("0")); ASSERT_EQUALS(false, MathLib::isBin("0B")); ASSERT_EQUALS(false, MathLib::isBin("0C")); ASSERT_EQUALS(false, MathLib::isBin("+0B")); ASSERT_EQUALS(false, MathLib::isBin("-0B")); ASSERT_EQUALS(false, MathLib::isBin("-0Bx")); ASSERT_EQUALS(false, MathLib::isBin("0b11010111x")); ASSERT_EQUALS(false, MathLib::isBin("0b11010111ux")); ASSERT_EQUALS(false, MathLib::isBin("0b11010111lx")); ASSERT_EQUALS(false, MathLib::isBin("0b11010111lux")); ASSERT_EQUALS(false, MathLib::isBin("0b11010111ulx")); ASSERT_EQUALS(false, MathLib::isBin("0b11010111lulx")); ASSERT_EQUALS(false, MathLib::isBin("0b11010111ullx")); ASSERT_EQUALS(false, MathLib::isBin("0b11010111lll")); // test empty string ASSERT_EQUALS(false, MathLib::isBin("")); } void isnegative() const { ASSERT_EQUALS(true, MathLib::isNegative("-1")); ASSERT_EQUALS(true, MathLib::isNegative("-1.")); ASSERT_EQUALS(true, MathLib::isNegative("-1.0")); ASSERT_EQUALS(true, MathLib::isNegative("-1.0E+2")); ASSERT_EQUALS(true, MathLib::isNegative("-1.0E-2")); ASSERT_EQUALS(false, MathLib::isNegative("+1")); ASSERT_EQUALS(false, MathLib::isNegative("+1.")); ASSERT_EQUALS(false, MathLib::isNegative("+1.0")); ASSERT_EQUALS(false, MathLib::isNegative("+1.0E+2")); ASSERT_EQUALS(false, MathLib::isNegative("+1.0E-2")); // test empty string ASSERT_EQUALS(false, MathLib::isNegative("")); } void isoct() const { // octal number format: [+|-]0[0-7][suffix] // positive testing ASSERT_EQUALS(true, MathLib::isOct("010")); ASSERT_EQUALS(true, MathLib::isOct("+010")); ASSERT_EQUALS(true, MathLib::isOct("-010")); ASSERT_EQUALS(true, MathLib::isOct("0175")); ASSERT_EQUALS(true, MathLib::isOct("+0175")); ASSERT_EQUALS(true, MathLib::isOct("-0175")); ASSERT_EQUALS(true, MathLib::isOct("00")); ASSERT_EQUALS(true, MathLib::isOct("02")); ASSERT_EQUALS(true, MathLib::isOct("+042")); ASSERT_EQUALS(true, MathLib::isOct("-042")); ASSERT_EQUALS(true, MathLib::isOct("+042U")); ASSERT_EQUALS(true, MathLib::isOct("-042U")); ASSERT_EQUALS(true, MathLib::isOct("+042L")); ASSERT_EQUALS(true, MathLib::isOct("-042L")); ASSERT_EQUALS(true, MathLib::isOct("+042LU")); ASSERT_EQUALS(true, MathLib::isOct("-042LU")); ASSERT_EQUALS(true, MathLib::isOct("+042UL")); ASSERT_EQUALS(true, MathLib::isOct("-042UL")); ASSERT_EQUALS(true, MathLib::isOct("+042ULL")); ASSERT_EQUALS(true, MathLib::isOct("-042ULL")); ASSERT_EQUALS(true, MathLib::isOct("+042LLU")); ASSERT_EQUALS(true, MathLib::isOct("-042LLU")); // test empty string ASSERT_EQUALS(false, MathLib::isOct("")); // negative testing ASSERT_EQUALS(false, MathLib::isOct("0")); ASSERT_EQUALS(false, MathLib::isOct("-0x175")); ASSERT_EQUALS(false, MathLib::isOct("-0_garbage_")); ASSERT_EQUALS(false, MathLib::isOct(" ")); ASSERT_EQUALS(false, MathLib::isOct(" ")); ASSERT_EQUALS(false, MathLib::isOct("02.")); ASSERT_EQUALS(false, MathLib::isOct("02E2")); ASSERT_EQUALS(false, MathLib::isOct("+042x")); ASSERT_EQUALS(false, MathLib::isOct("-042x")); ASSERT_EQUALS(false, MathLib::isOct("+042Ux")); ASSERT_EQUALS(false, MathLib::isOct("-042Ux")); ASSERT_EQUALS(false, MathLib::isOct("+042Lx")); ASSERT_EQUALS(false, MathLib::isOct("-042Lx")); ASSERT_EQUALS(false, MathLib::isOct("+042ULx")); ASSERT_EQUALS(false, MathLib::isOct("-042ULx")); ASSERT_EQUALS(false, MathLib::isOct("+042LLx")); ASSERT_EQUALS(false, MathLib::isOct("-042LLx")); ASSERT_EQUALS(false, MathLib::isOct("+042ULLx")); ASSERT_EQUALS(false, MathLib::isOct("-042ULLx")); ASSERT_EQUALS(false, MathLib::isOct("+042LLUx")); ASSERT_EQUALS(false, MathLib::isOct("-042LLUx")); ASSERT_EQUALS(false, MathLib::isOct("+042LUL")); ASSERT_EQUALS(false, MathLib::isOct("-042LUL")); // white space in front ASSERT_EQUALS(false, MathLib::isOct(" -042ULL")); // trailing white space