forked from bartvdbraak/blender
Polyfill2d: replace array with linklist, faster resizing
approx 4.0x speedup
This commit is contained in:
parent
0ce3a755f8
commit
f0f45eea2e
@ -23,14 +23,6 @@
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struct MemArena;
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void BLI_polyfill_calc_ex(
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const float (*coords)[2],
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const unsigned int count,
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unsigned int (*r_tris)[3],
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/* avoid allocating each time */
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unsigned int *r_indices, signed char *r_coords_sign);
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void BLI_polyfill_calc_arena(
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const float (*coords)[2],
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const unsigned int coords_tot,
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@ -69,11 +69,10 @@ enum {
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};
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typedef struct PolyFill {
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unsigned int *indices; /* vertex aligned */
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struct PolyIndex *indices; /* vertex aligned */
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const float (*coords)[2];
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unsigned int coords_tot;
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eSign *coords_sign;
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#ifdef USE_CONVEX_SKIP
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unsigned int coords_tot_concave;
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#endif
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@ -84,19 +83,24 @@ typedef struct PolyFill {
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} PolyFill;
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/* circular linklist */
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typedef struct PolyIndex {
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struct PolyIndex *next, *prev;
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unsigned int index;
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eSign sign;
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} PolyIndex;
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/* based on libgdx 2013-11-28, apache 2.0 licensed */
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static eSign pf_coord_sign_calc(PolyFill *pf, unsigned int index);
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static unsigned int pf_index_prev(const PolyFill *pf, const unsigned int index);
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static unsigned int pf_index_next(const PolyFill *pf, unsigned index);
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static void pf_coord_sign_calc(PolyFill *pf, PolyIndex *pi);
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#ifdef USE_CLIP_EVEN
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static unsigned int pf_ear_tip_find(PolyFill *pf, const unsigned int index_offset);
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static PolyIndex *pf_ear_tip_find(PolyFill *pf, PolyIndex *pi_ear_init);
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#else
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static unsigned int pf_ear_tip_find(PolyFill *pf);
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static PolyIndex *pf_ear_tip_find(PolyFill *pf);
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#endif
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static bool pf_ear_tip_check(PolyFill *pf, const unsigned int index_ear_tip);
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static void pf_ear_tip_cut(PolyFill *pf, unsigned int index_ear_tip);
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static bool pf_ear_tip_check(PolyFill *pf, PolyIndex *pi_ear_tip);
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static void pf_ear_tip_cut(PolyFill *pf, PolyIndex *pi_ear_tip);
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BLI_INLINE eSign signum_i(float a)
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@ -133,118 +137,126 @@ static unsigned int *pf_tri_add(PolyFill *pf)
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return pf->tris[pf->tris_tot++];
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}
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static void pf_coord_remove(PolyFill *pf, const unsigned int index)
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static void pf_coord_remove(PolyFill *pf, PolyIndex *pi)
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{
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ARRAY_DELETE(pf->indices, index, 1, pf->coords_tot);
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ARRAY_DELETE(pf->coords_sign, index, 1, pf->coords_tot);
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pi->next->prev = pi->prev;
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pi->prev->next = pi->next;
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if (UNLIKELY(pf->indices == pi)) {
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pf->indices = pi->next;
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}
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#ifdef DEBUG
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pi->index = (unsigned int)-1;
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pi->next = pi->prev = NULL;
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#endif
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pf->coords_tot -= 1;
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}
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static void pf_triangulate(PolyFill *pf)
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{
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/* localize */
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eSign *coords_sign = pf->coords_sign;
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PolyIndex *pi_ear;
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unsigned int index_ear_tip = 0;
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PolyIndex *pi_ear_init = pf->indices;
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while (pf->coords_tot > 3) {
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unsigned int i_prev, i_next;
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#ifdef USE_CONVEX_SKIP
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PolyIndex *pi_prev, *pi_next;
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eSign sign_orig_prev, sign_orig_next;
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#endif
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#ifdef USE_CLIP_EVEN
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index_ear_tip = pf_ear_tip_find(pf, index_ear_tip);
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pi_ear = pf_ear_tip_find(pf, pi_ear_init);
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#else
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index_ear_tip = pf_ear_tip_find(pf);
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pi_ear = pf_ear_tip_find(pf);
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#endif
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#ifdef USE_CONVEX_SKIP
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if (coords_sign[index_ear_tip] != CONVEX) {
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if (pi_ear->sign != CONVEX) {
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pf->coords_tot_concave -= 1;
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}
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#endif
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pf_ear_tip_cut(pf, index_ear_tip);
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pi_prev = pi_ear->prev;
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pi_next = pi_ear->next;
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pf_ear_tip_cut(pf, pi_ear);
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/* The type of the two vertices adjacent to the clipped vertex may have changed. */
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i_prev = pf_index_prev(pf, index_ear_tip);
