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author | Abseil Team <absl-team@google.com> | 2018-12-04 11:01:12 -0800 |
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committer | Ashley Hedberg <ahedberg@google.com> | 2018-12-04 16:54:40 -0500 |
commit | fcb104594b0bb4b8ac306cb2f55ecdad40974683 (patch) | |
tree | d2d79d246c6a894ca6716f47c15ebb7b8796b36a /absl/hash/internal/hash.h | |
parent | 6c7de165d1c82684359ccb630bb5f83263fa5ebc (diff) |
Creation of LTS branch "lts_2018_12_18"20181200
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GitOrigin-RevId: 44b0fafc62d9b8f192e8180cbe9c4b806b339d57
Change-Id: I2c427b5b41b2d34101922048b00f3d9dafcb498d
Diffstat (limited to 'absl/hash/internal/hash.h')
-rw-r--r-- | absl/hash/internal/hash.h | 898 |
1 files changed, 898 insertions, 0 deletions
diff --git a/absl/hash/internal/hash.h b/absl/hash/internal/hash.h new file mode 100644 index 00000000..a51ca954 --- /dev/null +++ b/absl/hash/internal/hash.h @@ -0,0 +1,898 @@ +// Copyright 2018 The Abseil Authors. +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. +// +// ----------------------------------------------------------------------------- +// File: hash.h +// ----------------------------------------------------------------------------- +// +#ifndef ABSL_HASH_INTERNAL_HASH_H_ +#define ABSL_HASH_INTERNAL_HASH_H_ + +#include <algorithm> +#include <array> +#include <cmath> +#include <cstring> +#include <deque> +#include <forward_list> +#include <functional> +#include <iterator> +#include <limits> +#include <list> +#include <map> +#include <memory> +#include <set> +#include <string> +#include <tuple> +#include <type_traits> +#include <utility> +#include <vector> + +#include "absl/base/internal/endian.h" +#include "absl/base/port.h" +#include "absl/container/fixed_array.h" +#include "absl/meta/type_traits.h" +#include "absl/numeric/int128.h" +#include "absl/strings/string_view.h" +#include "absl/types/optional.h" +#include "absl/types/variant.h" +#include "absl/utility/utility.h" +#include "absl/hash/internal/city.h" + +namespace absl { +inline namespace lts_2018_12_18 { +namespace hash_internal { + +// HashStateBase +// +// A hash state object represents an intermediate state in the computation +// of an unspecified hash algorithm. `HashStateBase` provides a CRTP style +// base class for hash state implementations. Developers adding type support +// for `absl::Hash` should not rely on any parts of the state object other than +// the following member functions: +// +// * HashStateBase::combine() +// * HashStateBase::combine_contiguous() +// +// A derived hash state class of type `H` must provide a static member function +// with a signature similar to the following: +// +// `static H combine_contiguous(H state, const unsigned char*, size_t)`. +// +// `HashStateBase` will provide a complete implementations for a hash state +// object in terms of this method. +// +// Example: +// +// // Use CRTP to define your derived class. +// struct MyHashState : HashStateBase<MyHashState> { +// static H combine_contiguous(H state, const unsigned char*, size_t); +// using MyHashState::HashStateBase::combine; +// using MyHashState::HashStateBase::combine_contiguous; +// }; +template <typename H> +class HashStateBase { + public: + // HashStateBase::combine() + // + // Combines an arbitrary number of values into a hash state, returning the + // updated state. + // + // Each of the value types `T` must be separately hashable by the Abseil + // hashing framework. + // + // NOTE: + // + // state = H::combine(std::move(state), value1, value2, value3); + // + // is guaranteed to produce the same hash expansion as: + // + // state = H::combine(std::move(state), value1); + // state = H::combine(std::move(state), value2); + // state = H::combine(std::move(state), value3); + template <typename T, typename... Ts> + static H combine(H state, const T& value, const Ts&... values); + static H combine(H state) { return state; } + + // HashStateBase::combine_contiguous() + // + // Combines a contiguous array of `size` elements into a hash state, returning + // the updated state. + // + // NOTE: + // + // state = H::combine_contiguous(std::move(state), data, size); + // + // is