mirror of
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522 lines
16 KiB
Go
522 lines
16 KiB
Go
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// Copyright 2022 The LevelDB-Go and Pebble Authors. All rights reserved. Use
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// of this source code is governed by a BSD-style license that can be found in
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// the LICENSE file.
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package keyspan
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import (
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"fmt"
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"github.com/cockroachdb/pebble/internal/base"
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"github.com/cockroachdb/pebble/internal/invariants"
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"github.com/cockroachdb/pebble/internal/manifest"
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)
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// LevelIter provides a merged view of spans from sstables in a level.
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// It takes advantage of level invariants to only have one sstable span block
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// open at one time, opened using the newIter function passed in.
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type LevelIter struct {
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cmp base.Compare
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// Denotes the kind of key the level iterator should read. If the key type
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// is KeyTypePoint, the level iterator will read range tombstones (which
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// only affect point keys). If the key type is KeyTypeRange, the level
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// iterator will read range keys. It is invalid to configure an iterator
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// with the KeyTypePointAndRange key type.
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//
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// If key type is KeyTypePoint, no straddle spans are emitted between files,
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// and point key bounds are used to find files instead of range key bounds.
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//
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// TODO(bilal): Straddle spans can safely be produced in rangedel mode once
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// we can guarantee that we will never read sstables in a level that split
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// user keys across them. This might be guaranteed in a future release, but
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// as of CockroachDB 22.2 it is not guaranteed, so to be safe disable it when
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// keyType == KeyTypePoint
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keyType manifest.KeyType
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// The LSM level this LevelIter is initialized for. Used in logging.
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level manifest.Level
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// The below fields are used to fill in gaps between adjacent files' range
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// key spaces. This is an optimization to avoid unnecessarily loading files
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// in cases where range keys are sparse and rare. dir is set by every
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// positioning operation, straddleDir is set to dir whenever a straddling
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// Span is synthesized and the last positioning operation returned a
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// synthesized straddle span.
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//
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// Note that when a straddle span is initialized, iterFile is modified to
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// point to the next file in the straddleDir direction. A change of direction
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// on a straddle key therefore necessitates the value of iterFile to be
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// reverted.
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dir int
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straddle Span
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straddleDir int
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// The iter for the current file (iterFile). It is nil under any of the
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// following conditions:
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// - files.Current() == nil
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// - err != nil
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// - straddleDir != 0, in which case iterFile is not nil and points to the
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// next file (in the straddleDir direction).
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// - some other constraint, like the bounds in opts, caused the file at index to not
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// be relevant to the iteration.
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iter FragmentIterator
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// iterFile holds the current file.
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// INVARIANT: iterFile = files.Current()
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iterFile *manifest.FileMetadata
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newIter TableNewSpanIter
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files manifest.LevelIterator
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err error
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// The options that were passed in.
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tableOpts SpanIterOptions
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// TODO(bilal): Add InternalIteratorStats.
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}
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// LevelIter implements the keyspan.FragmentIterator interface.
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var _ FragmentIterator = (*LevelIter)(nil)
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// NewLevelIter returns a LevelIter.
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func NewLevelIter(
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opts SpanIterOptions,
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cmp base.Compare,
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newIter TableNewSpanIter,
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files manifest.LevelIterator,
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level manifest.Level,
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keyType manifest.KeyType,
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) *LevelIter {
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l := &LevelIter{}
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l.Init(opts, cmp, newIter, files, level, keyType)
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return l
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}
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// Init initializes a LevelIter.
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func (l *LevelIter) Init(
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opts SpanIterOptions,
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cmp base.Compare,
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newIter TableNewSpanIter,
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files manifest.LevelIterator,
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level manifest.Level,
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keyType manifest.KeyType,
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) {
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l.err = nil
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l.level = level
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l.tableOpts = opts
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l.cmp = cmp
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l.iterFile = nil
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l.newIter = newIter
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switch keyType {
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case manifest.KeyTypePoint:
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l.keyType = keyType
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l.files = files.Filter(keyType)
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case manifest.KeyTypeRange:
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l.keyType = keyType
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l.files = files.Filter(keyType)
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default:
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panic(fmt.Sprintf("unsupported key type: %v", keyType))
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}
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}
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func (l *LevelIter) findFileGE(key []byte) *manifest.FileMetadata {
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// Find the earliest file whose largest key is >= key.
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//
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// If the earliest file has its largest key == key and that largest key is a
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// range deletion sentinel, we know that we manufactured this sentinel to convert
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// the exclusive range deletion end key into an inclusive key (reminder: [start, end)#seqnum
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// is the form of a range deletion sentinel which can contribute a largest key = end#sentinel).
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// In this case we don't return this as the earliest file since there is nothing actually
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// equal to key in it.
