/* ************************************************************************** */ /* */ /* ::: :::::::: */ /* ft_radixsort.c :+: :+: :+: */ /* +:+ +:+ +:+ */ /* By: thrieg +#+ +:+ +#+ */ /* +#+#+#+#+#+ +#+ */ /* Created: 2024/11/18 14:18:55 by alier #+# #+# */ /* Updated: 2025/02/16 19:06:42 by thrieg ### ########.fr */ /* */ /* ************************************************************************** */ #include #include #include "ft_sorting.h" static void ft_naive_countsort2(struct s_countsort cs) { size_t i; i = cs.size - 1; while (true) { cs.tmp[cs.count[(cs.a[i] / cs.exp) % 10] - 1] = cs.a[i]; cs.count[(cs.a[i] / cs.exp) % 10]--; if (i == 0) break ; i--; } ft_memcpy(cs.a, cs.tmp, cs.size * sizeof(*cs.a)); } /* * used by `ft_naive_radixsort` */ static void ft_naive_countsort(size_t size, unsigned int a[size], unsigned int exp) { unsigned int *tmp; unsigned int count[10]; size_t i; tmp = malloc(size * sizeof(unsigned int)); ft_bzero(count, 10 * sizeof(unsigned int)); i = 0; while (i < size) { count[(a[i] / exp) % 10]++; i++; } i = 1; while (i < 10) { count[i] += count[i - 1]; i++; } ft_naive_countsort2((struct s_countsort){size, a, exp, tmp, count}); free(tmp); } /* * Worst-case performance: O(size * max_digits) * Worst-case space complexity: O(size + max_digits) */ void ft_naive_radixsort(size_t size, unsigned int a[size]) { unsigned int m; unsigned int exp; m = ft_max_uint(size, a); exp = 1; while (m / exp > 0) { ft_naive_countsort(size, a, exp); exp *= 10; } }