ASSERT_EQUALS(false, MathLib::isOct("-042ULL ")); // front and trailing white space ASSERT_EQUALS(false, MathLib::isOct(" -042ULL ")); ASSERT_EQUALS(false, MathLib::isOct("+042LUL+0")); } void isFloatHex() const { // hex number syntax: [sign]0x[hexnumbers][suffix] ASSERT_EQUALS(false, MathLib::isFloatHex("")); ASSERT_EQUALS(true, MathLib::isFloatHex("0x1.999999999999ap-4")); ASSERT_EQUALS(true, MathLib::isFloatHex("0x0.3p10")); ASSERT_EQUALS(true, MathLib::isFloatHex("0x1.fp3")); ASSERT_EQUALS(true, MathLib::isFloatHex("0x1P-1")); ASSERT_EQUALS(true, MathLib::isFloatHex("0xcc.ccccccccccdp-11")); ASSERT_EQUALS(true, MathLib::isFloatHex("0x3.243F6A88p+03")); ASSERT_EQUALS(true, MathLib::isFloatHex("0xA.Fp-10")); ASSERT_EQUALS(false, MathLib::isFloatHex("0")); ASSERT_EQUALS(false, MathLib::isFloatHex("0x")); ASSERT_EQUALS(false, MathLib::isFloatHex("0xa")); ASSERT_EQUALS(false, MathLib::isFloatHex("+0x")); ASSERT_EQUALS(false, MathLib::isFloatHex("-0x")); ASSERT_EQUALS(false, MathLib::isFloatHex("0x")); ASSERT_EQUALS(false, MathLib::isFloatHex("0x.")); ASSERT_EQUALS(false, MathLib::isFloatHex("0XP")); ASSERT_EQUALS(false, MathLib::isFloatHex("0xx")); } void isIntHex() const { // hex number syntax: [sign]0x[hexnumbers][suffix] // positive testing ASSERT_EQUALS(true, MathLib::isIntHex("0xa")); ASSERT_EQUALS(true, MathLib::isIntHex("0x2AF3")); ASSERT_EQUALS(true, MathLib::isIntHex("-0xa")); ASSERT_EQUALS(true, MathLib::isIntHex("-0x2AF3")); ASSERT_EQUALS(true, MathLib::isIntHex("+0xa")); ASSERT_EQUALS(true, MathLib::isIntHex("+0x2AF3")); ASSERT_EQUALS(true, MathLib::isIntHex("0x0")); ASSERT_EQUALS(true, MathLib::isIntHex("+0x0")); ASSERT_EQUALS(true, MathLib::isIntHex("-0x0")); ASSERT_EQUALS(true, MathLib::isIntHex("+0x0U")); ASSERT_EQUALS(true, MathLib::isIntHex("-0x0U")); ASSERT_EQUALS(true, MathLib::isIntHex("+0x0L")); ASSERT_EQUALS(true, MathLib::isIntHex("-0x0L")); ASSERT_EQUALS(true, MathLib::isIntHex("+0x0LU")); ASSERT_EQUALS(true, MathLib::isIntHex("-0x0LU")); ASSERT_EQUALS(true, MathLib::isIntHex("+0x0UL")); ASSERT_EQUALS(true, MathLib::isIntHex("-0x0UL")); ASSERT_EQUALS(true, MathLib::isIntHex("+0x0LL")); ASSERT_EQUALS(true, MathLib::isIntHex("-0x0LL")); ASSERT_EQUALS(true, MathLib::isIntHex("+0x0ULL")); ASSERT_EQUALS(true, MathLib::isIntHex("-0x0ULL")); ASSERT_EQUALS(true, MathLib::isIntHex("+0x0LLU")); ASSERT_EQUALS(true, MathLib::isIntHex("-0x0LLU")); // negative testing ASSERT_EQUALS(false, MathLib::isIntHex("+0x")); ASSERT_EQUALS(false, MathLib::isIntHex("-0x")); ASSERT_EQUALS(false, MathLib::isIntHex("0x")); ASSERT_EQUALS(false, MathLib::isIntHex("0xx")); ASSERT_EQUALS(false, MathLib::isIntHex("-0175")); ASSERT_EQUALS(false, MathLib::isIntHex("-0_garbage_")); ASSERT_EQUALS(false, MathLib::isIntHex(" ")); ASSERT_EQUALS(false, MathLib::isIntHex(" ")); ASSERT_EQUALS(false, MathLib::isIntHex("0")); ASSERT_EQUALS(false, MathLib::isIntHex("+0x0Z")); ASSERT_EQUALS(false, MathLib::isIntHex("-0x0Z")); ASSERT_EQUALS(false, MathLib::isIntHex("+0x0Uz")); ASSERT_EQUALS(false, MathLib::isIntHex("-0x0Uz")); ASSERT_EQUALS(false, MathLib::isIntHex("+0x0Lz")); ASSERT_EQUALS(false, MathLib::isIntHex("-0x0Lz")); ASSERT_EQUALS(false, MathLib::isIntHex("+0x0LUz")); ASSERT_EQUALS(false, MathLib::isIntHex("-0x0LUz")); ASSERT_EQUALS(false, MathLib::isIntHex("+0x0ULz")); ASSERT_EQUALS(false, MathLib::isIntHex("-0x0ULz")); ASSERT_EQUALS(false, MathLib::isIntHex("+0x0LLz")); ASSERT_EQUALS(false, MathLib::isIntHex("-0x0LLz")); ASSERT_EQUALS(false, MathLib::isIntHex("+0x0ULLz")); ASSERT_EQUALS(false, MathLib::isIntHex("-0x0ULLz")); ASSERT_EQUALS(false, MathLib::isIntHex("+0x0LLUz")); ASSERT_EQUALS(false, MathLib::isIntHex("-0x0LLUz")); ASSERT_EQUALS(false, MathLib::isIntHex("0x0+0")); ASSERT_EQUALS(false, MathLib::isIntHex("e2")); ASSERT_EQUALS(false, MathLib::isIntHex("+E2")); // test