mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
synced 2024-11-11 02:35:18 +00:00
276 lines
8.4 KiB
Go
276 lines
8.4 KiB
Go
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/*
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* Copyright 2017 Dgraph Labs, Inc. and Contributors
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* Modifications copyright (C) 2017 Andy Kimball and Contributors
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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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* http://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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*/
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package arenaskl
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import (
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"context"
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"sync"
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"github.com/cockroachdb/pebble/internal/base"
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)
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type splice struct {
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prev *node
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next *node
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}
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func (s *splice) init(prev, next *node) {
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s.prev = prev
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s.next = next
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}
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// Iterator is an iterator over the skiplist object. Use Skiplist.NewIter
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// to construct an iterator. The current state of the iterator can be cloned by
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// simply value copying the struct. All iterator methods are thread-safe.
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type Iterator struct {
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list *Skiplist
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nd *node
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key base.InternalKey
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lower []byte
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upper []byte
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}
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// Iterator implements the base.InternalIterator interface.
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var _ base.InternalIterator = (*Iterator)(nil)
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var iterPool = sync.Pool{
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New: func() interface{} {
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return &Iterator{}
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},
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}
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// Close resets the iterator.
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func (it *Iterator) Close() error {
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it.list = nil
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it.nd = nil
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it.lower = nil
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it.upper = nil
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iterPool.Put(it)
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return nil
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}
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func (it *Iterator) String() string {
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return "memtable"
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}
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// Error returns any accumulated error.
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func (it *Iterator) Error() error {
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return nil
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}
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// SeekGE moves the iterator to the first entry whose key is greater than or
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// equal to the given key. Returns the key and value if the iterator is
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// pointing at a valid entry, and (nil, nil) otherwise. Note that SeekGE only
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// checks the upper bound. It is up to the caller to ensure that key is greater
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// than or equal to the lower bound.
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func (it *Iterator) SeekGE(key []byte, flags base.SeekGEFlags) (*base.InternalKey, base.LazyValue) {
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if flags.TrySeekUsingNext() {
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if it.nd == it.list.tail {
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// Iterator is done.
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return nil, base.LazyValue{}
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}
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less := it.list.cmp(it.key.UserKey, key) < 0
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// Arbitrary constant. By measuring the seek cost as a function of the
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// number of elements in the skip list, and fitting to a model, we
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// could adjust the number of nexts based on the current size of the
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// skip list.
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const numNexts = 5
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for i := 0; less && i < numNexts; i++ {
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k, _ := it.Next()
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if k == nil {
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// Iterator is done.
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return nil, base.LazyValue{}
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}
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less = it.list.cmp(it.key.UserKey, key) < 0
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}
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if !less {
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return &it.key, base.MakeInPlaceValue(it.value())
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}
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}
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_, it.nd, _ = it.seekForBaseSplice(key)
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if it.nd == it.list.tail {
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return nil, base.LazyValue{}
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}
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it.decodeKey()
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if it.upper != nil && it.list.cmp(it.upper, it.key.UserKey) <= 0 {
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it.nd = it.list.tail
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return nil, base.LazyValue{}
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}
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return &it.key, base.MakeInPlaceValue(it.value())
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}
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// SeekPrefixGE moves the iterator to the first entry whose key is greater than
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// or equal to the given key. This method is equivalent to SeekGE and is
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// provided so that an arenaskl.Iterator implements the
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// internal/base.InternalIterator interface.
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func (it *Iterator) SeekPrefixGE(
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prefix, key []byte, flags base.SeekGEFlags,
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) (*base.InternalKey, base.LazyValue) {
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return it.SeekGE(key, flags)
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}
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// SeekLT moves the iterator to the last entry whose key is less than the given
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// key. Returns the key and value if the iterator is pointing at a valid entry,
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// and (nil, nil) otherwise. Note that SeekLT only checks the lower bound. It
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// is up to the caller to ensure that key is less than the upper bound.
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func (it *Iterator) SeekLT(key []byte, flags base.SeekLTFlags) (*base.InternalKey, base.LazyValue) {
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// NB: the top-level Iterator has already adjusted key based on
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// the upper-bound.
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it.nd, _, _ = it.seekForBaseSplice(key)
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if it.nd == it.list.head {
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return nil, base.LazyValue{}
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}
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it.decodeKey()
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if it.lower != nil && it.list.cmp(it.lower, it.key.UserKey) > 0 {
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it.nd = it.list.head
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return nil, base.LazyValue{}
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}
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return &it.key, base.MakeInPlaceValue(it.value())
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}
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// First seeks position at the first entry in list. Returns the key and value
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// if the iterator is pointing at a valid entry, and (nil, nil) otherwise. Note
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// that First only checks the upper bound. It is up to the caller to ensure
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// that key is greater than or equal to the lower bound (e.g. via a call to SeekGE(lower)).
