void remove_element (void *array, size_t count, size_t size,
size_t idx);
+/* Makes room for N elements starting at IDX in ARRAY, which
+ initially consists of COUNT elements of SIZE bytes each, by
+ shifting elements IDX...COUNT (exclusive) to the right by N
+ positions. */
+void insert_range (void *array, size_t count, size_t size,
+ size_t idx, size_t n);
+
+/* Makes room for a new element at IDX in ARRAY, which initially
+ consists of COUNT elements of SIZE bytes each, by shifting
+ elements IDX...COUNT (exclusive) to the right by one
+ position. */
+void insert_element (void *array, size_t count, size_t size,
+ size_t idx);
+
/* Moves an element in ARRAY, which consists of COUNT elements of
SIZE bytes each, from OLD_IDX to NEW_IDX, shifting around
other elements as needed. Runs in O(abs(OLD_IDX - NEW_IDX))
void move_element (void *array, size_t count, size_t size,
size_t old_idx, size_t new_idx);
+/* Moves N elements in ARRAY starting at OLD_IDX, which consists
+ of COUNT elements of SIZE bytes each, so that they now start
+ at NEW_IDX, shifting around other elements as needed. */
+void move_range (void *array, size_t count, size_t size,
+ size_t old_idx, size_t new_idx, size_t n);
+
/* Removes elements equal to ELEMENT from ARRAY, which consists
of COUNT elements of SIZE bytes each. Returns the number of
remaining elements. AUX is passed to COMPARE as auxiliary
algo_compare_func *compare, const void *aux);
/* ARRAY contains COUNT elements of SIZE bytes each. This
- function tests whether ARRAY is a heap and returns true if so,
- false otherwise. Uses COMPARE to compare elements, passing
+ function tests whether ARRAY is a heap and returns true if so,
+ false otherwise. Uses COMPARE to compare elements, passing
AUX as auxiliary data. */
bool is_heap (const void *array, size_t count, size_t size,
algo_compare_func *compare, const void *aux);