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zigzag_traversal_test.go
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zigzag_traversal_test.go
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/*
Problem:
- Given a binary tree, populate the values of all nodes of each level
in a zigzag order in separate sub-arrays.
Example:
- Input:
1
2 3
4 5
Output: [][]interface{}{[]interface{}{1}, []interface{}{3, 2}, []interface{}{4, 5}}
Approach:
- Start by pushing the root node to a queue.
- Keep iterating until the queue is empty.
- At each step,
- use a linked list to push front or back depending on the zigzag direction
- enqueue its left and right child
Cost:
- O(n) time, O(n) space.
*/
package gtci
import (
"testing"
"github.com/hoanhan101/algo/common"
)
func TestZigzagTraverse(t *testing.T) {
t1 := &common.TreeNode{}
t2 := &common.TreeNode{Left: nil, Value: 1, Right: nil}
t3 := &common.TreeNode{Left: nil, Value: 1, Right: nil}
t3.Left = &common.TreeNode{Left: nil, Value: 2, Right: nil}
t3.Left.Right = &common.TreeNode{Left: nil, Value: 3, Right: nil}
t4 := &common.TreeNode{Left: nil, Value: 1, Right: nil}
t4.Left = &common.TreeNode{Left: nil, Value: 2, Right: nil}
t4.Right = &common.TreeNode{Left: nil, Value: 3, Right: nil}
t5 := &common.TreeNode{Left: nil, Value: 1, Right: nil}
t5.Left = &common.TreeNode{Left: nil, Value: 2, Right: nil}
t5.Right = &common.TreeNode{Left: nil, Value: 3, Right: nil}
t5.Left.Left = &common.TreeNode{Left: nil, Value: 4, Right: nil}
t5.Right.Right = &common.TreeNode{Left: nil, Value: 5, Right: nil}
tests := []struct {
in *common.TreeNode
expected [][]interface{}
}{
{t1, [][]interface{}{[]interface{}{0}}},
{t2, [][]interface{}{[]interface{}{1}}},
{t3, [][]interface{}{[]interface{}{1}, []interface{}{2}, []interface{}{3}}},
{t4, [][]interface{}{[]interface{}{1}, []interface{}{3, 2}}},
{t5, [][]interface{}{[]interface{}{1}, []interface{}{3, 2}, []interface{}{4, 5}}},
}
for _, tt := range tests {
common.Equal(
t,
tt.expected,
zigzagTraverse(tt.in),
)
}
}
func zigzagTraverse(root *common.TreeNode) [][]interface{} {
out := [][]interface{}{}
if root == nil {
return out
}
// initialize a linked list with the root.
queue := common.NewQueue()
queue.Push(root)
leftToRight := true
for queue.Size() > 0 {
levelSize := queue.Size()
currentLevel := common.NewList()
for i := 0; i < levelSize; i++ {
// pop the queue and cache that value to its current level.
current := queue.Pop().(*common.TreeNode)
if leftToRight {
currentLevel.PushBack(current.Value)
} else {
currentLevel.PushFront(current.Value)
}
// push its left child.
if current.Left != nil {
queue.Push(current.Left)
}
// push its right child.
if current.Right != nil {
queue.Push(current.Right)
}
}
out = append(out, currentLevel.Slice())
// reverse its direction.
leftToRight = !leftToRight
}
return out
}