empty string ASSERT_EQUALS(false, MathLib::isIntHex("")); } void isValidIntegerSuffix(void) const { // negative testing std::string value = "ux"; ASSERT_EQUALS(false, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "ulx"; ASSERT_EQUALS(false, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "lx"; ASSERT_EQUALS(false, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "lux"; ASSERT_EQUALS(false, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "lll"; ASSERT_EQUALS(false, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "garbage"; ASSERT_EQUALS(false, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value.clear(); ASSERT_EQUALS(false, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "llu "; ASSERT_EQUALS(false, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "i"; ASSERT_EQUALS(false, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "iX"; ASSERT_EQUALS(false, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "i6X"; ASSERT_EQUALS(false, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "i64X"; ASSERT_EQUALS(false, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "i64 "; ASSERT_EQUALS(false, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "i66"; ASSERT_EQUALS(false, MathLib::isValidIntegerSuffix(value.begin(), value.end())); // positive testing value = "u"; ASSERT_EQUALS(true, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "ul"; ASSERT_EQUALS(true, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "ull"; ASSERT_EQUALS(true, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "l"; ASSERT_EQUALS(true, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "lu"; ASSERT_EQUALS(true, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "ll"; ASSERT_EQUALS(true, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "llu"; ASSERT_EQUALS(true, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "i64"; ASSERT_EQUALS(true, MathLib::isValidIntegerSuffix(value.begin(), value.end())); value = "ui64"; ASSERT_EQUALS(true, MathLib::isValidIntegerSuffix(value.begin(), value.end())); } void ispositive() const { ASSERT_EQUALS(false, MathLib::isPositive("-1")); ASSERT_EQUALS(false, MathLib::isPositive("-1.")); ASSERT_EQUALS(false, MathLib::isPositive("-1.0")); ASSERT_EQUALS(false, MathLib::isPositive("-1.0E+2")); ASSERT_EQUALS(false, MathLib::isPositive("-1.0E-2")); ASSERT_EQUALS(true, MathLib::isPositive("+1")); ASSERT_EQUALS(true, MathLib::isPositive("+1.")); ASSERT_EQUALS(true, MathLib::isPositive("+1.0")); ASSERT_EQUALS(true, MathLib::isPositive("+1.0E+2")); ASSERT_EQUALS(true, MathLib::isPositive("+1.0E-2")); // test empty string ASSERT_EQUALS(false, MathLib::isPositive("")); // "" is neither positive nor negative } void isFloat() const { ASSERT_EQUALS(false, MathLib::isFloat("")); ASSERT_EQUALS(true, MathLib::isFloat("0.f")); ASSERT_EQUALS(true, MathLib::isFloat("0.f")); ASSERT_EQUALS(true, MathLib::isFloat("0xA.Fp-10")); } void isDecimalFloat() const { ASSERT_EQUALS(false, MathLib::isDecimalFloat("")); ASSERT_EQUALS(false, MathLib::isDecimalFloat(".")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("...")); ASSERT_EQUALS(false, MathLib::isDecimalFloat(".e")); ASSERT_EQUALS(false, MathLib::isDecimalFloat(".E")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("+E.")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("+e.")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("-E.")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("-e.")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("-X")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("+X")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("-.")