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345 lines
14 KiB
C++
345 lines
14 KiB
C++
// Copyright 2014 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#ifndef BASE_NUMERICS_SAFE_CONVERSIONS_H_
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#define BASE_NUMERICS_SAFE_CONVERSIONS_H_
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#include <stddef.h>
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#include <limits>
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#include <ostream>
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#include <type_traits>
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#include "base/numerics/safe_conversions_impl.h"
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#if !defined(__native_client__) && (defined(__ARMEL__) || defined(__arch64__))
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#include "base/numerics/safe_conversions_arm_impl.h"
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#define BASE_HAS_OPTIMIZED_SAFE_CONVERSIONS (1)
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#else
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#define BASE_HAS_OPTIMIZED_SAFE_CONVERSIONS (0)
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#endif
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namespace base {
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namespace internal {
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#if !BASE_HAS_OPTIMIZED_SAFE_CONVERSIONS
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template <typename Dst, typename Src>
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struct SaturateFastAsmOp {
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static const bool is_supported = false;
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static constexpr Dst Do(Src) {
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// Force a compile failure if instantiated.
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return CheckOnFailure::template HandleFailure<Dst>();
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}
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};
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#endif // BASE_HAS_OPTIMIZED_SAFE_CONVERSIONS
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#undef BASE_HAS_OPTIMIZED_SAFE_CONVERSIONS
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// The following special case a few specific integer conversions where we can
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// eke out better performance than range checking.
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template <typename Dst, typename Src, typename Enable = void>
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struct IsValueInRangeFastOp {
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static const bool is_supported = false;
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static constexpr bool Do(Src value) {
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// Force a compile failure if instantiated.
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return CheckOnFailure::template HandleFailure<bool>();
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}
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};
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// Signed to signed range comparison.
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template <typename Dst, typename Src>
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struct IsValueInRangeFastOp<
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Dst,
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Src,
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typename std::enable_if<
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std::is_integral<Dst>::value && std::is_integral<Src>::value &&
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std::is_signed<Dst>::value && std::is_signed<Src>::value &&
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!IsTypeInRangeForNumericType<Dst, Src>::value>::type> {
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static const bool is_supported = true;
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static constexpr bool Do(Src value) {
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// Just downcast to the smaller type, sign extend it back to the original
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// type, and then see if it matches the original value.
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return value == static_cast<Dst>(value);
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}
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};
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// Signed to unsigned range comparison.
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template <typename Dst, typename Src>
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struct IsValueInRangeFastOp<
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Dst,
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Src,
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typename std::enable_if<
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std::is_integral<Dst>::value && std::is_integral<Src>::value &&
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!std::is_signed<Dst>::value && std::is_signed<Src>::value &&
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!IsTypeInRangeForNumericType<Dst, Src>::value>::type> {
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static const bool is_supported = true;
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static constexpr bool Do(Src value) {
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// We cast a signed as unsigned to overflow negative values to the top,
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// then compare against whichever maximum is smaller, as our upper bound.
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return as_unsigned(value) <= as_unsigned(CommonMax<Src, Dst>());
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}
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};
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// Convenience function that returns true if the supplied value is in range
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// for the destination type.
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template <typename Dst, typename Src>
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constexpr bool IsValueInRangeForNumericType(Src value) {
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using SrcType = typename internal::UnderlyingType<Src>::type;
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return internal::IsValueInRangeFastOp<Dst, SrcType>::is_supported
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? internal::IsValueInRangeFastOp<Dst, SrcType>::Do(
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static_cast<SrcType>(value))
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: internal::DstRangeRelationToSrcRange<Dst>(
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static_cast<SrcType>(value))
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.IsValid();
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}
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// checked_cast<> is analogous to static_cast<> for numeric types,
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// except that it CHECKs that the specified numeric conversion will not
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// overflow or underflow. NaN source will always trigger a CHECK.
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template <typename Dst,
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class CheckHandler = internal::CheckOnFailure,
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typename Src>
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constexpr Dst checked_cast(Src value) {
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// This throws a compile-time error on evaluating the constexpr if it can be
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// determined at compile-time as failing, otherwise it will CHECK at runtime.
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using SrcType = typename internal::UnderlyingType<Src>::type;
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return BASE_NUMERICS_LIKELY((IsValueInRangeForNumericType<Dst>(value)))
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? static_cast<Dst>(static_cast<SrcType>(value))
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: CheckHandler::template HandleFailure<Dst>();
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}
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// Default boundaries for integral/float: max/infinity, lowest/-infinity, 0/NaN.
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// You may provide your own limits (e.g. to saturated_cast) so long as you
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// implement all of the static constexpr member functions in the class below.
