building_data_management_systems.Xuanzhou.2024Fall.DaSE
/
leveldb_ttl
bifurqué depuis building_data_management_systems.Xuanzhou.2024Fall.DaSE/leveldb_base


								// Copyright (c) 2011 The LevelDB Authors. All rights reserved.

								// Use of this source code is governed by a BSD-style license that can be

								// found in the LICENSE file. See the AUTHORS file for names of contributors.

								//

								// An iterator yields a sequence of key/value pairs from a source.

								// The following class defines the interface.  Multiple implementations

								// are provided by this library.  In particular, iterators are provided

								// to access the contents of a Table or a DB.

								//

								// Multiple threads can invoke const methods on an Iterator without

								// external synchronization, but if any of the threads may call a

								// non-const method, all threads accessing the same Iterator must use

								// external synchronization.


								#ifndef STORAGE_LEVELDB_INCLUDE_ITERATOR_H_

								#define STORAGE_LEVELDB_INCLUDE_ITERATOR_H_


								#include "leveldb/export.h"

								#include "leveldb/slice.h"

								#include "leveldb/status.h"


								namespace leveldb {


								class LEVELDB_EXPORT Iterator {

								 public:

								  Iterator();


								  Iterator(const Iterator&) = delete;

								  Iterator& operator=(const Iterator&) = delete;


								  virtual ~Iterator();


								  // An iterator is either positioned at a key/value pair, or

								  // not valid.  This method returns true iff the iterator is valid.

								  virtual bool Valid() const = 0;


								  // Position at the first key in the source.  The iterator is Valid()

								  // after this call iff the source is not empty.

								  virtual void SeekToFirst() = 0;


								  // Position at the last key in the source.  The iterator is

								  // Valid() after this call iff the source is not empty.

								  virtual void SeekToLast() = 0;


								  // Position at the first key in the source that is at or past target.

								  // The iterator is Valid() after this call iff the source contains

								  // an entry that comes at or past target.

								  virtual void Seek(const Slice& target) = 0;


								  // Moves to the next entry in the source.  After this call, Valid() is

								  // true iff the iterator was not positioned at the last entry in the source.

								  // REQUIRES: Valid()

								  virtual void Next() = 0;


								  // Moves to the previous entry in the source.  After this call, Valid() is

								  // true iff the iterator was not positioned at the first entry in source.

								  // REQUIRES: Valid()

								  virtual void Prev() = 0;


								  // Return the key for the current entry.  The underlying storage for

								  // the returned slice is valid only until the next modification of

								  // the iterator.

								  // REQUIRES: Valid()

								  virtual Slice key() const = 0;


								  // Return the value for the current entry.  The underlying storage for

								  // the returned slice is valid only until the next modification of

								  // the iterator.

								  // REQUIRES: Valid()

								  virtual Slice value() const = 0;


								  // If an error has occurred, return it.  Else return an ok status.

								  virtual Status status() const = 0;


								  // Clients are allowed to register function/arg1/arg2 triples that

								  // will be invoked when this iterator is destroyed.

								  //

								  // Note that unlike all of the preceding methods, this method is

								  // not abstract and therefore clients should not override it.

								  using CleanupFunction = void (*)(void* arg1, void* arg2);

								  void RegisterCleanup(CleanupFunction function, void* arg1, void* arg2);


								 private:

								  // Cleanup functions are stored in a single-linked list.

								  // The list's head node is inlined in the iterator.

								  struct CleanupNode {

								    // True if the node is not used. Only head nodes might be unused.

								    bool IsEmpty() const { return function == nullptr; }

								    // Invokes the cleanup function.

								    void Run() {

								      assert(function != nullptr);

								      (*function)(arg1, arg2);

								    }


								    // The head node is used if the function pointer is not null.

								    CleanupFunction function;

								    void* arg1;

								    void* arg2;

								    CleanupNode* next;

								  };

								  CleanupNode cleanup_head_;

								};


								// Return an empty iterator (yields nothing).

								LEVELDB_EXPORT Iterator* NewEmptyIterator();


								// Return an empty iterator with the specified status.

								LEVELDB_EXPORT Iterator* NewErrorIterator(const Status& status);


								}  // namespace leveldb


								#endif  // STORAGE_LEVELDB_INCLUDE_ITERATOR_H_