Cleaner way to handle double pointer in C++ BST?
I have an implementation for my first binary search tree in C++. I was wondering if there was some cleaner way to avoid using the double pointer in the way I have my code setup? Such as on one line I have:
(*node)->left = insert(&((*node)->left),value);
Which seems a bit "messy", but it almost seems necessary for the way I have implemented the BST. Maybe I am possibly missing a way I can change the syntax slightly to achieve the same result? I understand that I can have a double pointer as a parameter for my functions, but I have been told that it is not the standard in C++. I have my code posted below, along with how I am testing it.I am trying to prepare for technical interviews so any feedback is welcome.
#include<stdio.h>
#include<stdlib.h>
#include<iostream>
struct Node
{
int data;
Node *left, *right;
};
// A utility function to create a new BST node
Node* newNode(int data)
{
Node *temp = new Node();
temp->data = data;
temp->left = NULL;
temp->right = NULL;
return temp;
}
// A utility function to do inorder traversal of BST
void inorder(Node **root)
{
if (*root != NULL)
{
inorder(&((*root)->left));
printf("%d n", (*root)->data);
inorder(&((*root)->right));
}
}
/* A utility function to insert a new node with given key in BST */
Node* insert(Node** node, int value)
{
if(*node==NULL){
return newNode(value);
}
if((*node)->data > value){
(*node)->left = insert(&((*node)->left),value);
}
else if((*node)->data < value){
(*node)->right = insert(&((*node)->right),value);
}
return *node;
}
// Driver Program to test above functions
int main()
{
/* Let us create following BST
50
/
30 70
/ /
20 40 60 80 */
Node *root = NULL;
root = insert(&root, 50);
insert(&root, 30);
insert(&root, 20);
insert(&root, 40);
insert(&root, 70);
insert(&root, 60);
insert(&root, 80);
// print inoder traversal of the BST
inorder(&root);
return 0;
}
EDIT:
By changing " ** " in the parameters of the function to "*&" was able to make code much easier to read, with the same functionality.
#include<stdio.h>
#include<stdlib.h>
#include<iostream>
struct Node
{
int data;
Node *left, *right;
};
// A utility function to create a new BST node
Node* newNode(int data)
{
Node *temp = new Node();
temp->data = data;
temp->left = NULL;
temp->right = NULL;
return temp;
}
// A utility function to do inorder traversal of BST
void inorder(Node *&root)
{
if (root != NULL)
{
inorder(((root)->left));
printf("%d n", (root)->data);
inorder(((root)->right));
}
}
/* A utility function to insert a new node with given key in BST */
Node* insert(Node*& node, int value)
{
if(node==NULL){
return newNode(value);
}
if((node)->data > value){
node->left = insert(((node)->left),value);
}
else if((node)->data < value){
(node)->right = insert(((node)->right),value);
}
return node;
}
// Driver Program to test above functions
int main()
{
/* following BST
50
/
30 70
/ /
20 40 60 80 */
Node *root = NULL;
root = insert(root, 50);
insert(root, 30);
insert(root, 20);
insert(root, 40);
insert(root, 70);
insert(root, 60);
insert(root, 80);
// print inoder traversal of the BST
inorder(root);
return 0;
}
c++ algorithm binary-search
New contributor
add a comment |
I have an implementation for my first binary search tree in C++. I was wondering if there was some cleaner way to avoid using the double pointer in the way I have my code setup? Such as on one line I have:
(*node)->left = insert(&((*node)->left),value);
Which seems a bit "messy", but it almost seems necessary for the way I have implemented the BST. Maybe I am possibly missing a way I can change the syntax slightly to achieve the same result? I understand that I can have a double pointer as a parameter for my functions, but I have been told that it is not the standard in C++. I have my code posted below, along with how I am testing it.I am trying to prepare for technical interviews so any feedback is welcome.
#include<stdio.h>
#include<stdlib.h>
#include<iostream>
struct Node
{
int data;
Node *left, *right;
};
// A utility function to create a new BST node
Node* newNode(int data)
{
Node *temp = new Node();
temp->data = data;
temp->left = NULL;
temp->right = NULL;
return temp;
}
// A utility function to do inorder traversal of BST
void inorder(Node **root)
{
if (*root != NULL)
{
inorder(&((*root)->left));
printf("%d n", (*root)->data);
inorder(&((*root)->right));
}
}
/* A utility function to insert a new node with given key in BST */
Node* insert(Node** node, int value)
{
if(*node==NULL){
return newNode(value);
}
if((*node)->data > value){
(*node)->left = insert(&((*node)->left),value);
}
else if((*node)->data < value){
(*node)->right = insert(&((*node)->right),value);
}
return *node;
}
// Driver Program to test above functions
int main()
{
/* Let us create following BST
50
/
30 70
/ /
20 40 60 80 */
Node *root = NULL;
root = insert(&root, 50);
insert(&root, 30);
insert(&root, 20);
insert(&root, 40);
insert(&root, 70);
insert(&root, 60);
insert(&root, 80);
// print inoder traversal of the BST
inorder(&root);
return 0;
}
EDIT:
By changing " ** " in the parameters of the function to "*&" was able to make code much easier to read, with the same functionality.
