db/model/node.go - voltha-go - Gitiles

 package model

 import (
 	"fmt"
 	"github.com/golang/protobuf/proto"
 	"reflect"
 	"strings"
 )

 const (
 	NONE string = "none"
 )

 type Node struct {
 	root      *Root
 	Type      interface{}
 	Branches  map[string]*Branch
 	Tags      map[string]*Revision
 	Proxy     *Proxy
 	EventBus  *EventBus
 	AutoPrune bool
 }

 func NewNode(root *Root, initialData interface{}, autoPrune bool, txid string) *Node {
 	cn := &Node{}

 	cn.root = root
 	cn.Branches = make(map[string]*Branch)
 	cn.Tags = make(map[string]*Revision)
 	cn.Proxy = nil
 	cn.EventBus = nil
 	cn.AutoPrune = autoPrune

 	if IsProtoMessage(initialData) {
 		cn.Type = reflect.ValueOf(initialData).Interface()
 		dataCopy := proto.Clone(initialData.(proto.Message))
 		cn.initialize(dataCopy, txid)
 	} else if reflect.ValueOf(initialData).IsValid() {
 		cn.Type = reflect.ValueOf(initialData).Interface()
 	} else {
 		// not implemented error
 		fmt.Errorf("cannot process initial data - %+v", initialData)
 	}

 	return cn
 }

 func (cn *Node) makeNode(data interface{}, txid string) *Node {
 	return NewNode(cn.root, data, true, txid)
 }

 func (cn *Node) makeRevision(branch *Branch, data interface{}, children map[string][]*Revision) *Revision {
 	return cn.root.makeRevision(branch, data, children)
 }

 func (cn *Node) makeLatest(branch *Branch, revision *Revision, changeAnnouncement map[string]interface{}) {
 	if _, ok := branch.revisions[revision.Hash]; !ok {
 		branch.revisions[revision.Hash] = revision
 	}

 	if branch.Latest == nil || revision.Hash != branch.Latest.Hash {
 		branch.Latest = revision
 	}

 	if changeAnnouncement != nil && branch.Txid == "" {
 		if cn.Proxy != nil {
 			for changeType, data := range changeAnnouncement {
 				// TODO: Invoke callback
 				fmt.Printf("invoking callback - changeType: %+v, data:%+v\n", changeType, data)
 			}
 		}

 		for changeType, data := range changeAnnouncement {
 			// TODO: send notifications
 			fmt.Printf("sending notification - changeType: %+v, data:%+v\n", changeType, data)
 		}
 	}
 }

 func (cn *Node) Latest() *Revision {
 	if branch, exists := cn.Branches[NONE]; exists {
 		return branch.Latest
 	}
 	return nil
 }

 func (cn *Node) GetHash(hash string) *Revision {
 	return cn.Branches[NONE].revisions[hash]
 }

 func (cn *Node) initialize(data interface{}, txid string) {
 	var children map[string][]*Revision
 	children = make(map[string][]*Revision)
 	for fieldName, field := range ChildrenFields(cn.Type) {
 		fieldValue := GetAttributeValue(data, fieldName, 0)

 		if fieldValue.IsValid() {
 			if field.IsContainer {
 				if field.Key != "" {
 					var keysSeen []string

 					for i := 0; i < fieldValue.Len(); i++ {
 						v := fieldValue.Index(i)
 						rev := cn.makeNode(v.Interface(), txid).Latest()
 						key := GetAttributeValue(v.Interface(), field.Key, 0)
 						for _, k := range keysSeen {
 							if k == key.String() {
 								fmt.Errorf("duplicate key - %s", k)
 							}
 						}
 						children[fieldName] = append(children[fieldName], rev)
 						keysSeen = append(keysSeen, key.String())
 					}

