/* * Copyright (C) 2011, 2015 Apple Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS'' * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include namespace TestWebKitAPI { class OverflowCrashLogger { protected: void overflowed() { m_overflowCount++; } void clearOverflow() { m_overflowCount = 0; } static void crash() { s_didCrash = true; } public: void reset() { m_overflowCount = 0; s_didCrash = false; } bool hasOverflowed() const { return m_overflowCount > 0; } int overflowCount() const { return m_overflowCount; } bool didCrash() const { return s_didCrash; } private: int m_overflowCount { 0 }; static bool s_didCrash; }; bool OverflowCrashLogger::s_didCrash = false; template static void resetOverflow(Checked& value) { value.reset(); value = 100; value *= std::numeric_limits::max(); } #define CheckedArithmeticTest(type, Coercer, MixedSignednessTester) \ TEST(WTF, Checked_##type) \ { \ typedef Coercer CoercerType; \ typedef MixedSignednessTester MixedSignednessTesterType; \ CheckedArithmeticTester::run(); \ } #define coerceLiteral(x) Coercer::coerce(x) template class CheckedArithmeticTester { public: static void run() { Checked value; EXPECT_EQ(coerceLiteral(0), value.unsafeGet()); EXPECT_EQ(std::numeric_limits::max(), (value + std::numeric_limits::max()).unsafeGet()); EXPECT_EQ(std::numeric_limits::max(), (std::numeric_limits::max() + value).unsafeGet()); EXPECT_EQ(std::numeric_limits::min(), (value + std::numeric_limits::min()).unsafeGet()); EXPECT_EQ(std::numeric_limits::min(), (std::numeric_limits::min() + value).unsafeGet()); EXPECT_EQ(coerceLiteral(0), (value * coerceLiteral(0)).unsafeGet()); EXPECT_EQ(coerceLiteral(0), (coerceLiteral(0) * value).unsafeGet()); EXPECT_EQ(coerceLiteral(0), (value * value).unsafeGet()); EXPECT_EQ(coerceLiteral(0), (value - coerceLiteral(0)).unsafeGet()); EXPECT_EQ(coerceLiteral(0), (coerceLiteral(0) - value).unsafeGet()); EXPECT_EQ(coerceLiteral(0), (value - value).unsafeGet()); EXPECT_EQ(coerceLiteral(0), (value++).unsafeGet()); EXPECT_EQ(coerceLiteral(1), (value--).unsafeGet()); EXPECT_EQ(coerceLiteral(1), (++value).unsafeGet()); EXPECT_EQ(coerceLiteral(0), (--value).unsafeGet()); EXPECT_EQ(coerceLiteral(10), (value += coerceLiteral(10)).unsafeGet()); EXPECT_EQ(coerceLiteral(10), value.unsafeGet()); EXPECT_EQ(coerceLiteral(100), (value *= coerceLiteral(10)).unsafeGet()); EXPECT_EQ(coerceLiteral(100), value.unsafeGet()); EXPECT_EQ(coerceLiteral(0), (value -= coerceLiteral(100)).unsafeGet()); EXPECT_EQ(coerceLiteral(0), value.unsafeGet()); value = 10; EXPECT_EQ(coerceLiteral(10), value.unsafeGet()); EXPECT_EQ(coerceLiteral(0), (value - coerceLiteral(10)).unsafeGet()); EXPECT_EQ(coerceLiteral(10), value.unsafeGet()); value = std::numeric_limits::min(); EXPECT_EQ(true, (Checked(value - coerceLiteral(1))).hasOverflowed()); EXPECT_EQ(true, !((value--).hasOverflowed())); EXPECT_EQ(true, value.hasOverflowed()); value = std::numeric_limits::max(); EXPECT_EQ(true, !value.hasOverflowed()); EXPECT_EQ(true, (Checked(value + coerceLiteral(1))).hasOverflowed()); EXPECT_EQ(true, !(value++).hasOverflowed()); EXPECT_EQ(true, value.hasOverflowed()); value = std::numeric_limits::max(); EXPECT_EQ(true, (value += coerceLiteral(1)).hasOverflowed()); EXPECT_EQ(true, value.hasOverflowed()); value = 10; type _value = 0; EXPECT_EQ(true, CheckedState::DidNotOverflow == (value * Checked(0)).safeGet(_value)); _value = 0; EXPECT_EQ(true, CheckedState::DidNotOverflow == (Checked(0) * value).safeGet(_value)); _value = 0; EXPECT_EQ(true, CheckedState::DidOverflow == (value * Checked(std::numeric_limits::max())).safeGet(_value)); _value = 0; EXPECT_EQ(true, CheckedState::DidOverflow == (Checked(std::numeric_limits::max()) * value).safeGet(_value)); value = 0; _value = 0; EXPECT_EQ(true, CheckedState::DidNotOverflow == (value * Checked(std::numeric_limits::max())).safeGet(_value)); _value = 0; EXPECT_EQ(true, CheckedState::DidNotOverflow == (Checked(std::numeric_limits::max()) * value).safeGet(_value)); value = 1; _value = 0; EXPECT_EQ(true, CheckedState::DidNotOverflow == (value * Checked(std::numeric_limits::max())).safeGet(_value)); _value = 0; EXPECT_EQ(true, CheckedState::DidNotOverflow == (Checked(std::numeric_limits::max()) * value).safeGet(_value)); _value = 0; value = 0; EXPECT_EQ(true, CheckedState::DidNotOverflow == (value * Checked(std::numeric_limits::max())).safeGet(_value)); _value = 0; EXPECT_EQ(true, CheckedState::DidNotOverflow == (Checked(std::numeric_limits::max()) * (type)0).safeGet(_value)); _value = 0; value = 1; EXPECT_EQ(true, CheckedState::DidNotOverflow == (value * Checked(std::numeric_limits::max())).safeGet(_value)); _value = 0; EXPECT_EQ(true, CheckedState::DidNotOverflow == (Checked(std::numeric_limits::max()) * (type)1).safeGet(_value)); _value = 0; value = 2; EXPECT_EQ(true, CheckedState::DidOverflow == (value * Checked(std::numeric_limits::max())).safeGet(_value)); _value = 0; EXPECT_EQ(true, CheckedState::DidOverflow == (Checked(std::numeric_limits::max()) * (type)2).safeGet(_value)); value = 10; EXPECT_EQ(true, (value * Checked(std::numeric_limits::max())).hasOverflowed()); Checked nvalue; // to hold a not overflowed value. Checked ovalue; // to hold an overflowed value. bool unused; _value = 75; type _largeValue = 100; type _smallValue = 50; value = _smallValue; nvalue = _value; ovalue = _value; // Make sure the OverflowCrashLogger is working as expected. EXPECT_EQ(false, (ovalue.hasOverflowed())); EXPECT_EQ(true, (resetOverflow(ovalue), ovalue.hasOverflowed())); EXPECT_EQ(false, (resetOverflow(ovalue), ovalue.didCrash())); EXPECT_EQ(true, (unused = (ovalue == ovalue), ovalue.didCrash())); EXPECT_EQ(false, (resetOverflow(ovalue), ovalue.didCrash())); EXPECT_EQ(false, nvalue.hasOverflowed()); EXPECT_EQ(false, nvalue.didCrash()); // Test operator== that should not overflow nor crash. EXPECT_EQ(true, (nvalue == nvalue)); EXPECT_EQ(true, (nvalue == Checked(_value))); EXPECT_EQ(false, (nvalue == value)); EXPECT_EQ(true, (nvalue == _value)); EXPECT_EQ(false, (nvalue == Checked(std::numeric_limits::max()))); EXPECT_EQ(false, (nvalue == std::numeric_limits::max())); EXPECT_EQ(false, nvalue.hasOverflowed()); EXPECT_EQ(false, nvalue.didCrash()); // Test operator!= that should not overflow nor crash. EXPECT_EQ(false, (nvalue != nvalue)); EXPECT_EQ(false, (nvalue != Checked(_value))); EXPECT_EQ(true, (nvalue != value)); EXPECT_EQ(false, (nvalue != _value)); EXPECT_EQ(true, (nvalue != Checked(std::numeric_limits::max()))); EXPECT_EQ(true, (nvalue != std::numeric_limits::max())); EXPECT_EQ(false, nvalue.hasOverflowed()); EXPECT_EQ(false, nvalue.didCrash()); // Test operator< that should not overflow nor crash. EXPECT_EQ(false, (nvalue < nvalue)); EXPECT_EQ(false, (nvalue < value)); EXPECT_EQ(true, (nvalue < Checked(_largeValue))); EXPECT_EQ(false, (nvalue < Checked(_value))); EXPECT_EQ(false, (nvalue < Checked(_smallValue))); EXPECT_EQ(true, (nvalue < _largeValue)); EXPECT_EQ(false, (nvalue < _value)); EXPECT_EQ(false, (nvalue < _smallValue)); EXPECT_EQ(true, (nvalue < Checked(std::numeric_limits::max()))); EXPECT_EQ(true, (nvalue < std::numeric_limits::max())); EXPECT_EQ(false, nvalue.hasOverflowed()); EXPECT_EQ(false, nvalue.didCrash()); // Test operator<= that should not overflow nor crash. EXPECT_EQ(true, (nvalue <= nvalue)); EXPECT_EQ(false, (nvalue <= value)); EXPECT_EQ(true, (nvalue <= Checked(_largeValue))); EXPECT_EQ(true, (nvalue <= Checked(_value))); EXPECT_EQ(false, (nvalue <= Checked(_smallValue))); EXPECT_EQ(true, (nvalue <= _largeValue)); EXPECT_EQ(true, (nvalue <= _value)); EXPECT_EQ(false, (nvalue <= _smallValue)); EXPECT_EQ(true, (nvalue <= Checked(std::numeric_limits::max()))); EXPECT_EQ(true, (nvalue <= std::numeric_limits::max())); EXPECT_EQ(false, nvalue.hasOverflowed()); EXPECT_EQ(false, nvalue.didCrash()); // Test operator> that should not overflow nor crash. EXPECT_EQ(false, (nvalue > nvalue)); EXPECT_EQ(true, (nvalue > value)); EXPECT_EQ(false, (nvalue > Checked(_largeValue))); EXPECT_EQ(false, (nvalue > Checked(_value))); EXPECT_EQ(true, (nvalue > Checked(_smallValue))); EXPECT_EQ(false, (nvalue > _largeValue)); EXPECT_EQ(false, (nvalue > _value)); EXPECT_EQ(true, (nvalue > _smallValue)); EXPECT_EQ(false, (nvalue > Checked(std::numeric_limits::max()))); EXPECT_EQ(false, (nvalue > std::numeric_limits::max())); EXPECT_EQ(false, nvalue.hasOverflowed()); EXPECT_EQ(false, nvalue.didCrash()); // Test operator>= that should not overflow nor crash. EXPECT_EQ(true, (nvalue >= nvalue)); EXPECT_EQ(true, (nvalue >= value)); EXPECT_EQ(false, (nvalue >= Checked(_largeValue))); EXPECT_EQ(true, (nvalue >= Checked(_value))); EXPECT_EQ(true, (nvalue >= Checked(_smallValue))); EXPECT_EQ(false, (nvalue >= _largeValue)); EXPECT_EQ(true, (nvalue >= _value)); EXPECT_EQ(true, (nvalue >= _smallValue)); EXPECT_EQ(false, (nvalue >= Checked(std::numeric_limits::max()))); EXPECT_EQ(false, (nvalue >= std::numeric_limits::max())); EXPECT_EQ(false, nvalue.hasOverflowed()); EXPECT_EQ(false, nvalue.didCrash()); // Test operator== with an overflowed value. EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue == ovalue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue == Checked(_value)), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue == value), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue == _value), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue == _value * std::numeric_limits::max()), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue == Checked(std::numeric_limits::max())), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue == std::numeric_limits::max()), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue == nvalue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (nvalue == ovalue), ovalue.didCrash())); EXPECT_EQ(false, nvalue.hasOverflowed()); // Test operator!= with an overflowed value. EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue != ovalue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue != Checked(_value)), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue != value), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue != _value), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue != _value * std::numeric_limits::max()), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue != Checked(std::numeric_limits::max())), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue != std::numeric_limits::max()), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue != nvalue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (nvalue != ovalue), ovalue.didCrash())); EXPECT_EQ(false, nvalue.hasOverflowed()); // Test operator< with an overflowed value. EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue < ovalue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue < value), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue < Checked(_largeValue)), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue < Checked(_value)), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue < Checked(_smallValue)), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue < _largeValue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue < _value), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue < _smallValue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue < Checked(std::numeric_limits::max())), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue < std::numeric_limits::max()), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue < nvalue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (nvalue < ovalue), ovalue.didCrash())); EXPECT_EQ(false, nvalue.hasOverflowed()); // Test operator<= with an overflowed value. EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue <= ovalue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue <= value), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue <= Checked(_largeValue)), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue <= Checked(_value)), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue <= Checked(_smallValue)), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue <= _largeValue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue <= _value), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue <= _smallValue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue <= Checked(std::numeric_limits::max())), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue <= std::numeric_limits::max()), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue <= nvalue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (nvalue <= ovalue), ovalue.didCrash())); EXPECT_EQ(false, nvalue.hasOverflowed()); // Test operator> with an overflowed value. EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue > ovalue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue > value), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue > Checked(_largeValue)), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue > Checked(_value)), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue > Checked(_smallValue)), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue > _largeValue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue > _value), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue > _smallValue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue > Checked(std::numeric_limits::max())), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue > std::numeric_limits::max()), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue > nvalue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (nvalue > ovalue), ovalue.didCrash())); EXPECT_EQ(false, nvalue.hasOverflowed()); // Test operator>= with an overflowed value. EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue >= ovalue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue >= value), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue >= Checked(_largeValue)), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue >= Checked(_value)), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue >= Checked(_smallValue)), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue >= _largeValue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue >= _value), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue >= _smallValue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue >= Checked(std::numeric_limits::max())), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue >= std::numeric_limits::max()), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (ovalue >= nvalue), ovalue.didCrash())); EXPECT_EQ(true, (resetOverflow(ovalue), unused = (nvalue >= ovalue), ovalue.didCrash())); EXPECT_EQ(false, nvalue.hasOverflowed()); MixedSignednessTester::run(); } }; template class AllowMixedSignednessTest { public: static void run() { Checked value; value = 10; EXPECT_EQ(coerceLiteral(0), (value + -10).unsafeGet()); EXPECT_EQ(0U, (value - 10U).unsafeGet()); EXPECT_EQ(coerceLiteral(0), (-10 + value).unsafeGet()); EXPECT_EQ(0U, (10U - value).unsafeGet()); value = std::numeric_limits::min(); EXPECT_EQ(true, (Checked(value - 1)).hasOverflowed()); EXPECT_EQ(true, !(value--).hasOverflowed()); EXPECT_EQ(true, value.hasOverflowed()); value = std::numeric_limits::max(); EXPECT_EQ(true, !value.hasOverflowed()); EXPECT_EQ(true, (Checked(value + 1)).hasOverflowed()); EXPECT_EQ(true, !