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virtual-kubelet/vendor/github.com/tchap/go-patricia/patricia/children.go
Loc Nguyen 513cebe7b7 VMware vSphere Integrated Containers provider (#206) 
* Add Virtual Kubelet provider for VIC

Initial virtual kubelet provider for VMware VIC.  This provider currently
handles creating and starting of a pod VM via the VIC portlayer and persona
server.  Image store handling via the VIC persona server.  This provider
currently requires the feature/wolfpack branch of VIC.

* Added pod stop and delete.  Also added node capacity.

Added the ability to stop and delete pod VMs via VIC.  Also retrieve
node capacity information from the VCH.

* Cleanup and readme file

Some file clean up and added a Readme.md markdown file for the VIC
provider.

* Cleaned up errors, added function comments, moved operation code

1. Cleaned up error handling.  Set standard for creating errors.
2. Added method prototype comments for all interface functions.
3. Moved PodCreator, PodStarter, PodStopper, and PodDeleter to a new folder.

* Add mocking code and unit tests for podcache, podcreator, and podstarter

Used the unit test framework used in VIC to handle assertions in the provider's
unit test.  Mocking code generated using OSS project mockery, which is compatible
with the testify assertion framework.

* Vendored packages for the VIC provider

Requires feature/wolfpack branch of VIC and a few specific commit sha of
projects used within VIC.

* Implementation of POD Stopper and Deleter unit tests (#4)

