Abseil Common Libraries (C++) (grcp 依赖)
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270 lines
9.4 KiB
270 lines
9.4 KiB
// Copyright 2020 The Abseil Authors. |
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// |
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// Licensed under the Apache License, Version 2.0 (the "License"); |
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// you may not use this file except in compliance with the License. |
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// You may obtain a copy of the License at |
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// |
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// https://www.apache.org/licenses/LICENSE-2.0 |
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// |
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// Unless required by applicable law or agreed to in writing, software |
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// distributed under the License is distributed on an "AS IS" BASIS, |
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
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// See the License for the specific language governing permissions and |
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// limitations under the License. |
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#ifndef ABSL_STRINGS_INTERNAL_CORD_INTERNAL_H_ |
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#define ABSL_STRINGS_INTERNAL_CORD_INTERNAL_H_ |
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#include <atomic> |
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#include <cassert> |
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#include <cstddef> |
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#include <cstdint> |
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#include <type_traits> |
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#include "absl/base/internal/invoke.h" |
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#include "absl/container/internal/compressed_tuple.h" |
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#include "absl/meta/type_traits.h" |
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#include "absl/strings/string_view.h" |
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namespace absl { |
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ABSL_NAMESPACE_BEGIN |
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namespace cord_internal { |
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// Wraps std::atomic for reference counting. |
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class Refcount { |
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public: |
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constexpr Refcount() : count_{kRefIncrement} {} |
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struct Immortal {}; |
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explicit constexpr Refcount(Immortal) : count_(kImmortalTag) {} |
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// Increments the reference count. Imposes no memory ordering. |
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inline void Increment() { |
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count_.fetch_add(kRefIncrement, std::memory_order_relaxed); |
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} |
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// Asserts that the current refcount is greater than 0. If the refcount is |
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// greater than 1, decrements the reference count. |
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// |
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// Returns false if there are no references outstanding; true otherwise. |
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// Inserts barriers to ensure that state written before this method returns |
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// false will be visible to a thread that just observed this method returning |
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// false. |
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inline bool Decrement() { |
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int32_t refcount = count_.load(std::memory_order_acquire); |
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assert(refcount > 0 || refcount & kImmortalTag); |
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return refcount != kRefIncrement && |
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count_.fetch_sub(kRefIncrement, std::memory_order_acq_rel) != |
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kRefIncrement; |
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} |
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// Same as Decrement but expect that refcount is greater than 1. |
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inline bool DecrementExpectHighRefcount() { |
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int32_t refcount = |
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count_.fetch_sub(kRefIncrement, std::memory_order_acq_rel); |
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assert(refcount > 0 || refcount & kImmortalTag); |
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return refcount != kRefIncrement; |
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} |
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// Returns the current reference count using acquire semantics. |
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inline int32_t Get() const { |
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return count_.load(std::memory_order_acquire) >> kImmortalShift; |
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} |
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// Returns whether the atomic integer is 1. |
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// If the reference count is used in the conventional way, a |
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// reference count of 1 implies that the current thread owns the |
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// reference and no other thread shares it. |
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// This call performs the test for a reference count of one, and |
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// performs the memory barrier needed for the owning thread |
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// to act on the object, knowing that it has exclusive access to the |
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// object. |
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inline bool IsOne() { |
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return count_.load(std::memory_order_acquire) == kRefIncrement; |
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} |
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bool IsImmortal() const { |
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return (count_.load(std::memory_order_relaxed) & kImmortalTag) != 0; |
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} |
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private: |
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// We reserve the bottom bit to tag a reference count as immortal. |
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// By making it `1` we ensure that we never reach `0` when adding/subtracting |
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// `2`, thus it never looks as if it should be destroyed. |
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// These are used for the StringConstant constructor where we do not increase |
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// the refcount at construction time (due to constinit requirements) but we |
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// will still decrease it at destruction time to avoid branching on Unref. |
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enum { |
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kImmortalShift = 1, |
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kRefIncrement = 1 << kImmortalShift, |
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kImmortalTag = kRefIncrement - 1 |
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}; |
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std::atomic<int32_t> count_; |
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}; |
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// The overhead of a vtable is too much for Cord, so we roll our own subclasses |
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// using only a single byte to differentiate classes from each other - the "tag" |
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// byte. Define the subclasses first so we can provide downcasting helper |
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// functions in the base class. |
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struct CordRepConcat; |
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struct CordRepSubstring; |
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struct CordRepExternal; |
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// Various representations that we allow |
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enum CordRepKind { |
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CONCAT = 0, |
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EXTERNAL = 1, |
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SUBSTRING = 2, |
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// We have different tags for different sized flat arrays, |
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// starting with FLAT |
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FLAT = 3, |
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}; |
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struct CordRep { |
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CordRep() = default; |
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constexpr CordRep(Refcount::Immortal immortal, size_t l) |
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: length(l), refcount(immortal), tag(EXTERNAL), data{} {} |
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// The following three fields have to be less than 32 bytes since |
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// that is the smallest supported flat node size. |
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size_t length; |
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Refcount refcount; |
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// If tag < FLAT, it represents CordRepKind and indicates the type of node. |