#include<stdio.h>
#include<stdlib.h>
#include<iostream>
struct Node
{
int data;
Node *left, *right;
};
// A utility function to create a new BST node
Node* newNode(int data)
{
Node *temp = new Node();
temp->data = data;
temp->left = NULL;
temp->right = NULL;
return temp;
}
// A utility function to do inorder traversal of BST
void inorder(Node *&root)
{
if (root != NULL)
{
inorder(((root)->left));
printf("%d n", (root)->data);
inorder(((root)->right));
}
}
/* A utility function to insert a new node with given key in BST */
Node* insert(Node*& node, int value)
{
if(node==NULL){
return newNode(value);
}
if((node)->data > value){
node->left = insert(((node)->left),value);
}
else if((node)->data < value){
(node)->right = insert(((node)->right),value);
}
return node;
}
// Driver Program to test above functions
int main()
{
/* following BST
50
/
30 70
/ /
20 40 60 80 */
Node *root = NULL;
root = insert(root, 50);
insert(root, 30);
insert(root, 20);
insert(root, 40);
insert(root, 70);
insert(root, 60);
insert(root, 80);
// print inoder traversal of the BST
inorder(root);
return 0;
}
c++ algorithm binary-search
New contributor
add a comment |
I have an implementation for my first binary search tree in C++. I was wondering if there was some cleaner way to avoid using the double pointer in the way I have my code setup? Such as on one line I have:
(*node)->left = insert(&((*node)->left),value);
Which seems a bit "messy", but it almost seems necessary for the way I have implemented the BST. Maybe I am possibly missing a way I can change the syntax slightly to achieve the same result? I understand that I can have a double pointer as a parameter for my functions, but I have been told that it is not the standard in C++. I have my code posted below, along with how I am testing it.I am trying to prepare for technical interviews so any feedback is welcome.
#include<stdio.h>
#include<stdlib.h>
#include<iostream>
struct Node
{
int data;
Node *left, *right;
};
// A utility function to create a new BST node
Node* newNode(int data)
{
Node *temp = new Node();
temp->data = data;
temp->left = NULL;
temp->right = NULL;
return temp;
}
// A utility function to do inorder traversal of BST
void inorder(Node **root)
{
if (*root != NULL)
{
inorder(&((*root)->left));
printf("%d n", (*root)->data);
inorder(&((*root)->right));
}
}
/* A utility function to insert a new node with given key in BST */
Node* insert(Node** node, int value)
{
if(*node==NULL){
return newNode(value);
}
if((*node)->data > value){
(*node)->left = insert(&((*node)->left),value);
}
else if((*node)->data < value){
(*node)->right = insert(&((*node)->right),value);
}
return *node;
}
// Driver Program to test above functions
int main()
{
/* Let us create following BST
50
/
30 70
/ /
20 40 60 80 */
Node *root = NULL;
root = insert(&root, 50);
insert(&root, 30);
insert(&root, 20);
insert(&root, 40);
insert(&root, 70);
insert(&root, 60);
insert(&root, 80);
// print inoder traversal of the BST
inorder(&root);
return 0;
}
EDIT:
By changing " ** " in the parameters of the function to "*&" was able to make code much easier to read, with the same functionality.
