plugeth/core/state/snapshot/iterator_fast.go

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// Copyright 2019 The go-ethereum Authors
// This file is part of the go-ethereum library.
//
// The go-ethereum library is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// The go-ethereum library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
package snapshot
import (
"bytes"
"fmt"
"sort"
"github.com/ethereum/go-ethereum/common"
)
// fastAccountIterator is a more optimized multi-layer iterator which maintains a
// direct mapping of all iterators leading down to the bottom layer
type fastAccountIterator struct {
iterators []AccountIterator
initiated bool
fail error
}
// The fast iterator does not query parents as much.
func (dl *diffLayer) newFastAccountIterator() AccountIterator {
f := &fastAccountIterator{
iterators: dl.iterators(),
initiated: false,
}
f.Seek(common.Hash{})
return f
}
// Len returns the number of active iterators
func (fi *fastAccountIterator) Len() int {
return len(fi.iterators)
}
// Less implements sort.Interface
func (fi *fastAccountIterator) Less(i, j int) bool {
a := fi.iterators[i].Key()
b := fi.iterators[j].Key()
return bytes.Compare(a[:], b[:]) < 0
}
// Swap implements sort.Interface
func (fi *fastAccountIterator) Swap(i, j int) {
fi.iterators[i], fi.iterators[j] = fi.iterators[j], fi.iterators[i]
}
func (fi *fastAccountIterator) Seek(key common.Hash) {
// We need to apply this across all iterators
var seen = make(map[common.Hash]struct{})
length := len(fi.iterators)
for i, it := range fi.iterators {
it.Seek(key)
for {
if !it.Next() {
// To be removed
// swap it to the last position for now
fi.iterators[i], fi.iterators[length-1] = fi.iterators[length-1], fi.iterators[i]
length--
break
}
v := it.Key()
if _, exist := seen[v]; !exist {
seen[v] = struct{}{}
break
}
}
}
// Now remove those that were placed in the end
fi.iterators = fi.iterators[:length]
// The list is now totally unsorted, need to re-sort the entire list
sort.Sort(fi)
fi.initiated = false
}
// Next implements the Iterator interface. It returns false if no more elemnts
// can be retrieved (false == exhausted)
func (fi *fastAccountIterator) Next() bool {
if len(fi.iterators) == 0 {
return false
}
if !fi.initiated {
// Don't forward first time -- we had to 'Next' once in order to
// do the sorting already
fi.initiated = true
return true
}
return fi.innerNext(0)
}
// innerNext handles the next operation internally,
// and should be invoked when we know that two elements in the list may have
// the same value.
// For example, if the list becomes [2,3,5,5,8,9,10], then we should invoke
// innerNext(3), which will call Next on elem 3 (the second '5'). It will continue
// along the list and apply the same operation if needed
func (fi *fastAccountIterator) innerNext(pos int) bool {
if !fi.iterators[pos].Next() {
//Exhausted, remove this iterator
fi.remove(pos)
if len(fi.iterators) == 0 {
return false
}
return true
}
if pos == len(fi.iterators)-1 {
// Only one iterator left
return true
}
// We next:ed the elem at 'pos'. Now we may have to re-sort that elem
val, neighbour := fi.iterators[pos].Key(), fi.iterators[pos+1].Key()
diff := bytes.Compare(val[:], neighbour[:])
if diff < 0 {
// It is still in correct place
return true
}
if diff == 0 {
// It has same value as the neighbour. So still in correct place, but
// we need to iterate on the neighbour
fi.innerNext(pos + 1)
return true
}
// At this point, the elem is in the wrong location, but the
// remaining list is sorted. Find out where to move the elem
iterationNeeded := false
index := sort.Search(len(fi.iterators), func(n int) bool {
if n <= pos {
// No need to search 'behind' us
return false
}
if n == len(fi.iterators)-1 {
// Can always place an elem last
return true
}
neighbour := fi.iterators[n+1].Key()
diff := bytes.Compare(val[:], neighbour[:])
if diff == 0 {
// The elem we're placing it next to has the same value,
// so it's going to need further iteration
iterationNeeded = true
}
return diff < 0
})
fi.move(pos, index)
if iterationNeeded {
fi.innerNext(index)
}
return true
}
// move moves an iterator to another position in the list
func (fi *fastAccountIterator) move(index, newpos int) {
if newpos > len(fi.iterators)-1 {
newpos = len(fi.iterators) - 1
}
var (
elem = fi.iterators[index]
middle = fi.iterators[index+1 : newpos+1]
suffix []AccountIterator
)
if newpos < len(fi.iterators)-1 {
suffix = fi.iterators[newpos+1:]
}
fi.iterators = append(fi.iterators[:index], middle...)
fi.iterators = append(fi.iterators, elem)
fi.iterators = append(fi.iterators, suffix...)
}
// remove drops an iterator from the list
func (fi *fastAccountIterator) remove(index int) {
fi.iterators = append(fi.iterators[:index], fi.iterators[index+1:]...)
}
// Error returns any failure that occurred during iteration, which might have
// caused a premature iteration exit (e.g. snapshot stack becoming stale).
func (fi *fastAccountIterator) Error() error {
return fi.fail
}
// Key returns the current key
func (fi *fastAccountIterator) Key() common.Hash {
return fi.iterators[0].Key()
}
// Value returns the current key
func (fi *fastAccountIterator) Value() []byte {
panic("todo")
}
// Debug is a convencience helper during testing
func (fi *fastAccountIterator) Debug() {
for _, it := range fi.iterators {
fmt.Printf(" %v ", it.Key()[31])
}
fmt.Println()
}