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("-.")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("-")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("+")); ASSERT_EQUALS(false, MathLib::isDecimalFloat(" ")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("0")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("0 ")); ASSERT_EQUALS(false, MathLib::isDecimalFloat(" 0 ")); ASSERT_EQUALS(false, MathLib::isDecimalFloat(" 0")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("0.")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("0.f")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("0.F")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("0.l")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("0.L")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("0. ")); ASSERT_EQUALS(false, MathLib::isDecimalFloat(" 0. ")); ASSERT_EQUALS(false, MathLib::isDecimalFloat(" 0.")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("0..")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("..0..")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("..0")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("0.0")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("0.0f")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("0.0F")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("0.0l")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("0.0L")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("-0.")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+0.")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("-0.0")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+0.0")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("0E0")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+0E0")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+0E0")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+0E+0")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+0E-0")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("-0E+0")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("-0E-0")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+0.0E+1")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+0.0E-1")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("-0.0E+1")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("-0.0E-1")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("1")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("-1")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("+1")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+1e+1")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+1E+1")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+1E+100")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+1E+100f")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+1E+100F")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+1E+100l")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+1E+100L")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+1E+007")); // to be sure about #5485 ASSERT_EQUALS(true, MathLib::isDecimalFloat("+1E+001f")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+1E+001F")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+1E+001l")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+1E+001L")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+1E+10000")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("-1E+1")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("-1E+10000")); ASSERT_EQUALS(true, MathLib::isDecimalFloat(".1250E+04")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("-1E-1")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("-1E-10000")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+1.23e+01")