 				} else {
 					for i := 0; i < fieldValue.Len(); i++ {
 						v := fieldValue.Index(i)
 						children[fieldName] = append(children[fieldName], cn.makeNode(v.Interface(), txid).Latest())
 					}
 				}
 			} else {
 				children[fieldName] = append(children[fieldName], cn.makeNode(fieldValue.Interface(), txid).Latest())
 			}
 		} else {
 			fmt.Errorf("field is invalid - %+v", fieldValue)
 		}
 	}
 	// FIXME: ClearField???  No such method in go protos.  Reset?
 	//data.ClearField(field_name)
 	branch := NewBranch(cn, "", nil, cn.AutoPrune)
 	rev := cn.makeRevision(branch, data, children)
 	cn.makeLatest(branch, rev, nil)
 	cn.Branches[txid] = branch
 }

 func (cn *Node) makeTxBranch(txid string) *Branch {
 	branchPoint := cn.Branches[NONE].Latest
 	branch := NewBranch(cn, txid, branchPoint, true)
 	cn.Branches[txid] = branch
 	return branch
 }

 func (cn *Node) deleteTxBranch(txid string) {
 	delete(cn.Branches, txid)
 }

 type t_makeBranch func(*Node) *Branch

 //
 // Get operation
 //
 func (cn *Node) Get(path string, hash string, depth int, deep bool, txid string) interface{} {
 	if deep {
 		depth = -1
 	}

 	for strings.HasPrefix(path, "/") {
 		path = path[1:]
 	}

 	var branch *Branch
 	var rev *Revision

 	// FIXME: should empty txid be cleaned up?
 	if branch = cn.Branches[txid]; txid == "" || branch == nil {
 		branch = cn.Branches[NONE]
 	}

 	if hash != "" {
 		rev = branch.revisions[hash]
 	} else {
 		rev = branch.Latest
 	}

 	return cn.get(rev, path, depth)
 }

 func (cn *Node) findRevByKey(revs []*Revision, keyName string, value string) (int, *Revision) {
 	for i, rev := range revs {
 		dataValue := reflect.ValueOf(rev.Config.Data)
 		dataStruct := GetAttributeStructure(rev.Config.Data, keyName, 0)

 		fieldValue := dataValue.Elem().FieldByName(dataStruct.Name)

 		if fieldValue.Interface().(string) == value {
 			return i, rev
 		}
 	}

 	fmt.Errorf("key %s=%s not found", keyName, value)

 	return -1, nil
 }

 func (cn *Node) get(rev *Revision, path string, depth int) interface{} {
 	if path == "" {
 		return cn.doGet(rev, depth)
 	}

 	partition := strings.SplitN(path, "/", 2)
 	name := partition[0]
 	path = partition[1]

 	field := ChildrenFields(cn.Type)[name]

 	if field.IsContainer {
 		if field.Key != "" {
 			children := rev.Children[name]
 			if path != "" {
 				partition = strings.SplitN(path, "/", 2)
 				key := partition[0]
 				path = ""
 				key = field.KeyFromStr(key).(string)
 				_, childRev := cn.findRevByKey(children, field.Key, key)
 				childNode := childRev.getNode()
 				return childNode.get(childRev, path, depth)
 			} else {
 				var response []interface{}
 				for _, childRev := range children {
 					childNode := childRev.getNode()
 					value := childNode.doGet(childRev, depth)
 					response = append(response, value)
 				}
 				return response
 			}
 		} else {
 			childRev := rev.Children[name][0]
 			childNode := childRev.getNode()
 			return childNode.get(childRev, path, depth)
 		}
 	}
 	return nil
 }

 func (cn *Node) doGet(rev *Revision, depth int) interface{} {
 	msg := rev.Get(depth)

 	if cn.Proxy != nil {
 		// TODO: invoke GET callback
 		fmt.Println("invoking proxy GET Callbacks")
 	}
 	return msg
 }

 //
 // Update operation
 //
 func (n *Node) Update(path string, data interface{}, strict bool, txid string, makeBranch t_makeBranch) *Revision {
 	// FIXME: is this required ... a bit overkill to take out a "/"
 	for strings.HasPrefix(path, "/") {
 		path = path[1:]
 	}

 	var branch *Branch
 	var ok bool
 	if branch, ok = n.Branches[txid]; !ok {
 		branch = makeBranch(n)
 	}

 	if path == "" {
 		return n.doUpdate(branch, data, strict)
 	}
 	return &Revision{}
 }

 func (n *Node) doUpdate(branch *Branch, data interface{}, strict bool) *Revision {
 	if reflect.TypeOf(data) != n.Type {
 		// TODO raise error
 		fmt.Errorf("data does not match type: %+v", n.Type)
 	}

