2018-02-16 04:36:50 +03:00
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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim: set ts=8 sts=2 et sw=2 tw=80: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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/*
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2018-03-12 22:56:39 +03:00
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* Math operations that implement wraparound semantics on overflow or underflow.
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*
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* While in some cases (but not all of them!) plain old C++ operators and casts
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* will behave just like these functions, there are three reasons you should use
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* these functions:
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*
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* 1) These functions make *explicit* the desire for and dependence upon
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* wraparound semantics, just as Rust's i32::wrapping_add and similar
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* functions explicitly produce wraparound in Rust.
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* 2) They implement this functionality *safely*, without invoking signed
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* integer overflow that has undefined behavior in C++.
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* 3) They play nice with compiler-based integer-overflow sanitizers (see
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* build/autoconf/sanitize.m4), that in appropriately configured builds
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* verify at runtime that integral arithmetic doesn't overflow.
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2018-02-16 04:36:50 +03:00
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*/
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#ifndef mozilla_WrappingOperations_h
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#define mozilla_WrappingOperations_h
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#include "mozilla/Attributes.h"
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#include "mozilla/TypeTraits.h"
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#include <limits.h>
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namespace mozilla {
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namespace detail {
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template<typename UnsignedType>
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struct WrapToSignedHelper
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{
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static_assert(mozilla::IsUnsigned<UnsignedType>::value,
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"WrapToSigned must be passed an unsigned type");
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using SignedType = typename mozilla::MakeSigned<UnsignedType>::Type;
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static constexpr SignedType MaxValue =
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(UnsignedType(1) << (CHAR_BIT * sizeof(SignedType) - 1)) - 1;
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static constexpr SignedType MinValue = -MaxValue - 1;
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static constexpr UnsignedType MinValueUnsigned =
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static_cast<UnsignedType>(MinValue);
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static constexpr UnsignedType MaxValueUnsigned =
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static_cast<UnsignedType>(MaxValue);
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// Overflow-correctness was proven in bug 1432646 and is explained in the
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// comment below. This function is very hot, both at compile time and
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// runtime, so disable all overflow checking in it.
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MOZ_NO_SANITIZE_UNSIGNED_OVERFLOW MOZ_NO_SANITIZE_SIGNED_OVERFLOW
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static constexpr SignedType compute(UnsignedType aValue)
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{
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// This algorithm was originally provided here:
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// https://stackoverflow.com/questions/13150449/efficient-unsigned-to-signed-cast-avoiding-implementation-defined-behavior
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//
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// If the value is in the non-negative signed range, just cast.
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//
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// If the value will be negative, compute its delta from the first number
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// past the max signed integer, then add that to the minimum signed value.
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//
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// At the low end: if |u| is the maximum signed value plus one, then it has
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// the same mathematical value as |MinValue| cast to unsigned form. The
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// delta is zero, so the signed form of |u| is |MinValue| -- exactly the
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// result of adding zero delta to |MinValue|.
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//
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// At the high end: if |u| is the maximum *unsigned* value, then it has all
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// bits set. |MinValue| cast to unsigned form is purely the high bit set.
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// So the delta is all bits but high set -- exactly |MaxValue|. And as
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// |MinValue = -MaxValue - 1|, we have |MaxValue + (-MaxValue - 1)| to
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// equal -1.
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//
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// Thus the delta below is in signed range, the corresponding cast is safe,
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// and this computation produces values spanning [MinValue, 0): exactly the
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// desired range of all negative signed integers.
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return (aValue <= MaxValueUnsigned)
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? static_cast<SignedType>(aValue)
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: static_cast<SignedType>(aValue - MinValueUnsigned) + MinValue;
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}
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};
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} // namespace detail
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/**
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* Convert an unsigned value to signed, if necessary wrapping around.
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*
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* This is the behavior normal C++ casting will perform in most implementations
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* these days -- but this function makes explicit that such conversion is
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* happening.
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*/
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template<typename UnsignedType>
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constexpr typename detail::WrapToSignedHelper<UnsignedType>::SignedType
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WrapToSigned(UnsignedType aValue)
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{
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return detail::WrapToSignedHelper<UnsignedType>::compute(aValue);
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}
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2018-02-16 04:36:55 +03:00
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namespace detail {
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2018-03-12 22:56:39 +03:00
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template<typename T>
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constexpr T
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ToResult(typename MakeUnsigned<T>::Type aUnsigned)
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{
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// We could *always* return WrapToSigned and rely on unsigned conversion to
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// undo the wrapping when |T| is unsigned, but this seems clearer.
