/* * Copyright (C) 2011-2019 Apple Inc. All rights reserved. * Copyright (c) 2020-2021, Andreas Kling * 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 THE COPYRIGHT HOLDERS AND 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 THE COPYRIGHT HOLDER OR 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. */ #pragma once #include #include #include #include namespace AK { template= sizeof(Source)), bool destination_is_signed = NumericLimits::is_signed(), bool source_is_signed = NumericLimits::is_signed()> struct TypeBoundsChecker; template struct TypeBoundsChecker { static constexpr bool is_within_range(Source value) { return value <= NumericLimits::max(); } }; template struct TypeBoundsChecker { static constexpr bool is_within_range(Source value) { return value <= NumericLimits::max() && NumericLimits::min() <= value; } }; template struct TypeBoundsChecker { static constexpr bool is_within_range(Source value) { return value >= 0 && value <= NumericLimits::max(); } }; template struct TypeBoundsChecker { static constexpr bool is_within_range(Source value) { return value <= static_cast(NumericLimits::max()); } }; template struct TypeBoundsChecker { static constexpr bool is_within_range(Source) { return true; } }; template struct TypeBoundsChecker { static constexpr bool is_within_range(Source) { return true; } }; template struct TypeBoundsChecker { static constexpr bool is_within_range(Source value) { return value >= 0; } }; template struct TypeBoundsChecker { static constexpr bool is_within_range(Source value) { if (sizeof(Destination) > sizeof(Source)) return true; return value <= static_cast(NumericLimits::max()); } }; template [[nodiscard]] constexpr bool is_within_range(Source value) { return TypeBoundsChecker::is_within_range(value); } template class Checked { public: constexpr Checked() = default; explicit constexpr Checked(T value) : m_value(value) { } template constexpr Checked(U value) { m_overflow = !is_within_range(value); m_value = value; } constexpr Checked(Checked const&) = default; constexpr Checked(Checked&& other) : m_value(exchange(other.m_value, 0)) , m_overflow(exchange(other.m_overflow, false)) { } template constexpr Checked& operator=(U value) { *this = Checked(value); return *this; } constexpr Checked& operator=(Checked const& other) = default; constexpr Checked& operator=(Checked&& other) { m_value = exchange(other.m_value, 0); m_overflow = exchange(other.m_overflow, false); return *this; } [[nodiscard]] constexpr bool has_overflow() const { return m_overflow; } ALWAYS_INLINE constexpr bool operator!() const { VERIFY(!m_overflow); return !m_value; } ALWAYS_INLINE constexpr T value() const { VERIFY(!m_overflow); return m_value; } constexpr void add(T other) { m_overflow |= __builtin_add_overflow(m_value, other, &m_value); } constexpr void sub(T other) { m_overflow |= __builtin_sub_overflow(m_value, other, &m_value); } constexpr void mul(T other) { m_overflow |= __builtin_mul_overflow(m_value, other, &m_value); } constexpr void div(T other) { if constexpr (IsSigned) { // Ensure that the resulting value won't be out of range, this can only happen when dividing by -1. if (other == -1 && m_value == NumericLimits::min()) { m_overflow = true; return; } } if (other == 0) { m_overflow = true; return; } m_value /= other; } constexpr void saturating_sub(T other) { sub(other); // Depending on whether other was positive or negative, we have to saturate to min or max. if (m_overflow && other <= 0) m_value = NumericLimits::max(); else if (m_overflow) m_value = NumericLimits::min(); m_overflow = false; } constexpr void saturating_add(T other) { add(other); // Depending on whether other was positive or negative, we have to saturate to max or min. if (m_overflow && other >= 0) m_value = NumericLimits::max(); else if (m_overflow) m_value = NumericLimits::min(); m_overflow = false; } constexpr Checked& operator+=(Checked const& other) { m_overflow |= other.m_overflow; add(other.value()); return *this; } constexpr Checked& operator+=(T other) { add(other); return *this; } constexpr Checked& operator-=(Checked const& other) { m_overflow |= other.m_overflow; sub(other.value()); return *this; } constexpr Checked& operator-=(T other) { sub(other); return *this; } constexpr Checked& operator*=(Checked const& other) { m_overflow |= other.m_overflow; mul(other.value()); return *this; } constexpr Checked& operator*=(T other) { mul(other); return *this; } constexpr Checked& operator/=(Checked const& other) { m_overflow |= other.m_overflow; div(other.value()); return *this; } constexpr Checked& operator/=(T other) { div(other); return *this; } constexpr Checked& operator++() { add(1); return *this; } constexpr Checked operator++(int) { Checked old { *this }; add(1); return old; } constexpr Checked& operator--() { sub(1); return *this; } constexpr Checked operator--(int) { Checked old { *this }; sub(1); return old; } template [[nodiscard]] static constexpr bool addition_would_overflow(U u, V v) { #if defined(AK_COMPILER_CLANG) Checked checked; checked = u; checked += v; return checked.has_overflow(); #else return __builtin_add_overflow_p(u, v, (T)0); #endif } template [[nodiscard]] static constexpr bool multiplication_would_overflow(U u, V v) { #if defined(AK_COMPILER_CLANG) Checked checked; checked = u; checked *= v; return checked.has_overflow(); #else return __builtin_mul_overflow_p(u, v, (T)0); #endif } template [[nodiscard]] static constexpr bool multiplication_would_overflow(U u, V v, X x) { Checked checked; checked = u; checked *= v; checked *= x; return checked.has_overflow(); } private: T m_value {}; bool m_overflow { false }; }; template constexpr Checked operator+(Checked const& a, Checked const& b) { Checked c { a }; c.add(b.value()); return c; } template constexpr Checked operator-(Checked const& a, Checked const& b) { Checked c { a }; c.sub(b.value()); return c; } template constexpr Checked operator*(Checked const& a, Checked const& b) { Checked c { a }; c.mul(b.value()); return c; } template constexpr Checked operator/(Checked const& a, Checked const& b) { Checked c { a }; c.div(b.value()); return c; } template constexpr bool operator<(Checked const& a, T b) { return a.value() < b; } template constexpr bool operator>(Checked const& a, T b) { return a.value() > b; } template constexpr bool operator>=(Checked const& a, T b) { return a.value() >= b; } template constexpr bool operator<=(Checked const& a, T b) { return a.value() <= b; } template constexpr bool operator==(Checked const& a, T b) { return a.value() == b; } template constexpr bool operator!=(Checked const& a, T b) { return a.value() != b; } template constexpr bool operator<(T a, Checked const& b) { return a < b.value(); } template constexpr bool operator>(T a, Checked const& b) { return a > b.value(); } template constexpr bool operator>=(T a, Checked const& b) { return a >= b.value(); } template constexpr bool operator<=(T a, Checked const& b) { return a <= b.value(); } template constexpr bool operator==(T a, Checked const& b) { return a == b.value(); } template constexpr bool operator!=(T a, Checked const& b) { return a != b.value(); } template constexpr Checked make_checked(T value) { return Checked(value); } } using AK::Checked; using AK::make_checked;