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("+1.23E+01")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("+1e+x")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("+1E+X")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("+1E+001lX")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("+1E+001LX")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("+1E+001f2")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("+1E+001F2")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("+1e+003x")); ASSERT_EQUALS(false, MathLib::isDecimalFloat("+1E+003X")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("0.4")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("2352.3f")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("2352.3F")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("2352.3l")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("2352.3L")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("0.00004")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("2352.00001f")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("2352.00001F")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("2352.00001l")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("2352.00001L")); ASSERT_EQUALS(true, MathLib::isDecimalFloat(".4")); ASSERT_EQUALS(true, MathLib::isDecimalFloat(".3e2")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("1.0E+1")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("1.0E-1")); ASSERT_EQUALS(true, MathLib::isDecimalFloat("-1.0E+1")); } void naninf() const { ASSERT_EQUALS("nan.0", MathLib::divide("0.0", "0.0")); // nan ASSERT_EQUALS("nan.0", MathLib::divide("0.0", "0.f")); // nan (#5875) ASSERT_EQUALS("nan.0", MathLib::divide("-0.0", "0.f")); // nan (#5875) ASSERT_EQUALS("nan.0", MathLib::divide("-0.f", "0.f")); // nan (#5875) ASSERT_EQUALS("nan.0", MathLib::divide("-0.0", "-0.f")); // nan (#5875) ASSERT_EQUALS("nan.0", MathLib::divide("-.0", "-0.f")); // nan (#5875) ASSERT_EQUALS("nan.0", MathLib::divide("0.0", "-0.f")); // nan (#5875) ASSERT_EQUALS("nan.0", MathLib::divide("0.f", "-0.f")); // nan (#5875) ASSERT_EQUALS("inf.0", MathLib::divide("3.0", "0.0")); // inf ASSERT_EQUALS("inf.0", MathLib::divide("3.0", "0.f")); // inf (#5875) ASSERT_EQUALS("-inf.0", MathLib::divide("-3.0", "0.0")); // -inf (#5142) ASSERT_EQUALS("-inf.0", MathLib::divide("-3.0", "0.0f")); // -inf (#5142) ASSERT_EQUALS("-inf.0", MathLib::divide("-3.0", "-0.0f")); // inf (#5142) } void isdec(void) const { // positive testing ASSERT_EQUALS(true, MathLib::isDec("1")); ASSERT_EQUALS(true, MathLib::isDec("+1")); ASSERT_EQUALS(true, MathLib::isDec("-1")); ASSERT_EQUALS(true, MathLib::isDec("-100")); ASSERT_EQUALS(true, MathLib::isDec("-1L")); ASSERT_EQUALS(true, MathLib::isDec("1UL")); // negative testing ASSERT_EQUALS(false, MathLib::isDec("-1.")); ASSERT_EQUALS(false, MathLib::isDec("+1.")); ASSERT_EQUALS(false, MathLib::isDec("-x")); ASSERT_EQUALS(false, MathLib::isDec("+x")); ASSERT_EQUALS(false, MathLib::isDec("x")); } void isNullValue() const { // inter zero value ASSERT_EQUALS(true, MathLib::isNullValue("0")); ASSERT_EQUALS(true, MathLib::isNullValue("+0")); ASSERT_EQUALS(true, MathLib::isNullValue("-0")); // inter zero value (octal) ASSERT_EQUALS(true, MathLib::isNullValue("00")); ASSERT_EQUALS(true, MathLib::isNullValue("+00")); ASSERT_EQUALS(true, MathLib::isNullValue("-00")); // inter zero value (hex) ASSERT_EQUALS(true, MathLib::isNullValue("0x0")); ASSERT_EQUALS(true, MathLib::isNullValue("+0x0")); ASSERT_EQUALS(true, MathLib::isNullValue("-0x0")); // unsigned integer zero value ASSERT_EQUALS(true, MathLib::isNullValue("0U")); ASSERT_EQUALS(true, MathLib::isNullValue("+0U")); ASSERT_EQUALS(true, MathLib::isNullValue("-0U")); // long