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btreeiterator.go
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/
btreeiterator.go
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package block_stm
import (
"bytes"
"errors"
"github.com/tidwall/btree"
)
// BTreeIteratorG iterates over btree.
// Implements Iterator.
type BTreeIteratorG[T KeyItem] struct {
iter btree.IterG[T]
start []byte
end []byte
ascending bool
valid bool
}
func NewBTreeIteratorG[T KeyItem](
startItem, endItem T,
iter btree.IterG[T],
ascending bool,
) *BTreeIteratorG[T] {
start := startItem.GetKey()
end := endItem.GetKey()
var valid bool
if ascending {
if start != nil {
valid = iter.Seek(startItem)
} else {
valid = iter.First()
}
} else {
if end != nil {
valid = iter.Seek(endItem)
if !valid {
valid = iter.Last()
} else {
// end is exclusive
valid = iter.Prev()
}
} else {
valid = iter.Last()
}
}
mi := &BTreeIteratorG[T]{
iter: iter,
start: start,
end: end,
ascending: ascending,
valid: valid,
}
if mi.valid {
mi.valid = mi.keyInRange(mi.Key())
}
return mi
}
func (mi *BTreeIteratorG[T]) Domain() (start []byte, end []byte) {
return mi.start, mi.end
}
func (mi *BTreeIteratorG[T]) Close() error {
mi.iter.Release()
return nil
}
func (mi *BTreeIteratorG[T]) Error() error {
if !mi.Valid() {
return errors.New("invalid memIterator")
}
return nil
}
func (mi *BTreeIteratorG[T]) Valid() bool {
return mi.valid
}
func (mi *BTreeIteratorG[T]) Next() {
mi.assertValid()
if mi.ascending {
mi.valid = mi.iter.Next()
} else {
mi.valid = mi.iter.Prev()
}
if mi.valid {
mi.valid = mi.keyInRange(mi.Key())
}
}
func (mi *BTreeIteratorG[T]) keyInRange(key []byte) bool {
if mi.ascending && mi.end != nil && bytes.Compare(key, mi.end) >= 0 {
return false
}
if !mi.ascending && mi.start != nil && bytes.Compare(key, mi.start) < 0 {
return false
}
return true
}
func (mi *BTreeIteratorG[T]) Item() T {
return mi.iter.Item()
}
func (mi *BTreeIteratorG[T]) Key() []byte {
return mi.Item().GetKey()
}
func (mi *BTreeIteratorG[T]) assertValid() {
if err := mi.Error(); err != nil {
panic(err)
}
}