(value++).hasOverflowed()); EXPECT_EQ(true, value.hasOverflowed()); value = std::numeric_limits::max(); EXPECT_EQ(true, (value += 1).hasOverflowed()); EXPECT_EQ(true, value.hasOverflowed()); value = std::numeric_limits::min(); EXPECT_EQ(true, (value - 1U).hasOverflowed()); EXPECT_EQ(true, !(value--).hasOverflowed()); EXPECT_EQ(true, value.hasOverflowed()); value = std::numeric_limits::max(); EXPECT_EQ(true, !value.hasOverflowed()); EXPECT_EQ(true, (Checked(value + 1U)).hasOverflowed()); EXPECT_EQ(true, !(value++).hasOverflowed()); EXPECT_EQ(true, value.hasOverflowed()); value = std::numeric_limits::max(); EXPECT_EQ(true, (value += 1U).hasOverflowed()); EXPECT_EQ(true, value.hasOverflowed()); } }; template class IgnoreMixedSignednessTest { public: static void run() { } }; template class CoerceLiteralToUnsigned { public: static unsigned coerce(type x) { return static_cast(x); } }; template class CoerceLiteralNop { public: static type coerce(type x) { return x; } }; CheckedArithmeticTest(int8_t, CoerceLiteralNop, IgnoreMixedSignednessTest) CheckedArithmeticTest(int16_t, CoerceLiteralNop, IgnoreMixedSignednessTest) CheckedArithmeticTest(int32_t, CoerceLiteralNop, AllowMixedSignednessTest) CheckedArithmeticTest(uint32_t, CoerceLiteralToUnsigned, AllowMixedSignednessTest) CheckedArithmeticTest(int64_t, CoerceLiteralNop, IgnoreMixedSignednessTest) CheckedArithmeticTest(uint64_t, CoerceLiteralToUnsigned, IgnoreMixedSignednessTest) TEST(CheckedArithmeticTest, IsInBounds) { // bigger precision, signed, signed EXPECT_TRUE(WTF::isInBounds(std::numeric_limits::max())); EXPECT_TRUE(WTF::isInBounds(std::numeric_limits::min())); // bigger precision, unsigned, signed EXPECT_TRUE(WTF::isInBounds(std::numeric_limits::max())); EXPECT_FALSE(WTF::isInBounds(std::numeric_limits::min())); EXPECT_FALSE(WTF::isInBounds((int32_t)-1)); EXPECT_FALSE(WTF::isInBounds((int32_t)-1)); EXPECT_FALSE(WTF::isInBounds((int)-1)); EXPECT_TRUE(WTF::isInBounds((int32_t)1)); EXPECT_TRUE(WTF::isInBounds((int16_t)1)); EXPECT_TRUE(WTF::isInBounds((int)1)); EXPECT_TRUE(WTF::isInBounds((int32_t)0)); EXPECT_TRUE(WTF::isInBounds((int32_t)0)); EXPECT_TRUE(WTF::isInBounds((int16_t)0)); EXPECT_TRUE(WTF::isInBounds((int)0)); EXPECT_TRUE(WTF::isInBounds(std::numeric_limits::max())); EXPECT_TRUE(WTF::isInBounds(std::numeric_limits::max())); EXPECT_TRUE(WTF::isInBounds(std::numeric_limits::max())); // bigger precision, signed, unsigned EXPECT_TRUE(WTF::isInBounds(std::numeric_limits::max())); EXPECT_FALSE(WTF::isInBounds(std::numeric_limits::max())); EXPECT_TRUE(WTF::isInBounds((uint32_t)0)); // bigger precision, unsigned, unsigned EXPECT_TRUE(WTF::isInBounds(std::numeric_limits::max())); EXPECT_TRUE(WTF::isInBounds(std::numeric_limits::min())); // lower precision, signed signed EXPECT_FALSE(WTF::isInBounds(std::numeric_limits::max())); EXPECT_FALSE(WTF::isInBounds(std::numeric_limits::min())); EXPECT_TRUE(WTF::isInBounds((int32_t)-1)); EXPECT_TRUE(WTF::isInBounds((int32_t)0)); EXPECT_TRUE(WTF::isInBounds((int32_t)1)); // lower precision, unsigned, signed EXPECT_FALSE(WTF::isInBounds(std::numeric_limits::max())); EXPECT_FALSE(WTF::isInBounds(std::numeric_limits::min())); EXPECT_FALSE(WTF::isInBounds((int32_t)-1)); EXPECT_TRUE(WTF::isInBounds((int32_t)0)); EXPECT_TRUE(WTF::isInBounds((int32_t)1)); // lower precision, signed, unsigned EXPECT_FALSE(WTF::isInBounds(std::numeric_limits::max())); EXPECT_TRUE(WTF::isInBounds((uint32_t)0)); EXPECT_TRUE(WTF::isInBounds((uint32_t)1)); // lower precision, unsigned, unsigned EXPECT_FALSE(WTF::isInBounds(std::numeric_limits::max())); EXPECT_TRUE(WTF::isInBounds((uint32_t)0)); EXPECT_TRUE(WTF::isInBounds((uint32_t)1)); } } // namespace TestWebKitAPI