#include<stdio.h>
#include<stdlib.h>
#include<iostream>
struct Node
{
int data;
Node *left, *right;
};
// A utility function to create a new BST node
Node* newNode(int data)
{
Node *temp = new Node();
temp->data = data;
temp->left = NULL;
temp->right = NULL;
return temp;
}
// A utility function to do inorder traversal of BST
void inorder(Node *&root)
{
if (root != NULL)
{
inorder(((root)->left));
printf("%d n", (root)->data);
inorder(((root)->right));
}
}
/* A utility function to insert a new node with given key in BST */
Node* insert(Node*& node, int value)
{
if(node==NULL){
return newNode(value);
}
if((node)->data > value){
node->left = insert(((node)->left),value);
}
else if((node)->data < value){
(node)->right = insert(((node)->right),value);
}
return node;
}
// Driver Program to test above functions
int main()
{
/* following BST
50
/
30 70
/ /
20 40 60 80 */
Node *root = NULL;
root = insert(root, 50);
insert(root, 30);
insert(root, 20);
insert(root, 40);
insert(root, 70);
insert(root, 60);
insert(root, 80);
// print inoder traversal of the BST
inorder(root);
return 0;
}
c++ algorithm binary-search
New contributor
I have an implementation for my first binary search tree in C++. I was wondering if there was some cleaner way to avoid using the double pointer in the way I have my code setup? Such as on one line I have:
(*node)->left = insert(&((*node)->left),value);
Which seems a bit "messy", but it almost seems necessary for the way I have implemented the BST. Maybe I am possibly missing a way I can change the syntax slightly to achieve the same result? I understand that I can have a double pointer as a parameter for my functions, but I have been told that it is not the standard in C++. I have my code posted below, along with how I am testing it.I am trying to prepare for technical interviews so any feedback is welcome.
#include<stdio.h>
#include<stdlib.h>
#include<iostream>
struct Node
{
int data;
Node *left, *right;
};
// A utility function to create a new BST node
Node* newNode(int data)
{
Node *temp = new Node();
temp->data = data;
temp->left = NULL;
temp->right = NULL;
return temp;
}
// A utility function to do inorder traversal of BST
void inorder(Node **root)
{
if (*root != NULL)
{
inorder(&((*root)->left));
printf("%d n", (*root)->data);
inorder(&((*root)->right));
}
}
/* A utility function to insert a new node with given key in BST */
Node* insert(Node** node, int value)
{
if(*node==NULL){
return newNode(value);
}
if((*node)->data > value){
(*node)->left = insert(&((*node)->left),value);
}
else if((*node)->data < value){
(*node)->right = insert(&((*node)->right),value);
}
return *node;
}
// Driver Program to test above functions
int main()
{
/* Let us create following BST
50
/
30 70
/ /
20 40 60 80 */
Node *root = NULL;
root = insert(&root, 50);
insert(&root, 30);
insert(&root, 20);
insert(&root, 40);
insert(&root, 70);
insert(&root, 60);
insert(&root, 80);
// print inoder traversal of the BST
inorder(&root);
return 0;
}
EDIT:
By changing " ** " in the parameters of the function to "*&" was able to make code much easier to read, with the same functionality.
#include<stdio.h>
#include<stdlib.h>
#include<iostream>
struct Node
{
int data;
Node *left, *right;
};
// A utility function to create a new BST node
Node* newNode(int data)
{
Node *temp = new Node();
temp->data = data;
temp->left = NULL;
temp->right = NULL;
return temp;
}
// A utility function to do inorder traversal of BST
void inorder(Node *&root)
{
if (root != NULL)
{
inorder(((root)->left));
printf("%d n", (root)->data);
inorder(((root)->right));
}
}
/* A utility function to insert a new node with given key in BST */
Node* insert(Node*& node, int value)
{
if(node==NULL){
return newNode(value);
}
if((node)->data > value){
node->left = insert(((node)->left),value);
}
else if((node)->data < value){
(node)->right = insert(((node)->right),value);
}
return node;
}
// Driver Program to test above functions
int main()
{
/* following BST
50
/
30 70
/ /
20 40 60 80 */
Node *root = NULL;
root = insert(root, 50);
insert(root, 30);
insert(root, 20);
insert(root, 40);
insert(root, 70);
insert(root, 60);
insert(root, 80);
// print inoder traversal of the BST
inorder(root);
return 0;
}
c++ algorithm binary-search
c++ algorithm binary-search
New contributor
New contributor
edited 2 hours ago
Pulse
New contributor
asked 3 hours ago
PulsePulse
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1134
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1 Answer
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oldest
votes
If you're trying to learn C++, you should get comfortable with constructors and destructors — they're what C++ is all about!
struct Node
{
int data;
Node *left, *right;
};
// A utility function to create a new BST node
Node* newNode(int data)
{
Node *temp = new Node();
temp->data = data;
temp->left = NULL;
temp->right = NULL;
return temp;
}
That's C style. C++ style would be:
struct Node {
int data_;
Node *left_ = nullptr;
Node *right_ = nullptr;
explicit Node(int data) : data_(data) {}
};
Then when you want a new heap-allocated node, you don't call newNode(42)
— you call new Node(42)
! Or, a good habit you should get into: call std::make_unique<Node>(42)
to get back a smart pointer.