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template <typename T>
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struct SaturationDefaultLimits : public std::numeric_limits<T> {
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static constexpr T NaN() {
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return std::numeric_limits<T>::has_quiet_NaN
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? std::numeric_limits<T>::quiet_NaN()
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: T();
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}
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using std::numeric_limits<T>::max;
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static constexpr T Overflow() {
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return std::numeric_limits<T>::has_infinity
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? std::numeric_limits<T>::infinity()
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: std::numeric_limits<T>::max();
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}
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using std::numeric_limits<T>::lowest;
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static constexpr T Underflow() {
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return std::numeric_limits<T>::has_infinity
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? std::numeric_limits<T>::infinity() * -1
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: std::numeric_limits<T>::lowest();
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}
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};
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template <typename Dst, template <typename> class S, typename Src>
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constexpr Dst saturated_cast_impl(Src value, RangeCheck constraint) {
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// For some reason clang generates much better code when the branch is
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// structured exactly this way, rather than a sequence of checks.
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return !constraint.IsOverflowFlagSet()
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? (!constraint.IsUnderflowFlagSet() ? static_cast<Dst>(value)
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: S<Dst>::Underflow())
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// Skip this check for integral Src, which cannot be NaN.
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: (std::is_integral<Src>::value || !constraint.IsUnderflowFlagSet()
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? S<Dst>::Overflow()
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: S<Dst>::NaN());
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}
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// We can reduce the number of conditions and get slightly better performance
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// for normal signed and unsigned integer ranges. And in the specific case of
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// Arm, we can use the optimized saturation instructions.
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template <typename Dst, typename Src, typename Enable = void>
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struct SaturateFastOp {
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static const bool is_supported = false;
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static constexpr Dst Do(Src value) {
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// Force a compile failure if instantiated.
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return CheckOnFailure::template HandleFailure<Dst>();
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}
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};
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template <typename Dst, typename Src>
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struct SaturateFastOp<
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Dst,
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Src,
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typename std::enable_if<std::is_integral<Src>::value &&
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std::is_integral<Dst>::value>::type> {
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static const bool is_supported = true;
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static Dst Do(Src value) {
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if (SaturateFastAsmOp<Dst, Src>::is_supported)
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return SaturateFastAsmOp<Dst, Src>::Do(value);
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// The exact order of the following is structured to hit the correct
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// optimization heuristics across compilers. Do not change without
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// checking the emitted code.
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Dst saturated = CommonMaxOrMin<Dst, Src>(
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IsMaxInRangeForNumericType<Dst, Src>() ||
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(!IsMinInRangeForNumericType<Dst, Src>() && IsValueNegative(value)));
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return BASE_NUMERICS_LIKELY(IsValueInRangeForNumericType<Dst>(value))
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? static_cast<Dst>(value)
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: saturated;
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}
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};
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// saturated_cast<> is analogous to static_cast<> for numeric types, except
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// that the specified numeric conversion will saturate by default rather than
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// overflow or underflow, and NaN assignment to an integral will return 0.
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// All boundary condition behaviors can be overriden with a custom handler.
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template <typename Dst,
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template <typename> class SaturationHandler = SaturationDefaultLimits,
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typename Src>
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constexpr Dst saturated_cast(Src value) {
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using SrcType = typename UnderlyingType<Src>::type;
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return !IsCompileTimeConstant(value) &&
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SaturateFastOp<Dst, SrcType>::is_supported &&
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std::is_same<SaturationHandler<Dst>,
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SaturationDefaultLimits<Dst>>::value
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? SaturateFastOp<Dst, SrcType>::Do(static_cast<SrcType>(value))
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: saturated_cast_impl<Dst, SaturationHandler, SrcType>(
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static_cast<SrcType>(value),
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DstRangeRelationToSrcRange<Dst, SaturationHandler, SrcType>(
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static_cast<SrcType>(value)));
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}
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// strict_cast<> is analogous to static_cast<> for numeric types, except that
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// it will cause a compile failure if the destination type is not large enough
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// to contain any value in the source type. It performs no runtime checking.
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template <typename Dst, typename Src>
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constexpr Dst strict_cast(Src value) {
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using SrcType = typename UnderlyingType<Src>::type;
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static_assert(UnderlyingType<Src>::is_numeric, "Argument must be numeric.");
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static_assert(std::is_arithmetic<Dst>::value, "Result must be numeric.");
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// If you got here from a compiler error, it's because you tried to assign
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// from a source type to a destination type that has insufficient range.
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// The solution may be to change the destination type you're assigning to,
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// and use one large enough to represent the source.
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// Alternatively, you may be better served with the checked_cast<> or
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// saturated_cast<> template functions for your particular use case.
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static_assert(StaticDstRangeRelationToSrcRange<Dst, SrcType>::value ==
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NUMERIC_RANGE_CONTAINED,
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"The source type is out of range for the destination type. "
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"Please see strict_cast<> comments for more information.");
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return static_cast<Dst>(static_cast<SrcType>(value));
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}
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// Some wrappers to statically check that a type is in range.
