func (this *IndexNest) fetch(entries []*datastore.IndexEntry, context *Context) (
[]interface{}, bool) {
// Build list of keys
var keys []string
if len(entries) <= 16 {
keys = _NEST_INDEX_STRING_POOL.Get()
defer _NEST_INDEX_STRING_POOL.Put(keys)
} else {
keys = make([]string, 0, len(entries))
}
for _, e := range entries {
keys = append(keys, e.PrimaryKey)
}
// Fetch
pairs, errs := this.plan.Keyspace().Fetch(keys)
fetchOk := true
for _, err := range errs {
context.Error(err)
if err.IsFatal() {
fetchOk = false
}
}
if len(pairs) == 0 {
return nil, fetchOk
}
projection := this.plan.Term().Projection()
nvs := make([]interface{}, 0, len(pairs))
for _, pair := range pairs {
nestItem := pair.Value
var nv value.AnnotatedValue
// Apply projection, if any
if projection != nil {
projectedItem, e := projection.Evaluate(nestItem, context)
if e != nil {
context.Error(errors.NewEvaluationError(e, "nest path"))
return nil, false
}
if projectedItem.Type() == value.MISSING {
continue
}
nv = value.NewAnnotatedValue(projectedItem)
nv.SetAnnotations(nestItem)
} else {
nv = nestItem
}
nvs = append(nvs, nv)
}
return nvs, fetchOk
}
func (this *Join) processItem(item value.AnnotatedValue, context *Context) bool {
kv, e := this.plan.Term().Keys().Evaluate(item, context)
if e != nil {
context.Error(errors.NewEvaluationError(e, "JOIN keys"))
return false
}
actuals := kv.Actual()
switch actuals.(type) {
case []interface{}:
case nil:
actuals = []interface{}(nil)
default:
actuals = []interface{}{actuals}
}
acts := actuals.([]interface{})
if len(acts) == 0 {
// Outer join
return !this.plan.Outer() || this.sendItem(item)
}
// Build list of keys
keys := make([]string, 0, len(acts))
for _, key := range acts {
k := value.NewValue(key).Actual()
switch k := k.(type) {
case string:
keys = append(keys, k)
}
}
timer := time.Now()
// Fetch
pairs, errs := this.plan.Keyspace().Fetch(keys)
this.duration += time.Since(timer)
fetchOk := true
for _, err := range errs {
context.Error(err)
if err.IsFatal() {
fetchOk = false
}
}
found := len(pairs) > 0
// Attach and send
for i, pair := range pairs {
joinItem := pair.Value
var jv value.AnnotatedValue
// Apply projection, if any
projection := this.plan.Term().Projection()
if projection != nil {
projectedItem, e := projection.Evaluate(joinItem, context)
if e != nil {
context.Error(errors.NewEvaluationError(e, "join path"))
return false
}
jv = value.NewAnnotatedValue(projectedItem)
jv.SetAnnotations(joinItem)
} else {
jv = joinItem
}
var av value.AnnotatedValue
if i < len(pairs)-1 {
av = value.NewAnnotatedValue(item.Copy())
} else {
av = item
}
av.SetField(this.plan.Term().Alias(), jv)
if !this.sendItem(av) {
return false
}
}
return (found || !this.plan.Outer() || this.sendItem(item)) && fetchOk
}
func (this *Fetch) flushBatch(context *Context) bool {
defer this.releaseBatch()
if len(this.batch) == 0 {
return true
}
keys := _STRING_POOL.Get()
defer _STRING_POOL.Put(keys)
batchMap := _STRING_ANNOTATED_POOL.Get()
defer _STRING_ANNOTATED_POOL.Put(batchMap)
for _, av := range this.batch {
meta := av.GetAttachment("meta")
switch meta := meta.(type) {
case map[string]interface{}:
key := meta["id"]
act := value.NewValue(key).Actual()
switch act := act.(type) {
case string:
keys = append(keys, act)
batchMap[act] = av
default:
context.Error(errors.NewInvalidValueError(fmt.Sprintf(
"Missing or invalid primary key %v of type %T.",
act, act)))
return false
}
default:
context.Error(errors.NewInvalidValueError(
"Missing or invalid meta for primary key."))
return false
}
}
timer := time.Now()
// Fetch
pairs, errs := this.plan.Keyspace().Fetch(keys)
context.AddPhaseTime("fetch", time.Since(timer))
fetchOk := true
for _, err := range errs {
context.Error(err)
if err.IsFatal() {
fetchOk = false
}
}
fetchMap := _STRING_ANNOTATED_POOL.Get()
defer _STRING_ANNOTATED_POOL.Put(fetchMap)
// Attach meta
for _, pair := range pairs {
pv, ok := pair.Value.(value.AnnotatedValue)
if !ok {
context.Fatal(errors.NewInvalidValueError(fmt.Sprintf(
"Invalid fetch value %v of type %T", pair.Value)))
return false
}
var fv value.AnnotatedValue
// Apply projection, if any
projection := this.plan.Term().Projection()
if projection != nil {
projectedItem, e := projection.Evaluate(pv, context)
if e != nil {
context.Error(errors.NewEvaluationError(e, "fetch path"))
return false
}
if projectedItem.Type() == value.MISSING {
continue
}
fv = value.NewAnnotatedValue(projectedItem)
fv.SetAnnotations(pv)
} else {
fv = pv
}
fetchMap[pair.Key] = fv
}
// Preserve order of keys
for _, key := range keys {
fv := fetchMap[key]
if fv == nil {
continue
}
item := batchMap[key]
item.SetField(this.plan.Term().Alias(), fv)
if !this.sendItem(item) {
return false
}
}
return fetchOk
}
func (this *Nest) processItem(item value.AnnotatedValue, context *Context) bool {
kv, e := this.plan.Term().Keys().Evaluate(item, context)
if e != nil {
context.Error(errors.NewEvaluationError(e, "NEST keys"))
return false
}
actuals := kv.Actual()
switch actuals.(type) {
case []interface{}:
case nil:
actuals = []interface{}(nil)
default:
actuals = []interface{}{actuals}
}
acts := actuals.([]interface{})
if len(acts) == 0 {
// Outer nest
return !this.plan.Outer() || this.sendItem(item)
}
// Build list of keys
keys := make([]string, 0, len(acts))
for _, key := range acts {
k := value.NewValue(key).Actual()
switch k := k.(type) {
case string:
keys = append(keys, k)
}
}
timer := time.Now()
// Fetch
pairs, errs := this.plan.Keyspace().Fetch(keys)
this.duration += time.Since(timer)
fetchOk := true
for _, err := range errs {
context.Error(err)
if err.IsFatal() {
fetchOk = false
}
}
found := len(pairs) > 0
if !found && !this.plan.Outer() {
return true
}
nvs := make([]interface{}, 0, len(pairs))
for _, pair := range pairs {
nestItem := pair.Value
var nv value.AnnotatedValue
// Apply projection, if any
projection := this.plan.Term().Projection()
if projection != nil {
projectedItem, e := projection.Evaluate(nestItem, context)
if e != nil {
context.Error(errors.NewEvaluationError(e, "nest path"))
return false
}
if projectedItem.Type() == value.MISSING {
continue
}
nv = value.NewAnnotatedValue(projectedItem)
nv.SetAnnotations(nestItem)
} else {
nv = nestItem
}
nvs = append(nvs, nv)
}
// Attach and send
item.SetField(this.plan.Term().Alias(), nvs)
return this.sendItem(item) && fetchOk
}