NOT guaranteed to produce the same hash expansion as a for-loop (it may + // perform internal optimizations). If you need this guarantee, use the + // for-loop instead. + template <typename T> + static H combine_contiguous(H state, const T* data, size_t size); +}; + +// is_uniquely_represented +// +// `is_uniquely_represented<T>` is a trait class that indicates whether `T` +// is uniquely represented. +// +// A type is "uniquely represented" if two equal values of that type are +// guaranteed to have the same bytes in their underlying storage. In other +// words, if `a == b`, then `memcmp(&a, &b, sizeof(T))` is guaranteed to be +// zero. This property cannot be detected automatically, so this trait is false +// by default, but can be specialized by types that wish to assert that they are +// uniquely represented. This makes them eligible for certain optimizations. +// +// If you have any doubt whatsoever, do not specialize this template. +// The default is completely safe, and merely disables some optimizations +// that will not matter for most types. Specializing this template, +// on the other hand, can be very hazardous. +// +// To be uniquely represented, a type must not have multiple ways of +// representing the same value; for example, float and double are not +// uniquely represented, because they have distinct representations for +// +0 and -0. Furthermore, the type's byte representation must consist +// solely of user-controlled data, with no padding bits and no compiler- +// controlled data such as vptrs or sanitizer metadata. This is usually +// very difficult to guarantee, because in most cases the compiler can +// insert data and padding bits at its own discretion. +// +// If you specialize this template for a type `T`, you must do so in the file +// that defines that type (or in this file). If you define that specialization +// anywhere else, `is_uniquely_represented<T>` could have different meanings +// in different places. +// +// The Enable parameter is meaningless; it is provided as a convenience, +// to support certain SFINAE techniques when defining specializations. +template <typename T, typename Enable = void> +struct is_uniquely_represented : std::false_type {}; + +// is_uniquely_represented<unsigned char> +// +// unsigned char is a synonym for "byte", so it is guaranteed to be +// uniquely represented. +template <> +struct is_uniquely_represented<unsigned char> : std::true_type {}; + +// is_uniquely_represented for non-standard integral types +// +// Integral types other than bool should be uniquely represented on any +// platform that this will plausibly be ported to. +template <typename Integral> +struct is_uniquely_represented< + Integral, typename std::enable_if<std::is_integral<Integral>::value>::type> + : std::true_type {}; + +// is_uniquely_represented<bool> +// +// +template <> +struct is_uniquely_represented<bool> : std::false_type {}; + +// hash_bytes() +// +// Convenience function that combines `hash_state` with the byte representation +// of `value`. +template <typename H, typename T> +H hash_bytes(H hash_state, const T& value) { + const unsigned char* start = reinterpret_cast<const unsigned char*>(&value); + return H::combine_contiguous(std::move(hash_state), start, sizeof(value)); +} + +// ----------------------------------------------------------------------------- +// AbslHashValue for Basic Types +// ----------------------------------------------------------------------------- + +// Note: Default `AbslHashValue` implementations live in `hash_internal`. This +// allows us to block lexical scope lookup when doing an unqualified call to +// `AbslHashValue` below. User-defined implementations of `AbslHashValue` can +// only be found via ADL. + +// AbslHashValue() for hashing bool values +// +// We use SFINAE to ensure that this overload only accepts bool, not types that +// are convertible to bool. +template <typename H, typename B> +typename std::enable_if<std::is_same<B, bool>::value, H>::type AbslHashValue( + H hash_state, B value) { + return H::combine(std::move(hash_state), + static_cast<unsigned char>(value ? 