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gitea/vendor/github.com/couchbase/vellum/merge_iterator.go

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2018-05-19 12:49:46 +00:00
// Copyright (c) 2017 Couchbase, Inc.
//
// 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.
package vellum
import (
"bytes"
)
// MergeFunc is used to choose the new value for a key when merging a slice
// of iterators, and the same key is observed with multiple values.
// Values presented to the MergeFunc will be in the same order as the
// original slice creating the MergeIterator. This allows some MergeFunc
// implementations to prioritize one iterator over another.
type MergeFunc func([]uint64) uint64
// MergeIterator implements the Iterator interface by traversing a slice
// of iterators and merging the contents of them. If the same key exists
// in mulitipe underlying iterators, a user-provided MergeFunc will be
// invoked to choose the new value.
type MergeIterator struct {
itrs []Iterator
f MergeFunc
currKs [][]byte
currVs []uint64
lowK []byte
lowV uint64
lowIdxs []int
mergeV []uint64
}
// NewMergeIterator creates a new MergeIterator over the provided slice of
// Iterators and with the specified MergeFunc to resolve duplicate keys.
func NewMergeIterator(itrs []Iterator, f MergeFunc) (*MergeIterator, error) {
rv := &MergeIterator{
itrs: itrs,
f: f,
currKs: make([][]byte, len(itrs)),
currVs: make([]uint64, len(itrs)),
lowIdxs: make([]int, 0, len(itrs)),
mergeV: make([]uint64, 0, len(itrs)),
}
rv.init()
if rv.lowK == nil {
return rv, ErrIteratorDone
}
return rv, nil
}
func (m *MergeIterator) init() {
for i, itr := range m.itrs {
m.currKs[i], m.currVs[i] = itr.Current()
}
m.updateMatches()
}
func (m *MergeIterator) updateMatches() {
if len(m.itrs) < 1 {
return
}
m.lowK = m.currKs[0]
m.lowIdxs = m.lowIdxs[:0]
m.lowIdxs = append(m.lowIdxs, 0)
for i := 1; i < len(m.itrs); i++ {
if m.currKs[i] == nil {
continue
}
cmp := bytes.Compare(m.currKs[i], m.lowK)
if m.lowK == nil || cmp < 0 {
// reached a new low
m.lowK = m.currKs[i]
m.lowIdxs = m.lowIdxs[:0]
m.lowIdxs = append(m.lowIdxs, i)
} else if cmp == 0 {
m.lowIdxs = append(m.lowIdxs, i)
}
}
if len(m.lowIdxs) > 1 {
// merge multiple values
m.mergeV = m.mergeV[:0]
for _, vi := range m.lowIdxs {
m.mergeV = append(m.mergeV, m.currVs[vi])
}
m.lowV = m.f(m.mergeV)
} else if len(m.lowIdxs) == 1 {
m.lowV = m.currVs[m.lowIdxs[0]]
}
}
// Current returns the key and value currently pointed to by this iterator.
// If the iterator is not pointing at a valid value (because Iterator/Next/Seek)
// returned an error previously, it may return nil,0.
func (m *MergeIterator) Current() ([]byte, uint64) {
return m.lowK, m.lowV
}
// Next advances this iterator to the next key/value pair. If there is none,
// then ErrIteratorDone is returned.
func (m *MergeIterator) Next() error {
// move all the current low iterators to next
for _, vi := range m.lowIdxs {
err := m.itrs[vi].Next()
if err != nil && err != ErrIteratorDone {
return err
}
m.currKs[vi], m.currVs[vi] = m.itrs[vi].Current()
}
m.updateMatches()
if m.lowK == nil {
return ErrIteratorDone
}
return nil
}
// Seek advances this iterator to the specified key/value pair. If this key
// is not in the FST, Current() will return the next largest key. If this
// seek operation would go past the last key, then ErrIteratorDone is returned.
func (m *MergeIterator) Seek(key []byte) error {
for i := range m.itrs {
err := m.itrs[i].Seek(key)
if err != nil && err != ErrIteratorDone {
return err
}
}
m.updateMatches()
if m.lowK == nil {
return ErrIteratorDone
}
return nil
}
// Close will attempt to close all the underlying Iterators. If any errors
// are encountered, the first will be returned.
func (m *MergeIterator) Close() error {
var rv error
for i := range m.itrs {
// close all iterators, return first error if any
err := m.itrs[i].Close()
if rv == nil {
rv = err
}
}
return rv
}
// MergeMin chooses the minimum value
func MergeMin(vals []uint64) uint64 {
rv := vals[0]
for _, v := range vals[1:] {
if v < rv {
rv = v
}
}
return rv
}
// MergeMax chooses the maximum value
func MergeMax(vals []uint64) uint64 {
rv := vals[0]
for _, v := range vals[1:] {
if v > rv {
rv = v
}
}
return rv
}
// MergeSum sums the values
func MergeSum(vals []uint64) uint64 {
rv := vals[0]
for _, v := range vals[1:] {
rv += v
}
return rv
}