Notice that I added sigils to your data members (data_
etc) to distinguish them from non-member variables; and I declared no more than one variable per line to reduce reader confusion.
void inorder(Node *&root)
{
if (root != NULL)
{
inorder(((root)->left));
printf("%d n", (root)->data);
inorder(((root)->right));
}
}
Several things weird here. First, you have a bunch of unnecessary parentheses. (root)
is the same thing as root
. Second, you're passing root
by non-const reference, even though you don't intend to modify it. Third, very minor nit, you're using C-style NULL
instead of nullptr
. Fourth, why do you print a space before the newline? Fixed up:
void inorder(const Node *root)
{
if (root != nullptr) {
inorder(root->left);
printf("%dn", root->data);
inorder(root->right);
}
}
Remember to remove the redundant parentheses in places like insert(((node)->right),value)
. It's much easier to read as insert(node->right, value)
.
Yeah the unnecessary parentheses came from when I was editing from the previous solution. Also, surprisingly was not aware of putting a constructor / destructor into the struct, thanks for pointing that out to me. Much needed feedback.
– Pulse
13 mins ago
add a comment |
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If you're trying to learn C++, you should get comfortable with constructors and destructors — they're what C++ is all about!
struct Node
{
int data;
Node *left, *right;
};
// A utility function to create a new BST node
Node* newNode(int data)
{
Node *temp = new Node();
temp->data = data;
temp->left = NULL;
temp->right = NULL;
return temp;
}
That's C style. C++ style would be:
struct Node {
int data_;
Node *left_ = nullptr;
Node *right_ = nullptr;
explicit Node(int data) : data_(data) {}
};
Then when you want a new heap-allocated node, you don't call newNode(42)
— you call new Node(42)
! Or, a good habit you should get into: call std::make_unique<Node>(42)
to get back a smart pointer.
Notice that I added sigils to your data members (data_
etc) to distinguish them from non-member variables; and I declared no more than one variable per line to reduce reader confusion.
void inorder(Node *&root)
{
if (root != NULL)
{
inorder(((root)->left));
printf("%d n", (root)->data);
inorder(((root)->right));
}
}
Several things weird here. First, you have a bunch of unnecessary parentheses. (root)
is the same thing as root
. Second, you're passing root
by non-const reference, even though you don't intend to modify it. Third, very minor nit, you're using C-style NULL
instead of nullptr
. Fourth, why do you print a space before the newline? Fixed up:
void inorder(const Node *root)
{
if (root != nullptr) {
inorder(root->left);
printf("%dn", root->data);
inorder(root->right);
}
}
Remember to remove the redundant parentheses in places like insert(((node)->right),value)
. It's much easier to read as insert(node->right, value)
.
Yeah the unnecessary parentheses came from when I was editing from the previous solution. Also, surprisingly was not aware of putting a constructor / destructor into the struct, thanks for pointing that out to me. Much needed feedback.
– Pulse
13 mins ago
add a comment |
If you're trying to learn C++, you should get comfortable with constructors and destructors — they're what C++ is all about!
struct Node
{
int data;
Node *left, *right;
};
// A utility function to create a new BST node
Node* newNode(int data)
{
Node *temp = new Node();
temp->data = data;
temp->left = NULL;
temp->right = NULL;
return temp;
}
That's C style. C++ style would be:
struct Node {
int data_;
Node *left_ = nullptr;
Node *right_ = nullptr;
explicit Node(int data) : data_(data) {}
};
Then when you want a new heap-allocated node, you don't call newNode(42)
— you call new Node(42)
! Or, a good habit you should get into: call std::make_unique<Node>(42)
to get back a smart pointer.
Notice that I added sigils to your data members (data_
etc) to distinguish them from non-member variables; and I declared no more than one variable per line to reduce reader confusion.
void inorder(Node *&root)
{
if (root != NULL)
{
inorder(((root)->left));
printf("%d n", (root)->data);
inorder(((root)->right));
}
}
Several things weird here. First, you have a bunch of unnecessary parentheses. (root)
is the same thing as root
. Second, you're passing root
by non-const reference, even though you don't intend to modify it. Third, very minor nit, you're using C-style NULL
instead of nullptr
. Fourth, why do you print a space before the newline? Fixed up:
void inorder(const Node *root)
{
if (root != nullptr) {
inorder(root->left);
printf("%dn", root->data);
inorder(root->right);
}
}
Remember to remove the redundant parentheses in places like insert(((node)->right),value)
. It's much easier to read as insert(node->right, value)
.
Yeah the unnecessary parentheses came from when I was editing from the previous solution. Also, surprisingly was not aware of putting a constructor / destructor into the struct, thanks for pointing that out to me. Much needed feedback.