1 : 0)); +} + +// AbslHashValue() for hashing enum values +template <typename H, typename Enum> +typename std::enable_if<std::is_enum<Enum>::value, H>::type AbslHashValue( + H hash_state, Enum e) { + // In practice, we could almost certainly just invoke hash_bytes directly, + // but it's possible that a sanitizer might one day want to + // store data in the unused bits of an enum. To avoid that risk, we + // convert to the underlying type before hashing. Hopefully this will get + // optimized away; if not, we can reopen discussion with c-toolchain-team. + return H::combine(std::move(hash_state), + static_cast<typename std::underlying_type<Enum>::type>(e)); +} +// AbslHashValue() for hashing floating-point values +template <typename H, typename Float> +typename std::enable_if<std::is_floating_point<Float>::value, H>::type +AbslHashValue(H hash_state, Float value) { + return hash_internal::hash_bytes(std::move(hash_state), + value == 0 ? 0 : value); +} + +// Long double has the property that it might have extra unused bytes in it. +// For example, in x86 sizeof(long double)==16 but it only really uses 80-bits +// of it. This means we can't use hash_bytes on a long double and have to +// convert it to something else first. +template <typename H> +H AbslHashValue(H hash_state, long double value) { + const int category = std::fpclassify(value); + switch (category) { + case FP_INFINITE: + // Add the sign bit to differentiate between +Inf and -Inf + hash_state = H::combine(std::move(hash_state), std::signbit(value)); + break; + + case FP_NAN: + case FP_ZERO: + default: + // Category is enough for these. + break; + + case FP_NORMAL: + case FP_SUBNORMAL: + // We can't convert `value` directly to double because this would have + // undefined behavior if the value is out of range. + // std::frexp gives us a value in the range (-1, -.5] or [.5, 1) that is + // guaranteed to be in range for `double`. The truncation is + // implementation defined, but that works as long as it is deterministic. + int exp; + auto mantissa = static_cast<double>(std::frexp(value, &exp)); + hash_state = H::combine(std::move(hash_state), mantissa, exp); + } + + return H::combine(std::move(hash_state), category); +} + +// AbslHashValue() for hashing pointers +template <typename H, typename T> +H AbslHashValue(H hash_state, T* ptr) { + return hash_internal::hash_bytes(std::move(hash_state), ptr); +} + +// AbslHashValue() for hashing nullptr_t +template <typename H> +H AbslHashValue(H hash_state, std::nullptr_t) { + return H::combine(std::move(hash_state), static_cast<void*>(nullptr)); +} + +// ----------------------------------------------------------------------------- +// AbslHashValue for Composite Types +// ----------------------------------------------------------------------------- + +// is_hashable() +// +// Trait class which returns true if T is hashable by the absl::Hash framework. +// Used for the AbslHashValue implementations for composite types below. +template <typename T> +struct is_hashable; + +// AbslHashValue() for hashing pairs +template <typename H, typename T1, typename T2> +typename std::enable_if<is_hashable<T1>::value && is_hashable<T2>::value, + H>::type +AbslHashValue(H hash_state, const std::pair<T1, T2>& p) { + return H::combine(std::move(hash_state), p.first, p.second); +} + +// hash_tuple() +// +// Helper function for hashing a tuple. The third argument should +// be an index_sequence running from 0 to tuple_size<Tuple> - 1. +template <typename H, typename Tuple, size_t... Is> +H hash_tuple(H hash_state, const Tuple& t, absl::index_sequence<Is...>) { + return H::combine(std::move(hash_state), std::get<Is>(t)...); +} + +// AbslHashValue for hashing tuples +template <typename H, typename... Ts> +#if defined(_MSC_VER) +// This SFINAE gets MSVC confused under some conditions. Let's just disable it +// for now. +H +#else // _MSC_VER +typename std::enable_if<absl::conjunction<is_hashable<Ts>...>::value, H>::type +#endif // _MSC_VER +AbslHashValue(H hash_state, const std::tuple<Ts...>& t) { + return hash_internal::hash_tuple(std::move(hash_state), t, + absl::make_index_sequence<sizeof...