 	// TODO: noChildren?

 	if n.Proxy != nil {
 		// TODO: n.proxy.InvokeCallbacks(CallbackType.PRE_UPDATE, data)
 		fmt.Println("invoking proxy PRE_UPDATE Callbacks")
 	}
 	if branch.Latest.getData() != data {
 		if strict {
 			// TODO: checkAccessViolations(data, branch.GetLatest.data)
 			fmt.Println("checking access violations")
 		}
 		rev := branch.Latest.UpdateData(data, branch)
 		n.makeLatest(branch, rev, nil) // TODO -> changeAnnouncement needs to be a tuple (CallbackType.POST_UPDATE, rev.data)
 		return rev
 	} else {
 		return branch.Latest
 	}
 }

 // TODO: the python implementation has a method to check if the data has no children
 //func (n *SomeNode) noChildren(data interface{}) bool {
 //	for fieldName, field := range ChildrenFields(n.Type) {
 //		fieldValue := GetAttributeValue(data, fieldName)
 //
 //		if fieldValue.IsValid() {
 //			if field.IsContainer {
 //				if len(fieldValue) > 0 {
 //
 //				}
 //			} else {
 //
 //			}
 //
 //		}
 //	}
 //}

 //
 // Add operation
 //
 func (n *Node) Add(path string, data interface{}, txid string, makeBranch t_makeBranch) *Revision {
 	for strings.HasPrefix(path, "/") {
 		path = path[1:]
 	}
 	if path == "" {
 		// TODO raise error
 		fmt.Errorf("cannot add for non-container mode\n")
 	}

 	var branch *Branch
 	var ok bool
 	if branch, ok = n.Branches[txid]; !ok {
 		branch = makeBranch(n)
 	}

 	rev := branch.Latest

 	partition := strings.SplitN(path, "/", 2)
 	name := partition[0]
 	path = partition[1]

 	field := ChildrenFields(n.Type)[name]
 	var children []*Revision

 	if field.IsContainer {
 		if path == "" {
 			if field.Key != "" {
 				if n.Proxy != nil {
 					// TODO -> n.proxy.InvokeCallbacks(PRE_ADD, data)
 					fmt.Println("invoking proxy PRE_ADD Callbacks")
 				}

 				copy(children, rev.Children[name])
 				key := GetAttributeValue(data, field.Key, 0)
 				if _, rev := n.findRevByKey(children, field.Key, key.String()); rev != nil {
 					// TODO raise error
 					fmt.Errorf("duplicate key found: %s", key.String())
 				}

 				childRev := n.makeNode(data, "").Latest()
 				children = append(children, childRev)
 				rev := rev.UpdateChildren(name, children, branch)
 				n.makeLatest(branch, rev, nil) // TODO -> changeAnnouncement needs to be a tuple (CallbackType.POST_ADD, rev.data)
 				return rev
 			} else {
 				fmt.Errorf("cannot add to non-keyed container\n")
 			}
 		} else if field.Key != "" {
 			partition := strings.SplitN(path, "/", 2)
 			key := partition[0]
 			path = partition[1]
 			key = field.KeyFromStr(key).(string)
 			copy(children, rev.Children[name])
 			idx, childRev := n.findRevByKey(children, field.Key, key)
 			childNode := childRev.getNode()
 			newChildRev := childNode.Add(path, data, txid, makeBranch)
 			children[idx] = newChildRev
 			rev := rev.UpdateChildren(name, children, branch)
 			n.makeLatest(branch, rev, nil)
 			return rev
 		} else {
 			fmt.Errorf("cannot add to non-keyed container\n")
 		}
 	} else {
 		fmt.Errorf("cannot add to non-container field\n")
 	}
 	return nil
 }

