// Copyright 2014 The Cayley Authors. All rights reserved. // // 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 memstore import ( "fmt" "math" "strings" "github.com/google/cayley/graph" "github.com/google/cayley/graph/iterator" "github.com/google/cayley/graph/memstore/b" ) type Iterator struct { uid uint64 qs *QuadStore tags graph.Tagger tree *b.Tree iter *b.Enumerator data string result graph.Value } func cmp(a, b int64) int { return int(a - b) } func NewIterator(tree *b.Tree, data string, qs *QuadStore) *Iterator { iter, err := tree.SeekFirst() if err != nil { iter = nil } return &Iterator{ uid: iterator.NextUID(), qs: qs, tree: tree, iter: iter, data: data, } } func (it *Iterator) UID() uint64 { return it.uid } func (it *Iterator) Reset() { var err error it.iter, err = it.tree.SeekFirst() if err != nil { it.iter = nil } } func (it *Iterator) Tagger() *graph.Tagger { return &it.tags } func (it *Iterator) TagResults(dst map[string]graph.Value) { for _, tag := range it.tags.Tags() { dst[tag] = it.Result() } for tag, value := range it.tags.Fixed() { dst[tag] = value } } func (it *Iterator) Clone() graph.Iterator { var iter *b.Enumerator if it.result != nil { var ok bool iter, ok = it.tree.Seek(it.result.(int64)) if !ok { panic("value unexpectedly missing") } } else { var err error iter, err = it.tree.SeekFirst() if err != nil { iter = nil } } m := &Iterator{ uid: iterator.NextUID(), qs: it.qs, tree: it.tree, iter: iter, data: it.data, } m.tags.CopyFrom(it) return m } func (it *Iterator) Close() {} func (it *Iterator) checkValid(index int64) bool { return it.qs.log[index].DeletedBy == 0 } func (it *Iterator) Next() bool { graph.NextLogIn(it) if it.iter == nil { return graph.NextLogOut(it, nil, false) } result, _, err := it.iter.Next() if err != nil { return graph.NextLogOut(it, nil, false) } if !it.checkValid(result) { return it.Next() } it.result = result return graph.NextLogOut(it, it.result, true) } func (it *Iterator) ResultTree() *graph.ResultTree { return graph.NewResultTree(it.Result()) } func (it *Iterator) Result() graph.Value { return it.result } func (it *Iterator) NextPath() bool { return false } // No subiterators. func (it *Iterator) SubIterators() []graph.Iterator { return nil } func (it *Iterator) Size() (int64, bool) { return int64(it.tree.Len()), true } func (it *Iterator) Contains(v graph.Value) bool { graph.ContainsLogIn(it, v) if _, ok := it.tree.Get(v.(int64)); ok { it.result = v return graph.ContainsLogOut(it, v, true) } return graph.ContainsLogOut(it, v, false) } func (it *Iterator) DebugString(indent int) string { size, _ := it.Size() return fmt.Sprintf("%s(%s tags:%s size:%d %s)", strings.Repeat(" ", indent), it.Type(), it.tags.Tags(), size, it.data) } var memType graph.Type func init() { memType = graph.RegisterIterator("b+tree") } func Type() graph.Type { return memType } func (it *Iterator) Type() graph.Type { return memType } func (it *Iterator) Sorted() bool { return true } func (it *Iterator) Optimize() (graph.Iterator, bool) { return it, false } func (it *Iterator) Stats() graph.IteratorStats { return graph.IteratorStats{ ContainsCost: int64(math.Log(float64(it.tree.Len()))) + 1, NextCost: 1, Size: int64(it.tree.Len()), } }