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doubly.go
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doubly.go
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package linkedlist
import "fmt"
// Doubly structure with just the Head Node
// We call it `Doubly` to make it easier to
// understand when calling this in peoples
// own local code to understand and experiment
// with this easily.
// For example, we can use gotools `go get` command to get
// this repository cloned inside the
// $GOPATH/src/github.com/TheAlgorithms/Go (you can do this
// manually as well) and use the import statement as follows:
//
// `import "github.com/TheAlgorithms/Go/structure/linkedlist"`
//
// and call linkedlist.Doubly to create a new doubly linked list.
type Doubly[T any] struct {
Head *Node[T]
}
// Init initializes double linked list
func (ll *Doubly[T]) Init() *Doubly[T] {
ll.Head = &Node[T]{}
ll.Head.Next = ll.Head
ll.Head.Prev = ll.Head
return ll
}
func NewDoubly[T any]() *Doubly[T] {
return new(Doubly[T]).Init()
}
// lazyInit lazily initializes a zero List value.
func (ll *Doubly[T]) lazyInit() {
if ll.Head.Next == nil {
ll.Init()
}
}
func (ll *Doubly[T]) insert(n, at *Node[T]) *Node[T] {
n.Prev = at
n.Next = at.Next
n.Prev.Next = n
n.Next.Prev = n
return n
}
func (ll *Doubly[T]) insertValue(val T, at *Node[T]) *Node[T] {
return ll.insert(NewNode(val), at)
}
// AddAtBeg Add a node to the beginning of the linkedlist
func (ll *Doubly[T]) AddAtBeg(val T) {
ll.lazyInit()
ll.insertValue(val, ll.Head)
}
// AddAtEnd Add a node at the end of the linkedlist
func (ll *Doubly[T]) AddAtEnd(val T) {
ll.lazyInit()
ll.insertValue(val, ll.Head.Prev)
}
func (ll *Doubly[T]) Remove(n *Node[T]) T {
n.Prev.Next = n.Next
n.Next.Prev = n.Prev
n.Next = nil
n.Prev = nil
return n.Val
}
// DelAtBeg Delete the node at the beginning of the linkedlist
func (ll *Doubly[T]) DelAtBeg() (T, bool) {
// no item
if ll.Head.Next == nil {
var r T
return r, false
}
n := ll.Head.Next
val := n.Val
ll.Remove(n)
return val, true
}
// DetAtEnd Delete a node at the end of the linkedlist
func (ll *Doubly[T]) DelAtEnd() (T, bool) {
// no item
if ll.Head.Prev == nil {
var r T
return r, false
}
n := ll.Head.Prev
val := n.Val
ll.Remove(n)
return val, true
}
// DelByPos deletes node at middle based on position in list
// and returns value. If empty or position of node is less than linked list length, returns false
func (ll *Doubly[T]) DelByPos(pos int) (T, bool) {
switch {
case ll.Head == nil:
var r T
return r, false
case pos-1 == 0:
return ll.DelAtBeg()
case pos-1 == ll.Count():
return ll.DelAtEnd()
case pos-1 > ll.Count():
var r T
return r, false
}
var prev *Node[T]
var val T
cur := ll.Head
count := 0
for count < pos-1 {
prev = cur
cur = cur.Next
count++
}
cur.Next.Prev = prev
val = cur.Val
prev.Next = cur.Next
return val, true
}
// Count Number of nodes in the linkedlist
func (ll *Doubly[T]) Count() int {
var ctr int = 0
if ll.Head.Next == nil {
return 0
}
for cur := ll.Head.Next; cur != ll.Head; cur = cur.Next {
ctr += 1
}
return ctr
}
// Reverse Reverse the order of the linkedlist
func (ll *Doubly[T]) Reverse() {
var Prev, Next *Node[T]
cur := ll.Head
for cur != nil {
Next = cur.Next
cur.Next = Prev
cur.Prev = Next
Prev = cur
cur = Next
}
ll.Head = Prev
}
// Display display the linked list
func (ll *Doubly[T]) Display() {
for cur := ll.Head.Next; cur != ll.Head; cur = cur.Next {
fmt.Print(cur.Val, " ")
}
fmt.Print("\n")
}
// DisplayReverse Display the linkedlist in reverse order
func (ll *Doubly[T]) DisplayReverse() {
if ll.Head == nil {
return
}
var cur *Node[T]
for cur = ll.Head.Prev; cur != ll.Head; cur = cur.Prev {
fmt.Print(cur.Val, " ")
}
fmt.Print("\n")
}
func (ll *Doubly[T]) Front() *Node[T] {
if ll.Count() == 0 {
return nil
}
return ll.Head.Next
}
func (ll *Doubly[T]) Back() *Node[T] {
if ll.Count() == 0 {
return nil
}
return ll.Head.Prev
}
func (ll *Doubly[T]) MoveToBack(n *Node[T]) {
if ll.Head.Prev == n {
return
}
ll.move(n, ll.Head.Prev)
}
func (ll *Doubly[T]) move(n, at *Node[T]) {
if n == at {
return
}
n.Prev.Next = n.Next
n.Next.Prev = n.Prev
n.Prev = at
n.Next = at.Next
n.Prev.Next = n
n.Next.Prev = n
}