integer zero value ASSERT_EQUALS(true, MathLib::isNullValue("0L")); ASSERT_EQUALS(true, MathLib::isNullValue("+0L")); ASSERT_EQUALS(true, MathLib::isNullValue("-0L")); // unsigned long integer zero value ASSERT_EQUALS(true, MathLib::isNullValue("0UL")); ASSERT_EQUALS(true, MathLib::isNullValue("+0UL")); ASSERT_EQUALS(true, MathLib::isNullValue("-0UL")); // unsigned long integer zero value ASSERT_EQUALS(true, MathLib::isNullValue("0LU")); ASSERT_EQUALS(true, MathLib::isNullValue("+0LU")); ASSERT_EQUALS(true, MathLib::isNullValue("-0LU")); // long long integer zero value ASSERT_EQUALS(true, MathLib::isNullValue("0LL")); ASSERT_EQUALS(true, MathLib::isNullValue("+0LL")); ASSERT_EQUALS(true, MathLib::isNullValue("-0LL")); // long long unsigned zero value ASSERT_EQUALS(true, MathLib::isNullValue("0LLU")); ASSERT_EQUALS(true, MathLib::isNullValue("+0LLU")); ASSERT_EQUALS(true, MathLib::isNullValue("-0LLU")); // unsigned long long zero value ASSERT_EQUALS(true, MathLib::isNullValue("0ULL")); ASSERT_EQUALS(true, MathLib::isNullValue("+0ULL")); ASSERT_EQUALS(true, MathLib::isNullValue("-0ULL")); // floating pointer zero value (no trailing zero after dot) ASSERT_EQUALS(true, MathLib::isNullValue("0.")); ASSERT_EQUALS(true, MathLib::isNullValue("+0.")); ASSERT_EQUALS(true, MathLib::isNullValue("-0.")); // floating pointer zero value (1 trailing zero after dot) ASSERT_EQUALS(true, MathLib::isNullValue("0.0")); ASSERT_EQUALS(true, MathLib::isNullValue("+0.0")); ASSERT_EQUALS(true, MathLib::isNullValue("-0.0")); // floating pointer zero value (3 trailing zeros after dot) ASSERT_EQUALS(true, MathLib::isNullValue("0.000")); ASSERT_EQUALS(true, MathLib::isNullValue("+0.000")); ASSERT_EQUALS(true, MathLib::isNullValue("-0.000")); // floating pointer zero value (no trailing zero after dot) ASSERT_EQUALS(true, MathLib::isNullValue("00.")); ASSERT_EQUALS(true, MathLib::isNullValue("+00.")); ASSERT_EQUALS(true, MathLib::isNullValue("-00.")); // floating pointer zero value (1 trailing zero after dot) ASSERT_EQUALS(true, MathLib::isNullValue("00.0")); ASSERT_EQUALS(true, MathLib::isNullValue("+00.0")); ASSERT_EQUALS(true, MathLib::isNullValue("-00.0")); // floating pointer zero value (3 trailing zero after dot) ASSERT_EQUALS(true, MathLib::isNullValue("00.000")); ASSERT_EQUALS(true, MathLib::isNullValue("+00.000")); ASSERT_EQUALS(true, MathLib::isNullValue("-00.000")); // floating pointer zero value (3 trailing zero after dot) ASSERT_EQUALS(true, MathLib::isNullValue(".000")); // integer scientific notation ASSERT_EQUALS(true, MathLib::isNullValue("0E0")); ASSERT_EQUALS(true, MathLib::isNullValue("+0E0")); ASSERT_EQUALS(true, MathLib::isNullValue("-0E0")); // integer scientific notation ASSERT_EQUALS(true, MathLib::isNullValue("0E1")); ASSERT_EQUALS(true, MathLib::isNullValue("+0E1")); ASSERT_EQUALS(true, MathLib::isNullValue("-0E1")); // integer scientific notation ASSERT_EQUALS(true, MathLib::isNullValue("0E42")); ASSERT_EQUALS(true, MathLib::isNullValue("+0E42")); ASSERT_EQUALS(true, MathLib::isNullValue("-0E42")); // integer scientific notation ASSERT_EQUALS(true, MathLib::isNullValue("0E429999")); ASSERT_EQUALS(true, MathLib::isNullValue("+0E429999")); ASSERT_EQUALS(true, MathLib::isNullValue("-0E429999")); // integer scientific notation ASSERT_EQUALS(true, MathLib::isNullValue("0E+1")); ASSERT_EQUALS(true, MathLib::isNullValue("+0E+1")); ASSERT_EQUALS(true, MathLib::isNullValue("-0E+1")); // integer scientific notation ASSERT_EQUALS(true, MathLib::isNullValue("0E+42")); ASSERT_EQUALS(true, MathLib::isNullValue("+0E+42")); ASSERT_EQUALS(true, MathLib::isNullValue("-0E+42")); // integer scientific notation