 //
 // Remove operation
 //
 func (n *Node) Remove(path string, txid string, makeBranch t_makeBranch) *Revision {
 	for strings.HasPrefix(path, "/") {
 		path = path[1:]
 	}
 	if path == "" {
 		// TODO raise error
 		fmt.Errorf("cannot remove for non-container mode\n")
 	}
 	var branch *Branch
 	var ok bool
 	if branch, ok = n.Branches[txid]; !ok {
 		branch = makeBranch(n)
 	}

 	rev := branch.Latest

 	partition := strings.SplitN(path, "/", 2)
 	name := partition[0]
 	path = partition[1]

 	field := ChildrenFields(n.Type)[name]
 	var children []*Revision
 	post_anno := make(map[string]interface{})

 	if field.IsContainer {
 		if path == "" {
 			fmt.Errorf("cannot remove without a key\n")
 		} else if field.Key != "" {
 			partition := strings.SplitN(path, "/", 2)
 			key := partition[0]
 			path = partition[1]
 			key = field.KeyFromStr(key).(string)
 			if path != "" {
 				copy(children, rev.Children[name])
 				idx, childRev := n.findRevByKey(children, field.Key, key)
 				childNode := childRev.getNode()
 				newChildRev := childNode.Remove(path, txid, makeBranch)
 				children[idx] = newChildRev
 				rev := rev.UpdateChildren(name, children, branch)
 				n.makeLatest(branch, rev, nil)
 				return rev
 			} else {
 				copy(children, rev.Children[name])
 				idx, childRev := n.findRevByKey(children, field.Key, key)
 				if n.Proxy != nil {
 					data := childRev.getData()
 					fmt.Println("invoking proxy PRE_REMOVE Callbacks")
 					fmt.Printf("setting POST_REMOVE Callbacks : %+v\n", data)
 				} else {
 					fmt.Println("setting POST_REMOVE Callbacks")
 				}
 				children = append(children[:idx], children[idx+1:]...)
 				rev := rev.UpdateChildren(name, children, branch)
 				n.makeLatest(branch, rev, post_anno)
 				return rev
 			}
 		} else {
 			fmt.Errorf("cannot add to non-keyed container\n")
 		}
 	} else {
 		fmt.Errorf("cannot add to non-container field\n")
 	}

 	return nil
 }

 func (n *Node) LoadLatest(kvStore *Backend, hash string) {
 	branch := NewBranch(n, "", nil, n.AutoPrune)
 	pr := &PersistedRevision{}
 	rev := pr.load(branch, kvStore, n.Type, hash)
 	n.makeLatest(branch, rev.Revision, nil)
 	n.Branches[NONE] = branch
 }
	package model

	import (
	"fmt"
	"github.com/golang/protobuf/proto"
	"reflect"
	"strings"
	)

	const (
	NONE string = "none"
	)

	type Node struct {
	root *Root
	Type interface{}
	Branches map[string]*Branch
	Tags map[string]*Revision
	Proxy *Proxy
	EventBus *EventBus
	AutoPrune bool
	}

	func NewNode(root Root, initialData interface{}, autoPrune bool, txid string) Node {
	cn := &Node{}

	cn.root = root
	cn.Branches = make(map[string]*Branch)
	cn.Tags = make(map[string]*Revision)
	cn.Proxy = nil
	cn.EventBus = nil
	cn.AutoPrune = autoPrune

	if IsProtoMessage(initialData) {
	cn.Type = reflect.ValueOf(initialData).Interface()
	dataCopy := proto.Clone(initialData.(proto.Message))
	cn.initialize(dataCopy, txid)
	} else if reflect.ValueOf(initialData).IsValid() {
	cn.Type = reflect.ValueOf(initialData).Interface()
	} else {
	// not implemented error
	fmt.Errorf("cannot process initial data - %+v", initialData)
	}

	return cn
	}

	func (cn Node) makeNode(data interface{}, txid string) Node {
	return NewNode(cn.root, data, true, txid)
	}

	func (cn Node) makeRevision(branch Branch, data interface{}, children map[string][]Revision) Revision {
	return cn.root.makeRevision(branch, data, children)
	}

