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typedef struct _Tree{
    int val;
    struct _Tree *left;
    struct _Tree *right;

is Tree a pointer here? Does it point to the address of val?

How about this if I define Tree *node? Is node a pointer pointing the address of the Tree?

if we want to insert val, should we use insert(&node) or insert(node)?

void insert_Tree(Tree **root, int key){
if((*root) == NULL){
    (*root) = (Tree *)malloc(sizeof(Tree));
    (*root)->val = key;
    (*root)->left = NULL;
    (*root)->right = NULL;
    cout<<"insert data "<<key<<endl;
}else if(key< (*root)->val){
    insert_Tree(&(*root)->left, key);
    cout<<"go left"<<endl;
    insert_Tree(&(*root)->right, key);
    cout<<"go right"<<endl;
int main(){

Tree *root = NULL;
insert_Tree(&root, 10);
insert_Tree(&root, 20);
insert_Tree(&root, 5);
insert_Tree(&root, 100);
share|improve this question
Regarding the last question, if your insert() is to potentially modify the value of the pointer being passed in, then you need to pass it by address (i.e. a pointer to pointer). This is common for list/tree code that passes a head/root pointer in that may be modified. Alternatively you can have the insert() function return the new pointer value, but I prefer the former option, as I like my API's to manage the list/tree; an not rely on the caller to save the new head/root by-overwrite. –  WhozCraig Aug 31 '13 at 23:01

4 Answers 4

No, Tree is not a pointer or any variable at all, it's a typedef alias of struct _Tree, and can be used interchangeably with it.

If you declare Tree *node, you've declared a pointer to a Tree structure, but no actual structure itself.

How your insert function works is hard to say without more code.

share|improve this answer

Tree is not a pointer. It is an alias for the user-defined type struct _Tree. So when you declare a new variable, instead of typing

struct _Tree foo;

you can simply type

Tree foo;

The two are equivalent.

If you declare

Tree *node;

The unary * operator in C is the dereference / indirection operator, and so what you are saying is: *node, or the dereferenced value of node, is a Tree. Or in other words, node is a pointer to a Tree, i.e., a pointer to a struct _Tree.

This pointer is uninitialized until you allocate memory for it:

node = malloc (sizeof (Tree));

Until this memory is allocated, the pointer is pointing to some undefined place. Once the memory is allocated, you can insert val into the node like this:

node->val = val;

How to insert this node itself into the binary tree is an interesting problem. What have you tried?

share|improve this answer
thanks verbose, I paste the code. 1)Tree node; 2)Tree *node; 1) and 2) are different, right? I think 1) node is just another name of Tree 2) *node is a pointer to the Tree structure. my understanding is right? Thanks –  hellocoding Sep 1 '13 at 0:22
Tree node; would declare a variable of type Tree. Tree *node declares a pointer to a Tree. They are very different, just like int a; and int *a; –  verbose Sep 1 '13 at 0:44
Generally which do you recommend when we need to operate the tree, Tree *node or Tree node? I viewed a lot of programs, Tree *node is more common, what do you think? –  hellocoding Sep 1 '13 at 0:59
Tree *node. The recursion involved in inserting a new node becomes trickier if the root node is allocated on the stack but the left and right children are allocated on the heap. –  verbose Sep 1 '13 at 7:04

Here is a more common way to define this simple structure :

typedef struct{
    int val;
    Tree *left;
    Tree *right;

Using this structure would normally look like this :

Tree top;
Tree left;
Tree right;

top.val = 0;
top.left = &left;
top.right = &right;        

As you can see, Tree is not a pointer here, but a type structure definition. It acts like a type, which means you can instantiate a variable with the type Tree. Also, you need to use the reference sign (&) to assign the left and right tree pointers, because the structure members (left and right) are pointers to Tree.

share|improve this answer
I paste the code, you can see even the val, the template use & sign. –  hellocoding Sep 1 '13 at 0:15

Tree is a data type defined by your own code. Notice how you invoke it in your code, it is in the same place that an int or double might be.

Since it is a data type, then you can also define it as a pointer:

  Tree *root;

root is a pointer to the structure / data type "Tree". root is only 4 bytes and does not allocate a Tree structure.

Or Tree can be a structured/formatted set of storage locations:

 Tree  node;

node is the structure Tree and is allocated actual storage locations. If you need to pass the address of node then specify: &node, this creates a pointer to the storage locations at "node".

I think that your other questions depend on understanding the Tree data type.

In general, as you start out in programming, you will NOT need to define double pointers, like Tree **root, so re-examine your code and simplify it.

Hope this helps.

share|improve this answer
Thanks. If I use Tree *root, it will be root->val. If I use Tree root, it will be root.val. When should I use the former and when to use the latter? –  hellocoding Sep 1 '13 at 3:45
*root is a pointer to a Tree structure. Pointers are good for building linked lists, trees, etc. When thinking about this don't mix the names. If you define Tree *root; you would never code root.val. but you can define Tree node and code node.val –  JackCColeman Sep 1 '13 at 4:03

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