(Ts)>()); +} + +// ----------------------------------------------------------------------------- +// AbslHashValue for Pointers +// ----------------------------------------------------------------------------- + +// AbslHashValue for hashing unique_ptr +template <typename H, typename T, typename D> +H AbslHashValue(H hash_state, const std::unique_ptr<T, D>& ptr) { + return H::combine(std::move(hash_state), ptr.get()); +} + +// AbslHashValue for hashing shared_ptr +template <typename H, typename T> +H AbslHashValue(H hash_state, const std::shared_ptr<T>& ptr) { + return H::combine(std::move(hash_state), ptr.get()); +} + +// ----------------------------------------------------------------------------- +// AbslHashValue for String-Like Types +// ----------------------------------------------------------------------------- + +// AbslHashValue for hashing strings +// +// All the string-like types supported here provide the same hash expansion for +// the same character sequence. These types are: +// +// - `std::string` (and std::basic_string<char, std::char_traits<char>, A> for +// any allocator A) +// - `absl::string_view` and `std::string_view` +// +// For simplicity, we currently support only `char` strings. This support may +// be broadened, if necessary, but with some caution - this overload would +// misbehave in cases where the traits' `eq()` member isn't equivalent to `==` +// on the underlying character type. +template <typename H> +H AbslHashValue(H hash_state, absl::string_view str) { + return H::combine( + H::combine_contiguous(std::move(hash_state), str.data(), str.size()), + str.size()); +} + +// ----------------------------------------------------------------------------- +// AbslHashValue for Sequence Containers +// ----------------------------------------------------------------------------- + +// AbslHashValue for hashing std::array +template <typename H, typename T, size_t N> +typename std::enable_if<is_hashable<T>::value, H>::type AbslHashValue( + H hash_state, const std::array<T, N>& array) { + return H::combine_contiguous(std::move(hash_state), array.data(), + array.size()); +} + +// AbslHashValue for hashing std::deque +template <typename H, typename T, typename Allocator> +typename std::enable_if<is_hashable<T>::value, H>::type AbslHashValue( + H hash_state, const std::deque<T, Allocator>& deque) { + // TODO(gromer): investigate a more efficient implementation taking + // advantage of the chunk structure. + for (const auto& t : deque) { + hash_state = H::combine(std::move(hash_state), t); + } + return H::combine(std::move(hash_state), deque.size()); +} + +// AbslHashValue for hashing std::forward_list +template <typename H, typename T, typename Allocator> +typename std::enable_if<is_hashable<T>::value, H>::type AbslHashValue( + H hash_state, const std::forward_list<T, Allocator>& list) { + size_t size = 0; + for (const T& t : list) { + hash_state = H::combine(std::move(hash_state), t); + ++size; + } + return H::combine(std::move(hash_state), size); +} + +// AbslHashValue for hashing std::list +template <typename H, typename T, typename Allocator> +typename std::enable_if<is_hashable<T>::value, H>::type AbslHashValue( + H hash_state, const std::list<T, Allocator>& list) { + for (const auto& t : list) { + hash_state = H::combine(std::move(hash_state), t); + } + return H::combine(std::move(hash_state), list.size()); +} + +// AbslHashValue for hashing std::vector +// +// Do not use this for vector<bool>. It does not have a .data(), and a fallback +// for std::hash<> is most likely faster. +template <typename H, typename T, typename Allocator> +typename std::enable_if<is_hashable<T>::value && !std::is_same<T, bool>::value, + H>::type +AbslHashValue(H hash_state, const std::vector<T, Allocator>& vector) { + return H::combine(H::combine_contiguous(std::move(hash_state), vector.data(), + vector.size()), + vector.size()); +} + +// ----------------------------------------------------------------------------- +// AbslHashValue for Ordered Associative Containers +// ----------------------------------------------------------------------------- + +// AbslHashValue for hashing std::map +template <typename H, typename Key, typename T, typename Compare, + typename Allocator> +typename std::enable_if<is_hashable<Key>::value && is_hashable<T>::value, + H>::type +AbslHashValue(H hash_state, const std::map<Key, T, Compare, Allocator>& map) { + for (const auto& t : map) { + hash_state = H::combine(std::move(hash_state), t); + } + return H::combine(std::move(hash_state), map.size()); +} + +// AbslHashValue for hashing std::multimap +template <typename H, typename Key, typename T, typename Compare, + typename Allocator> +typename std::enable_if<is_hashable<Key>::value && is_hashable<T>::value, + H>::type +AbslHashValue(H hash_state, + const std::multimap<Key, T, Compare, Allocator>& map) { + for (const auto& t : map) { + hash_state = H::combine(std::move(hash_state), t); + } + return H::combine(std::move(hash_state), map.size()); +} + +// AbslHashValue for hashing std::set +template <typename H, typename Key, typename Compare, typename Allocator> +typename std::enable_if<is_hashable<Key>::value, H>::type AbslHashValue( + H hash_state, const std::set<Key, Compare, Allocator>& set) { + for (const auto& t : set) { + hash_state = H::combine(std::move(hash_state), t); + } + return H::combine(std::move(hash_state), set.size()); +} + +// AbslHashValue for hashing std::multiset +template <typename H, typename Key, typename Compare, typename Allocator> +typename std::enable_if<is_hashable<Key>::value, H>::type AbslHashValue( + H hash_state, const std::multiset<Key, Compare, Allocator>& set) { + for (const auto& t : set) { + hash_state = H::combine(std::move(hash_state), t); + } + return H::combine(std::move(hash_state), set.size()); +} + +// ----------------------------------------------------------------------------- +// AbslHashValue for Wrapper Types +// ----------------------------------------------------------------------------- + +// AbslHashValue for hashing absl::optional +template <typename H, typename T> +typename std::enable_if<is_hashable<T>::value, H>::type AbslHashValue( + H hash_state, const absl::optional<T>& opt) { + if (opt) hash_state = H::combine(std::move(hash_state), *opt); + return H::combine(std::move(hash_state), opt.has_value()); +} + +// VariantVisitor +template <typename H> +struct VariantVisitor { + H&& hash_state; + template <typename T> + H operator()(const T& t) const { + return H::combine(std::move(hash_state), t); + } +}; + +// AbslHashValue for hashing absl::variant +template <typename H, typename... T> +typename std::enable_if<conjunction<is_hashable<T>...>::value, H>::type +AbslHashValue(H hash_state, const absl::variant<T...>& v) { + if (!v.valueless_by_exception()) { + hash_state = absl::visit(VariantVisitor<H>{std::move(hash_state)}, v); + } + return H::combine(std::move(hash_state), v.index()); +} + +// ----------------------------------------------------------------------------- +// AbslHashValue for Other Types +// ----------------------------------------------------------------------------- + +// AbslHashValue for hashing std::bitset is not defined, for the same reason as +// for vector<bool> (see std::vector above): It does not expose the raw bytes, +// and a fallback to std::hash<> is most likely faster. + +// ----------------------------------------------------------------------------- + +// hash_range_or_bytes() +// +// Mixes all values in the range [data, data+size) into the hash state. +// This overload accepts only uniquely-represented types, and hashes them by +// hashing the entire range of bytes. +template <typename H, typename T> +typename std::enable_if<is_uniquely_represented<T>::value, H>::type +hash_range_or_bytes(H hash_state, const T* data, size_t size) { + const auto* bytes = reinterpret_cast<const unsigned char*>(data); + return H::combine_contiguous(std::move(hash_state), bytes, sizeof(T) * size); +} + +// hash_range_or_bytes() +template <typename H, typename T> +typename std::enable_if<!is_uniquely_represented<T>::value, H>::type +hash_range_or_bytes(H hash_state, const T* data, size_t size) { + for (const auto end = data + size; data < end; ++data) { + hash_state = H::combine(std::move(hash_state), *data); + } + return hash_state; +} + +// InvokeHashTag +// +// InvokeHash(H, const T&) invokes the appropriate hash implementation for a +// hasher of type `H` and a value of type `T`. If `T` is not hashable, there +// will