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return IsSigned<T>::value ? WrapToSigned(aUnsigned) : aUnsigned;
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}
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2018-03-07 06:21:58 +03:00
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template<typename T>
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struct WrappingAddHelper
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{
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private:
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using UnsignedT = typename MakeUnsigned<T>::Type;
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public:
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MOZ_NO_SANITIZE_UNSIGNED_OVERFLOW
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2018-03-08 02:27:14 +03:00
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static constexpr T compute(T aX, T aY)
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{
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2018-03-12 22:56:39 +03:00
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return ToResult<T>(static_cast<UnsignedT>(aX) + static_cast<UnsignedT>(aY));
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2018-03-07 06:21:58 +03:00
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}
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};
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} // namespace detail
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/**
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2018-03-12 22:56:39 +03:00
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* Add two integers of the same type and return the result converted to that
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* type using wraparound semantics, without triggering overflow sanitizers.
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2018-03-07 06:21:58 +03:00
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*
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* For N-bit unsigned integer types, this is equivalent to adding the two
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* numbers, then taking the result mod 2**N:
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*
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* WrappingAdd(uint32_t(42), uint32_t(17)) is 59 (59 mod 2**32);
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* WrappingAdd(uint8_t(240), uint8_t(20)) is 4 (260 mod 2**8).
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*
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* Unsigned WrappingAdd acts exactly like C++ unsigned addition.
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*
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* For N-bit signed integer types, this is equivalent to adding the two numbers
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2018-03-12 22:56:39 +03:00
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* wrapped to unsigned, then wrapping the sum mod 2**N to the signed range:
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2018-03-07 06:21:58 +03:00
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*
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* WrappingAdd(int16_t(32767), int16_t(3)) is -32766 ((32770 mod 2**16) - 2**16);
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* WrappingAdd(int8_t(-128), int8_t(-128)) is 0 (256 mod 2**8);
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* WrappingAdd(int32_t(-42), int32_t(-17)) is -59 ((8589934533 mod 2**32) - 2**32).
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*
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* There's no equivalent to this operation in C++, as C++ signed addition that
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* overflows has undefined behavior. But it's how such addition *tends* to
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* behave with most compilers, unless an optimization or similar -- quite
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* permissibly -- triggers different behavior.
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2018-03-07 06:21:58 +03:00
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*/
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template<typename T>
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constexpr T
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WrappingAdd(T aX, T aY)
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{
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return detail::WrappingAddHelper<T>::compute(aX, aY);
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}
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namespace detail {
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2018-03-07 06:22:20 +03:00
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template<typename T>
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struct WrappingSubtractHelper
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{
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private:
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using UnsignedT = typename MakeUnsigned<T>::Type;
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public:
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MOZ_NO_SANITIZE_UNSIGNED_OVERFLOW
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static constexpr T compute(T aX, T aY)
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{
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return ToResult<T>(static_cast<UnsignedT>(aX) - static_cast<UnsignedT>(aY));
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}
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};
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} // namespace detail
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/**
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* Subtract two integers of the same type and return the result converted to
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* that type using wraparound semantics, without triggering overflow sanitizers.
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*
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* For N-bit unsigned integer types, this is equivalent to subtracting the two
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* numbers, then taking the result mod 2**N:
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*
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* WrappingSubtract(uint32_t(42), uint32_t(17)) is 29 (29 mod 2**32);
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* WrappingSubtract(uint8_t(5), uint8_t(20)) is 241 (-15 mod 2**8).
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*
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* Unsigned WrappingSubtract acts exactly like C++ unsigned subtraction.
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*
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* For N-bit signed integer types, this is equivalent to subtracting the two
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* numbers wrapped to unsigned, then wrapping the difference mod 2**N to the
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* signed range:
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*
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* WrappingSubtract(int16_t(32767), int16_t(-5)) is -32764 ((32772 mod 2**16) - 2**16);
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* WrappingSubtract(int8_t(-128), int8_t(127)) is 1 (-255 mod 2**8);
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* WrappingSubtract(int32_t(-17), int32_t(-42)) is 25 (25 mod 2**32).
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*
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* There's no equivalent to this operation in C++, as C++ signed subtraction
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* that overflows has undefined behavior. But it's how such subtraction *tends*
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* to behave with most compilers, unless an optimization or similar -- quite
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* permissibly -- triggers different behavior.
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*/
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template<typename T>
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2018-03-08 02:27:14 +03:00
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constexpr T
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2018-03-07 06:22:20 +03:00
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WrappingSubtract(T aX, T aY)
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{
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return detail::WrappingSubtractHelper<T>::compute(aX, aY);
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}
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namespace detail {
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2018-02-16 04:36:55 +03:00
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template<typename T>
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struct WrappingMultiplyHelper
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{
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private:
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using UnsignedT = typename MakeUnsigned<T>::Type;
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public:
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MOZ_NO_SANITIZE_UNSIGNED_OVERFLOW
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2018-03-08 02:27:14 +03:00
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static constexpr T compute(T aX, T aY)
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{
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2018-03-12 22:56:39 +03:00
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// Begin with |1U| to ensure the overall operation chain is never promoted
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// to signed integer operations that might have *signed* integer overflow.
