mohlo by fungovat
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du6/list_ops.c
154
du6/list_ops.c
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#include "list_ops.h"
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#ifndef LIST_OPS_H
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#define LIST_OPS_H
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#include <stdlib.h>
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#include <stdbool.h>
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typedef int list_element_t;
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typedef struct {
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size_t length;
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list_element_t elements[];
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} list_t;
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// constructs a new list
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list_t *new_list(size_t length, list_element_t elements[]);
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// append entries to a list and return the new list
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list_t *append_list(list_t *list1, list_t *list2);
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// filter list returning only values that satisfy the filter function
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list_t *filter_list(list_t *list, bool (*filter)(list_element_t));
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// returns the length of the list
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size_t length_list(list_t *list);
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// return a list of elements whose values equal the list value transformed by
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// the mapping function
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list_t *map_list(list_t *list, list_element_t (*map)(list_element_t));
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// folds (reduces) the given list from the left with a function
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list_element_t foldl_list(list_t *list, list_element_t initial,
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list_element_t (*foldl)(list_element_t,
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list_element_t));
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// folds (reduces) the given list from the right with a function
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list_element_t foldr_list(list_t *list, list_element_t initial,
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list_element_t (*foldr)(list_element_t,
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list_element_t));
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// reverse the elements of the list
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list_t *reverse_list(list_t *list);
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// destroy the entire list
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// list will be a dangling pointer after calling this method on it
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void delete_list(list_t *list);
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#endif
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#include "list_ops.h"
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void delete_list(list_t *list) {
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free(list);
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}
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list_t *new_list(size_t length, list_element_t elements[]) {
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// Calculate the memory size
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size_t size = sizeof(list_t) + length * sizeof(list_element_t);
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// Allocate memory
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list_t *list = malloc(size);
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if (list == NULL) {
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return NULL; // Check if allocation failed
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}
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// Set the length of the list
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list->length = length;
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// Copy the input elements to the list
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for (size_t i = 0; i < length; i++) {
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list->elements[i] = elements[i];
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}
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return list;
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}
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size_t length_list(list_t *list) {
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return list->length;
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}
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list_t *append_list(list_t *list1, list_t *list2) {
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size_t new_length = list1->length + list2->length;
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list_element_t new_elements[new_length];
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for (size_t i = 0; i < list1->length; ++i) {
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new_elements[i] = list1->elements[i];
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}
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for (size_t i = 0; i < list2->length; ++i) {
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new_elements[list1->length + i] = list2->elements[i];
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}
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return new_list(new_length, new_elements);
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}
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list_t *reverse_list(list_t *list) {
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list_element_t reversed_elements[list->length];
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for (size_t i = 0; i < list->length; ++i) {
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reversed_elements[i] = list->elements[list->length - 1 - i];
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}
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return new_list(list->length, reversed_elements);
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}
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list_t *map_list(list_t *list, list_element_t (*map)(list_element_t)) {
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list_element_t mapped_elements[list->length];
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for (size_t i = 0; i < list->length; i++) {
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mapped_elements[i] = map(list->elements[i]);
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}
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return new_list(list->length, mapped_elements);
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}
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list_t *filter_list(list_t *list, bool (*filter)(list_element_t)) {
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list_element_t filtered_elements[list->length];
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size_t count = 0;
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for (size_t i = 0; i < list->length; i++) {
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if (filter(list->elements[i])) {
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filtered_elements[count++] = list->elements[i];
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}
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}
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return new_list(count, filtered_elements);
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}
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list_element_t foldr_list(list_t *list, list_element_t initial, list_element_t (*foldr)(list_element_t, list_element_t)) {
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list_element_t result = initial; // Start with initial value
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// Traverse the list from last to first
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for (size_t i = 0; i < list->length; ++i) {
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result = foldr(list->elements[list->length - 1 - i], result);
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}
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return result;
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}
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list_element_t foldl_list(list_t *list, list_element_t initial, list_element_t (*foldl)(list_element_t, list_element_t)) {
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list_element_t result = initial; // Start with initial value
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// Traverse the list from first to last
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for (size_t i = 0; i < list->length; ++i) {
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result = foldl(result, list->elements[i]);
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}
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return result;
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}
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