Correcting a spelling mistake (#19845)
* Correcting a spelling mistake * Formatting and adding missing code * Removing extra code * Update index.md
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SAKSHI-CHANDEL
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Tracey Bushman
Tracey Bushman
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@ -85,7 +85,7 @@ The two base cases for recursion would be:
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* Item is found
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The Power of Binary Search in Data Systems (B+ trees):
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Binary Search Trees are very powerful because of their O(log n) search times, second to the hashmap data structure which uses a hasing key to search for data in O(1). It is important to understand how the log n run time comes from the height of a binary search tree. If each node splits into two nodes, (binary), then the depth of the tree is log n (base 2).. In order to improve this speed in Data System, we use B+ trees because they have a larger branching factor, and therefore more height. I hope this short article helps expand your mind about how binary search is used in practical systems.
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Binary Search Trees are very powerful because of their O(log n) search times, second to the hashmap data structure which uses a hashing key to search for data in O(1). It is important to understand how the log n run time comes from the height of a binary search tree. If each node splits into two nodes, (binary), then the depth of the tree is log n (base 2).. In order to improve this speed in Data System, we use B+ trees because they have a larger branching factor, and therefore more height. I hope this short article helps expand your mind about how binary search is used in practical systems.
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The code for recursive binary search is shown below:
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@ -165,7 +165,7 @@ end
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```C
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int binarySearch(int a[], int l, int r, int x) {
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if (r >= l){
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int mid = l + (r - l)/2;
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int mid = (l + (r - l))/2;
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if (a[mid] == x)
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return mid;
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if (arr[mid] > x)
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@ -181,7 +181,7 @@ int binarySearch(int a[], int l, int r, int x) {
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```Python
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def binary_search(arr, l, r, target):
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if r >= l:
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mid = l + (r - l)/2
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mid = (l + (r - l))/2
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if arr[mid] == target:
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return mid
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elif arr[mid] > target:
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@ -197,12 +197,13 @@ def binary_search(arr, l, r, target):
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Recursive approach!
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```C++ - Recursive approach
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```C++ -
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// Recursive approach in C++
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int binarySearch(int arr[], int start, int end, int x)
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{
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if (end >= start)
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{
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int mid = start + (end - start)/2;
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int mid = (start + (end - start))/2;
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if (arr[mid] == x)
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return mid;
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@ -222,7 +223,7 @@ int binarySearch(int arr[], int start, int end, int x)
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{
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while (start <= end)
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{
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int mid = start + (end - start)/2;
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int mid = (start + (end - start))/2;
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if (arr[mid] == x)
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return mid;
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if (arr[mid] < x)
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@ -274,6 +275,8 @@ int binarySearch(int[] arr, int start, int end, int element)
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// Recursive Approach in Java
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int binarySearch(int[] arr, int start,int end , int element)
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{
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if(start <= end)
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{
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int mid = ( start + end ) / 2;
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if(arr[mid] == element)
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return mid;
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@ -281,7 +284,9 @@ int binarySearch(int[] arr, int start,int end , int element)
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return binarySearch( arr , mid + 1 , end , element );
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else
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return binarySearch( arr, start, mid - 1 , element);
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}
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}
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return -1;
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}
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```
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@ -118,12 +118,12 @@ void copy_string(char [] first_string, char [] second_string)
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```C
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strcat(first, second);
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```
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Here is an example of manual implementation of fuction strcat:
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Here is an example of manual implementation of function strcat:
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void string_concatenate(char [] s1, char [] s2)
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{
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int i = strlen(s1), j;
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for(int j = 0; s2[j]; j++, i += 1)
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for(j = 0; s2[j]; j++, i += 1)
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{
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s1[i] = s2[j];
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}
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@ -140,7 +140,7 @@ int string_length(char [] string)
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{
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int i;
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for(int i = 0; string[i]; i++);
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for(i = 0; string[i]; i++);
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return i;
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}
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@ -53,7 +53,7 @@ point img_dim = { .y = 480, .x = 640 };
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```
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## Unions vs Structures
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Unions are declared in the same was as structs, but are different because only one item within the union can be used at any time.
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Unions are declared in the same way as structs, but are different because only one item within the union can be used at any time.
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```C
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typedef union{
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@ -83,6 +83,6 @@ typedef union{
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```
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## A few more tricks
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* When you create a pointer to a structure using the `&` operator you can use the special `->` infix operator to deference it. This is very used for example when working with linked lists in C
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* When you create a pointer to a structure using the `&` operator you can use the special `->` infix operator to deference it. This is used for example when working with linked lists in C
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* The new defined type can be used just as other basic types for almost everything. Try for example to create an array of type `student` and see how it works.
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* Structs can be copied or assigned but you can not compare them!
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