// binary_tree 二叉树 package Algorithm import ( "reflect" ) // 二叉树定义 type BinaryTree struct { Data interface{} Lchild *BinaryTree Rchild *BinaryTree } // 构造方法 func NewBinaryTree(data interface{}) *BinaryTree { return &BinaryTree{Data: data} } // 先序遍历 func (bt *BinaryTree) PreOrder() []interface{} { t := bt stack := NewStack(reflect.TypeOf(bt)) res := make([]interface{}, 0) for t != nil || !stack.Empty() { for t != nil { res = append(res, t.Data) stack.Push(t) t = t.Lchild } if !stack.Empty() { v, _ := stack.Pop() t = v.(*BinaryTree) t = t.Rchild } } return res } // 中序遍历 func (bt *BinaryTree) InOrder() []interface{} { t := bt stack := NewStack(reflect.TypeOf(bt)) res := make([]interface{}, 0) for t != nil || !stack.Empty() { for t != nil { stack.Push(t) t = t.Lchild } if !stack.Empty() { v, _ := stack.Pop() t = v.(*BinaryTree) res = append(res, t.Data) t = t.Rchild } } return res } // 后续遍历 func (bt *BinaryTree) PostOrder() []interface{} { t := bt stack := NewStack(reflect.TypeOf(bt)) s := NewStack(reflect.TypeOf(true)) res := make([]interface{}, 0) for t != nil || !stack.Empty() { for t != nil { stack.Push(t) s.Push(false) t = t.Lchild } for flag, _ := s.Top(); !stack.Empty() && flag.(bool); { s.Pop() v, _ := stack.Pop() res = append(res, v.(*BinaryTree).Data) flag, _ = s.Top() } if !stack.Empty() { s.Pop() s.Push(true) v, _ := stack.Top() t = v.(*BinaryTree) t = t.Rchild } } return res }
github链接:https://github.com/gaopeng527/go_Algorithm/blob/master/binary_tree.go