	func (cn Node) makeLatest(branch Branch, revision *Revision, changeAnnouncement map[string]interface{}) {
	if _, ok := branch.revisions[revision.Hash]; !ok {
	branch.revisions[revision.Hash] = revision
	}

	if branch.Latest == nil \|\| revision.Hash != branch.Latest.Hash {
	branch.Latest = revision
	}

	if changeAnnouncement != nil && branch.Txid == "" {
	if cn.Proxy != nil {
	for changeType, data := range changeAnnouncement {
	// TODO: Invoke callback
	fmt.Printf("invoking callback - changeType: %+v, data:%+v\n", changeType, data)
	}
	}

	for changeType, data := range changeAnnouncement {
	// TODO: send notifications
	fmt.Printf("sending notification - changeType: %+v, data:%+v\n", changeType, data)
	}
	}
	}

	func (cn Node) Latest() Revision {
	if branch, exists := cn.Branches[NONE]; exists {
	return branch.Latest
	}
	return nil
	}

	func (cn Node) GetHash(hash string) Revision {
	return cn.Branches[NONE].revisions[hash]
	}

	func (cn *Node) initialize(data interface{}, txid string) {
	var children map[string][]*Revision
	children = make(map[string][]*Revision)
	for fieldName, field := range ChildrenFields(cn.Type) {
	fieldValue := GetAttributeValue(data, fieldName, 0)

	if fieldValue.IsValid() {
	if field.IsContainer {
	if field.Key != "" {
	var keysSeen []string

	for i := 0; i < fieldValue.Len(); i++ {
	v := fieldValue.Index(i)
	rev := cn.makeNode(v.Interface(), txid).Latest()
	key := GetAttributeValue(v.Interface(), field.Key, 0)
	for _, k := range keysSeen {
	if k == key.String() {
	fmt.Errorf("duplicate key - %s", k)
	}
	}
	children[fieldName] = append(children[fieldName], rev)
	keysSeen = append(keysSeen, key.String())
	}

	} else {
	for i := 0; i < fieldValue.Len(); i++ {
	v := fieldValue.Index(i)
	children[fieldName] = append(children[fieldName], cn.makeNode(v.Interface(), txid).Latest())
	}
	}
	} else {
	children[fieldName] = append(children[fieldName], cn.makeNode(fieldValue.Interface(), txid).Latest())
	}
	} else {
	fmt.Errorf("field is invalid - %+v", fieldValue)
	}
	}
	// FIXME: ClearField??? No such method in go protos. Reset?
	//data.ClearField(field_name)
	branch := NewBranch(cn, "", nil, cn.AutoPrune)
	rev := cn.makeRevision(branch, data, children)
	cn.makeLatest(branch, rev, nil)
	cn.Branches[txid] = branch
	}

	func (cn Node) makeTxBranch(txid string) Branch {
	branchPoint := cn.Branches[NONE].Latest
	branch := NewBranch(cn, txid, branchPoint, true)
	cn.Branches[txid] = branch
	return branch
	}

	func (cn *Node) deleteTxBranch(txid string) {
	delete(cn.Branches, txid)
	}

	type t_makeBranch func(Node) Branch

	//
	// Get operation
	//
	func (cn *Node) Get(path string, hash string, depth int, deep bool, txid string) interface{} {
	if deep {
	depth = -1
	}

	for strings.HasPrefix(path, "/") {
	path = path[1:]
	}

	var branch *Branch
	var rev *Revision

	// FIXME: should empty txid be cleaned up?
	if branch = cn.Branches[txid]; txid == "" \|\| branch == nil {
	branch = cn.Branches[NONE]
	}

	if hash != "" {
	rev = branch.revisions[hash]
	} else {
	rev = branch.Latest
	}

	return cn.get(rev, path, depth)
	}

	func (cn Node) findRevByKey(revs []Revision, keyName string, value string) (int, *Revision) {
	for i, rev := range revs {
	dataValue := reflect.ValueOf(rev.Config.Data)
	dataStruct := GetAttributeStructure(rev.Config.Data, keyName, 0)

	fieldValue := dataValue.Elem().FieldByName(dataStruct.Name)