ASSERT_EQUALS(true, MathLib::isNullValue("0E+429999")); ASSERT_EQUALS(true, MathLib::isNullValue("+0E+429999")); ASSERT_EQUALS(true, MathLib::isNullValue("-0E+429999")); // integer scientific notation ASSERT_EQUALS(true, MathLib::isNullValue("0E-1")); ASSERT_EQUALS(true, MathLib::isNullValue("+0E-1")); ASSERT_EQUALS(true, MathLib::isNullValue("-0E-1")); // integer scientific notation ASSERT_EQUALS(true, MathLib::isNullValue("0E-42")); ASSERT_EQUALS(true, MathLib::isNullValue("+0E-42")); ASSERT_EQUALS(true, MathLib::isNullValue("-0E-42")); // integer scientific notation ASSERT_EQUALS(true, MathLib::isNullValue("0E-429999")); ASSERT_EQUALS(true, MathLib::isNullValue("+0E-429999")); ASSERT_EQUALS(true, MathLib::isNullValue("-0E-429999")); // floating point scientific notation ASSERT_EQUALS(true, MathLib::isNullValue("0.E0")); ASSERT_EQUALS(true, MathLib::isNullValue("+0.E0")); ASSERT_EQUALS(true, MathLib::isNullValue("-0.E0")); // floating point scientific notation ASSERT_EQUALS(true, MathLib::isNullValue("0.E-0")); ASSERT_EQUALS(true, MathLib::isNullValue("+0.E-0")); ASSERT_EQUALS(true, MathLib::isNullValue("-0.E+0")); // floating point scientific notation ASSERT_EQUALS(true, MathLib::isNullValue("0.E+0")); ASSERT_EQUALS(true, MathLib::isNullValue("+0.E+0")); ASSERT_EQUALS(true, MathLib::isNullValue("-0.E+0")); // floating point scientific notation ASSERT_EQUALS(true, MathLib::isNullValue("0.00E-0")); ASSERT_EQUALS(true, MathLib::isNullValue("+0.00E-0")); ASSERT_EQUALS(true, MathLib::isNullValue("-0.00E-0")); // floating point scientific notation ASSERT_EQUALS(true, MathLib::isNullValue("00000.00E-000000000")); ASSERT_EQUALS(true, MathLib::isNullValue("+00000.00E-000000000")); ASSERT_EQUALS(true, MathLib::isNullValue("-00000.00E-000000000")); // floating point scientific notation (suffix f) ASSERT_EQUALS(true, MathLib::isNullValue("0.f")); ASSERT_EQUALS(true, MathLib::isNullValue("+0.f")); ASSERT_EQUALS(true, MathLib::isNullValue("-0.f")); // floating point scientific notation (suffix f) ASSERT_EQUALS(true, MathLib::isNullValue("0.0f")); ASSERT_EQUALS(true, MathLib::isNullValue("+0.0f")); ASSERT_EQUALS(true, MathLib::isNullValue("-0.0f")); // floating point scientific notation (suffix f) ASSERT_EQUALS(true, MathLib::isNullValue("00.0f")); ASSERT_EQUALS(true, MathLib::isNullValue("+00.0f")); ASSERT_EQUALS(true, MathLib::isNullValue("-00.0f")); // floating point scientific notation (suffix f) ASSERT_EQUALS(true, MathLib::isNullValue("00.00f")); ASSERT_EQUALS(true, MathLib::isNullValue("+00.00f")); ASSERT_EQUALS(true, MathLib::isNullValue("-00.00f")); // floating point scientific notation (suffix f) ASSERT_EQUALS(true, MathLib::isNullValue("00.00E+1f")); ASSERT_EQUALS(true, MathLib::isNullValue("+00.00E+1f")); ASSERT_EQUALS(true, MathLib::isNullValue("-00.00E+1f")); // binary numbers ASSERT_EQUALS(true, MathLib::isNullValue("0b00")); ASSERT_EQUALS(true, MathLib::isNullValue("+0b00")); ASSERT_EQUALS(true, MathLib::isNullValue("-0b00")); // binary numbers (long) ASSERT_EQUALS(true, MathLib::isNullValue("0b00L")); ASSERT_EQUALS(true, MathLib::isNullValue("+0b00L")); ASSERT_EQUALS(true, MathLib::isNullValue("-0b00L")); // negative testing ASSERT_EQUALS(false, MathLib::isNullValue("0.1")); ASSERT_EQUALS(false, MathLib::isNullValue("1.0")); ASSERT_EQUALS(false, MathLib::isNullValue("0.01")); ASSERT_EQUALS(false, MathLib::isNullValue("-00.01e-12")); ASSERT_EQUALS(false, MathLib::isNullValue("-00.01e+12")); ASSERT_EQUALS(false, MathLib::isNullValue("")); ASSERT_EQUALS(false, MathLib::isNullValue(" ")); ASSERT_EQUALS(false, MathLib::isNullValue("x")); ASSERT_EQUALS(false, MathLib::isNullValue("garbage")); ASSERT_EQUALS(false, MathLib::isNullValue("UL")); } void incdec() const { // increment { const