-
Notifications
You must be signed in to change notification settings - Fork 0
/
indexers.go
100 lines (86 loc) · 3.92 KB
/
indexers.go
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
package collections
import (
storetypes "github.com/cosmos/cosmos-sdk/store/types"
sdk "github.com/cosmos/cosmos-sdk/types"
)
// IndexerIterator wraps a KeySetIterator to provide more useful functionalities
// around index key iteration.
type IndexerIterator[IK, PK any] KeySetIterator[Pair[IK, PK]]
// FullKey returns the iterator current key composed of both indexing key and primary key.
func (i IndexerIterator[IK, PK]) FullKey() Pair[IK, PK] {
return (KeySetIterator[Pair[IK, PK]])(i).Key()
}
// FullKeys fully consumes the iterator and returns the set of joined indexing key and primary key found.
func (i IndexerIterator[IK, PK]) FullKeys() []Pair[IK, PK] {
return (KeySetIterator[Pair[IK, PK]])(i).Keys()
}
// PrimaryKey returns the iterator current primary key
func (i IndexerIterator[IK, PK]) PrimaryKey() PK { return i.FullKey().K2() }
// PrimaryKeys fully consumes the iterator and returns the set of primary keys found.
func (i IndexerIterator[IK, PK]) PrimaryKeys() []PK {
ks := i.FullKeys()
pks := make([]PK, len(ks))
for i, k := range ks {
pks[i] = k.K2()
}
return pks
}
func (i IndexerIterator[IK, PK]) Next() { (KeySetIterator[Pair[IK, PK]])(i).Next() }
func (i IndexerIterator[IK, PK]) Valid() bool { return (KeySetIterator[Pair[IK, PK]])(i).Valid() }
func (i IndexerIterator[IK, PK]) Close() { (KeySetIterator[Pair[IK, PK]])(i).Close() }
// NewMultiIndex instantiates a new MultiIndex instance.
// namespace is the unique storage namespace for the index.
// getIndexingKeyFunc is a function which given the object returns the key we use to index the object.
func NewMultiIndex[IK, PK any, V any](
sk storetypes.StoreKey, namespace Namespace,
indexKeyEncoder KeyEncoder[IK], primaryKeyEncoder KeyEncoder[PK],
getIndexingKeyFunc func(v V) IK) MultiIndex[IK, PK, V] {
ks := NewKeySet[Pair[IK, PK]](sk, namespace, PairKeyEncoder[IK, PK](indexKeyEncoder, primaryKeyEncoder))
return MultiIndex[IK, PK, V]{
jointKeys: ks,
getIndexingKey: getIndexingKeyFunc,
}
}
// MultiIndex defines an Indexer with no uniqueness constraints.
// Meaning that given two objects V1 and V2 both can be indexed
// with the same secondary key.
// Example:
// Person1 { ID: 0, City: Milan }
// Person2 { ID: 1, City: Milan }
// Both can be indexed with the secondary key "Milan".
// The key generated are, respectively:
// Pair[Milan, 0]
// Pair[Milan, 1]
// So if we want to get all the objects whose City is Milan
// we prefix over Pair[Milan, nil], and we get the respective primary keys: 0,1.
type MultiIndex[IK, PK, V any] struct {
// jointKeys is a KeySet of the joint indexing key and the primary key.
// the generated keys always point to primary keys.
jointKeys KeySet[Pair[IK, PK]]
// getIndexingKey is a function which provided the object, returns the indexing key
getIndexingKey func(v V) IK
}
// Insert implements the Indexer interface.
func (i MultiIndex[IK, PK, V]) Insert(ctx sdk.Context, pk PK, v V) {
indexingKey := i.getIndexingKey(v)
i.jointKeys.Insert(ctx, Join(indexingKey, pk))
}
// Delete implements the Indexer interface.
func (i MultiIndex[IK, PK, V]) Delete(ctx sdk.Context, pk PK, v V) {
indexingKey := i.getIndexingKey(v)
i.jointKeys.Delete(ctx, Join(indexingKey, pk))
}
// Iterate iterates over the provided range.
func (i MultiIndex[IK, PK, V]) Iterate(ctx sdk.Context, rng Ranger[Pair[IK, PK]]) IndexerIterator[IK, PK] {
iter := i.jointKeys.Iterate(ctx, rng)
return (IndexerIterator[IK, PK])(iter)
}
// ExactMatch returns an iterator of all the primary keys of objects which contain
// the provided indexing key ik.
func (i MultiIndex[IK, PK, V]) ExactMatch(ctx sdk.Context, ik IK) IndexerIterator[IK, PK] {
return i.Iterate(ctx, PairRange[IK, PK]{}.Prefix(ik))
}
// ReverseExactMatch works in the same way as ExactMatch, but the iteration happens in reverse.
func (i MultiIndex[IK, PK, V]) ReverseExactMatch(ctx sdk.Context, ik IK) IndexerIterator[IK, PK] {
return i.Iterate(ctx, PairRange[IK, PK]{}.Prefix(ik).Descending())
}