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i_next = (index_ear_tip == pf->coords_tot) ? 0 : index_ear_tip;
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sign_orig_prev = pi_prev->sign;
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sign_orig_next = pi_next->sign;
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#ifdef USE_CONVEX_SKIP
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sign_orig_prev = coords_sign[i_prev];
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sign_orig_next = coords_sign[i_next];
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#endif
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coords_sign[i_prev] = pf_coord_sign_calc(pf, i_prev);
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coords_sign[i_next] = pf_coord_sign_calc(pf, i_next);
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#ifdef USE_CONVEX_SKIP
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/* check if any verts became convex the (else if)
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* case is highly unlikely but may happen with degenerate polygons */
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if ((sign_orig_prev != CONVEX) && (coords_sign[i_prev] == CONVEX)) pf->coords_tot_concave -= 1;
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else if (UNLIKELY((sign_orig_prev == CONVEX) && (coords_sign[i_prev] != CONVEX))) pf->coords_tot_concave += 1;
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if ((sign_orig_next != CONVEX) && (coords_sign[i_next] == CONVEX)) pf->coords_tot_concave -= 1;
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else if (UNLIKELY((sign_orig_next == CONVEX) && (coords_sign[i_next] != CONVEX))) pf->coords_tot_concave += 1;
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if (sign_orig_prev != CONVEX) {
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pf_coord_sign_calc(pf, pi_prev);
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#ifdef USE_CONVEX_SKIP
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if (pi_prev->sign == CONVEX) {
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pf->coords_tot_concave -= 1;
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}
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#endif
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}
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if (sign_orig_next != CONVEX) {
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pf_coord_sign_calc(pf, pi_next);
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#ifdef USE_CONVEX_SKIP
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if (pi_next->sign == CONVEX) {
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pf->coords_tot_concave -= 1;
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}
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#endif
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}
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#ifdef USE_CLIP_EVEN
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index_ear_tip = i_prev;
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pi_ear_init = pi_next->next;
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#endif
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}
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if (pf->coords_tot == 3) {
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unsigned int *tri = pf_tri_add(pf);
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tri[0] = pf->indices[0];
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tri[1] = pf->indices[1];
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tri[2] = pf->indices[2];
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pi_ear = pf->indices;
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tri[0] = pi_ear->index; pi_ear = pi_ear->next;
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tri[1] = pi_ear->index; pi_ear = pi_ear->next;
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tri[2] = pi_ear->index;
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}
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}
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/**
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* \return CONCAVE, TANGENTIAL or CONVEX
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*/
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static eSign pf_coord_sign_calc(PolyFill *pf, unsigned int index)
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static void pf_coord_sign_calc(PolyFill *pf, PolyIndex *pi)
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{
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/* localize */
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unsigned int *indices = pf->indices;
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const float (*coords)[2] = pf->coords;
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return span_tri_v2_sign(
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coords[indices[pf_index_prev(pf, index)]],
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coords[indices[index]],
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coords[indices[pf_index_next(pf, index)]]);
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pi->sign = span_tri_v2_sign(
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coords[pi->prev->index],
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coords[pi->index],
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coords[pi->next->index]);
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}
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#ifdef USE_CLIP_EVEN
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static unsigned int pf_ear_tip_find(PolyFill *pf, const unsigned int index_offset)
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static PolyIndex *pf_ear_tip_find(PolyFill *pf, PolyIndex *pi_ear_init)
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#else
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static unsigned int pf_ear_tip_find(PolyFill *pf)
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static PolyIndex *pf_ear_tip_find(PolyFill *pf)
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#endif
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{
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/* localize */
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const eSign *coords_sign = pf->coords_sign;
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const unsigned int coords_tot = pf->coords_tot;
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PolyIndex *pi_ear;
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unsigned int i;
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#ifdef USE_CLIP_EVEN
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pi_ear = pi_ear_init;
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#else
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pi_ear = pf->indices;
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#endif
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i = coords_tot;
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while (i--) {
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#ifdef USE_CLIP_EVEN
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unsigned int j = (i + index_offset) % coords_tot;
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if (pf_ear_tip_check(pf, j)) {
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return j;
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if (pf_ear_tip_check(pf, pi_ear)) {
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return pi_ear;
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}
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#else
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if (pf_ear_tip_check(pf, i)) {
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return i;
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}
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#endif
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pi_ear = pi_ear->next;
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}
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/* Desperate mode: if no vertex is an ear tip, we are dealing with a degenerate polygon (e.g. nearly collinear).
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@ -256,32 +268,29 @@ static unsigned int pf_ear_tip_find(PolyFill *pf)
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* Return a convex or tangential vertex if one exists.