* Updated files for initial PR
2018-06-04 15:41:32 -07:00

326 lines
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// Copyright (c) 2014 The go-patricia AUTHORS
//
// Use of this source code is governed by The MIT License
// that can be found in the LICENSE file.
package patricia
import (
"fmt"
"io"
"sort"
)
type childList interface {
length() int
head() *Trie
add(child *Trie) childList
remove(b byte)
replace(b byte, child *Trie)
next(b byte) *Trie
walk(prefix *Prefix, visitor VisitorFunc) error
print(w io.Writer, indent int)
total() int
}
type tries []*Trie
func (t tries) Len() int {
return len(t)
}
func (t tries) Less(i, j int) bool {
strings := sort.StringSlice{string(t[i].prefix), string(t[j].prefix)}
return strings.Less(0, 1)
}
func (t tries) Swap(i, j int) {
t[i], t[j] = t[j], t[i]
}
type sparseChildList struct {
children tries
}
func newSparseChildList(maxChildrenPerSparseNode int) childList {
return &sparseChildList{
children: make(tries, 0, maxChildrenPerSparseNode),
}
}
func (list *sparseChildList) length() int {
return len(list.children)
}
func (list *sparseChildList) head() *Trie {
return list.children[0]
}
func (list *sparseChildList) add(child *Trie) childList {
// Search for an empty spot and insert the child if possible.
if len(list.children) != cap(list.children) {
list.children = append(list.children, child)
return list
}
// Otherwise we have to transform to the dense list type.
return newDenseChildList(list, child)
}
func (list *sparseChildList) remove(b byte) {
for i, node := range list.children {
if node.prefix[0] == b {
list.children[i] = list.children[len(list.children)-1]
list.children[len(list.children)-1] = nil
list.children = list.children[:len(list.children)-1]
return
}
}
// This is not supposed to be reached.
panic("removing non-existent child")
}
func (list *sparseChildList) replace(b byte, child *Trie) {
// Make a consistency check.
if p0 := child.prefix[0]; p0 != b {
panic(fmt.Errorf("child prefix mismatch: %v != %v", p0, b))
}
// Seek the child and replace it.
for i, node := range list.children {
if node.prefix[0] == b {
list.children[i] = child
return
}
}
}
func (list *sparseChildList) next(b byte) *Trie {
for _, child := range list.children {
if child.prefix[0] == b {
return child
}
}
return nil
}
func (list *sparseChildList) walk(prefix *Prefix, visitor VisitorFunc) error {
sort.Sort(list.children)
for _, child := range list.children {
*prefix = append(*prefix, child.prefix...)
if child.item != nil {
err := visitor(*prefix, child.item)
if err != nil {
if err == SkipSubtree {
*prefix = (*prefix)[:len(*prefix)-len(child.prefix)]
continue
}
*prefix = (*prefix)[:len(*prefix)-len(child.prefix)]
return err
}
}
err := child.children.walk(prefix, visitor)
*prefix = (*prefix)[:len(*prefix)-len(child.prefix)]
if err != nil {
return err
}
}
return nil
}
func (list *sparseChildList) total() int {
tot := 0
for _, child := range list.children {
if child != nil {
tot = tot + child.total()
}
}
return tot
}
func (list *sparseChildList) print(w io.Writer, indent int) {
for _, child := range list.children {
if child != nil {
child.print(w, indent)
}
}
}
type denseChildList struct {
min int
max int
numChildren int
headIndex int
children []*Trie
}
func newDenseChildList(list *sparseChildList, child *Trie) childList {
var (
min int = 255
max int = 0
)
for _, child := range list.children {
b := int(child.prefix[0])
if b < min {
min = b
}
if b > max {
max = b
}
}
b := int(child.prefix[0])
if b < min {
min = b
}
if b > max {
max = b
}
children := make([]*Trie, max-min+1)
for _, child := range list.children {
children[int(child.prefix[0])-min] = child
}
children[int(child.prefix[0])-min] = child
return &denseChildList{
min: min,
max: max,
numChildren: list.length() + 1,
headIndex: 0,
children: children,
}
}
func (list *denseChildList) length() int {
return list.numChildren
}
func (list *denseChildList) head() *Trie {
return list.children[list.headIndex]
}
func (list *denseChildList) add(child *Trie) childList {
b := int(child.prefix[0])
var i int
switch {
case list.min <= b && b <= list.max:
if list.children[b-list.min] != nil {
panic("dense child list collision detected")
}
i = b - list.min
list.children[i] = child
case b < list.min:
children := make([]*Trie, list.max-b+1)
i = 0
children[i] = child
copy(children[list.min-b:], list.children)
list.children = children
list.min = b
default: // b > list.max
children := make([]*Trie, b-list.min+1)
i = b - list.min
children[i] = child
copy(children, list.children)
list.children = children
list.max = b
}
list.numChildren++
if i < list.headIndex {
list.headIndex = i
}
return list
}
func (list *denseChildList) remove(b byte) {
i := int(b) - list.min
if list.children[i] == nil {
// This is not supposed to be reached.
panic("removing non-existent child")
}
list.numChildren--
list.children[i] = nil
// Update head index.
if i == list.headIndex {
for ; i < len(list.children); i++ {
if list.children[i] != nil {
list.headIndex = i
return
}
}
}
}
func (list *denseChildList) replace(b byte, child *Trie) {
// Make a consistency check.
if p0 := child.prefix[0]; p0 != b {
panic(fmt.Errorf("child prefix mismatch: %v != %v", p0, b))
}
// Replace the child.
list.children[int(b)-list.min] = child
}
func (list *denseChildList) next(b byte) *Trie {
i := int(b)
if i < list.min || list.max < i {
return nil
}
return list.children[i-list.min]
}
func (list *denseChildList) walk(prefix *Prefix, visitor VisitorFunc) error {
for _, child := range list.children {
if child == nil {
continue
}
*prefix = append(*prefix, child.prefix...)
if child.item != nil {
if err := visitor(*prefix, child.item); err != nil {
if err == SkipSubtree {
*prefix = (*prefix)[:len(*prefix)-len(child.prefix)]
continue
}
*prefix = (*prefix)[:len(*prefix)-len(child.prefix)]
return err
}
}
err := child.children.walk(prefix, visitor)
*prefix = (*prefix)[:len(*prefix)-len(child.prefix)]
if err != nil {
return err
}
}
return nil
}
func (list *denseChildList) print(w io.Writer, indent int) {
for _, child := range list.children {
if child != nil {
child.print(w, indent)
}
}
}
func (list *denseChildList) total() int {
tot := 0
for _, child := range list.children {
if child != nil {
tot = tot + child.total()
}
}
return tot
}
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