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m := l.files.SeekGE(l.cmp, key)
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for m != nil {
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largestKey := m.LargestRangeKey
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if l.keyType == manifest.KeyTypePoint {
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largestKey = m.LargestPointKey
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}
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if !largestKey.IsExclusiveSentinel() || l.cmp(largestKey.UserKey, key) != 0 {
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break
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}
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m = l.files.Next()
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}
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return m
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}
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func (l *LevelIter) findFileLT(key []byte) *manifest.FileMetadata {
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// Find the last file whose smallest key is < key.
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return l.files.SeekLT(l.cmp, key)
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}
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type loadFileReturnIndicator int8
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const (
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noFileLoaded loadFileReturnIndicator = iota
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fileAlreadyLoaded
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newFileLoaded
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)
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func (l *LevelIter) loadFile(file *manifest.FileMetadata, dir int) loadFileReturnIndicator {
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indicator := noFileLoaded
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if l.iterFile == file {
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if l.err != nil {
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return noFileLoaded
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}
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if l.iter != nil {
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// We are already at the file, but we would need to check for bounds.
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// Set indicator accordingly.
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indicator = fileAlreadyLoaded
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}
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// We were already at file, but don't have an iterator, probably because the file was
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// beyond the iteration bounds. It may still be, but it is also possible that the bounds
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// have changed. We handle that below.
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}
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// Note that LevelIter.Close() can be called multiple times.
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if indicator != fileAlreadyLoaded {
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if err := l.Close(); err != nil {
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return noFileLoaded
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}
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}
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l.iterFile = file
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if file == nil {
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return noFileLoaded
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}
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if indicator != fileAlreadyLoaded {
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l.iter, l.err = l.newIter(file, l.tableOpts)
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indicator = newFileLoaded
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}
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if l.err != nil {
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return noFileLoaded
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}
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return indicator
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}
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// SeekGE implements keyspan.FragmentIterator.
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func (l *LevelIter) SeekGE(key []byte) *Span {
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l.dir = +1
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l.straddle = Span{}
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l.straddleDir = 0
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l.err = nil // clear cached iteration error
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f := l.findFileGE(key)
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if f != nil && l.keyType == manifest.KeyTypeRange && l.cmp(key, f.SmallestRangeKey.UserKey) < 0 {
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// Peek at the previous file.
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prevFile := l.files.Prev()
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l.files.Next()
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if prevFile != nil {
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// We could unconditionally return an empty span between the seek key and
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// f.SmallestRangeKey, however if this span is to the left of all range
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// keys on this level, it could lead to inconsistent behaviour in relative
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// positioning operations. Consider this example, with a b-c range key:
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//
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// SeekGE(a) -> a-b:{}
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// Next() -> b-c{(#5,RANGEKEYSET,@4,foo)}
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// Prev() -> nil
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//
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// Iterators higher up in the iterator stack rely on this sort of relative
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// positioning consistency.
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//
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// TODO(bilal): Investigate ways to be able to return straddle spans in
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// cases similar to the above, while still retaining correctness.
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// Return a straddling key instead of loading the file.
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l.iterFile = f
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if err := l.Close(); err != nil {
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return l.verify(nil)
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}
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l.straddleDir = +1
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l.straddle = Span{
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Start: prevFile.LargestRangeKey.UserKey,
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End: f.SmallestRangeKey.UserKey,
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Keys: nil,
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}
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return l.verify(&l.straddle)
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}
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}
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loadFileIndicator := l.loadFile(f, +1)
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if loadFileIndicator == noFileLoaded {
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return l.verify(nil)
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}
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if span := l.iter.SeekGE(key); span != nil {
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return l.verify(span)
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}
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return l.skipEmptyFileForward()
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}
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// SeekLT implements keyspan.FragmentIterator.
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func (l *LevelIter) SeekLT(key []byte) *Span {
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l.dir = -1
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l.straddle = Span{}
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l.straddleDir = 0
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l.err = nil // clear cached iteration error
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f := l.findFileLT(key)
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if f != nil && l.keyType == manifest.KeyTypeRange && l.cmp(f.LargestRangeKey.UserKey, key) < 0 {
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// Peek at the next file.
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nextFile := l.files.Next()
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l.files.Prev()
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if nextFile != nil {
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// We could unconditionally return an empty span between f.LargestRangeKey
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// and the seek key, however if this span is to the right of all range keys
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// on this level, it could lead to inconsistent behaviour in relative
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// positioning operations. Consider this example, with a b-c range key:
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//
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// SeekLT(d) -> c-d:{}
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// Prev() -> b-c{(#5,RANGEKEYSET,@4,foo)}
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// Next() -> nil
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//
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// Iterators higher up in the iterator stack rely on this sort of relative
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// positioning consistency.
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//
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// TODO(bilal): Investigate ways to be able to return straddle spans in
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// cases similar to the above, while still retaining correctness.