be no matching overload of InvokeHash(). +// Note: Some platforms (eg MSVC) do not support the detect idiom on +// std::hash. In those platforms the last fallback will be std::hash and +// InvokeHash() will always have a valid overload even if std::hash<T> is not +// valid. +// +// We try the following options in order: +// * If is_uniquely_represented, hash bytes directly. +// * ADL AbslHashValue(H, const T&) call. +// * std::hash<T> + +// In MSVC we can't probe std::hash or stdext::hash because it triggers a +// static_assert instead of failing substitution. +#if defined(_MSC_VER) +#define ABSL_HASH_INTERNAL_CAN_POISON_ 0 +#else // _MSC_VER +#define ABSL_HASH_INTERNAL_CAN_POISON_ 1 +#endif // _MSC_VER + +#if defined(ABSL_INTERNAL_LEGACY_HASH_NAMESPACE) && \ + ABSL_HASH_INTERNAL_CAN_POISON_ +#define ABSL_HASH_INTERNAL_SUPPORT_LEGACY_HASH_ 1 +#else +#define ABSL_HASH_INTERNAL_SUPPORT_LEGACY_HASH_ 0 +#endif + +enum class InvokeHashTag { + kUniquelyRepresented, + kHashValue, +#if ABSL_HASH_INTERNAL_SUPPORT_LEGACY_HASH_ + kLegacyHash, +#endif // ABSL_HASH_INTERNAL_SUPPORT_LEGACY_HASH_ + kStdHash, + kNone +}; + +// HashSelect +// +// Type trait to select the appropriate hash implementation to use. +// HashSelect<T>::value is an instance of InvokeHashTag that indicates the best +// available hashing mechanism. +// See `Note` above about MSVC. +template <typename T> +struct HashSelect { + private: + struct State : HashStateBase<State> { + static State combine_contiguous(State hash_state, const unsigned char*, + size_t); + using State::HashStateBase::combine_contiguous; + }; + + // `Probe<V, Tag>::value` evaluates to `V<T>::value` if it is a valid + // expression, and `false` otherwise. + // `Probe<V, Tag>::tag` always evaluates to `Tag`. + template <template <typename> class V, InvokeHashTag Tag> + struct Probe { + private: + template <typename U, typename std::enable_if<V<U>::value, int>::type = 0> + static std::true_type Test(int); + template <typename U> + static std::false_type Test(char); + + public: + static constexpr InvokeHashTag kTag = Tag; + static constexpr bool value = decltype( + Test<absl::remove_const_t<absl::remove_reference_t<T>>>(0))::value; + }; + + template <typename U> + using ProbeUniquelyRepresented = is_uniquely_represented<U>; + + template <typename U> + using ProbeHashValue = + std::is_same<State, decltype(AbslHashValue(std::declval<State>(), + std::declval<const U&>()))>; + +#if ABSL_HASH_INTERNAL_SUPPORT_LEGACY_HASH_ + template <typename U> + using ProbeLegacyHash = + std::is_convertible<decltype(ABSL_INTERNAL_LEGACY_HASH_NAMESPACE::hash< + U>()(std::declval<const U&>())), + size_t>; +#endif // ABSL_HASH_INTERNAL_SUPPORT_LEGACY_HASH_ + + template <typename U> + using ProbeStdHash = +#if ABSL_HASH_INTERNAL_CAN_POISON_ + std::is_convertible<decltype(std::hash<U>()(std::declval<const U&>())), + size_t>; +#else // ABSL_HASH_INTERNAL_CAN_POISON_ + std::true_type; +#endif // ABSL_HASH_INTERNAL_CAN_POISON_ + + template <typename U> + using ProbeNone = std::true_type; + + public: + // Probe each implementation in order. + // disjunction provides short circuting wrt instantiation. + static constexpr InvokeHashTag value = absl::disjunction< + Probe<ProbeUniquelyRepresented, InvokeHashTag::kUniquelyRepresented>, + Probe<ProbeHashValue, InvokeHashTag::kHashValue>, +#if ABSL_HASH_INTERNAL_SUPPORT_LEGACY_HASH_ + Probe<ProbeLegacyHash, InvokeHashTag::kLegacyHash>, +#endif // ABSL_HASH_INTERNAL_SUPPORT_LEGACY_HASH_ + Probe<ProbeStdHash, InvokeHashTag::kStdHash>, + Probe<ProbeNone, InvokeHashTag::kNone>>::kTag; +}; + +template <typename T> +struct is_hashable : std::integral_constant<bool, HashSelect<T>::value != + InvokeHashTag::kNone> {}; + +template <typename H, typename T> +absl::enable_if_t<HashSelect<T>::value == InvokeHashTag::kUniquelyRepresented, + H> +InvokeHash(H state, const T& value) { + return hash_internal::hash_bytes(std::move(state), value); +} + +template <typename H, typename T> +absl::enable_if_t<HashSelect<T>::value == InvokeHashTag::kHashValue, H> +InvokeHash(H state, const T& value) { + return AbslHashValue(std::move(state), value); +} + +#if ABSL_HASH_INTERNAL_SUPPORT_LEGACY_HASH_ +template <typename