	if fieldValue.Interface().(string) == value {
	return i, rev
	}
	}

	fmt.Errorf("key %s=%s not found", keyName, value)

	return -1, nil
	}

	func (cn Node) get(rev Revision, path string, depth int) interface{} {
	if path == "" {
	return cn.doGet(rev, depth)
	}

	partition := strings.SplitN(path, "/", 2)
	name := partition[0]
	path = partition[1]

	field := ChildrenFields(cn.Type)[name]

	if field.IsContainer {
	if field.Key != "" {
	children := rev.Children[name]
	if path != "" {
	partition = strings.SplitN(path, "/", 2)
	key := partition[0]
	path = ""
	key = field.KeyFromStr(key).(string)
	_, childRev := cn.findRevByKey(children, field.Key, key)
	childNode := childRev.getNode()
	return childNode.get(childRev, path, depth)
	} else {
	var response []interface{}
	for _, childRev := range children {
	childNode := childRev.getNode()
	value := childNode.doGet(childRev, depth)
	response = append(response, value)
	}
	return response
	}
	} else {
	childRev := rev.Children[name][0]
	childNode := childRev.getNode()
	return childNode.get(childRev, path, depth)
	}
	}
	return nil
	}

	func (cn Node) doGet(rev Revision, depth int) interface{} {
	msg := rev.Get(depth)

	if cn.Proxy != nil {
	// TODO: invoke GET callback
	fmt.Println("invoking proxy GET Callbacks")
	}
	return msg
	}

	//
	// Update operation
	//
	func (n Node) Update(path string, data interface{}, strict bool, txid string, makeBranch t_makeBranch) Revision {
	// FIXME: is this required ... a bit overkill to take out a "/"
	for strings.HasPrefix(path, "/") {
	path = path[1:]
	}

	var branch *Branch
	var ok bool
	if branch, ok = n.Branches[txid]; !ok {
	branch = makeBranch(n)
	}

	if path == "" {
	return n.doUpdate(branch, data, strict)
	}
	return &Revision{}
	}

	func (n Node) doUpdate(branch Branch, data interface{}, strict bool) *Revision {
	if reflect.TypeOf(data) != n.Type {
	// TODO raise error
	fmt.Errorf("data does not match type: %+v", n.Type)
	}

	// TODO: noChildren?

	if n.Proxy != nil {
	// TODO: n.proxy.InvokeCallbacks(CallbackType.PRE_UPDATE, data)
	fmt.Println("invoking proxy PRE_UPDATE Callbacks")
	}
	if branch.Latest.getData() != data {
	if strict {
	// TODO: checkAccessViolations(data, branch.GetLatest.data)
	fmt.Println("checking access violations")
	}
	rev := branch.Latest.UpdateData(data, branch)
	n.makeLatest(branch, rev, nil) // TODO -> changeAnnouncement needs to be a tuple (CallbackType.POST_UPDATE, rev.data)
	return rev
	} else {
	return branch.Latest
	}
	}

	// TODO: the python implementation has a method to check if the data has no children
	//func (n *SomeNode) noChildren(data interface{}) bool {
	// for fieldName, field := range ChildrenFields(n.Type) {
	// fieldValue := GetAttributeValue(data, fieldName)
	//
	// if fieldValue.IsValid() {
	// if field.IsContainer {
	// if len(fieldValue) > 0 {
	//
	// }
	// } else {
	//
	// }
	//
	// }
	// }
	//}

	//
	// Add operation
	//
	func (n Node) Add(path string, data interface{}, txid string, makeBranch t_makeBranch) Revision {
	for strings.HasPrefix(path, "/") {
	path = path[1:]
	}
	if path == "" {
	// TODO raise error
	fmt.Errorf("cannot add for non-container mode\n")
	}

	var branch *Branch
	var ok bool
	if branch, ok = n.Branches[txid]; !ok {
	branch = makeBranch(n)
	}

	rev := branch.Latest

	partition := strings.SplitN(path, "/", 2)
	name := partition[0]
	path = partition[1]