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*/
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#ifdef USE_CLIP_EVEN
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pi_ear = pi_ear_init;
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#else
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pi_ear = pf->indices;
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#endif
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i = coords_tot;
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while (i--) {
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#ifdef USE_CLIP_EVEN
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unsigned int j = (i + index_offset) % coords_tot;
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if (coords_sign[j] != CONCAVE) {
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return j;
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if (pi_ear->sign != CONCAVE) {
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return pi_ear;
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}
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#else
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if (coords_sign[i] != CONCAVE) {
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return i;
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}
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#endif
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pi_ear = pi_ear->next;
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}
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/* If all vertices are concave, just return the last one. */
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return coords_tot - 1;
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return pi_ear;
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}
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static bool pf_ear_tip_check(PolyFill *pf, const unsigned int index_ear_tip)
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static bool pf_ear_tip_check(PolyFill *pf, PolyIndex *pi_ear_tip)
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{
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/* localize */
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const unsigned int *indices = pf->indices;
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PolyIndex *pi_curr;
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const float (*coords)[2] = pf->coords;
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const eSign *coords_sign = pf->coords_sign;
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unsigned int i_prev, i_curr, i_next;
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const float *v1, *v2, *v3;
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@ -298,7 +307,7 @@ static bool pf_ear_tip_check(PolyFill *pf, const unsigned int index_ear_tip)
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unsigned int coords_tot_concave_test = 0;
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unsigned int i = pf->coords_tot;
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while (i--) {
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if (coords_sign[i] != CONVEX) {
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if (pf->indices[i].sign != CONVEX) {
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coords_tot_concave_test += 1;
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}
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}
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@ -312,25 +321,22 @@ static bool pf_ear_tip_check(PolyFill *pf, const unsigned int index_ear_tip)
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}
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#endif
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if (UNLIKELY(coords_sign[index_ear_tip] == CONCAVE)) {
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if (UNLIKELY(pi_ear_tip->sign == CONCAVE)) {
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return false;
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}
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i_prev = pf_index_prev(pf, index_ear_tip);
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i_next = pf_index_next(pf, index_ear_tip);
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v1 = coords[indices[i_prev]];
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v2 = coords[indices[index_ear_tip]];
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v3 = coords[indices[i_next]];
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v1 = coords[pi_ear_tip->prev->index];
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v2 = coords[pi_ear_tip->index];
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v3 = coords[pi_ear_tip->next->index];
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/* Check if any point is inside the triangle formed by previous, current and next vertices.
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* Only consider vertices that are not part of this triangle, or else we'll always find one inside. */
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for (i_curr = pf_index_next(pf, i_next); i_curr != i_prev; i_curr = pf_index_next(pf, i_curr)) {
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for (pi_curr = pi_ear_tip->next->next; pi_curr != pi_ear_tip->prev; pi_curr = pi_curr->next) {
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/* Concave vertices can obviously be inside the candidate ear, but so can tangential vertices
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* if they coincide with one of the triangle's vertices. */
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if (coords_sign[i_curr] != CONVEX) {
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const float *v = coords[indices[i_curr]];
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if (pi_curr->sign != CONVEX) {
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const float *v = coords[pi_curr->index];
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/* Because the polygon has clockwise winding order,
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* the area sign will be positive if the point is strictly inside.
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* It will be 0 on the edge, which we want to include as well. */
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@ -355,25 +361,15 @@ static bool pf_ear_tip_check(PolyFill *pf, const unsigned int index_ear_tip)
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return true;
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}
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static void pf_ear_tip_cut(PolyFill *pf, unsigned int index_ear_tip)
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static void pf_ear_tip_cut(PolyFill *pf, PolyIndex *pi_ear_tip)
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{
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unsigned int *tri = pf_tri_add(pf);
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tri[0] = pf->indices[pf_index_prev(pf, index_ear_tip)];
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tri[1] = pf->indices[index_ear_tip];
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tri[2] = pf->indices[pf_index_next(pf, index_ear_tip)];
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tri[0] = pi_ear_tip->prev->index;
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tri[1] = pi_ear_tip->index;
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tri[2] = pi_ear_tip->next->index;
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pf_coord_remove(pf, index_ear_tip);
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}
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static unsigned int pf_index_prev(const PolyFill *pf, const unsigned int index)
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{
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return (index ? index : pf->coords_tot) - 1;
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}
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static unsigned int pf_index_next(const PolyFill *pf, unsigned index)
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{
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return (index + 1) % pf->coords_tot;
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pf_coord_remove(pf, pi_ear_tip);
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}
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/**
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@ -383,30 +379,24 @@ static unsigned int pf_index_next(const PolyFill *pf, unsigned index)
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* \return triples of triangle indices in clockwise order.