H, typename T> +absl::enable_if_t<HashSelect<T>::value == InvokeHashTag::kLegacyHash, H> +InvokeHash(H state, const T& value) { + return hash_internal::hash_bytes( + std::move(state), ABSL_INTERNAL_LEGACY_HASH_NAMESPACE::hash<T>{}(value)); +} +#endif // ABSL_HASH_INTERNAL_SUPPORT_LEGACY_HASH_ + +template <typename H, typename T> +absl::enable_if_t<HashSelect<T>::value == InvokeHashTag::kStdHash, H> +InvokeHash(H state, const T& value) { + return hash_internal::hash_bytes(std::move(state), std::hash<T>{}(value)); +} + +// CityHashState +class CityHashState : public HashStateBase<CityHashState> { + // absl::uint128 is not an alias or a thin wrapper around the intrinsic. + // We use the intrinsic when available to improve performance. +#ifdef ABSL_HAVE_INTRINSIC_INT128 + using uint128 = __uint128_t; +#else // ABSL_HAVE_INTRINSIC_INT128 + using uint128 = absl::uint128; +#endif // ABSL_HAVE_INTRINSIC_INT128 + + static constexpr uint64_t kMul = + sizeof(size_t) == 4 ? uint64_t{0xcc9e2d51} : uint64_t{0x9ddfea08eb382d69}; + + template <typename T> + using IntegralFastPath = + conjunction<std::is_integral<T>, is_uniquely_represented<T>>; + + public: + // Move only + CityHashState(CityHashState&&) = default; + CityHashState& operator=(CityHashState&&) = default; + + // CityHashState::combine_contiguous() + // + // Fundamental base case for hash recursion: mixes the given range of bytes + // into the hash state. + static CityHashState combine_contiguous(CityHashState hash_state, + const unsigned char* first, + size_t size) { + return CityHashState( + CombineContiguousImpl(hash_state.state_, first, size, + std::integral_constant<int, sizeof(size_t)>{})); + } + using CityHashState::HashStateBase::combine_contiguous; + + // CityHashState::hash() + // + // For performance reasons in non-opt mode, we specialize this for + // integral types. + // Otherwise we would be instantiating and calling dozens of functions for + // something that is just one multiplication and a couple xor's. + // The result should be the same as running the whole algorithm, but faster. + template <typename T, absl::enable_if_t<IntegralFastPath<T>::value, int> = 0> + static size_t hash(T value) { + return static_cast<size_t>(Mix(Seed(), static_cast<uint64_t>(value))); + } + + // Overload of CityHashState::hash() + template <typename T, absl::enable_if_t<!IntegralFastPath<T>::value, int> = 0> + static size_t hash(const T& value) { + return static_cast<size_t>(combine(CityHashState{}, value).state_); + } + + private: + // Invoked only once for a given argument; that plus the fact that this is + // move-only ensures that there is only one non-moved-from object. + CityHashState() : state_(Seed()) {} + + // Workaround for MSVC bug. + // We make the type copyable to fix the calling convention, even though we + // never actually copy it. Keep it private to not affect the public API of the + // type. + CityHashState(const CityHashState&) = default; + + explicit CityHashState(uint64_t state) : state_(state) {} + + // Implementation of the base case for combine_contiguous where we actually + // mix the bytes into the state. + // Dispatch to different implementations of the combine_contiguous depending + // on the value of `sizeof(size_t)`. + static uint64_t CombineContiguousImpl(uint64_t state, + const unsigned char* first, size_t len, + std::integral_constant<int, 4> + /* sizeof_size_t */); + static uint64_t CombineContiguousImpl(uint64_t state, + const unsigned char* first, size_t len, + std::integral_constant<int, 8> + /* sizeof_size_t*/); + + // Reads 9 to 16 bytes from p. + // The first 8 bytes are in .first, the rest (zero padded) bytes are in + // .second. + static std::pair<uint64_t, uint64_t> Read9To16(const unsigned char* p, + size_t len) { + uint64_t high = little_endian::Load64(p + len - 8); + return {little_endian::Load64(p), high >> (128 - len * 8)}; + } + + // Reads 4 to 8 bytes from p. Zero pads to fill uint64_t. + static uint64_t Read4To8(const unsigned char* p, size_t len) { + return (static_cast<uint64_t>(little_endian::Load32(p + len - 4)) + << (len - 4) * 8) | + little_endian::Load32(p); + } + + // Reads 1 to 3 bytes from p. Zero pads to fill uint32_t. + static