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func (it *Iterator) First() (*base.InternalKey, base.LazyValue) {
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it.nd = it.list.getNext(it.list.head, 0)
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if it.nd == it.list.tail {
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return nil, base.LazyValue{}
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}
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it.decodeKey()
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if it.upper != nil && it.list.cmp(it.upper, it.key.UserKey) <= 0 {
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it.nd = it.list.tail
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return nil, base.LazyValue{}
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}
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return &it.key, base.MakeInPlaceValue(it.value())
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}
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// Last seeks position at the last entry in list. Returns the key and value if
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// the iterator is pointing at a valid entry, and (nil, nil) otherwise. Note
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// that Last only checks the lower bound. It is up to the caller to ensure that
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// key is less than the upper bound (e.g. via a call to SeekLT(upper)).
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func (it *Iterator) Last() (*base.InternalKey, base.LazyValue) {
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it.nd = it.list.getPrev(it.list.tail, 0)
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if it.nd == it.list.head {
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return nil, base.LazyValue{}
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}
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it.decodeKey()
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if it.lower != nil && it.list.cmp(it.lower, it.key.UserKey) > 0 {
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it.nd = it.list.head
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return nil, base.LazyValue{}
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}
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return &it.key, base.MakeInPlaceValue(it.value())
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}
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// Next advances to the next position. Returns the key and value if the
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// iterator is pointing at a valid entry, and (nil, nil) otherwise.
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// Note: flushIterator.Next mirrors the implementation of Iterator.Next
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// due to performance. Keep the two in sync.
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func (it *Iterator) Next() (*base.InternalKey, base.LazyValue) {
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it.nd = it.list.getNext(it.nd, 0)
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if it.nd == it.list.tail {
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return nil, base.LazyValue{}
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}
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it.decodeKey()
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if it.upper != nil && it.list.cmp(it.upper, it.key.UserKey) <= 0 {
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it.nd = it.list.tail
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return nil, base.LazyValue{}
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}
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return &it.key, base.MakeInPlaceValue(it.value())
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}
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// NextPrefix advances to the next position with a new prefix. Returns the key
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// and value if the iterator is pointing at a valid entry, and (nil, nil)
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// otherwise.
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func (it *Iterator) NextPrefix(succKey []byte) (*base.InternalKey, base.LazyValue) {
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return it.SeekGE(succKey, base.SeekGEFlagsNone.EnableTrySeekUsingNext())
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}
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// Prev moves to the previous position. Returns the key and value if the
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// iterator is pointing at a valid entry, and (nil, nil) otherwise.
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func (it *Iterator) Prev() (*base.InternalKey, base.LazyValue) {
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it.nd = it.list.getPrev(it.nd, 0)
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if it.nd == it.list.head {
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return nil, base.LazyValue{}
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}
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it.decodeKey()
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if it.lower != nil && it.list.cmp(it.lower, it.key.UserKey) > 0 {
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it.nd = it.list.head
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return nil, base.LazyValue{}
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}
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return &it.key, base.MakeInPlaceValue(it.value())
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}
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// value returns the value at the current position.
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func (it *Iterator) value() []byte {
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return it.nd.getValue(it.list.arena)
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}
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// Head true iff the iterator is positioned at the sentinel head node.
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func (it *Iterator) Head() bool {
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return it.nd == it.list.head
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}
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// Tail true iff the iterator is positioned at the sentinel tail node.
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func (it *Iterator) Tail() bool {
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return it.nd == it.list.tail
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}
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// SetBounds sets the lower and upper bounds for the iterator. Note that the
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// result of Next and Prev will be undefined until the iterator has been
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// repositioned with SeekGE, SeekPrefixGE, SeekLT, First, or Last.
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func (it *Iterator) SetBounds(lower, upper []byte) {
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it.lower = lower
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it.upper = upper
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}
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// SetContext implements base.InternalIterator.
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func (it *Iterator) SetContext(_ context.Context) {}
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func (it *Iterator) decodeKey() {
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it.key.UserKey = it.list.arena.getBytes(it.nd.keyOffset, it.nd.keySize)
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it.key.Trailer = it.nd.keyTrailer
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}
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func (it *Iterator) seekForBaseSplice(key []byte) (prev, next *node, found bool) {
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ikey := base.MakeSearchKey(key)
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level := int(it.list.Height() - 1)
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prev = it.list.head
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for {
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prev, next, found = it.list.findSpliceForLevel(ikey, level, prev)
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if found {
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if level != 0 {
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// next is pointing at the target node, but we need to find previous on
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// the bottom level.
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prev = it.list.getPrev(next, 0)
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}
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break
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}
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if level == 0 {
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break
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}
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level--
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}
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return
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}
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