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return ToResult<T>(static_cast<UnsignedT>(1U *
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static_cast<UnsignedT>(aX) *
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static_cast<UnsignedT>(aY)));
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2018-02-16 04:36:55 +03:00
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}
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};
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} // namespace detail
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/**
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2018-03-12 22:56:39 +03:00
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* Multiply two integers of the same type and return the result converted to
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* that type using wraparound semantics, without triggering overflow sanitizers.
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2018-02-16 04:36:55 +03:00
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*
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* For N-bit unsigned integer types, this is equivalent to multiplying the two
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* numbers, then taking the result mod 2**N:
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*
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* WrappingMultiply(uint32_t(42), uint32_t(17)) is 714 (714 mod 2**32);
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* WrappingMultiply(uint8_t(16), uint8_t(24)) is 128 (384 mod 2**8);
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* WrappingMultiply(uint16_t(3), uint16_t(32768)) is 32768 (98304 mod 2*16).
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*
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* Unsigned WrappingMultiply is *not* identical to C++ multiplication: with most
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* compilers, in rare cases uint16_t*uint16_t can invoke *signed* integer
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* overflow having undefined behavior! http://kqueue.org/blog/2013/09/17/cltq/
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* has the grody details. (Some compilers do this for uint32_t, not uint16_t.)
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* So it's especially important to use WrappingMultiply for wraparound math with
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* uint16_t. That quirk aside, this function acts like you *thought* C++
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* unsigned multiplication always worked.
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2018-02-16 04:36:55 +03:00
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*
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* For N-bit signed integer types, this is equivalent to multiplying the two
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2018-03-12 22:56:39 +03:00
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* numbers wrapped to unsigned, then wrapping the product mod 2**N to the signed
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* range:
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*
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* WrappingMultiply(int16_t(-456), int16_t(123)) is 9448 ((-56088 mod 2**16) + 2**16);
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* WrappingMultiply(int32_t(-7), int32_t(-9)) is 63 (63 mod 2**32);
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* WrappingMultiply(int8_t(16), int8_t(24)) is -128 ((384 mod 2**8) - 2**8);
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* WrappingMultiply(int8_t(16), int8_t(255)) is -16 ((4080 mod 2**8) - 2**8).
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*
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2018-03-12 22:56:39 +03:00
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* There's no equivalent to this operation in C++, as C++ signed
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* multiplication that overflows has undefined behavior. But it's how such
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* multiplication *tends* to behave with most compilers, unless an optimization
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* or similar -- quite permissibly -- triggers different behavior.
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2018-02-16 04:36:55 +03:00
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*/
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template<typename T>
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2018-03-08 02:27:14 +03:00
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constexpr T
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WrappingMultiply(T aX, T aY)
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{
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return detail::WrappingMultiplyHelper<T>::compute(aX, aY);
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}
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2018-03-08 02:27:14 +03:00
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// The |mozilla::Wrapping*| functions are constexpr. Unfortunately, MSVC warns
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// about well-defined unsigned integer overflows that may occur within the
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// constexpr math.
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//
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// https://msdn.microsoft.com/en-us/library/4kze989h.aspx (C4307)
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// https://developercommunity.visualstudio.com/content/problem/211134/unsigned-integer-overflows-in-constexpr-functionsa.html (bug report)
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//
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// So we need a way to suppress these warnings. Unfortunately, the warnings are
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// issued at the very top of the `constexpr` chain, which is often some
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// distance from the triggering Wrapping*() operation. So we can't suppress
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// them within this file. Instead, callers have to do it with these macros.
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//
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// If/when MSVC fix this bug, we should remove these macros.
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#ifdef _MSC_VER
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#define MOZ_PUSH_DISABLE_INTEGRAL_CONSTANT_OVERFLOW_WARNING \
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__pragma(warning(push)) \
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__pragma(warning(disable:4307))
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#define MOZ_POP_DISABLE_INTEGRAL_CONSTANT_OVERFLOW_WARNING \
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__pragma(warning(pop))
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#else
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#define MOZ_PUSH_DISABLE_INTEGRAL_CONSTANT_OVERFLOW_WARNING
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#define MOZ_POP_DISABLE_INTEGRAL_CONSTANT_OVERFLOW_WARNING
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#endif
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2018-02-16 04:36:50 +03:00
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} /* namespace mozilla */
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#endif /* mozilla_WrappingOperations_h */
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