uint32_t Read1To3(const unsigned char* p, size_t len) { + return static_cast<uint32_t>((p[0]) | // + (p[len / 2] << (len / 2 * 8)) | // + (p[len - 1] << ((len - 1) * 8))); + } + + ABSL_ATTRIBUTE_ALWAYS_INLINE static uint64_t Mix(uint64_t state, uint64_t v) { + using MultType = + absl::conditional_t<sizeof(size_t) == 4, uint64_t, uint128>; + // We do the addition in 64-bit space to make sure the 128-bit + // multiplication is fast. If we were to do it as MultType the compiler has + // to assume that the high word is non-zero and needs to perform 2 + // multiplications instead of one. + MultType m = state + v; + m *= kMul; + return static_cast<uint64_t>(m ^ (m >> (sizeof(m) * 8 / 2))); + } + + // Seed() + // + // A non-deterministic seed. + // + // The current purpose of this seed is to generate non-deterministic results + // and prevent having users depend on the particular hash values. + // It is not meant as a security feature right now, but it leaves the door + // open to upgrade it to a true per-process random seed. A true random seed + // costs more and we don't need to pay for that right now. + // + // On platforms with ASLR, we take advantage of it to make a per-process + // random value. + // See https://en.wikipedia.org/wiki/Address_space_layout_randomization + // + // On other platforms this is still going to be non-deterministic but most + // probably per-build and not per-process. + ABSL_ATTRIBUTE_ALWAYS_INLINE static uint64_t Seed() { + return static_cast<uint64_t>(reinterpret_cast<uintptr_t>(kSeed)); + } + static const void* const kSeed; + + uint64_t state_; +}; + +// CityHashState::CombineContiguousImpl() +inline uint64_t CityHashState::CombineContiguousImpl( + uint64_t state, const unsigned char* first, size_t len, + std::integral_constant<int, 4> /* sizeof_size_t */) { + // For large values we use CityHash, for small ones we just use a + // multiplicative hash. + uint64_t v; + if (len > 8) { + v = absl::hash_internal::CityHash32(reinterpret_cast<const char*>(first), len); + } else if (len >= 4) { + v = Read4To8(first, len); + } else if (len > 0) { + v = Read1To3(first, len); + } else { + // Empty ranges have no effect. + return state; + } + return Mix(state, v); +} + +// Overload of CityHashState::CombineContiguousImpl() +inline uint64_t CityHashState::CombineContiguousImpl( + uint64_t state, const unsigned char* first, size_t len, + std::integral_constant<int, 8> /* sizeof_size_t */) { + // For large values we use CityHash, for small ones we just use a + // multiplicative hash. + uint64_t v; + if (len > 16) { + v = absl::hash_internal::CityHash64(reinterpret_cast<const char*>(first), len); + } else if (len > 8) { + auto p = Read9To16(first, len); + state = Mix(state, p.first); + v = p.second; + } else if (len >= 4) { + v = Read4To8(first, len); + } else if (len > 0) { + v = Read1To3(first, len); + } else { + // Empty ranges have no effect. + return state; + } + return Mix(state, v); +} + + +struct AggregateBarrier {}; + +// HashImpl + +// Add a private base class to make sure this type is not an aggregate. +// Aggregates can be aggregate initialized even if the default constructor is +// deleted. +struct PoisonedHash : private AggregateBarrier { + PoisonedHash() = delete; + PoisonedHash(const PoisonedHash&) = delete; + PoisonedHash& operator=(const PoisonedHash&) = delete; +}; + +template <typename T> +struct HashImpl { + size_t operator()(const T& value) const { return CityHashState::hash(value); } +}; + +template <typename T> +struct Hash + : absl::conditional_t<is_hashable<T>::value, HashImpl<T>, PoisonedHash> {}; + +template <typename H> +template <typename T, typename... Ts> +H HashStateBase<H>::combine(H state, const T& value, const Ts&... values) { + return H::combine(hash_internal::InvokeHash(std::move(state), value), + values...); +} + +// HashStateBase::combine_contiguous() +template <typename H> +template <typename T> +H HashStateBase<H>::combine_contiguous(H state, const T* data, size_t size) { + return hash_internal::hash_range_or_bytes(std::move(state), data, size); +} +} // namespace hash_internal +} // inline namespace lts_2018_12_18 +} // namespace absl + +#endif // ABSL_HASH_INTERNAL_HASH_H_ |