MathLib::biguint num = ~10U; const std::string op = "++"; const std::string strNum = MathLib::incdec(MathLib::toString(num), op); const MathLib::biguint incrementedNum = MathLib::toULongNumber(strNum); ASSERT_EQUALS(num + 1U, incrementedNum); } // decrement { const MathLib::biguint num = ~10U; const std::string op = "--"; const std::string strNum = MathLib::incdec(MathLib::toString(num), op); const MathLib::biguint decrementedNum = MathLib::toULongNumber(strNum); ASSERT_EQUALS(num - 1U, decrementedNum); } // invalid operation ASSERT_THROW(MathLib::incdec("1", "x"), InternalError); // throw } void sin() const { ASSERT_EQUALS("0.0", MathLib::sin("0")); } void cos() const { ASSERT_EQUALS("1.0", MathLib::cos("0")); } void tan() const { ASSERT_EQUALS("0.0", MathLib::tan("0")); } void abs() const { ASSERT_EQUALS("0.0", MathLib::abs("0")); ASSERT_EQUALS("0.0", MathLib::abs("+0")); ASSERT_EQUALS("0.0", MathLib::abs("-0")); ASSERT_EQUALS("1.0", MathLib::abs("+1")); ASSERT_EQUALS("1.0", MathLib::abs("+1.0")); ASSERT_EQUALS("1.0", MathLib::abs("-1")); ASSERT_EQUALS("1.0", MathLib::abs("-1.0")); } void toString() const { ASSERT_EQUALS("0.0", MathLib::toString(0.0)); ASSERT_EQUALS("0.0", MathLib::toString(+0.0)); ASSERT_EQUALS("0.0", MathLib::toString(-0.0)); // float (trailing f or F) ASSERT_EQUALS("0", MathLib::toString(+0.0f)); ASSERT_EQUALS("-0", MathLib::toString(-0.0F)); // double (tailing l or L) ASSERT_EQUALS("0", MathLib::toString(+0.0l)); ASSERT_EQUALS("-0", MathLib::toString(-0.0L)); } void characterLiteralsNormalization() const { // `A` is 0x41 and 0101 ASSERT_EQUALS("A", MathLib::normalizeCharacterLiteral("\\x41")); ASSERT_EQUALS("A", MathLib::normalizeCharacterLiteral("\\101")); // Hexa and octal numbers should not only be interpreted in byte 1 ASSERT_EQUALS("TESTATEST", MathLib::normalizeCharacterLiteral("TEST\\x41TEST")); ASSERT_EQUALS("TESTATEST", MathLib::normalizeCharacterLiteral("TEST\\101TEST")); ASSERT_EQUALS("TESTTESTA", MathLib::normalizeCharacterLiteral("TESTTEST\\x41")); ASSERT_EQUALS("TESTTESTA", MathLib::normalizeCharacterLiteral("TESTTEST\\101")); // Single escape sequences ASSERT_EQUALS("\?", MathLib::normalizeCharacterLiteral("\\?")); ASSERT_EQUALS("\'", MathLib::normalizeCharacterLiteral("\\'")); // Incomplete hexa and octal sequences ASSERT_THROW(MathLib::normalizeCharacterLiteral("\\"), InternalError); ASSERT_THROW(MathLib::normalizeCharacterLiteral("\\x"), InternalError); // No octal digit in an octal sequence ASSERT_THROW(MathLib::normalizeCharacterLiteral("\\9"), InternalError); // Unsupported single escape sequence ASSERT_THROW(MathLib::normalizeCharacterLiteral("\\c"), InternalError); } void CPP14DigitSeparators() const { // Ticket #7137, #7565 ASSERT(MathLib::isDigitSeparator("'", 0) == false); ASSERT(MathLib::isDigitSeparator("123'0;", 3)); ASSERT(MathLib::isDigitSeparator("foo(1'2);", 5)); ASSERT(MathLib::isDigitSeparator("foo(1,1'2);", 7)); ASSERT(MathLib::isDigitSeparator("int a=1'234-1'2-'0';", 7)); ASSERT(MathLib::isDigitSeparator("int a=1'234-1'2-'0';", 13)); ASSERT(MathLib::isDigitSeparator("int a=1'234-1'2-'0';", 16) == false); ASSERT(MathLib::isDigitSeparator("int b=1+9'8;", 9)); ASSERT(MathLib::isDigitSeparator("if (1'2) { char c = 'c'; }", 5)); ASSERT(MathLib::isDigitSeparator("if (120%1'2) { char c = 'c'; }", 9)); ASSERT(MathLib::isDigitSeparator("if (120&1'2) { char c = 'c'; }", 9)); ASSERT(MathLib::isDigitSeparator("if (120|1'2) { char c = 'c'; }", 9)); ASSERT(MathLib::isDigitSeparator("if (120%1'2) { char c = 'c'; }", 24) == false); ASSERT(MathLib::isDigitSeparator("if (120%1'2) { char c = 'c'; }", 26) == false); ASSERT(MathLib::isDigitSeparator("0b0000001'0010'01110", 14)); } }; REGISTER_TEST(TestMathLib)