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// Return a straddling key instead of loading the file.
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l.iterFile = f
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if err := l.Close(); err != nil {
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return l.verify(nil)
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}
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l.straddleDir = -1
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l.straddle = Span{
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Start: f.LargestRangeKey.UserKey,
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End: nextFile.SmallestRangeKey.UserKey,
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Keys: nil,
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}
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return l.verify(&l.straddle)
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}
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}
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if l.loadFile(f, -1) == noFileLoaded {
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return l.verify(nil)
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}
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if span := l.iter.SeekLT(key); span != nil {
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return l.verify(span)
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}
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return l.skipEmptyFileBackward()
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}
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// First implements keyspan.FragmentIterator.
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func (l *LevelIter) First() *Span {
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l.dir = +1
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l.straddle = Span{}
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l.straddleDir = 0
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l.err = nil // clear cached iteration error
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if l.loadFile(l.files.First(), +1) == noFileLoaded {
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return l.verify(nil)
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}
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if span := l.iter.First(); span != nil {
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return l.verify(span)
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}
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return l.skipEmptyFileForward()
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}
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// Last implements keyspan.FragmentIterator.
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func (l *LevelIter) Last() *Span {
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l.dir = -1
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l.straddle = Span{}
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l.straddleDir = 0
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l.err = nil // clear cached iteration error
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if l.loadFile(l.files.Last(), -1) == noFileLoaded {
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return l.verify(nil)
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}
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if span := l.iter.Last(); span != nil {
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return l.verify(span)
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}
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return l.skipEmptyFileBackward()
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}
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// Next implements keyspan.FragmentIterator.
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func (l *LevelIter) Next() *Span {
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if l.err != nil || (l.iter == nil && l.iterFile == nil && l.dir > 0) {
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return l.verify(nil)
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}
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if l.iter == nil && l.iterFile == nil {
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// l.dir <= 0
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return l.First()
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}
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l.dir = +1
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if l.iter != nil {
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if span := l.iter.Next(); span != nil {
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return l.verify(span)
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}
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}
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return l.skipEmptyFileForward()
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}
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// Prev implements keyspan.FragmentIterator.
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func (l *LevelIter) Prev() *Span {
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if l.err != nil || (l.iter == nil && l.iterFile == nil && l.dir < 0) {
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return l.verify(nil)
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}
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if l.iter == nil && l.iterFile == nil {
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// l.dir >= 0
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return l.Last()
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}
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l.dir = -1
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if l.iter != nil {
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if span := l.iter.Prev(); span != nil {
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return l.verify(span)
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}
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}
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return l.skipEmptyFileBackward()
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}
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func (l *LevelIter) skipEmptyFileForward() *Span {
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if l.straddleDir == 0 && l.keyType == manifest.KeyTypeRange &&
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l.iterFile != nil && l.iter != nil {
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// We were at a file that had spans. Check if the next file that has
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// spans is not directly adjacent to the current file i.e. there is a
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// gap in the span keyspace between the two files. In that case, synthesize
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// a "straddle span" in l.straddle and return that.
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//
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// Straddle spans are not created in rangedel mode.
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if err := l.Close(); err != nil {
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l.err = err
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return l.verify(nil)
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}
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startKey := l.iterFile.LargestRangeKey.UserKey
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// Resetting l.iterFile without loading the file into l.iter is okay and
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// does not change the logic in loadFile() as long as l.iter is also nil;
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// which it should be due to the Close() call above.
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l.iterFile = l.files.Next()
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if l.iterFile == nil {
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return l.verify(nil)
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}
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endKey := l.iterFile.SmallestRangeKey.UserKey
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if l.cmp(startKey, endKey) < 0 {
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// There is a gap between the two files. Synthesize a straddling span
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// to avoid unnecessarily loading the next file.
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l.straddle = Span{
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Start: startKey,
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End: endKey,
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}
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l.straddleDir = +1
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return l.verify(&l.straddle)
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}
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} else if l.straddleDir < 0 {
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// We were at a straddle key, but are now changing directions. l.iterFile
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// was already moved backward by skipEmptyFileBackward, so advance it
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// forward.
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l.iterFile = l.files.Next()
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}
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l.straddle = Span{}
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l.straddleDir = 0
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var span *Span
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for span.Empty() {
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fileToLoad := l.iterFile
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if l.keyType == manifest.KeyTypePoint {
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// We haven't iterated to the next file yet if we're in point key
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// (rangedel) mode.
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fileToLoad = l.files.Next()
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}
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if l.loadFile(fileToLoad, +1) == noFileLoaded {
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return l.verify(nil)
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}
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span = l.iter.First()
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// In rangedel mode, we can expect to get empty files that we'd need to
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// skip over, but not in range key mode.
