#include #include #include #include #include "libkeke_array.h" #define ARRAY_LEN 10 void set(void *, size_t index, struct KekeArray *array) { keke_array_set(array, ARRAY_LEN - index - 1, &index); } void output(void *i, size_t, struct KekeArray *) { printf("%d, ", *(int *)i); } int main(void) { struct KekeArray *array = keke_array_alloc(ARRAY_LEN, sizeof(int)); keke_array_foreach(array, set); puts("Expected value:\n9, 8, 7, 6, 5, 4, 3, 2, 1, 0,"); keke_array_foreach(array, output); puts("\n"); struct KekeArray *array2 = keke_array_yoink(array, 2, 4); puts("Expected value:\n7, 6, 5, 4,"); keke_array_foreach(array2, output); puts("\n"); puts("Expected value:\n9, 8, 3, 2, 1, 0,"); keke_array_foreach(array, output); puts("\n"); const int k = 100; keke_array_insert(array2, 2, &k); puts("Expected value:\n7, 6, 100, 5, 4,"); keke_array_foreach(array2, output); puts("\n"); int j; keke_array_remove(array2, 2, &j); puts("Expected value:\n7, 6, 5, 0,\t100"); keke_array_foreach(array2, output); printf("\t%d", j); puts("\n"); keke_array_delete(array2, 3); puts("Expected value:\n7, 6, 5"); keke_array_foreach(array2, output); puts("\n"); struct KekeArray *array3 = keke_array_clone(array2); keke_array_plop(array2, 1, array3); //array3 is freed puts("Expected value:\n7, 7, 6, 5, 6, 5,"); keke_array_foreach(array2, output); puts("\n"); keke_array_pop(array2, &j); puts("Expected value:\n7, 7, 6, 5, 6,\t0"); keke_array_foreach(array2, output); printf("\t%d", j); puts("\n"); keke_array_copy(array2, 2, &j); keke_array_push(array2, &j); puts("Expected value:\n7, 7, 6, 5, 6, 6,"); keke_array_foreach(array2, output); puts("\n"); keke_array_set_len(array, 2); puts("Expected value:\n9, 8,"); keke_array_foreach(array, output); puts("\n"); keke_array_set(array, 4, &j); puts("Expected value:\n9, 8, 0, 0, 6,"); keke_array_foreach(array, output); puts("\n"); keke_array_free(array); keke_array_free(array2); puts("\n"); return 0; }