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// Otherwise, the node type is CordRepFlat and the tag is the encoded size. |
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uint8_t tag; |
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char data[1]; // Starting point for flat array: MUST BE LAST FIELD of CordRep |
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inline CordRepConcat* concat(); |
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inline const CordRepConcat* concat() const; |
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inline CordRepSubstring* substring(); |
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inline const CordRepSubstring* substring() const; |
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inline CordRepExternal* external(); |
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inline const CordRepExternal* external() const; |
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}; |
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struct CordRepConcat : public CordRep { |
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CordRep* left; |
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CordRep* right; |
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uint8_t depth() const { return static_cast<uint8_t>(data[0]); } |
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void set_depth(uint8_t depth) { data[0] = static_cast<char>(depth); } |
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}; |
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struct CordRepSubstring : public CordRep { |
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size_t start; // Starting offset of substring in child |
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CordRep* child; |
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}; |
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// Type for function pointer that will invoke the releaser function and also |
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// delete the `CordRepExternalImpl` corresponding to the passed in |
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// `CordRepExternal`. |
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using ExternalReleaserInvoker = void (*)(CordRepExternal*); |
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// External CordReps are allocated together with a type erased releaser. The |
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// releaser is stored in the memory directly following the CordRepExternal. |
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struct CordRepExternal : public CordRep { |
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CordRepExternal() = default; |
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explicit constexpr CordRepExternal(absl::string_view str) |
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: CordRep(Refcount::Immortal{}, str.size()), |
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base(str.data()), |
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releaser_invoker(nullptr) {} |
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const char* base; |
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// Pointer to function that knows how to call and destroy the releaser. |
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ExternalReleaserInvoker releaser_invoker; |
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}; |
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struct Rank1 {}; |
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struct Rank0 : Rank1 {}; |
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template <typename Releaser, typename = ::absl::base_internal::invoke_result_t< |
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Releaser, absl::string_view>> |
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void InvokeReleaser(Rank0, Releaser&& releaser, absl::string_view data) { |
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::absl::base_internal::invoke(std::forward<Releaser>(releaser), data); |
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} |
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template <typename Releaser, |
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typename = ::absl::base_internal::invoke_result_t<Releaser>> |
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void InvokeReleaser(Rank1, Releaser&& releaser, absl::string_view) { |
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::absl::base_internal::invoke(std::forward<Releaser>(releaser)); |
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} |
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// We use CompressedTuple so that we can benefit from EBCO. |
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template <typename Releaser> |
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struct CordRepExternalImpl |
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: public CordRepExternal, |
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public ::absl::container_internal::CompressedTuple<Releaser> { |
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// The extra int arg is so that we can avoid interfering with copy/move |
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// constructors while still benefitting from perfect forwarding. |
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template <typename T> |
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CordRepExternalImpl(T&& releaser, int) |
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: CordRepExternalImpl::CompressedTuple(std::forward<T>(releaser)) { |
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this->releaser_invoker = &Release; |
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} |
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~CordRepExternalImpl() { |
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InvokeReleaser(Rank0{}, std::move(this->template get<0>()), |
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absl::string_view(base, length)); |
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} |
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static void Release(CordRepExternal* rep) { |
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delete static_cast<CordRepExternalImpl*>(rep); |
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} |
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}; |
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template <typename Str> |
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struct ConstInitExternalStorage { |
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ABSL_CONST_INIT static CordRepExternal value; |
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}; |
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template <typename Str> |
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CordRepExternal ConstInitExternalStorage<Str>::value(Str::value); |
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enum { |
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kMaxInline = 15, |
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// Tag byte & kMaxInline means we are storing a pointer. |
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kTreeFlag = 1 << 4, |
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// Tag byte & kProfiledFlag means we are profiling the Cord. |
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kProfiledFlag = 1 << 5 |
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}; |
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// If the data has length <= kMaxInline, we store it in `as_chars`, and |
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// store the size in `tagged_size`. |
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// Else we store it in a tree and store a pointer to that tree in |
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// `as_tree.rep` and store a tag in `tagged_size`. |
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struct AsTree { |
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absl::cord_internal::CordRep* rep; |
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char padding[kMaxInline + 1 - sizeof(absl::cord_internal::CordRep*) - 1]; |
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char tagged_size; |
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}; |
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constexpr char GetOrNull(absl::string_view data, size_t pos) { |
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return pos < data.size() ? data[pos] : '\0'; |
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} |
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union InlineData { |
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constexpr InlineData() : as_chars{} {} |
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explicit constexpr InlineData(AsTree tree) : as_tree(tree) {} |
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explicit constexpr InlineData(absl::string_view chars) |
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: as_chars{GetOrNull(chars, 0), GetOrNull(chars, 1), |
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GetOrNull(chars, 2), GetOrNull(chars, 3), |
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GetOrNull(chars, 4), GetOrNull(chars, 5), |
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GetOrNull(chars, 6), GetOrNull(chars, 7), |
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GetOrNull(chars, 8), GetOrNull(chars, 9), |
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GetOrNull(chars, 10), GetOrNull(chars, 11), |
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GetOrNull(chars, 12), GetOrNull(chars, 13), |
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GetOrNull(chars, 14), static_cast<char>(chars.size())} {} |
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AsTree as_tree; |
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char as_chars[kMaxInline + 1]; |
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}; |
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static_assert(sizeof(InlineData) == kMaxInline + 1, ""); |
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static_assert(sizeof(AsTree) == sizeof(InlineData), ""); |
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static_assert(offsetof(AsTree, tagged_size) == kMaxInline, ""); |
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} // namespace cord_internal |
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ABSL_NAMESPACE_END |
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} // namespace absl |
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#endif // ABSL_STRINGS_INTERNAL_CORD_INTERNAL_H_
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