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if l.keyType == manifest.KeyTypeRange {
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break
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}
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}
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return l.verify(span)
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}
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func (l *LevelIter) skipEmptyFileBackward() *Span {
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// We were at a file that had spans. Check if the previous file that has
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// spans is not directly adjacent to the current file i.e. there is a
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||
|
// gap in the span keyspace between the two files. In that case, synthesize
|
||
|
// a "straddle span" in l.straddle and return that.
|
||
|
//
|
||
|
// Straddle spans are not created in rangedel mode.
|
||
|
if l.straddleDir == 0 && l.keyType == manifest.KeyTypeRange &&
|
||
|
l.iterFile != nil && l.iter != nil {
|
||
|
if err := l.Close(); err != nil {
|
||
|
l.err = err
|
||
|
return l.verify(nil)
|
||
|
}
|
||
|
endKey := l.iterFile.SmallestRangeKey.UserKey
|
||
|
// Resetting l.iterFile without loading the file into l.iter is okay and
|
||
|
// does not change the logic in loadFile() as long as l.iter is also nil;
|
||
|
// which it should be due to the Close() call above.
|
||
|
l.iterFile = l.files.Prev()
|
||
|
if l.iterFile == nil {
|
||
|
return l.verify(nil)
|
||
|
}
|
||
|
startKey := l.iterFile.LargestRangeKey.UserKey
|
||
|
if l.cmp(startKey, endKey) < 0 {
|
||
|
// There is a gap between the two files. Synthesize a straddling span
|
||
|
// to avoid unnecessarily loading the next file.
|
||
|
l.straddle = Span{
|
||
|
Start: startKey,
|
||
|
End: endKey,
|
||
|
}
|
||
|
l.straddleDir = -1
|
||
|
return l.verify(&l.straddle)
|
||
|
}
|
||
|
} else if l.straddleDir > 0 {
|
||
|
// We were at a straddle key, but are now changing directions. l.iterFile
|
||
|
// was already advanced forward by skipEmptyFileForward, so move it
|
||
|
// backward.
|
||
|
l.iterFile = l.files.Prev()
|
||
|
}
|
||
|
l.straddle = Span{}
|
||
|
l.straddleDir = 0
|
||
|
var span *Span
|
||
|
for span.Empty() {
|
||
|
fileToLoad := l.iterFile
|
||
|
if l.keyType == manifest.KeyTypePoint {
|
||
|
fileToLoad = l.files.Prev()
|
||
|
}
|
||
|
if l.loadFile(fileToLoad, -1) == noFileLoaded {
|
||
|
return l.verify(nil)
|
||
|
}
|
||
|
span = l.iter.Last()
|
||
|
// In rangedel mode, we can expect to get empty files that we'd need to
|
||
|
// skip over, but not in range key mode as the filter on the FileMetadata
|
||
|
// should guarantee we always get a non-empty file.
|
||
|
if l.keyType == manifest.KeyTypeRange {
|
||
|
break
|
||
|
}
|
||
|
}
|
||
|
return l.verify(span)
|
||
|
}
|
||
|
|
||
|
// verify is invoked whenever a span is returned from an iterator positioning
|
||
|
// method to a caller. During invariant builds, it asserts invariants to the
|
||
|
// caller.
|
||
|
func (l *LevelIter) verify(s *Span) *Span {
|
||
|
// NB: Do not add any logic outside the invariants.Enabled conditional to
|
||
|
// ensure that verify is always compiled away in production builds.
|
||
|
if invariants.Enabled {
|
||
|
if f := l.files.Current(); f != l.iterFile {
|
||
|
panic(fmt.Sprintf("LevelIter.files.Current (%s) and l.iterFile (%s) diverged",
|
||
|
f, l.iterFile))
|
||
|
}
|
||
|
}
|
||
|
return s
|
||
|
}
|
||
|
|
||
|
// Error implements keyspan.FragmentIterator.
|
||
|
func (l *LevelIter) Error() error {
|
||
|
if l.err != nil || l.iter == nil {
|
||
|
return l.err
|
||
|
}
|
||
|
return l.iter.Error()
|
||
|
}
|
||
|
|
||
|
// Close implements keyspan.FragmentIterator.
|
||
|
func (l *LevelIter) Close() error {
|
||
|
if l.iter != nil {
|
||
|
l.err = l.iter.Close()
|
||
|
l.iter = nil
|
||
|
}
|
||
|
return l.err
|
||
|
}
|
||
|
|
||
|
// String implements keyspan.FragmentIterator.
|
||
|
func (l *LevelIter) String() string {
|
||
|
if l.iterFile != nil {
|
||
|
return fmt.Sprintf("%s: fileNum=%s", l.level, l.iterFile.FileNum)
|
||
|
}
|
||
|
return fmt.Sprintf("%s: fileNum=<nil>", l.level)
|
||
|
}
|