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d180f4d9b3
The new struct rect_union is designed to make it easier to efficiently accumulate a list of rectangles, and then operate on an exact cover of their union. Using rect_union, the times needed to added t rectangles, and then compute their exact cover will be O(t), and something between Ω(t) and O(t^2), depending on the rectangle arrangement. If one tries to do the same by storing a pixman_region32_t and updating it with pixman_region32_union_rect(), then total time needed would be between Ω(t^2) and O(t^3), depending on the input. Without changing the public API (data structure + rectangle ordering rules) for pixman_region32_t, it is impossible to improve its worst case time.
92 lines
2.2 KiB
C
92 lines
2.2 KiB
C
#include <limits.h>
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#include "util/rect_union.h"
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static void box_union(pixman_box32_t *dst, pixman_box32_t box) {
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dst->x1 = dst->x1 < box.x1 ? dst->x1 : box.x1;
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dst->y1 = dst->y1 < box.y1 ? dst->y1 : box.y1;
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dst->x2 = dst->x2 > box.x2 ? dst->x2 : box.x2;
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dst->y2 = dst->y2 > box.y2 ? dst->y2 : box.y2;
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}
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static bool box_empty_or_invalid(pixman_box32_t box) {
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return box.x1 >= box.x2 || box.y1 >= box.y2;
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}
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void rect_union_init(struct rect_union *ru) {
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*ru = (struct rect_union) {
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.alloc_failure = false,
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.bounding_box = (pixman_box32_t) {
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.x1 = INT_MAX,
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.x2 = INT_MIN,
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.y1 = INT_MAX,
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.y2 = INT_MIN,
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}
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};
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pixman_region32_init(&ru->region);
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wl_array_init(&ru->unsorted);
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};
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void rect_union_finish(struct rect_union *ru) {
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pixman_region32_fini(&ru->region);
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wl_array_release(&ru->unsorted);
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}
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static void handle_alloc_failure(struct rect_union *ru) {
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ru->alloc_failure = true;
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wl_array_release(&ru->unsorted);
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wl_array_init(&ru->unsorted);
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}
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void rect_union_add(struct rect_union *ru, pixman_box32_t box) {
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if (box_empty_or_invalid(box)) {
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return;
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}
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box_union(&ru->bounding_box, box);
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if (!ru->alloc_failure) {
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pixman_box32_t *entry = wl_array_add(&ru->unsorted, sizeof(*entry));
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if (entry) {
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*entry = box;
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} else {
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handle_alloc_failure(ru);
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}
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}
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}
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const pixman_region32_t *rect_union_evaluate(struct rect_union *ru) {
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if (ru->alloc_failure) {
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goto bounding_box;
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}
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int nrects = (int)(ru->unsorted.size / sizeof(pixman_box32_t));
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pixman_region32_t reg;
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bool ok = pixman_region32_init_rects(®, ru->unsorted.data, nrects);
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if (!ok) {
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handle_alloc_failure(ru);
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goto bounding_box;
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}
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ok = pixman_region32_union(®, ®, &ru->region);
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if (!ok) {
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pixman_region32_fini(®);
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handle_alloc_failure(ru);
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goto bounding_box;
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}
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pixman_region32_fini(&ru->region);
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// pixman_region32_t is safe to move
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ru->region = reg;
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wl_array_release(&ru->unsorted);
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wl_array_init(&ru->unsorted);
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return &ru->region;
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bounding_box:
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pixman_region32_fini(&ru->region);
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if (box_empty_or_invalid(ru->bounding_box)) {
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pixman_region32_init(&ru->region);
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} else {
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pixman_region32_init_with_extents(&ru->region, &ru->bounding_box);
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}
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return &ru->region;
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}
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