func (d rdsImpl) AllocateIDs(incomplete *ds.Key, n int) (start int64, err error) {
par, err := dsF2R(d.aeCtx, incomplete.Parent())
if err != nil {
return
}
start, _, err = datastore.AllocateIDs(d.aeCtx, incomplete.Kind(), par, n)
return
}
func (d *dataStoreData) fixKeyLocked(ents *memCollection, key *ds.Key) (*ds.Key, error) {
if key.Incomplete() {
id, err := d.allocateIDsLocked(ents, key, 1)
if err != nil {
return key, err
}
key = ds.NewKey(key.AppID(), key.Namespace(), key.Kind(), "", id, key.Parent())
}
return key, nil
}
// Equal returns true iff the two keys represent identical key values.
func Equal(a, b ds.Key) (ret bool) {
ret = (a.Kind() == b.Kind() &&
a.StringID() == b.StringID() &&
a.IntID() == b.IntID() &&
a.AppID() == b.AppID() &&
a.Namespace() == b.Namespace())
if !ret {
return
}
ap, bp := a.Parent(), b.Parent()
return (ap == nil && bp == nil) || Equal(ap, bp)
}
func (d *dataStoreData) allocateIDsLocked(ents *memCollection, incomplete *ds.Key, n int) (int64, error) {
if d.disableSpecialEntities {
return 0, errors.New("disableSpecialEntities is true so allocateIDs is disabled")
}
idKey := []byte(nil)
if incomplete.Parent() == nil {
idKey = rootIDsKey(incomplete.Kind())
} else {
idKey = groupIDsKey(incomplete)
}
return incrementLocked(ents, idKey, n), nil
}
func marshalDSKey(b *bytes.Buffer, k ds.Key) {
if k.Parent() != nil {
marshalDSKey(b, k.Parent())
}
b.WriteByte('/')
b.WriteString(k.Kind())
b.WriteByte(',')
if k.StringID() != "" {
b.WriteString(k.StringID())
} else {
b.WriteString(strconv.FormatInt(k.IntID(), 10))
}
}
func (d *dataStoreData) entsKeyLocked(key ds.Key) (*memCollection, ds.Key) {
coll := "ents:" + key.Namespace()
ents := d.head.GetCollection(coll)
if ents == nil {
ents = d.head.SetCollection(coll, nil)
}
if dskey.Incomplete(key) {
idKey := []byte(nil)
if key.Parent() == nil {
idKey = rootIDsKey(key.Kind())
} else {
idKey = groupIDsKey(key)
}
id := incrementLocked(ents, idKey)
key = dskey.New(key.AppID(), key.Namespace(), key.Kind(), "", id, key.Parent())
}
return ents, key
}
// Valid determines if a key is valid, according to a couple rules:
// - k is not nil
// - every token of k:
// - (if !allowSpecial) token's kind doesn't start with '__'
// - token's kind and appid are non-blank
// - token is not incomplete
// - all tokens have the same namespace and appid
func Valid(k ds.Key, allowSpecial bool, aid, ns string) bool {
if k == nil {
return false
}
if aid != k.AppID() || ns != k.Namespace() {
return false
}
for ; k != nil; k = k.Parent() {
if !allowSpecial && len(k.Kind()) >= 2 && k.Kind()[:2] == "__" {
return false
}
if k.Kind() == "" || k.AppID() == "" {
return false
}
if k.StringID() != "" && k.IntID() != 0 {
return false
}
if k.Parent() != nil {
if k.Parent().Incomplete() {
return false
}
if k.Parent().AppID() != k.AppID() || k.Parent().Namespace() != k.Namespace() {
return false
}
}
}
return true
}
func indexEntriesWithBuiltins(k ds.Key, pm ds.PropertyMap, complexIdxs []*ds.IndexDefinition) *memStore {
sip := partiallySerialize(k, pm)
return sip.indexEntries(k.Namespace(), append(defaultIndexes(k.Kind(), pm), complexIdxs...))
}
// PartialValid returns true iff this key is suitable for use in a Put
// operation. This is the same as Valid(k, false, ...), but also allowing k to
// be Incomplete().
func PartialValid(k ds.Key, aid, ns string) bool {
if k.Incomplete() {
k = New(k.AppID(), k.Namespace(), k.Kind(), "", 1, k.Parent())
}
return Valid(k, false, aid, ns)
}