	field := ChildrenFields(n.Type)[name]
	var children []*Revision

	if field.IsContainer {
	if path == "" {
	if field.Key != "" {
	if n.Proxy != nil {
	// TODO -> n.proxy.InvokeCallbacks(PRE_ADD, data)
	fmt.Println("invoking proxy PRE_ADD Callbacks")
	}

	copy(children, rev.Children[name])
	key := GetAttributeValue(data, field.Key, 0)
	if _, rev := n.findRevByKey(children, field.Key, key.String()); rev != nil {
	// TODO raise error
	fmt.Errorf("duplicate key found: %s", key.String())
	}

	childRev := n.makeNode(data, "").Latest()
	children = append(children, childRev)
	rev := rev.UpdateChildren(name, children, branch)
	n.makeLatest(branch, rev, nil) // TODO -> changeAnnouncement needs to be a tuple (CallbackType.POST_ADD, rev.data)
	return rev
	} else {
	fmt.Errorf("cannot add to non-keyed container\n")
	}
	} else if field.Key != "" {
	partition := strings.SplitN(path, "/", 2)
	key := partition[0]
	path = partition[1]
	key = field.KeyFromStr(key).(string)
	copy(children, rev.Children[name])
	idx, childRev := n.findRevByKey(children, field.Key, key)
	childNode := childRev.getNode()
	newChildRev := childNode.Add(path, data, txid, makeBranch)
	children[idx] = newChildRev
	rev := rev.UpdateChildren(name, children, branch)
	n.makeLatest(branch, rev, nil)
	return rev
	} else {
	fmt.Errorf("cannot add to non-keyed container\n")
	}
	} else {
	fmt.Errorf("cannot add to non-container field\n")
	}
	return nil
	}

	//
	// Remove operation
	//
	func (n Node) Remove(path string, txid string, makeBranch t_makeBranch) Revision {
	for strings.HasPrefix(path, "/") {
	path = path[1:]
	}
	if path == "" {
	// TODO raise error
	fmt.Errorf("cannot remove for non-container mode\n")
	}
	var branch *Branch
	var ok bool
	if branch, ok = n.Branches[txid]; !ok {
	branch = makeBranch(n)
	}

	rev := branch.Latest

	partition := strings.SplitN(path, "/", 2)
	name := partition[0]
	path = partition[1]

	field := ChildrenFields(n.Type)[name]
	var children []*Revision
	post_anno := make(map[string]interface{})

	if field.IsContainer {
	if path == "" {
	fmt.Errorf("cannot remove without a key\n")
	} else if field.Key != "" {
	partition := strings.SplitN(path, "/", 2)
	key := partition[0]
	path = partition[1]
	key = field.KeyFromStr(key).(string)
	if path != "" {
	copy(children, rev.Children[name])
	idx, childRev := n.findRevByKey(children, field.Key, key)
	childNode := childRev.getNode()
	newChildRev := childNode.Remove(path, txid, makeBranch)
	children[idx] = newChildRev
	rev := rev.UpdateChildren(name, children, branch)
	n.makeLatest(branch, rev, nil)
	return rev
	} else {
	copy(children, rev.Children[name])
	idx, childRev := n.findRevByKey(children, field.Key, key)
	if n.Proxy != nil {
	data := childRev.getData()
	fmt.Println("invoking proxy PRE_REMOVE Callbacks")
	fmt.Printf("setting POST_REMOVE Callbacks : %+v\n", data)
	} else {
	fmt.Println("setting POST_REMOVE Callbacks")
	}
	children = append(children[:idx], children[idx+1:]...)
	rev := rev.UpdateChildren(name, children, branch)
	n.makeLatest(branch, rev, post_anno)
	return rev
	}
	} else {
	fmt.Errorf("cannot add to non-keyed container\n")
	}
	} else {
	fmt.Errorf("cannot add to non-container field\n")
	}

	return nil
	}

	func (n Node) LoadLatest(kvStore Backend, hash string) {
	branch := NewBranch(n, "", nil, n.AutoPrune)
	pr := &PersistedRevision{}
	rev := pr.load(branch, kvStore, n.Type, hash)
	n.makeLatest(branch, rev.Revision, nil)
	n.Branches[NONE] = branch
	}