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template <typename Dst, typename Src, class Enable = void>
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struct IsNumericRangeContained {
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static const bool value = false;
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};
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template <typename Dst, typename Src>
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struct IsNumericRangeContained<
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Dst,
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Src,
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typename std::enable_if<ArithmeticOrUnderlyingEnum<Dst>::value &&
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ArithmeticOrUnderlyingEnum<Src>::value>::type> {
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static const bool value = StaticDstRangeRelationToSrcRange<Dst, Src>::value ==
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NUMERIC_RANGE_CONTAINED;
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};
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// StrictNumeric implements compile time range checking between numeric types by
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// wrapping assignment operations in a strict_cast. This class is intended to be
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// used for function arguments and return types, to ensure the destination type
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// can always contain the source type. This is essentially the same as enforcing
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// -Wconversion in gcc and C4302 warnings on MSVC, but it can be applied
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// incrementally at API boundaries, making it easier to convert code so that it
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// compiles cleanly with truncation warnings enabled.
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// This template should introduce no runtime overhead, but it also provides no
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// runtime checking of any of the associated mathematical operations. Use
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// CheckedNumeric for runtime range checks of the actual value being assigned.
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template <typename T>
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class StrictNumeric {
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public:
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using type = T;
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constexpr StrictNumeric() : value_(0) {}
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// Copy constructor.
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template <typename Src>
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constexpr StrictNumeric(const StrictNumeric<Src>& rhs)
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: value_(strict_cast<T>(rhs.value_)) {}
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// This is not an explicit constructor because we implicitly upgrade regular
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// numerics to StrictNumerics to make them easier to use.
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template <typename Src>
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constexpr StrictNumeric(Src value) // NOLINT(runtime/explicit)
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: value_(strict_cast<T>(value)) {}
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// If you got here from a compiler error, it's because you tried to assign
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// from a source type to a destination type that has insufficient range.
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// The solution may be to change the destination type you're assigning to,
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// and use one large enough to represent the source.
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// If you're assigning from a CheckedNumeric<> class, you may be able to use
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// the AssignIfValid() member function, specify a narrower destination type to
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// the member value functions (e.g. val.template ValueOrDie<Dst>()), use one
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// of the value helper functions (e.g. ValueOrDieForType<Dst>(val)).
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// If you've encountered an _ambiguous overload_ you can use a static_cast<>
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// to explicitly cast the result to the destination type.
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// If none of that works, you may be better served with the checked_cast<> or
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// saturated_cast<> template functions for your particular use case.
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template <typename Dst,
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typename std::enable_if<
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IsNumericRangeContained<Dst, T>::value>::type* = nullptr>
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constexpr operator Dst() const {
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return static_cast<typename ArithmeticOrUnderlyingEnum<Dst>::type>(value_);
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}
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private:
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const T value_;
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};
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// Convience wrapper returns a StrictNumeric from the provided arithmetic type.
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template <typename T>
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constexpr StrictNumeric<typename UnderlyingType<T>::type> MakeStrictNum(
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const T value) {
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return value;
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}
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// Overload the ostream output operator to make logging work nicely.
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template <typename T>
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std::ostream& operator<<(std::ostream& os, const StrictNumeric<T>& value) {
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os << static_cast<T>(value);
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return os;
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}
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#define BASE_NUMERIC_COMPARISON_OPERATORS(CLASS, NAME, OP) \
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template <typename L, typename R, \
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typename std::enable_if< \
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internal::Is##CLASS##Op<L, R>::value>::type* = nullptr> \
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constexpr bool operator OP(const L lhs, const R rhs) { \
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return SafeCompare<NAME, typename UnderlyingType<L>::type, \
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typename UnderlyingType<R>::type>(lhs, rhs); \
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}
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BASE_NUMERIC_COMPARISON_OPERATORS(Strict, IsLess, <);
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BASE_NUMERIC_COMPARISON_OPERATORS(Strict, IsLessOrEqual, <=);
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BASE_NUMERIC_COMPARISON_OPERATORS(Strict, IsGreater, >);
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BASE_NUMERIC_COMPARISON_OPERATORS(Strict, IsGreaterOrEqual, >=);
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BASE_NUMERIC_COMPARISON_OPERATORS(Strict, IsEqual, ==);
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BASE_NUMERIC_COMPARISON_OPERATORS(Strict, IsNotEqual, !=);
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}; // namespace internal
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using internal::as_signed;
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using internal::as_unsigned;
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using internal::checked_cast;
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using internal::strict_cast;
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using internal::saturated_cast;
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using internal::SafeUnsignedAbs;
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using internal::StrictNumeric;
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using internal::MakeStrictNum;
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using internal::IsValueInRangeForNumericType;
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using internal::IsTypeInRangeForNumericType;
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using internal::IsValueNegative;
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// Explicitly make a shorter size_t alias for convenience.
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using SizeT = StrictNumeric<size_t>;
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} // namespace base
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#endif // BASE_NUMERICS_SAFE_CONVERSIONS_H_
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