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* Note the returned array is reused for later calls to the same method.
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*/
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void BLI_polyfill_calc_ex(
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static void polyfill_calc_ex(
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const float (*coords)[2],
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const unsigned int coords_tot,
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unsigned int (*r_tris)[3],
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unsigned int *r_indices, eSign *r_coords_sign)
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PolyIndex *r_indices)
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{
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PolyFill pf;
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/* localize */
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unsigned int *indices = r_indices;
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eSign *coords_sign = r_coords_sign;
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PolyIndex *indices = r_indices;
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unsigned int i;
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#ifdef DEBUG_TIME
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TIMEIT_START(polyfill2d);
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#endif
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/* assign all polyfill members here */
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pf.indices = r_indices;
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pf.coords = coords;
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pf.coords_tot = coords_tot;
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pf.coords_sign = r_coords_sign;
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#ifdef USE_CONVEX_SKIP
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pf.coords_tot_concave = 0;
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#endif
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@ -417,31 +407,34 @@ void BLI_polyfill_calc_ex(
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cross_poly_v2(coords, coords_tot) > 0.0f)
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{
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for (i = 0; i < coords_tot; i++) {
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indices[i] = i;
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indices[i].next = &indices[i + 1];
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indices[i].prev = &indices[i - 1];
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indices[i].index = i;
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}
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}
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else {
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/* reversed */
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unsigned int n = coords_tot - 1;
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for (i = 0; i < coords_tot; i++) {
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indices[i] = (n - i);
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indices[i].next = &indices[i + 1];
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indices[i].prev = &indices[i - 1];
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indices[i].index = (n - i);
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}
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}
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indices[0].prev = &indices[coords_tot - 1];
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indices[coords_tot - 1].next = &indices[0];
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for (i = 0; i < coords_tot; i++) {
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coords_sign[i] = pf_coord_sign_calc(&pf, i);
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PolyIndex *pi = &indices[i];
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pf_coord_sign_calc(&pf, pi);
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#ifdef USE_CONVEX_SKIP
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if (coords_sign[i] != CONVEX) {
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if (pi->sign != CONVEX) {
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pf.coords_tot_concave += 1;
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}
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#endif
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}
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pf_triangulate(&pf);
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#ifdef DEBUG_TIME
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TIMEIT_END(polyfill2d);
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#endif
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}
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void BLI_polyfill_calc_arena(
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@ -451,18 +444,25 @@ void BLI_polyfill_calc_arena(
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struct MemArena *arena)
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{
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unsigned int *indices = BLI_memarena_alloc(arena, sizeof(*indices) * coords_tot);
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eSign *coords_sign = BLI_memarena_alloc(arena, sizeof(*coords_sign) * coords_tot);
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PolyIndex *indices = BLI_memarena_alloc(arena, sizeof(*indices) * coords_tot);
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BLI_polyfill_calc_ex(
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#ifdef DEBUG_TIME
|
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TIMEIT_START(polyfill2d);
|
||||
#endif
|
||||
|
||||
polyfill_calc_ex(
|
||||
coords, coords_tot,
|
||||
r_tris,
|
||||
/* cache */
|
||||
|
||||
indices, coords_sign);
|
||||
indices);
|
||||
|
||||
/* indices & coords_sign are no longer needed,
|
||||
/* indices are no longer needed,
|
||||
* caller can clear arena */
|
||||
|
||||
#ifdef DEBUG_TIME
|
||||
TIMEIT_END(polyfill2d);
|
||||
#endif
|
||||
}
|
||||
|
||||
void BLI_polyfill_calc(
|
||||
@ -470,13 +470,20 @@ void BLI_polyfill_calc(
|
||||
const unsigned int coords_tot,
|
||||
unsigned int (*r_tris)[3])
|
||||
{
|
||||
unsigned int *indices = BLI_array_alloca(indices, coords_tot);
|
||||
eSign *coords_sign = BLI_array_alloca(coords_sign, coords_tot);
|
||||
PolyIndex *indices = BLI_array_alloca(indices, coords_tot);
|
||||
|
||||
BLI_polyfill_calc_ex(
|
||||
#ifdef DEBUG_TIME
|
||||
TIMEIT_START(polyfill2d);
|
||||
#endif
|
||||
|
||||
polyfill_calc_ex(
|
||||
coords, coords_tot,
|
||||
r_tris,
|
||||
/* cache */
|
||||
|
||||
indices, coords_sign);
|
||||
indices);
|
||||
|
||||
#ifdef DEBUG_TIME
|
||||
TIMEIT_END(polyfill2d);
|
||||
#endif
|
||||
}
|
||||
|
Loading…
Reference in New Issue
Block a user