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https://github.com/TheAlgorithms/C
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Create the code of tim_sort.c
Tim Sort is a sorting algorithm derived from merge sort and insertion sort.
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sorting/tim_sort.c
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113
sorting/tim_sort.c
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#define RUN 32 // Size of the subarrays that will be sorted using insertion sort
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// Function to perform insertion sort on a subarray
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void insertionSort(int arr[], int l, int r) {
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// Loop through each element from the second element in the subarray
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for (int i = l + 1; i <= r; i++) {
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int temp = arr[i]; // Store the current element to be positioned
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int j = i - 1;
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// Shift elements that are greater than temp to one position ahead
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while (j >= l && arr[j] > temp) {
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arr[j + 1] = arr[j]; // Shift the larger element rightwards
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j--;
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}
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arr[j + 1] = temp; // Place the stored element at its correct position
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}
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}
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// Function to merge two sorted subarrays into a single sorted array
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void merge(int arr[], int l1, int m, int r1) {
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int len1 = m - l1 + 1; // Length of the left subarray
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int len2 = r1 - m; // Length of the right subarray
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// Dynamically allocate memory for the temporary left and right subarrays
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int *leftArr = (int *)malloc(len1 * sizeof(int));
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int *rightArr = (int *)malloc(len2 * sizeof(int));
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// Copy the values of the left and right subarrays from the main array
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for (int i = 0; i < len1; i++)
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leftArr[i] = arr[l1 + i];
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for (int i = 0; i < len2; i++)
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rightArr[i] = arr[m + 1 + i];
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// Initialize pointers for traversing leftArr, rightArr, and the main array
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int i = 0, j = 0, k = l1;
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// Merge the two subarrays back into the main array in sorted order
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while (i < len1 && j < len2) {
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if (leftArr[i] <= rightArr[j]) {
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arr[k] = leftArr[i]; // Copy the smaller element from leftArr
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i++;
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} else {
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arr[k] = rightArr[j]; // Copy the smaller element from rightArr
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j++;
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}
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k++; // Move to the next position in the main array
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}
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// Copy any remaining elements from leftArr (if any)
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while (i < len1) {
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arr[k] = leftArr[i];
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i++;
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k++;
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}
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// Copy any remaining elements from rightArr (if any)
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while (j < len2) {
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arr[k] = rightArr[j];
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j++;
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k++;
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}
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// Free the dynamically allocated memory for leftArr and rightArr
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free(leftArr);
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free(rightArr);
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}
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// Tim Sort implementation
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void timSort(int arr[], int n) {
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// Sort individual subarrays of size RUN using insertion sort
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for (int i = 0; i < n; i += RUN)
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insertionSort(arr, i, (i + RUN - 1 < n - 1) ? i + RUN - 1 : n - 1);
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// Sort subarrays starting at i, and ending at either i + RUN - 1 or n - 1, whichever is smaller
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// Merge sorted subarrays iteratively using merge sort technique
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for (int size = RUN; size < n; size = 2 * size) {
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// Merge arrays in pairs of size 'size'
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for (int left = 0; left < n; left += 2 * size) {
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int mid = left + size - 1; // Define the midpoint for the merge
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int right = (left + 2 * size - 1 < n - 1) ? left + 2 * size - 1 : n - 1; // Define the right boundary
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if (mid < right) // If there are at least two subarrays to merge
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merge(arr, left, mid, right); // Merge them
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}
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}
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}
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// Utility function to print the elements of the array
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void printArray(int arr[], int n) {
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for (int i = 0; i < n; i++) // Iterate through the array
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printf("%d ", arr[i]); // Print each element followed by a space
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printf("\n"); // Print a new line after the array
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}
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int main() {
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// Initialize the array to be sorted
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int arr[] = {20, 21, 7, 23, 19, 15, 12, 7, 22, 9, 4}; // Unsorted array
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int n = sizeof(arr) / sizeof(arr[0]); // Calculate the number of elements in the array
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printf("Original array:\n");
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printArray(arr, n); // Print the original (unsorted) array
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timSort(arr, n); // Sort the array using Tim Sort
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printf("Sorted array:\n");
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printArray(arr, n); // Print the sorted array
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return 0; // End the program
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}
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