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C - Sorting algorithms & Big O

In this project, I implemented several different sorting algorithms.

Tests ✔️

  • tests: Folder of test files.

Helper Files 🙌

  • print_array.c: C function that prints an array of integers.
  • print_list.c: C function that prints a listint_t doubly-linked list.

Header Files 📁

  • sort.h: Header file containing definitions and prototypes for all types and functions written for the project.

Data Structure:

typedef struct listint_s
{
	const int n;
	struct listint_s *prev;
	struct listint_s *next;
} listint_t;

Function Prototypes:

File Prototype
print_array.c void print_array(const int *array, size_t size)
print_list.c void print_list(const listint_t *list)
0-bubble_sort.c void bubble_sort(int *array, size_t size);
1-insertion_sort_list.c void insertion_sort_list(listint_t **list);
2-selection-sort.c void selection_sort(int *array, size_t size);
3-quick_sort.c void quick_sort(int *array, size_t size);
100-shell_sort.c void shell_sort(int *array, size_t size);
101-cocktail_sort_list.c void cocktail_sort_list(listint_t **list);
102-counting_sort.c void counting_sort(int *array, size_t size);
103-merge_sort.c void merge_sort(int *array, size_t size);
104-heap_sort.c void heap_sort(int *array, size_t size);
105-radix_sort.c void radix_sort(int *array, size_t size);
106-bitonic_sort.c void bitonic_sort(int *array, size_t size);
107-quick_sort_hoare.c void quick_sort_hoare(int *array, size_t size);
  • deck.h: Header file containing definitions and prototypes for all types and functions written for the task 1000-sort_deck.c.

Data Structures:

typedef enum kind_e
{
	SPADE = 0,
	HEART,
	CLUB,
	DIAMOND
} kind_t;

typedef struct card_s
{
	const char *value;
	const kind_t kind;
} card_t;

typedef struct deck_node_s
{
	const card_t *card;
	struct deck_node_s *prev;
	struct deck_node_s *next;
} deck_node_t;

Function Prototype:

File Prototype
1000-deck_node.c void sort_deck(deck_node_t **deck);

Tasks 📃

  • 0. Bubble sort

    • 0-bubble_sort.c: C function that sorts an array of integers in ascending order using the Bubble Sort algorithm.
    • Prints the array after each swap.
    • 0-O: Text file containing the best, average, and worst case time complexities of the Bubble Sort algorithm, one per line.
  • 1. Insertion sort

    • 1-insertion_sort_list.c: C function that sorts a listint_t doubly-linked list of integers in ascending order using the Insertion Sort algorithm.
    • Prints the list after each swap.
    • 1-O: Text file containing the best, average, and worst case time complexities of the Insertion Sort algorithm, one per line.
  • 2. Selection sort

    • 2-selection_sort.c: C function that sorts an array of integers in ascending order using the Selection Sort algorithm.
    • Prints the array after each swap.
    • 2-O: Text file containing the best, average, and worst case time complexities of the Selection Sort algorithm, one per line.
  • 3. Quick sort

    • 3-quick_sort.c: C function that sorts an array of integers in ascending order using the Quick Sort algorithm.
    • Implements the Lomuto partition scheme.
    • Always uses the last element of the partition being sorted as the pivot.
    • Prints the array after each swap.
    • 3-O: Text file containing the best, average, and worst case time complexities of the Quick Sort Lomuto Partition scheme algorithm, one per line.
  • 4. Shell sort - Knuth Sequence

    • 100-shell_sort.c: C function that sorts an array of integers in ascending order using the Shell sort algorithm.
    • Implements the Knuth interval sequence.
    • Prints the array each time the interval is decreased.
  • 5. Cocktail shaker sort

    • 101-cocktail_sort_list.c: C function that sorts a listint_t doubly-linked list of integers in ascending order using the Cocktail Shaker Sort algorithm.
    • Prints the list after each swap.
    • 101-O: Text file containing the best, average, and worst case time complexities of the Cocktail Shaker Sort algorithm, one per line.
  • 6. Counting sort

    • 102-counting_sort.c: C function that sorts an array of integers in ascending order using the Counting Sort algorithm.
    • Assumes that the array will only contain numbers >= 0.
    • Prints the counting array after it has been initialized.
    • 102-O: Text file containing the best, average, and worst case time complexities of the Counting Sort algorithm, one per line.
  • 7. Merge sort

    • 103-merge_sort.c: C function that sorts an array of integers in ascending order using the Merge Sort algorithm.
    • Implements the top-down Merge Sort algorithm.
      • When an array is divided, the size of the left subarray is always less than or equal to the size of the right subarray.
      • Always sorts the left subarray before the right one.
    • Prints subarrays each time they are merged.
    • 103-O: Text file containing the best, average, and worst case time complexities of the Merge Sort algorithm, one per line.
  • 8. Heap sort

    • 104-heap_sort.c: C function that sorts an array of integers in ascending order using the Heap Sort algorithm.
    • Implements the sift-down Heap Sort algorithm.
    • Prints the array after each swap.
    • 104-O: Text file containing the best, average, and worst case time complexiites of the Heap Sort algorithm, one per line.
  • 9. Radix sort

    • 105-radix_sort.c: C function that sorts an array of integers in ascending order using the Radix Sort algorithm.
    • Implements the Least-Significant-Digit (LSD) Radix Sort algorithm.
    • Assumes that the array will only contain numbers >= 0.
    • Prints the array for each significant digit increase.
    • 105-O: Text file containing the best, average, and worst case time complexities of the Radix Sort algorithm, one per line.
  • 10. Bitonic sort

    • 106-bitonic_sort.c: C function that sorts an array of integers in ascending order using the Bitonic Sort algorithm.
    • Assumes that size is a power of 2 (ie. size can be expressed as 2^k where k >= 0).
    • Prints subarrays each time they are merged.
    • 106-O: Text file containing the best, average, and worst case time complexities of the Bitonic Sort algorithm, one per line.
  • 11. Quick Sort - Hoare Partition scheme

    • 107-quick_sort_hoare.c: C function that sorts an array of integers in ascending order using the Quick Sort algorithm.
    • Implements the Hoare partition scheme.
    • Always uses the last elemement of the partition being sorted as the pivot.
    • Prints the array after each swap.
    • 107-O: Text file containing the best, average, and worst case time complexities of the Quick Sort Hoare Partition cheme algorithm, one per line.
  • 12. Dealer

    • 1000-sort_deck.c: C function that sorts a deck_node_t doubly-linked list deck of cards.
    • Assumes that there are exactly 52 elements in the doubly-linked list.
    • Orders the deck from spades to diamonds and from aces to kings.

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C - Sorting algorithms & Big O

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