– Pulse
13 mins ago
add a comment |
If you're trying to learn C++, you should get comfortable with constructors and destructors — they're what C++ is all about!
struct Node
{
int data;
Node *left, *right;
};
// A utility function to create a new BST node
Node* newNode(int data)
{
Node *temp = new Node();
temp->data = data;
temp->left = NULL;
temp->right = NULL;
return temp;
}
That's C style. C++ style would be:
struct Node {
int data_;
Node *left_ = nullptr;
Node *right_ = nullptr;
explicit Node(int data) : data_(data) {}
};
Then when you want a new heap-allocated node, you don't call newNode(42)
— you call new Node(42)
! Or, a good habit you should get into: call std::make_unique<Node>(42)
to get back a smart pointer.
Notice that I added sigils to your data members (data_
etc) to distinguish them from non-member variables; and I declared no more than one variable per line to reduce reader confusion.
void inorder(Node *&root)
{
if (root != NULL)
{
inorder(((root)->left));
printf("%d n", (root)->data);
inorder(((root)->right));
}
}
Several things weird here. First, you have a bunch of unnecessary parentheses. (root)
is the same thing as root
. Second, you're passing root
by non-const reference, even though you don't intend to modify it. Third, very minor nit, you're using C-style NULL
instead of nullptr
. Fourth, why do you print a space before the newline? Fixed up:
void inorder(const Node *root)
{
if (root != nullptr) {
inorder(root->left);
printf("%dn", root->data);
inorder(root->right);
}
}
Remember to remove the redundant parentheses in places like insert(((node)->right),value)
. It's much easier to read as insert(node->right, value)
.
If you're trying to learn C++, you should get comfortable with constructors and destructors — they're what C++ is all about!
struct Node
{
int data;
Node *left, *right;
};
// A utility function to create a new BST node
Node* newNode(int data)
{
Node *temp = new Node();
temp->data = data;
temp->left = NULL;
temp->right = NULL;
return temp;
}
That's C style. C++ style would be:
struct Node {
int data_;
Node *left_ = nullptr;
Node *right_ = nullptr;
explicit Node(int data) : data_(data) {}
};
Then when you want a new heap-allocated node, you don't call newNode(42)
— you call new Node(42)
! Or, a good habit you should get into: call std::make_unique<Node>(42)
to get back a smart pointer.
Notice that I added sigils to your data members (data_
etc) to distinguish them from non-member variables; and I declared no more than one variable per line to reduce reader confusion.
void inorder(Node *&root)
{
if (root != NULL)
{
inorder(((root)->left));
printf("%d n", (root)->data);
inorder(((root)->right));
}
}
Several things weird here. First, you have a bunch of unnecessary parentheses. (root)
is the same thing as root
. Second, you're passing root
by non-const reference, even though you don't intend to modify it. Third, very minor nit, you're using C-style NULL
instead of nullptr
. Fourth, why do you print a space before the newline? Fixed up:
void inorder(const Node *root)
{
if (root != nullptr) {
inorder(root->left);
printf("%dn", root->data);
inorder(root->right);
}
}
Remember to remove the redundant parentheses in places like insert(((node)->right),value)
. It's much easier to read as insert(node->right, value)
.
answered 1 hour ago
QuuxplusoneQuuxplusone
11.5k11959
11.5k11959
Yeah the unnecessary parentheses came from when I was editing from the previous solution. Also, surprisingly was not aware of putting a constructor / destructor into the struct, thanks for pointing that out to me. Much needed feedback.
– Pulse
13 mins ago
add a comment |
Yeah the unnecessary parentheses came from when I was editing from the previous solution. Also, surprisingly was not aware of putting a constructor / destructor into the struct, thanks for pointing that out to me. Much needed feedback.
– Pulse
13 mins ago
Yeah the unnecessary parentheses came from when I was editing from the previous solution. Also, surprisingly was not aware of putting a constructor / destructor into the struct, thanks for pointing that out to me. Much needed feedback.
– Pulse
13 mins ago
Yeah the unnecessary parentheses came from when I was editing from the previous solution. Also, surprisingly was not aware of putting a constructor / destructor into the struct, thanks for pointing that out to me. Much needed feedback.
– Pulse
13 mins ago
add a comment |
Pulse is a new contributor. Be nice, and check out our Code of Conduct.
Pulse is a new contributor. Be nice, and check out our Code of Conduct.
Pulse is a new contributor. Be nice, and check out our Code of Conduct.
Pulse is a new contributor. Be nice, and check out our Code of Conduct.
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