#include #include struct point { struct page *page; uint16_t index; }; uint16_t index_to_offset(struct point *point) { if (point->index < point->page->gap_start) { return point->index; } else { return point->index + (point->page->gap_end - point->page->gap_start); } } uint8_t element(struct point *point) { return point->page->elements[index_to_offset(point)]; } bool at_eof(struct point *point) { return point->index == point->page->element_count; } void move_point_forward(struct point *point) { if (point->index < point->page->element_count) { point->index++; } if (point->index == point->page->element_count && point->page->next) { point->index = 0; point->page = point->page->next; } } void move_point_backward(struct point *point) { if (point->index == 0 && point->page->prev) { point->index = point->page->prev->element_count; point->page = point->page->prev; } if (point->index > 0) { point->index--; } } void align_gap(struct point *point) { while (point->page->gap_end < index_to_offset(point)) { move_gap_forward(point->page); } while (point->page->gap_end > index_to_offset(point)) { move_gap_backward(point->page); } } void insert_at_point(struct point *point, uint8_t c) { if (point->page->gap_start == point->page->gap_end) { split_page(point->page); if (point->index >= PAGE_SIZE / 2) { point->page = point->page->next; point->index -= PAGE_SIZE / 2; } } align_gap(point); insert_at_gap(point->page, c); move_point_forward(point); } void delete_at_point(struct point *point) { if (point->page->element_count == 0) { if (point->page->prev) { point->page = point->page->prev; point->index = point->page->element_count; free_page(point->page->next); } else if (point->page->next) { point->page = point->page->next; point->index = 0; free_page(point->page->prev); } } align_gap(point); delete_at_gap(point->page); move_point_backward(point); }